/* -*- 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 "RendererOGL.h" #include "base/task.h" #include "GLContext.h" #include "mozilla/gfx/Logging.h" #include "mozilla/gfx/gfxVars.h" #include "mozilla/gfx/Types.h" #include "mozilla/layers/CompositorBridgeParent.h" #include "mozilla/layers/CompositorThread.h" #include "mozilla/layers/LayersTypes.h" #include "mozilla/layers/ProfilerScreenshots.h" #include "mozilla/webrender/RenderCompositor.h" #include "mozilla/webrender/RenderTextureHost.h" #include "mozilla/widget/CompositorWidget.h" namespace mozilla { namespace wr { class RendererRecordedFrame final : public layers::RecordedFrame { public: RendererRecordedFrame(const TimeStamp& aTimeStamp, wr::Renderer* aRenderer, const wr::RecordedFrameHandle aHandle, const gfx::IntSize& aSize) : RecordedFrame(aTimeStamp), mRenderer(aRenderer), mSize(aSize), mHandle(aHandle) {} already_AddRefed GetSourceSurface() override { if (!mSurface) { mSurface = gfx::Factory::CreateDataSourceSurface( mSize, gfx::SurfaceFormat::B8G8R8A8, /* aZero = */ false); gfx::DataSourceSurface::ScopedMap map(mSurface, gfx::DataSourceSurface::WRITE); if (!wr_renderer_map_recorded_frame(mRenderer, mHandle, map.GetData(), map.GetStride() * mSize.height, map.GetStride())) { return nullptr; } } return do_AddRef(mSurface); } private: wr::Renderer* mRenderer; RefPtr mSurface; gfx::IntSize mSize; wr::RecordedFrameHandle mHandle; }; wr::WrExternalImage wr_renderer_lock_external_image( void* aObj, wr::ExternalImageId aId, uint8_t aChannelIndex, wr::ImageRendering aRendering) { RendererOGL* renderer = reinterpret_cast(aObj); RenderTextureHost* texture = renderer->GetRenderTexture(aId); MOZ_ASSERT(texture); if (!texture) { gfxCriticalNoteOnce << "Failed to lock ExternalImage for extId:" << AsUint64(aId); return InvalidToWrExternalImage(); } if (auto* gl = renderer->gl()) { return texture->Lock(aChannelIndex, gl, aRendering); } else if (auto* swgl = renderer->swgl()) { return texture->LockSWGL(aChannelIndex, swgl, renderer->GetCompositor(), aRendering); } else { gfxCriticalNoteOnce << "No GL or SWGL context available to lock ExternalImage for extId:" << AsUint64(aId); return InvalidToWrExternalImage(); } } void wr_renderer_unlock_external_image(void* aObj, wr::ExternalImageId aId, uint8_t aChannelIndex) { RendererOGL* renderer = reinterpret_cast(aObj); RenderTextureHost* texture = renderer->GetRenderTexture(aId); MOZ_ASSERT(texture); if (!texture) { return; } if (renderer->gl()) { texture->Unlock(); } else if (renderer->swgl()) { texture->UnlockSWGL(); } } RendererOGL::RendererOGL(RefPtr&& aThread, UniquePtr aCompositor, wr::WindowId aWindowId, wr::Renderer* aRenderer, layers::CompositorBridgeParent* aBridge) : mThread(aThread), mCompositor(std::move(aCompositor)), mRenderer(aRenderer), mBridge(aBridge), mWindowId(aWindowId), mDisableNativeCompositor(false) { MOZ_ASSERT(mThread); MOZ_ASSERT(mCompositor); MOZ_ASSERT(mRenderer); MOZ_ASSERT(mBridge); MOZ_COUNT_CTOR(RendererOGL); } RendererOGL::~RendererOGL() { MOZ_COUNT_DTOR(RendererOGL); if (!mCompositor->MakeCurrent()) { gfxCriticalNote << "Failed to make render context current during destroying."; // Leak resources! } else { wr_renderer_delete(mRenderer); } } wr::WrExternalImageHandler RendererOGL::GetExternalImageHandler() { return wr::WrExternalImageHandler{ this, }; } void RendererOGL::Update() { mCompositor->Update(); if (mCompositor->MakeCurrent()) { wr_renderer_update(mRenderer); } } static void DoWebRenderDisableNativeCompositor( layers::CompositorBridgeParent* aBridge) { aBridge->NotifyWebRenderDisableNativeCompositor(); } RenderedFrameId RendererOGL::UpdateAndRender( const Maybe& aReadbackSize, const Maybe& aReadbackFormat, const Maybe>& aReadbackBuffer, bool* aNeedsYFlip, RendererStats* aOutStats) { mozilla::widget::WidgetRenderingContext widgetContext; #if defined(XP_MACOSX) widgetContext.mGL = mCompositor->gl(); #endif if (!mCompositor->GetWidget()->PreRender(&widgetContext)) { // XXX This could cause oom in webrender since pending_texture_updates is // not handled. It needs to be addressed. return RenderedFrameId(); ; } // XXX set clear color if MOZ_WIDGET_ANDROID is defined. if (mThread->IsHandlingDeviceReset() || !mCompositor->BeginFrame()) { CheckGraphicsResetStatus("BeginFrame", /* aForce */ true); mCompositor->GetWidget()->PostRender(&widgetContext); return RenderedFrameId(); } auto size = mCompositor->GetBufferSize(); auto bufferAge = mCompositor->GetBufferAge(); wr_renderer_update(mRenderer); bool fullRender = mCompositor->RequestFullRender(); // When we're rendering to an external target, we want to render everything. if (mCompositor->UsePartialPresent() && (aReadbackBuffer.isSome() || layers::ProfilerScreenshots::IsEnabled())) { fullRender = true; } if (fullRender) { wr_renderer_force_redraw(mRenderer); } nsTArray dirtyRects; if (!wr_renderer_render(mRenderer, size.width, size.height, bufferAge, aOutStats, &dirtyRects)) { mCompositor->CancelFrame(); RenderThread::Get()->HandleWebRenderError(WebRenderError::RENDER); mCompositor->GetWidget()->PostRender(&widgetContext); return RenderedFrameId(); } if (aReadbackBuffer.isSome()) { MOZ_ASSERT(aReadbackSize.isSome()); MOZ_ASSERT(aReadbackFormat.isSome()); if (!mCompositor->MaybeReadback(aReadbackSize.ref(), aReadbackFormat.ref(), aReadbackBuffer.ref(), aNeedsYFlip)) { wr_renderer_readback(mRenderer, aReadbackSize.ref().width, aReadbackSize.ref().height, aReadbackFormat.ref(), &aReadbackBuffer.ref()[0], aReadbackBuffer.ref().length()); if (aNeedsYFlip) { *aNeedsYFlip = !mCompositor->SurfaceOriginIsTopLeft(); } } } if (size.Width() != 0 && size.Height() != 0) { if (!mCompositor->MaybeGrabScreenshot(size.ToUnknownSize())) { mScreenshotGrabber.MaybeGrabScreenshot(this, size.ToUnknownSize()); } } RenderedFrameId frameId = mCompositor->EndFrame(dirtyRects); mCompositor->GetWidget()->PostRender(&widgetContext); #if defined(ENABLE_FRAME_LATENCY_LOG) if (mFrameStartTime) { uint32_t latencyMs = round((TimeStamp::Now() - mFrameStartTime).ToMilliseconds()); printf_stderr("generate frame latencyMs latencyMs %d\n", latencyMs); } // Clear frame start time mFrameStartTime = TimeStamp(); #endif if (!mCompositor->MaybeProcessScreenshotQueue()) { mScreenshotGrabber.MaybeProcessQueue(this); } // TODO: Flush pending actions such as texture deletions/unlocks and // textureHosts recycling. return frameId; } bool RendererOGL::EnsureAsyncScreenshot() { if (mCompositor->SupportAsyncScreenshot()) { return true; } if (!mDisableNativeCompositor) { layers::CompositorThread()->Dispatch( NewRunnableFunction("DoWebRenderDisableNativeCompositorRunnable", &DoWebRenderDisableNativeCompositor, mBridge)); mDisableNativeCompositor = true; gfxCriticalNote << "Disable native compositor for async screenshot"; } return false; } void RendererOGL::CheckGraphicsResetStatus(const char* aCaller, bool aForce) { if (mCompositor) { auto reason = mCompositor->IsContextLost(aForce); if (reason != LOCAL_GL_NO_ERROR) { RenderThread::Get()->HandleDeviceReset(aCaller, mBridge, reason); } } } void RendererOGL::WaitForGPU() { if (!mCompositor->WaitForGPU()) { CheckGraphicsResetStatus("WaitForGPU", /* aForce */ true); } } ipc::FileDescriptor RendererOGL::GetAndResetReleaseFence() { return mCompositor->GetAndResetReleaseFence(); } RenderedFrameId RendererOGL::GetLastCompletedFrameId() { return mCompositor->GetLastCompletedFrameId(); } RenderedFrameId RendererOGL::UpdateFrameId() { return mCompositor->UpdateFrameId(); } void RendererOGL::Pause() { mCompositor->Pause(); } bool RendererOGL::Resume() { return mCompositor->Resume(); } bool RendererOGL::IsPaused() { return mCompositor->IsPaused(); } layers::SyncObjectHost* RendererOGL::GetSyncObject() const { return mCompositor->GetSyncObject(); } gl::GLContext* RendererOGL::gl() const { return mCompositor->gl(); } void* RendererOGL::swgl() const { return mCompositor->swgl(); } void RendererOGL::SetFrameStartTime(const TimeStamp& aTime) { if (mFrameStartTime) { // frame start time is already set. This could happen when multiple // generate frame requests are merged by webrender. return; } mFrameStartTime = aTime; } void RendererOGL::BeginRecording(const TimeStamp& aRecordingStart, wr::PipelineId aRootPipelineId) { MOZ_ASSERT(!mCompositionRecorder); mRootPipelineId = aRootPipelineId; mCompositionRecorder = MakeUnique(aRecordingStart); mCompositor->MaybeRequestAllowFrameRecording(true); } void RendererOGL::MaybeRecordFrame(const WebRenderPipelineInfo* aPipelineInfo) { if (!mCompositionRecorder || !EnsureAsyncScreenshot()) { return; } if (!mRenderer || !aPipelineInfo || !DidPaintContent(aPipelineInfo)) { return; } if (mCompositor->MaybeRecordFrame(*mCompositionRecorder)) { return; } wr::RecordedFrameHandle handle{0}; gfx::IntSize size(0, 0); if (wr_renderer_record_frame(mRenderer, wr::ImageFormat::BGRA8, &handle, &size.width, &size.height)) { RefPtr frame = new RendererRecordedFrame(TimeStamp::Now(), mRenderer, handle, size); mCompositionRecorder->RecordFrame(frame); } } bool RendererOGL::DidPaintContent(const WebRenderPipelineInfo* aFrameEpochs) { const wr::WrPipelineInfo& info = aFrameEpochs->Raw(); bool didPaintContent = false; // Check if a non-root pipeline has updated to a new epoch. // We treat all non-root pipelines as "content" pipelines, even if they're // not fed by content paints, such as videos (see bug 1665512). for (const auto& epoch : info.epochs) { const wr::PipelineId pipelineId = epoch.pipeline_id; if (pipelineId == mRootPipelineId) { continue; } const auto it = mContentPipelineEpochs.find(AsUint64(pipelineId)); if (it == mContentPipelineEpochs.end() || it->second != epoch.epoch) { // This pipeline has updated since last render or has newly rendered. didPaintContent = true; mContentPipelineEpochs[AsUint64(pipelineId)] = epoch.epoch; } } for (const auto& removedPipeline : info.removed_pipelines) { const wr::PipelineId pipelineId = removedPipeline.pipeline_id; if (pipelineId == mRootPipelineId) { continue; } mContentPipelineEpochs.erase(AsUint64(pipelineId)); } return didPaintContent; } void RendererOGL::WriteCollectedFrames() { if (!mCompositionRecorder) { MOZ_DIAGNOSTIC_ASSERT( false, "Attempted to write frames from a window that was not recording."); return; } mCompositionRecorder->WriteCollectedFrames(); wr_renderer_release_composition_recorder_structures(mRenderer); mCompositor->MaybeRequestAllowFrameRecording(false); mCompositionRecorder = nullptr; } Maybe RendererOGL::GetCollectedFrames() { if (!mCompositionRecorder) { MOZ_DIAGNOSTIC_ASSERT( false, "Attempted to get frames from a window that was not recording."); return Nothing(); } layers::CollectedFrames frames = mCompositionRecorder->GetCollectedFrames(); wr_renderer_release_composition_recorder_structures(mRenderer); mCompositor->MaybeRequestAllowFrameRecording(false); mCompositionRecorder = nullptr; return Some(std::move(frames)); } RefPtr RendererOGL::FlushPipelineInfo() { RefPtr info = new WebRenderPipelineInfo(); wr_renderer_flush_pipeline_info(mRenderer, &info->Raw()); return info; } RenderTextureHost* RendererOGL::GetRenderTexture( wr::ExternalImageId aExternalImageId) { return mThread->GetRenderTexture(aExternalImageId); } void RendererOGL::AccumulateMemoryReport(MemoryReport* aReport) { wr_renderer_accumulate_memory_report(GetRenderer(), aReport); LayoutDeviceIntSize size = mCompositor->GetBufferSize(); // Assume BGRA8 for the format since it's not exposed anywhere, // and all compositor backends should be using that. uintptr_t swapChainSize = size.width * size.height * BytesPerPixel(gfx::SurfaceFormat::B8G8R8A8) * (mCompositor->UseTripleBuffering() ? 3 : 2); aReport->swap_chain += swapChainSize; } void RendererOGL::SetProfilerUI(const nsCString& aUI) { wr_renderer_set_profiler_ui(GetRenderer(), (const uint8_t*)aUI.get(), aUI.Length()); } } // namespace wr } // namespace mozilla