зеркало из https://github.com/mozilla/gecko-dev.git
398 строки
12 KiB
C++
398 строки
12 KiB
C++
/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim:set ts=2 sw=2 sts=2 et cindent: */
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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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#include "VideoFrameContainer.h"
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#include "mozilla/dom/HTMLMediaElement.h"
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#include "mozilla/Telemetry.h"
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#include "nsIFrame.h"
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#include "nsDisplayList.h"
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#include "nsSVGEffects.h"
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using namespace mozilla::layers;
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namespace mozilla {
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static LazyLogModule gVideoFrameContainerLog("VideoFrameContainer");
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#define CONTAINER_LOG(type, msg) MOZ_LOG(gVideoFrameContainerLog, type, msg)
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#define NS_DispatchToMainThread(...) CompileError_UseAbstractMainThreadInstead
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namespace {
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template<Telemetry::HistogramID ID>
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class AutoTimer
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{
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// Set a threshold to reduce performance overhead
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// for we're measuring hot spots.
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static const uint32_t sThresholdMS = 1000;
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public:
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~AutoTimer()
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{
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auto end = TimeStamp::Now();
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auto diff = uint32_t((end - mStart).ToMilliseconds());
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if (diff > sThresholdMS) {
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Telemetry::Accumulate(ID, diff);
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}
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}
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private:
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const TimeStamp mStart = TimeStamp::Now();
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};
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}
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VideoFrameContainer::VideoFrameContainer(
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dom::HTMLMediaElement* aElement,
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already_AddRefed<ImageContainer> aContainer)
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: mElement(aElement)
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, mImageContainer(aContainer)
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, mMutex("nsVideoFrameContainer")
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, mBlackImage(nullptr)
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, mFrameID(0)
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, mPendingPrincipalHandle(PRINCIPAL_HANDLE_NONE)
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, mFrameIDForPendingPrincipalHandle(0)
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, mMainThread(aElement->AbstractMainThread())
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{
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NS_ASSERTION(aElement, "aElement must not be null");
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NS_ASSERTION(mImageContainer, "aContainer must not be null");
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}
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VideoFrameContainer::~VideoFrameContainer()
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{}
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PrincipalHandle VideoFrameContainer::GetLastPrincipalHandle()
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{
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MutexAutoLock lock(mMutex);
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return GetLastPrincipalHandleLocked();
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}
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PrincipalHandle VideoFrameContainer::GetLastPrincipalHandleLocked()
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{
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return mLastPrincipalHandle;
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}
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void VideoFrameContainer::UpdatePrincipalHandleForFrameID(const PrincipalHandle& aPrincipalHandle,
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const ImageContainer::FrameID& aFrameID)
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{
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MutexAutoLock lock(mMutex);
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UpdatePrincipalHandleForFrameIDLocked(aPrincipalHandle, aFrameID);
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}
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void VideoFrameContainer::UpdatePrincipalHandleForFrameIDLocked(const PrincipalHandle& aPrincipalHandle,
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const ImageContainer::FrameID& aFrameID)
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{
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if (mPendingPrincipalHandle == aPrincipalHandle) {
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return;
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}
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mPendingPrincipalHandle = aPrincipalHandle;
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mFrameIDForPendingPrincipalHandle = aFrameID;
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}
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static void
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SetImageToBlackPixel(PlanarYCbCrImage* aImage)
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{
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uint8_t blackPixel[] = { 0x10, 0x80, 0x80 };
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PlanarYCbCrData data;
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data.mYChannel = blackPixel;
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data.mCbChannel = blackPixel + 1;
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data.mCrChannel = blackPixel + 2;
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data.mYStride = data.mCbCrStride = 1;
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data.mPicSize = data.mYSize = data.mCbCrSize = gfx::IntSize(1, 1);
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aImage->CopyData(data);
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}
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class VideoFrameContainerInvalidateRunnable : public Runnable {
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public:
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explicit VideoFrameContainerInvalidateRunnable(VideoFrameContainer* aVideoFrameContainer)
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: Runnable("VideoFrameContainerInvalidateRunnable")
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, mVideoFrameContainer(aVideoFrameContainer)
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{}
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NS_IMETHOD Run()
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{
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MOZ_ASSERT(NS_IsMainThread());
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mVideoFrameContainer->Invalidate();
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return NS_OK;
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}
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private:
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RefPtr<VideoFrameContainer> mVideoFrameContainer;
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};
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void VideoFrameContainer::SetCurrentFrames(const VideoSegment& aSegment)
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{
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if (aSegment.IsEmpty()) {
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return;
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}
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MutexAutoLock lock(mMutex);
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AutoTimer<Telemetry::VFC_SETVIDEOSEGMENT_LOCK_HOLD_MS> lockHold;
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// Collect any new frames produced in this iteration.
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AutoTArray<ImageContainer::NonOwningImage,4> newImages;
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PrincipalHandle lastPrincipalHandle = PRINCIPAL_HANDLE_NONE;
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VideoSegment::ConstChunkIterator iter(aSegment);
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while (!iter.IsEnded()) {
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VideoChunk chunk = *iter;
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const VideoFrame* frame = &chunk.mFrame;
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if (*frame == mLastPlayedVideoFrame) {
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iter.Next();
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continue;
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}
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Image* image = frame->GetImage();
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CONTAINER_LOG(LogLevel::Verbose,
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("VideoFrameContainer %p writing video frame %p (%d x %d)",
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this, image, frame->GetIntrinsicSize().width,
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frame->GetIntrinsicSize().height));
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if (frame->GetForceBlack()) {
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if (!mBlackImage) {
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mBlackImage = GetImageContainer()->CreatePlanarYCbCrImage();
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if (mBlackImage) {
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// Sets the image to a single black pixel, which will be scaled to
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// fill the rendered size.
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SetImageToBlackPixel(mBlackImage->AsPlanarYCbCrImage());
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}
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}
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if (mBlackImage) {
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image = mBlackImage;
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}
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}
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// Don't append null image to the newImages.
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if (!image) {
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iter.Next();
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continue;
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}
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newImages.AppendElement(ImageContainer::NonOwningImage(image, chunk.mTimeStamp));
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lastPrincipalHandle = chunk.GetPrincipalHandle();
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mLastPlayedVideoFrame = *frame;
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iter.Next();
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}
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// Don't update if there are no changes.
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if (newImages.IsEmpty()) {
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return;
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}
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AutoTArray<ImageContainer::NonOwningImage,4> images;
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bool principalHandleChanged =
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lastPrincipalHandle != PRINCIPAL_HANDLE_NONE &&
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lastPrincipalHandle != GetLastPrincipalHandleLocked();
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// Add the frames from this iteration.
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for (auto& image : newImages) {
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image.mFrameID = NewFrameID();
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images.AppendElement(image);
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}
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if (principalHandleChanged) {
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UpdatePrincipalHandleForFrameIDLocked(lastPrincipalHandle,
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newImages.LastElement().mFrameID);
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}
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SetCurrentFramesLocked(mLastPlayedVideoFrame.GetIntrinsicSize(), images);
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nsCOMPtr<nsIRunnable> event =
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new VideoFrameContainerInvalidateRunnable(this);
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mMainThread->Dispatch(event.forget());
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images.ClearAndRetainStorage();
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}
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void VideoFrameContainer::ClearFrames()
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{
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ClearFutureFrames();
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}
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void VideoFrameContainer::SetCurrentFrame(const gfx::IntSize& aIntrinsicSize,
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Image* aImage,
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const TimeStamp& aTargetTime)
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{
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if (aImage) {
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MutexAutoLock lock(mMutex);
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AutoTimer<Telemetry::VFC_SETCURRENTFRAME_LOCK_HOLD_MS> lockHold;
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AutoTArray<ImageContainer::NonOwningImage,1> imageList;
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imageList.AppendElement(
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ImageContainer::NonOwningImage(aImage, aTargetTime, ++mFrameID));
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SetCurrentFramesLocked(aIntrinsicSize, imageList);
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} else {
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ClearCurrentFrame(aIntrinsicSize);
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}
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}
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void VideoFrameContainer::SetCurrentFrames(const gfx::IntSize& aIntrinsicSize,
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const nsTArray<ImageContainer::NonOwningImage>& aImages)
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{
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MutexAutoLock lock(mMutex);
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AutoTimer<Telemetry::VFC_SETIMAGES_LOCK_HOLD_MS> lockHold;
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SetCurrentFramesLocked(aIntrinsicSize, aImages);
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}
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void VideoFrameContainer::SetCurrentFramesLocked(const gfx::IntSize& aIntrinsicSize,
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const nsTArray<ImageContainer::NonOwningImage>& aImages)
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{
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mMutex.AssertCurrentThreadOwns();
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if (aIntrinsicSize != mIntrinsicSize) {
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mIntrinsicSize = aIntrinsicSize;
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RefPtr<VideoFrameContainer> self = this;
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mMainThread->Dispatch(NS_NewRunnableFunction(
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"IntrinsicSizeChanged", [this, self, aIntrinsicSize]() {
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mMainThreadState.mIntrinsicSize = aIntrinsicSize;
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mMainThreadState.mIntrinsicSizeChanged = true;
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}));
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}
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gfx::IntSize oldFrameSize = mImageContainer->GetCurrentSize();
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// When using the OMX decoder, destruction of the current image can indirectly
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// block on main thread I/O. If we let this happen while holding onto
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// |mImageContainer|'s lock, then when the main thread then tries to
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// composite it can then block on |mImageContainer|'s lock, causing a
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// deadlock. We use this hack to defer the destruction of the current image
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// until it is safe.
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nsTArray<ImageContainer::OwningImage> oldImages;
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mImageContainer->GetCurrentImages(&oldImages);
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PrincipalHandle principalHandle = PRINCIPAL_HANDLE_NONE;
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ImageContainer::FrameID lastFrameIDForOldPrincipalHandle =
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mFrameIDForPendingPrincipalHandle - 1;
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if (mPendingPrincipalHandle != PRINCIPAL_HANDLE_NONE &&
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((!oldImages.IsEmpty() &&
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oldImages.LastElement().mFrameID >= lastFrameIDForOldPrincipalHandle) ||
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(!aImages.IsEmpty() &&
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aImages[0].mFrameID > lastFrameIDForOldPrincipalHandle))) {
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// We are releasing the last FrameID prior to `lastFrameIDForOldPrincipalHandle`
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// OR
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// there are no FrameIDs prior to `lastFrameIDForOldPrincipalHandle` in the new
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// set of images.
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// This means that the old principal handle has been flushed out and we can
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// notify our video element about this change.
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principalHandle = mPendingPrincipalHandle;
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mLastPrincipalHandle = mPendingPrincipalHandle;
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mPendingPrincipalHandle = PRINCIPAL_HANDLE_NONE;
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mFrameIDForPendingPrincipalHandle = 0;
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}
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if (aImages.IsEmpty()) {
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mImageContainer->ClearAllImages();
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} else {
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mImageContainer->SetCurrentImages(aImages);
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}
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gfx::IntSize newFrameSize = mImageContainer->GetCurrentSize();
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bool imageSizeChanged = (oldFrameSize != newFrameSize);
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if (principalHandle != PRINCIPAL_HANDLE_NONE || imageSizeChanged) {
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RefPtr<VideoFrameContainer> self = this;
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mMainThread->Dispatch(NS_NewRunnableFunction(
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"PrincipalHandleOrImageSizeChanged",
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[this, self, principalHandle, imageSizeChanged]() {
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mMainThreadState.mImageSizeChanged = imageSizeChanged;
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if (mElement && principalHandle != PRINCIPAL_HANDLE_NONE) {
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mElement->PrincipalHandleChangedForVideoFrameContainer(
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this, principalHandle);
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}
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}));
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}
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}
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void VideoFrameContainer::ClearCurrentFrame()
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{
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MutexAutoLock lock(mMutex);
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AutoTimer<Telemetry::VFC_CLEARCURRENTFRAME_LOCK_HOLD_MS> lockHold;
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// See comment in SetCurrentFrame for the reasoning behind
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// using a kungFuDeathGrip here.
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nsTArray<ImageContainer::OwningImage> kungFuDeathGrip;
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mImageContainer->GetCurrentImages(&kungFuDeathGrip);
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mImageContainer->ClearAllImages();
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mImageContainer->ClearCachedResources();
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}
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void VideoFrameContainer::ClearFutureFrames()
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{
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MutexAutoLock lock(mMutex);
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AutoTimer<Telemetry::VFC_CLEARFUTUREFRAMES_LOCK_HOLD_MS> lockHold;
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// See comment in SetCurrentFrame for the reasoning behind
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// using a kungFuDeathGrip here.
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nsTArray<ImageContainer::OwningImage> kungFuDeathGrip;
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mImageContainer->GetCurrentImages(&kungFuDeathGrip);
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if (!kungFuDeathGrip.IsEmpty()) {
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nsTArray<ImageContainer::NonOwningImage> currentFrame;
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const ImageContainer::OwningImage& img = kungFuDeathGrip[0];
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currentFrame.AppendElement(ImageContainer::NonOwningImage(img.mImage,
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img.mTimeStamp, img.mFrameID, img.mProducerID));
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mImageContainer->SetCurrentImages(currentFrame);
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}
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}
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void
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VideoFrameContainer::ClearCachedResources()
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{
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mImageContainer->ClearCachedResources();
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}
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ImageContainer* VideoFrameContainer::GetImageContainer() {
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return mImageContainer;
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}
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double VideoFrameContainer::GetFrameDelay()
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{
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return mImageContainer->GetPaintDelay().ToSeconds();
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}
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void VideoFrameContainer::InvalidateWithFlags(uint32_t aFlags)
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{
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NS_ASSERTION(NS_IsMainThread(), "Must call on main thread");
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if (!mElement) {
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// Element has been destroyed
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return;
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}
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nsIFrame* frame = mElement->GetPrimaryFrame();
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bool invalidateFrame = mMainThreadState.mImageSizeChanged;
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mMainThreadState.mImageSizeChanged = false;
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if (mMainThreadState.mIntrinsicSizeChanged) {
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mElement->UpdateMediaSize(mMainThreadState.mIntrinsicSize);
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mMainThreadState.mIntrinsicSizeChanged = false;
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if (frame) {
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nsPresContext* presContext = frame->PresContext();
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nsIPresShell* presShell = presContext->PresShell();
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presShell->FrameNeedsReflow(
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frame, nsIPresShell::eStyleChange, NS_FRAME_IS_DIRTY);
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}
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}
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bool asyncInvalidate = mImageContainer &&
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mImageContainer->IsAsync() &&
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!(aFlags & INVALIDATE_FORCE);
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if (frame) {
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if (invalidateFrame) {
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frame->InvalidateFrame();
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} else {
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frame->InvalidateLayer(nsDisplayItem::TYPE_VIDEO, nullptr, nullptr,
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asyncInvalidate ? nsIFrame::UPDATE_IS_ASYNC : 0);
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}
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}
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nsSVGEffects::InvalidateDirectRenderingObservers(mElement);
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}
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} // namespace mozilla
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#undef NS_DispatchToMainThread
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