/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* 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 "ScreenshotGrabber.h" #include "GeckoProfiler.h" #include "mozilla/RefPtr.h" #include "mozilla/TimeStamp.h" #include "mozilla/UniquePtr.h" #include "mozilla/layers/Compositor.h" #include "mozilla/layers/ProfilerScreenshots.h" #include "mozilla/layers/TextureHost.h" #include "mozilla/gfx/Point.h" #include "nsTArray.h" namespace mozilla { using namespace gfx; namespace layers { namespace profiler_screenshots { /** * The actual implementation of screenshot grabbing. * The ScreenshotGrabberImpl object is destroyed if the profiler is * disabled and MaybeGrabScreenshot notices it. */ class ScreenshotGrabberImpl final { public: explicit ScreenshotGrabberImpl(const IntSize& aBufferSize); ~ScreenshotGrabberImpl(); void GrabScreenshot(Window& aWindow, const IntSize& aWindowSize); void ProcessQueue(); private: struct QueueItem final { mozilla::TimeStamp mTimeStamp; RefPtr mScreenshotBuffer; IntSize mScreenshotSize; IntSize mWindowSize; uintptr_t mWindowIdentifier; }; RefPtr ScaleDownWindowRenderSourceToSize( Window& aWindow, const IntSize& aDestSize, RenderSource* aWindowRenderSource, size_t aLevel); already_AddRefed TakeNextBuffer(Window& aWindow); void ReturnBuffer(AsyncReadbackBuffer* aBuffer); nsTArray> mCachedLevels; nsTArray> mAvailableBuffers; Maybe mCurrentFrameQueueItem; nsTArray mQueue; RefPtr mProfilerScreenshots; const IntSize mBufferSize; }; } // namespace profiler_screenshots ScreenshotGrabber::ScreenshotGrabber() = default; ScreenshotGrabber::~ScreenshotGrabber() = default; void ScreenshotGrabber::MaybeGrabScreenshot( profiler_screenshots::Window& aWindow, const IntSize& aWindowSize) { if (ProfilerScreenshots::IsEnabled()) { if (!mImpl) { mImpl = MakeUnique( ProfilerScreenshots::ScreenshotSize()); } mImpl->GrabScreenshot(aWindow, aWindowSize); } else if (mImpl) { Destroy(); } } void ScreenshotGrabber::MaybeProcessQueue() { if (ProfilerScreenshots::IsEnabled()) { if (!mImpl) { mImpl = MakeUnique( ProfilerScreenshots::ScreenshotSize()); } mImpl->ProcessQueue(); } else if (mImpl) { Destroy(); } } void ScreenshotGrabber::NotifyEmptyFrame() { #ifdef MOZ_GECKO_PROFILER PROFILER_MARKER_UNTYPED("NoCompositorScreenshot because nothing changed", GRAPHICS); #endif } void ScreenshotGrabber::Destroy() { mImpl = nullptr; } namespace profiler_screenshots { ScreenshotGrabberImpl::ScreenshotGrabberImpl(const IntSize& aBufferSize) : mBufferSize(aBufferSize) {} ScreenshotGrabberImpl::~ScreenshotGrabberImpl() { // Any queue items in mQueue or mCurrentFrameQueueItem will be lost. // That's ok: Either the profiler has stopped and we don't care about these // screenshots, or the window is closing and we don't really need the last // few frames from the window. } // Scale down aWindowRenderSource into a RenderSource of size // mBufferSize * (1 << aLevel) and return that RenderSource. // Don't scale down by more than a factor of 2 with a single scaling operation, // because it'll look bad. If higher scales are needed, use another // intermediate target by calling this function recursively with aLevel + 1. RefPtr ScreenshotGrabberImpl::ScaleDownWindowRenderSourceToSize( Window& aWindow, const IntSize& aDestSize, RenderSource* aWindowRenderSource, size_t aLevel) { if (aLevel == mCachedLevels.Length()) { mCachedLevels.AppendElement( aWindow.CreateDownscaleTarget(mBufferSize * (1 << aLevel))); } MOZ_RELEASE_ASSERT(aLevel < mCachedLevels.Length()); RefPtr renderSource = aWindowRenderSource; IntSize sourceSize = aWindowRenderSource->Size(); if (sourceSize.width > aDestSize.width * 2) { sourceSize = aDestSize * 2; renderSource = ScaleDownWindowRenderSourceToSize( aWindow, sourceSize, aWindowRenderSource, aLevel + 1); } if (renderSource) { if (mCachedLevels[aLevel]->DownscaleFrom( renderSource, IntRect({}, sourceSize), IntRect({}, aDestSize))) { return mCachedLevels[aLevel]->AsRenderSource(); } } return nullptr; } void ScreenshotGrabberImpl::GrabScreenshot(Window& aWindow, const IntSize& aWindowSize) { RefPtr windowRenderSource = aWindow.GetWindowContents(aWindowSize); if (!windowRenderSource) { PROFILER_MARKER_UNTYPED( "NoCompositorScreenshot because of unsupported compositor " "configuration", GRAPHICS); return; } Size windowSize(aWindowSize); float scale = std::min(mBufferSize.width / windowSize.width, mBufferSize.height / windowSize.height); IntSize scaledSize = IntSize::Round(windowSize * scale); RefPtr scaledTarget = ScaleDownWindowRenderSourceToSize( aWindow, scaledSize, windowRenderSource, 0); if (!scaledTarget) { PROFILER_MARKER_UNTYPED( "NoCompositorScreenshot because ScaleDownWindowRenderSourceToSize " "failed", GRAPHICS); return; } RefPtr buffer = TakeNextBuffer(aWindow); if (!buffer) { PROFILER_MARKER_UNTYPED( "NoCompositorScreenshot because AsyncReadbackBuffer creation failed", GRAPHICS); return; } buffer->CopyFrom(scaledTarget); // This QueueItem will be added to the queue at the end of the next call to // ProcessQueue(). This ensures that the buffer isn't mapped into main memory // until the next frame. If we did it in this frame, we'd block on the GPU. mCurrentFrameQueueItem = Some(QueueItem{TimeStamp::Now(), std::move(buffer), scaledSize, windowRenderSource->Size(), reinterpret_cast(static_cast(this))}); } already_AddRefed ScreenshotGrabberImpl::TakeNextBuffer( Window& aWindow) { if (!mAvailableBuffers.IsEmpty()) { RefPtr buffer = mAvailableBuffers[0]; mAvailableBuffers.RemoveElementAt(0); return buffer.forget(); } return aWindow.CreateAsyncReadbackBuffer(mBufferSize); } void ScreenshotGrabberImpl::ReturnBuffer(AsyncReadbackBuffer* aBuffer) { mAvailableBuffers.AppendElement(aBuffer); } void ScreenshotGrabberImpl::ProcessQueue() { if (!mQueue.IsEmpty()) { if (!mProfilerScreenshots) { mProfilerScreenshots = new ProfilerScreenshots(); } for (const auto& item : mQueue) { mProfilerScreenshots->SubmitScreenshot( item.mWindowIdentifier, item.mWindowSize, item.mScreenshotSize, item.mTimeStamp, [&item](DataSourceSurface* aTargetSurface) { return item.mScreenshotBuffer->MapAndCopyInto(aTargetSurface, item.mScreenshotSize); }); ReturnBuffer(item.mScreenshotBuffer); } } mQueue.Clear(); if (mCurrentFrameQueueItem) { mQueue.AppendElement(std::move(*mCurrentFrameQueueItem)); mCurrentFrameQueueItem = Nothing(); } } } // namespace profiler_screenshots } // namespace layers } // namespace mozilla