/* -*- 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 "TextureD3D11.h" #include "CompositorD3D11.h" #include "gfxContext.h" #include "Effects.h" #include "gfxWindowsPlatform.h" #include "gfx2DGlue.h" #include "gfxPrefs.h" #include "ReadbackManagerD3D11.h" #include "mozilla/gfx/DataSurfaceHelpers.h" #include "mozilla/gfx/DeviceManagerDx.h" #include "mozilla/gfx/gfxVars.h" #include "mozilla/gfx/Logging.h" #include "mozilla/layers/CompositorBridgeChild.h" #include "mozilla/webrender/RenderD3D11TextureHostOGL.h" #include "mozilla/webrender/RenderThread.h" #include "mozilla/webrender/WebRenderAPI.h" #include "PaintThread.h" namespace mozilla { using namespace gfx; namespace layers { static const GUID sD3D11TextureUsage = { 0xd89275b0, 0x6c7d, 0x4038, { 0xb5, 0xfa, 0x4d, 0x87, 0x16, 0xd5, 0xcc, 0x4e } }; /* This class gets its lifetime tied to a D3D texture * and increments memory usage on construction and decrements * on destruction */ class TextureMemoryMeasurer final : public IUnknown { public: explicit TextureMemoryMeasurer(size_t aMemoryUsed) { mMemoryUsed = aMemoryUsed; gfxWindowsPlatform::sD3D11SharedTextures += mMemoryUsed; mRefCnt = 0; } STDMETHODIMP_(ULONG) AddRef() { mRefCnt++; return mRefCnt; } STDMETHODIMP QueryInterface(REFIID riid, void **ppvObject) { IUnknown *punk = nullptr; if (riid == IID_IUnknown) { punk = this; } *ppvObject = punk; if (punk) { punk->AddRef(); return S_OK; } else { return E_NOINTERFACE; } } STDMETHODIMP_(ULONG) Release() { int refCnt = --mRefCnt; if (refCnt == 0) { gfxWindowsPlatform::sD3D11SharedTextures -= mMemoryUsed; delete this; } return refCnt; } private: int mRefCnt; int mMemoryUsed; ~TextureMemoryMeasurer() = default; }; static DXGI_FORMAT SurfaceFormatToDXGIFormat(gfx::SurfaceFormat aFormat) { switch (aFormat) { case SurfaceFormat::B8G8R8A8: return DXGI_FORMAT_B8G8R8A8_UNORM; case SurfaceFormat::B8G8R8X8: return DXGI_FORMAT_B8G8R8A8_UNORM; case SurfaceFormat::R8G8B8A8: return DXGI_FORMAT_R8G8B8A8_UNORM; case SurfaceFormat::R8G8B8X8: return DXGI_FORMAT_R8G8B8A8_UNORM; case SurfaceFormat::A8: return DXGI_FORMAT_R8_UNORM; default: MOZ_ASSERT(false, "unsupported format"); return DXGI_FORMAT_UNKNOWN; } } void ReportTextureMemoryUsage(ID3D11Texture2D* aTexture, size_t aBytes) { aTexture->SetPrivateDataInterface( sD3D11TextureUsage, new TextureMemoryMeasurer(aBytes)); } static uint32_t GetRequiredTilesD3D11(uint32_t aSize, uint32_t aMaxSize) { uint32_t requiredTiles = aSize / aMaxSize; if (aSize % aMaxSize) { requiredTiles++; } return requiredTiles; } static IntRect GetTileRectD3D11(uint32_t aID, IntSize aSize, uint32_t aMaxSize) { uint32_t horizontalTiles = GetRequiredTilesD3D11(aSize.width, aMaxSize); uint32_t verticalTiles = GetRequiredTilesD3D11(aSize.height, aMaxSize); uint32_t verticalTile = aID / horizontalTiles; uint32_t horizontalTile = aID % horizontalTiles; return IntRect(horizontalTile * aMaxSize, verticalTile * aMaxSize, horizontalTile < (horizontalTiles - 1) ? aMaxSize : aSize.width % aMaxSize, verticalTile < (verticalTiles - 1) ? aMaxSize : aSize.height % aMaxSize); } AutoTextureLock::AutoTextureLock(IDXGIKeyedMutex* aMutex, HRESULT& aResult, uint32_t aTimeout) { mMutex = aMutex; if (mMutex) { mResult = mMutex->AcquireSync(0, aTimeout); aResult = mResult; } else { aResult = E_INVALIDARG; } } AutoTextureLock::~AutoTextureLock() { if (mMutex && !FAILED(mResult) && mResult != WAIT_TIMEOUT && mResult != WAIT_ABANDONED) { mMutex->ReleaseSync(0); } } ID3D11ShaderResourceView* TextureSourceD3D11::GetShaderResourceView() { MOZ_ASSERT(mTexture == GetD3D11Texture(), "You need to override GetShaderResourceView if you're overriding GetD3D11Texture!"); if (!mSRV && mTexture) { RefPtr device; mTexture->GetDevice(getter_AddRefs(device)); // see comment in CompositingRenderTargetD3D11 constructor CD3D11_SHADER_RESOURCE_VIEW_DESC srvDesc(D3D11_SRV_DIMENSION_TEXTURE2D, mFormatOverride); D3D11_SHADER_RESOURCE_VIEW_DESC *desc = mFormatOverride == DXGI_FORMAT_UNKNOWN ? nullptr : &srvDesc; HRESULT hr = device->CreateShaderResourceView(mTexture, desc, getter_AddRefs(mSRV)); if (FAILED(hr)) { gfxCriticalNote << "[D3D11] TextureSourceD3D11:GetShaderResourceView CreateSRV failure " << gfx::hexa(hr); return nullptr; } } return mSRV; } DataTextureSourceD3D11::DataTextureSourceD3D11(ID3D11Device* aDevice, SurfaceFormat aFormat, TextureFlags aFlags) : mDevice(aDevice) , mFormat(aFormat) , mFlags(aFlags) , mCurrentTile(0) , mIsTiled(false) , mIterating(false) , mAllowTextureUploads(true) { } DataTextureSourceD3D11::DataTextureSourceD3D11(ID3D11Device* aDevice, SurfaceFormat aFormat, ID3D11Texture2D* aTexture) : mDevice(aDevice) , mFormat(aFormat) , mFlags(TextureFlags::NO_FLAGS) , mCurrentTile(0) , mIsTiled(false) , mIterating(false) , mAllowTextureUploads(false) { mTexture = aTexture; D3D11_TEXTURE2D_DESC desc; aTexture->GetDesc(&desc); mSize = IntSize(desc.Width, desc.Height); } DataTextureSourceD3D11::DataTextureSourceD3D11(gfx::SurfaceFormat aFormat, TextureSourceProvider* aProvider, ID3D11Texture2D* aTexture) : DataTextureSourceD3D11(aProvider->GetD3D11Device(), aFormat, aTexture) { } DataTextureSourceD3D11::DataTextureSourceD3D11(gfx::SurfaceFormat aFormat, TextureSourceProvider* aProvider, TextureFlags aFlags) : DataTextureSourceD3D11(aProvider->GetD3D11Device(), aFormat, aFlags) { } DataTextureSourceD3D11::~DataTextureSourceD3D11() { } template // ID3D10Texture2D or ID3D11Texture2D static bool LockD3DTexture(T* aTexture) { MOZ_ASSERT(aTexture); RefPtr mutex; aTexture->QueryInterface((IDXGIKeyedMutex**)getter_AddRefs(mutex)); // Textures created by the DXVA decoders don't have a mutex for synchronization if (mutex) { HRESULT hr = mutex->AcquireSync(0, 10000); if (hr == WAIT_TIMEOUT) { gfxDevCrash(LogReason::D3DLockTimeout) << "D3D lock mutex timeout"; } else if (hr == WAIT_ABANDONED) { gfxCriticalNote << "GFX: D3D11 lock mutex abandoned"; } if (FAILED(hr)) { NS_WARNING("Failed to lock the texture"); return false; } } return true; } template static bool HasKeyedMutex(T* aTexture) { RefPtr mutex; aTexture->QueryInterface((IDXGIKeyedMutex**)getter_AddRefs(mutex)); return !!mutex; } template // ID3D10Texture2D or ID3D11Texture2D static void UnlockD3DTexture(T* aTexture) { MOZ_ASSERT(aTexture); RefPtr mutex; aTexture->QueryInterface((IDXGIKeyedMutex**)getter_AddRefs(mutex)); if (mutex) { HRESULT hr = mutex->ReleaseSync(0); if (FAILED(hr)) { NS_WARNING("Failed to unlock the texture"); } } } DXGITextureData::DXGITextureData(gfx::IntSize aSize, gfx::SurfaceFormat aFormat, bool aNeedsClear, bool aNeedsClearWhite, bool aIsForOutOfBandContent) : mSize(aSize) , mFormat(aFormat) , mNeedsClear(aNeedsClear) , mNeedsClearWhite(aNeedsClearWhite) , mHasSynchronization(false) , mIsForOutOfBandContent(aIsForOutOfBandContent) {} D3D11TextureData::D3D11TextureData(ID3D11Texture2D* aTexture, gfx::IntSize aSize, gfx::SurfaceFormat aFormat, bool aNeedsClear, bool aNeedsClearWhite, bool aIsForOutOfBandContent) : DXGITextureData(aSize, aFormat, aNeedsClear, aNeedsClearWhite, aIsForOutOfBandContent) , mTexture(aTexture) { MOZ_ASSERT(aTexture); mHasSynchronization = HasKeyedMutex(aTexture); } static void DestroyDrawTarget(RefPtr& aDT, RefPtr& aTexture) { // An Azure DrawTarget needs to be locked when it gets nullptr'ed as this is // when it calls EndDraw. This EndDraw should not execute anything so it // shouldn't -really- need the lock but the debug layer chokes on this. #ifdef DEBUG LockD3DTexture(aTexture.get()); #endif aDT = nullptr; #ifdef DEBUG UnlockD3DTexture(aTexture.get()); #endif aTexture = nullptr; } D3D11TextureData::~D3D11TextureData() { if (mDrawTarget) { if (PaintThread::Get() && gfxPrefs::Direct2DDestroyDTOnPaintThread()) { RefPtr dt = mDrawTarget; RefPtr tex = mTexture; RefPtr task = NS_NewRunnableFunction("PaintThread::RunFunction", [dt, tex]() mutable { DestroyDrawTarget(dt, tex); }); PaintThread::Get()->Dispatch(task); } #ifdef DEBUG else { DestroyDrawTarget(mDrawTarget, mTexture); } #endif } } bool D3D11TextureData::Lock(OpenMode aMode) { if (!LockD3DTexture(mTexture.get())) { return false; } if (NS_IsMainThread() && !mIsForOutOfBandContent) { if (!PrepareDrawTargetInLock(aMode)) { Unlock(); return false; } } return true; } bool DXGITextureData::PrepareDrawTargetInLock(OpenMode aMode) { // Make sure that successful write-lock means we will have a DrawTarget to // write into. if (!mDrawTarget && (aMode & OpenMode::OPEN_WRITE || mNeedsClear || mNeedsClearWhite)) { mDrawTarget = BorrowDrawTarget(); if (!mDrawTarget) { return false; } } // Reset transform mDrawTarget->SetTransform(Matrix()); if (mNeedsClear) { mDrawTarget->ClearRect(Rect(0, 0, mSize.width, mSize.height)); mNeedsClear = false; } if (mNeedsClearWhite) { mDrawTarget->FillRect(Rect(0, 0, mSize.width, mSize.height), ColorPattern(Color(1.0, 1.0, 1.0, 1.0))); mNeedsClearWhite = false; } return true; } void D3D11TextureData::Unlock() { UnlockD3DTexture(mTexture.get()); } void DXGITextureData::FillInfo(TextureData::Info& aInfo) const { aInfo.size = mSize; aInfo.format = mFormat; aInfo.supportsMoz2D = true; aInfo.hasIntermediateBuffer = false; aInfo.hasSynchronization = mHasSynchronization; } void D3D11TextureData::SyncWithObject(SyncObjectClient* aSyncObject) { if (!aSyncObject || mHasSynchronization) { // When we have per texture synchronization we sync using the keyed mutex. return; } MOZ_ASSERT(aSyncObject->GetSyncType() == SyncObjectClient::SyncType::D3D11); SyncObjectD3D11Client* sync = static_cast(aSyncObject); sync->RegisterTexture(mTexture); } bool DXGITextureData::SerializeSpecific(SurfaceDescriptorD3D10* const aOutDesc) { RefPtr resource; GetDXGIResource((IDXGIResource**)getter_AddRefs(resource)); if (!resource) { return false; } HANDLE sharedHandle; HRESULT hr = resource->GetSharedHandle(&sharedHandle); if (FAILED(hr)) { LOGD3D11("Error getting shared handle for texture."); return false; } *aOutDesc = SurfaceDescriptorD3D10((WindowsHandle)sharedHandle, mFormat, mSize); return true; } bool DXGITextureData::Serialize(SurfaceDescriptor& aOutDescriptor) { SurfaceDescriptorD3D10 desc; if (!SerializeSpecific(&desc)) return false; aOutDescriptor = Move(desc); return true; } void DXGITextureData::GetSubDescriptor(GPUVideoSubDescriptor* const aOutDesc) { SurfaceDescriptorD3D10 ret; if (!SerializeSpecific(&ret)) return; *aOutDesc = Move(ret); } DXGITextureData* DXGITextureData::Create(IntSize aSize, SurfaceFormat aFormat, TextureAllocationFlags aFlags) { if (aFormat == SurfaceFormat::A8) { // Currently we don't support A8 surfaces. Fallback. return nullptr; } return D3D11TextureData::Create(aSize, aFormat, aFlags); } DXGITextureData* D3D11TextureData::Create(IntSize aSize, SurfaceFormat aFormat, SourceSurface* aSurface, TextureAllocationFlags aFlags, ID3D11Device* aDevice) { // Just grab any device. We never use the immediate context, so the devices are fine // to use from any thread. RefPtr device = aDevice; if (!device) { device = DeviceManagerDx::Get()->GetContentDevice(); if (!device) { return nullptr; } } CD3D11_TEXTURE2D_DESC newDesc(DXGI_FORMAT_B8G8R8A8_UNORM, aSize.width, aSize.height, 1, 1, D3D11_BIND_RENDER_TARGET | D3D11_BIND_SHADER_RESOURCE); if (aFormat == SurfaceFormat::NV12) { newDesc.Format = DXGI_FORMAT_NV12; } newDesc.MiscFlags = D3D11_RESOURCE_MISC_SHARED; if (!NS_IsMainThread() || !!(aFlags & ALLOC_FOR_OUT_OF_BAND_CONTENT)) { // On the main thread we use the syncobject to handle synchronization. if (!(aFlags & ALLOC_MANUAL_SYNCHRONIZATION)) { newDesc.MiscFlags = D3D11_RESOURCE_MISC_SHARED_KEYEDMUTEX; } } if (aSurface && newDesc.MiscFlags == D3D11_RESOURCE_MISC_SHARED_KEYEDMUTEX && !DeviceManagerDx::Get()->CanInitializeKeyedMutexTextures()) { return nullptr; } D3D11_SUBRESOURCE_DATA uploadData; D3D11_SUBRESOURCE_DATA* uploadDataPtr = nullptr; RefPtr srcSurf; DataSourceSurface::MappedSurface sourceMap; if (aSurface) { srcSurf = aSurface->GetDataSurface(); if (!srcSurf) { gfxCriticalError() << "Failed to GetDataSurface in D3D11TextureData::Create"; return nullptr; } if (!srcSurf->Map(DataSourceSurface::READ, &sourceMap)) { gfxCriticalError() << "Failed to map source surface for D3D11TextureData::Create"; return nullptr; } } if (srcSurf && !DeviceManagerDx::Get()->HasCrashyInitData()) { uploadData.pSysMem = sourceMap.mData; uploadData.SysMemPitch = sourceMap.mStride; uploadData.SysMemSlicePitch = 0; // unused uploadDataPtr = &uploadData; } // See bug 1397040 RefPtr mt; device->QueryInterface((ID3D10Multithread**)getter_AddRefs(mt)); RefPtr texture11; { D3D11MTAutoEnter lock(mt.forget()); HRESULT hr = device->CreateTexture2D(&newDesc, uploadDataPtr, getter_AddRefs(texture11)); if (FAILED(hr) || !texture11) { gfxCriticalNote << "[D3D11] 2 CreateTexture2D failure Size: " << aSize << "texture11: " << texture11 << " Code: " << gfx::hexa(hr); return nullptr; } if (srcSurf && DeviceManagerDx::Get()->HasCrashyInitData()) { D3D11_BOX box; box.front = box.top = box.left = 0; box.back = 1; box.right = aSize.width; box.bottom = aSize.height; RefPtr ctx; device->GetImmediateContext(getter_AddRefs(ctx)); ctx->UpdateSubresource(texture11, 0, &box, sourceMap.mData, sourceMap.mStride, 0); } } if (srcSurf) { srcSurf->Unmap(); } // If we created the texture with a keyed mutex, then we expect all operations // on it to be synchronized using it. If we did an initial upload using aSurface // then bizarely this isn't covered, so we insert a manual lock/unlock pair // to force this. if (aSurface && newDesc.MiscFlags == D3D11_RESOURCE_MISC_SHARED_KEYEDMUTEX) { if (!LockD3DTexture(texture11.get())) { return nullptr; } UnlockD3DTexture(texture11.get()); } texture11->SetPrivateDataInterface(sD3D11TextureUsage, new TextureMemoryMeasurer(newDesc.Width * newDesc.Height * 4)); return new D3D11TextureData(texture11, aSize, aFormat, aFlags & ALLOC_CLEAR_BUFFER, aFlags & ALLOC_CLEAR_BUFFER_WHITE, aFlags & ALLOC_FOR_OUT_OF_BAND_CONTENT); } DXGITextureData* D3D11TextureData::Create(IntSize aSize, SurfaceFormat aFormat, TextureAllocationFlags aFlags, ID3D11Device* aDevice) { return D3D11TextureData::Create(aSize, aFormat, nullptr, aFlags, aDevice); } DXGITextureData* D3D11TextureData::Create(SourceSurface* aSurface, TextureAllocationFlags aFlags, ID3D11Device* aDevice) { if (aSurface->GetFormat() == SurfaceFormat::A8) { // Currently we don't support A8 surfaces. Fallback. return nullptr; } return D3D11TextureData::Create(aSurface->GetSize(), aSurface->GetFormat(), aSurface, aFlags, aDevice); } void D3D11TextureData::Deallocate(LayersIPCChannel* aAllocator) { mDrawTarget = nullptr; mTexture = nullptr; } already_AddRefed CreateD3D11TextureClientWithDevice(IntSize aSize, SurfaceFormat aFormat, TextureFlags aTextureFlags, TextureAllocationFlags aAllocFlags, ID3D11Device* aDevice, LayersIPCChannel* aAllocator) { TextureData* data = D3D11TextureData::Create(aSize, aFormat, aAllocFlags, aDevice); if (!data) { return nullptr; } return MakeAndAddRef(data, aTextureFlags, aAllocator); } TextureData* D3D11TextureData::CreateSimilar(LayersIPCChannel* aAllocator, LayersBackend aLayersBackend, TextureFlags aFlags, TextureAllocationFlags aAllocFlags) const { return D3D11TextureData::Create(mSize, mFormat, aAllocFlags); } void D3D11TextureData::GetDXGIResource(IDXGIResource** aOutResource) { mTexture->QueryInterface(aOutResource); } DXGIYCbCrTextureData* DXGIYCbCrTextureData::Create(IDirect3DTexture9* aTextureY, IDirect3DTexture9* aTextureCb, IDirect3DTexture9* aTextureCr, HANDLE aHandleY, HANDLE aHandleCb, HANDLE aHandleCr, const gfx::IntSize& aSize, const gfx::IntSize& aSizeY, const gfx::IntSize& aSizeCbCr, YUVColorSpace aYUVColorSpace) { if (!aHandleY || !aHandleCb || !aHandleCr || !aTextureY || !aTextureCb || !aTextureCr) { return nullptr; } DXGIYCbCrTextureData* texture = new DXGIYCbCrTextureData(); texture->mHandles[0] = aHandleY; texture->mHandles[1] = aHandleCb; texture->mHandles[2] = aHandleCr; texture->mD3D9Textures[0] = aTextureY; texture->mD3D9Textures[1] = aTextureCb; texture->mD3D9Textures[2] = aTextureCr; texture->mSize = aSize; texture->mSizeY = aSizeY; texture->mSizeCbCr = aSizeCbCr; texture->mYUVColorSpace = aYUVColorSpace; return texture; } DXGIYCbCrTextureData* DXGIYCbCrTextureData::Create(ID3D11Texture2D* aTextureY, ID3D11Texture2D* aTextureCb, ID3D11Texture2D* aTextureCr, const gfx::IntSize& aSize, const gfx::IntSize& aSizeY, const gfx::IntSize& aSizeCbCr, YUVColorSpace aYUVColorSpace) { if (!aTextureY || !aTextureCb || !aTextureCr) { return nullptr; } aTextureY->SetPrivateDataInterface(sD3D11TextureUsage, new TextureMemoryMeasurer(aSize.width * aSize.height)); aTextureCb->SetPrivateDataInterface(sD3D11TextureUsage, new TextureMemoryMeasurer(aSizeCbCr.width * aSizeCbCr.height)); aTextureCr->SetPrivateDataInterface(sD3D11TextureUsage, new TextureMemoryMeasurer(aSizeCbCr.width * aSizeCbCr.height)); RefPtr resource; aTextureY->QueryInterface((IDXGIResource**)getter_AddRefs(resource)); HANDLE handleY; HRESULT hr = resource->GetSharedHandle(&handleY); if (FAILED(hr)) { return nullptr; } aTextureCb->QueryInterface((IDXGIResource**)getter_AddRefs(resource)); HANDLE handleCb; hr = resource->GetSharedHandle(&handleCb); if (FAILED(hr)) { return nullptr; } aTextureCr->QueryInterface((IDXGIResource**)getter_AddRefs(resource)); HANDLE handleCr; hr = resource->GetSharedHandle(&handleCr); if (FAILED(hr)) { return nullptr; } DXGIYCbCrTextureData* texture = new DXGIYCbCrTextureData(); texture->mHandles[0] = handleY; texture->mHandles[1] = handleCb; texture->mHandles[2] = handleCr; texture->mD3D11Textures[0] = aTextureY; texture->mD3D11Textures[1] = aTextureCb; texture->mD3D11Textures[2] = aTextureCr; texture->mSize = aSize; texture->mSizeY = aSizeY; texture->mSizeCbCr = aSizeCbCr; texture->mYUVColorSpace = aYUVColorSpace; return texture; } void DXGIYCbCrTextureData::FillInfo(TextureData::Info& aInfo) const { aInfo.size = mSize; aInfo.format = gfx::SurfaceFormat::YUV; aInfo.supportsMoz2D = false; aInfo.hasIntermediateBuffer = false; aInfo.hasSynchronization = false; } void DXGIYCbCrTextureData::SerializeSpecific(SurfaceDescriptorDXGIYCbCr* const aOutDesc) { *aOutDesc = SurfaceDescriptorDXGIYCbCr( (WindowsHandle)mHandles[0], (WindowsHandle)mHandles[1], (WindowsHandle)mHandles[2], mSize, mSizeY, mSizeCbCr, mYUVColorSpace ); } bool DXGIYCbCrTextureData::Serialize(SurfaceDescriptor& aOutDescriptor) { SurfaceDescriptorDXGIYCbCr desc; SerializeSpecific(&desc); aOutDescriptor = Move(desc); return true; } void DXGIYCbCrTextureData::GetSubDescriptor(GPUVideoSubDescriptor* const aOutDesc) { SurfaceDescriptorDXGIYCbCr desc; SerializeSpecific(&desc); *aOutDesc = Move(desc); } void DXGIYCbCrTextureData::Deallocate(LayersIPCChannel*) { mD3D9Textures[0] = nullptr; mD3D9Textures[1] = nullptr; mD3D9Textures[2] = nullptr; mD3D11Textures[0] = nullptr; mD3D11Textures[1] = nullptr; mD3D11Textures[2] = nullptr; } already_AddRefed CreateTextureHostD3D11(const SurfaceDescriptor& aDesc, ISurfaceAllocator* aDeallocator, LayersBackend aBackend, TextureFlags aFlags) { RefPtr result; switch (aDesc.type()) { case SurfaceDescriptor::TSurfaceDescriptorBuffer: { result = CreateBackendIndependentTextureHost(aDesc, aDeallocator, aBackend, aFlags); break; } case SurfaceDescriptor::TSurfaceDescriptorD3D10: { result = new DXGITextureHostD3D11(aFlags, aDesc.get_SurfaceDescriptorD3D10()); break; } case SurfaceDescriptor::TSurfaceDescriptorDXGIYCbCr: { result = new DXGIYCbCrTextureHostD3D11(aFlags, aDesc.get_SurfaceDescriptorDXGIYCbCr()); break; } default: { NS_WARNING("Unsupported SurfaceDescriptor type"); } } return result.forget(); } already_AddRefed D3D11TextureData::BorrowDrawTarget() { MOZ_ASSERT(NS_IsMainThread() || PaintThread::IsOnPaintThread()); if (!mDrawTarget && mTexture) { // This may return a null DrawTarget mDrawTarget = Factory::CreateDrawTargetForD3D11Texture(mTexture, mFormat); if (!mDrawTarget) { gfxCriticalNote << "Could not borrow DrawTarget (D3D11) " << (int)mFormat; } } RefPtr result = mDrawTarget; return result.forget(); } bool D3D11TextureData::UpdateFromSurface(gfx::SourceSurface* aSurface) { // Supporting texture updates after creation requires an ID3D11DeviceContext and those // aren't threadsafe. We'd need to either lock, or have a device for whatever thread // this runs on and we're trying to avoid extra devices (bug 1284672). MOZ_ASSERT(false, "UpdateFromSurface not supported for D3D11! Use CreateFromSurface instead"); return false; } DXGITextureHostD3D11::DXGITextureHostD3D11(TextureFlags aFlags, const SurfaceDescriptorD3D10& aDescriptor) : TextureHost(aFlags) , mSize(aDescriptor.size()) , mHandle(aDescriptor.handle()) , mFormat(aDescriptor.format()) , mIsLocked(false) { } bool DXGITextureHostD3D11::EnsureTexture() { RefPtr device; if (mTexture) { mTexture->GetDevice(getter_AddRefs(device)); if (device == DeviceManagerDx::Get()->GetCompositorDevice()) { NS_WARNING("Incompatible texture."); return true; } mTexture = nullptr; } device = GetDevice(); if (!device || device != DeviceManagerDx::Get()->GetCompositorDevice()) { NS_WARNING("No device or incompatible device."); return false; } HRESULT hr = device->OpenSharedResource( (HANDLE)mHandle, __uuidof(ID3D11Texture2D), (void**)(ID3D11Texture2D**)getter_AddRefs(mTexture)); if (FAILED(hr)) { NS_WARNING("Failed to open shared texture"); return false; } D3D11_TEXTURE2D_DESC desc; mTexture->GetDesc(&desc); mSize = IntSize(desc.Width, desc.Height); return true; } RefPtr DXGITextureHostD3D11::GetDevice() { if (mFlags & TextureFlags::INVALID_COMPOSITOR) { return nullptr; } if (mProvider) { return mProvider->GetD3D11Device(); } else { return mDevice; } } void DXGITextureHostD3D11::SetTextureSourceProvider(TextureSourceProvider* aProvider) { if (!aProvider || !aProvider->GetD3D11Device()) { mDevice = nullptr; mProvider = nullptr; mTextureSource = nullptr; return; } if (mDevice && (aProvider->GetD3D11Device() != mDevice)) { if (mTextureSource) { mTextureSource->Reset(); } mTextureSource = nullptr; return; } mProvider = aProvider; mDevice = aProvider->GetD3D11Device(); if (mTextureSource) { mTextureSource->SetTextureSourceProvider(aProvider); } } bool DXGITextureHostD3D11::Lock() { if (!mProvider) { // Make an early return here if we call SetTextureSourceProvider() with an // incompatible compositor. This check tries to prevent the problem where we // use that incompatible compositor to compose this texture. return false; } return LockInternal(); } bool DXGITextureHostD3D11::LockWithoutCompositor() { // Unlike the normal Lock() function, this function may be called when // mProvider is nullptr such as during WebVR frame submission. So, there is // no 'mProvider' checking here. if (!mDevice) { mDevice = DeviceManagerDx::Get()->GetCompositorDevice(); } return LockInternal(); } void DXGITextureHostD3D11::Unlock() { UnlockInternal(); } void DXGITextureHostD3D11::UnlockWithoutCompositor() { UnlockInternal(); } bool DXGITextureHostD3D11::LockInternal() { if (!GetDevice()) { NS_WARNING("trying to lock a TextureHost without a D3D device"); return false; } if (!EnsureTextureSource()) { return false; } mIsLocked = LockD3DTexture(mTextureSource->GetD3D11Texture()); return mIsLocked; } already_AddRefed DXGITextureHostD3D11::GetAsSurface() { if (!gfxVars::UseWebRender()) { return nullptr; } switch (GetFormat()) { case gfx::SurfaceFormat::R8G8B8X8: case gfx::SurfaceFormat::R8G8B8A8: case gfx::SurfaceFormat::B8G8R8A8: case gfx::SurfaceFormat::B8G8R8X8: break; default: { MOZ_ASSERT_UNREACHABLE("DXGITextureHostD3D11: unsupported format!"); return nullptr; } } AutoLockTextureHostWithoutCompositor autoLock(this); if (autoLock.Failed()) { NS_WARNING("Failed to lock the D3DTexture"); return nullptr; } RefPtr device; mTexture->GetDevice(getter_AddRefs(device)); D3D11_TEXTURE2D_DESC textureDesc = {0}; mTexture->GetDesc(&textureDesc); RefPtr context; device->GetImmediateContext(getter_AddRefs(context)); textureDesc.CPUAccessFlags = D3D11_CPU_ACCESS_READ; textureDesc.Usage = D3D11_USAGE_STAGING; textureDesc.BindFlags = 0; textureDesc.MiscFlags = 0; textureDesc.MipLevels = 1; RefPtr cpuTexture; HRESULT hr = device->CreateTexture2D(&textureDesc, nullptr, getter_AddRefs(cpuTexture)); if (FAILED(hr)) { return nullptr; } context->CopyResource(cpuTexture, mTexture); D3D11_MAPPED_SUBRESOURCE mappedSubresource; hr = context->Map(cpuTexture, 0, D3D11_MAP_READ, 0, &mappedSubresource); if (FAILED(hr)) { return nullptr; } RefPtr surf = gfx::CreateDataSourceSurfaceFromData(IntSize(textureDesc.Width, textureDesc.Height), GetFormat(), (uint8_t*)mappedSubresource.pData, mappedSubresource.RowPitch); context->Unmap(cpuTexture, 0); return surf.forget(); } bool DXGITextureHostD3D11::EnsureTextureSource() { if (mTextureSource) { return true; } if (!EnsureTexture()) { DeviceManagerDx::Get()->ForceDeviceReset(ForcedDeviceResetReason::OPENSHAREDHANDLE); return false; } if (mProvider) { if (!mProvider->IsValid()) { return false; } mTextureSource = new DataTextureSourceD3D11(mFormat, mProvider, mTexture); } else { mTextureSource = new DataTextureSourceD3D11(mDevice, mFormat, mTexture); } return true; } void DXGITextureHostD3D11::UnlockInternal() { UnlockD3DTexture(mTextureSource->GetD3D11Texture()); } bool DXGITextureHostD3D11::BindTextureSource(CompositableTextureSourceRef& aTexture) { MOZ_ASSERT(mIsLocked); // If Lock was successful we must have a valid TextureSource. MOZ_ASSERT(mTextureSource); return AcquireTextureSource(aTexture); } bool DXGITextureHostD3D11::AcquireTextureSource(CompositableTextureSourceRef& aTexture) { if (!EnsureTextureSource()) { return false; } aTexture = mTextureSource; return true; } void DXGITextureHostD3D11::CreateRenderTexture(const wr::ExternalImageId& aExternalImageId) { RefPtr texture = new wr::RenderDXGITextureHostOGL(mHandle, mFormat, mSize); wr::RenderThread::Get()->RegisterExternalImage(wr::AsUint64(aExternalImageId), texture.forget()); } uint32_t DXGITextureHostD3D11::NumSubTextures() const { switch (GetFormat()) { case gfx::SurfaceFormat::R8G8B8X8: case gfx::SurfaceFormat::R8G8B8A8: case gfx::SurfaceFormat::B8G8R8A8: case gfx::SurfaceFormat::B8G8R8X8: { return 1; } case gfx::SurfaceFormat::NV12: { return 2; } default: { MOZ_ASSERT_UNREACHABLE("unexpected format"); return 1; } } } void DXGITextureHostD3D11::PushResourceUpdates(wr::ResourceUpdateQueue& aResources, ResourceUpdateOp aOp, const Range& aImageKeys, const wr::ExternalImageId& aExtID) { MOZ_ASSERT(mHandle); auto method = aOp == TextureHost::ADD_IMAGE ? &wr::ResourceUpdateQueue::AddExternalImage : &wr::ResourceUpdateQueue::UpdateExternalImage; switch (mFormat) { case gfx::SurfaceFormat::R8G8B8X8: case gfx::SurfaceFormat::R8G8B8A8: case gfx::SurfaceFormat::B8G8R8A8: case gfx::SurfaceFormat::B8G8R8X8: { MOZ_ASSERT(aImageKeys.length() == 1); wr::ImageDescriptor descriptor(mSize, GetFormat()); auto bufferType = wr::WrExternalImageBufferType::TextureExternalHandle; (aResources.*method)(aImageKeys[0], descriptor, aExtID, bufferType, 0); break; } case gfx::SurfaceFormat::NV12: { MOZ_ASSERT(aImageKeys.length() == 2); MOZ_ASSERT(mSize.width % 2 == 0); MOZ_ASSERT(mSize.height % 2 == 0); wr::ImageDescriptor descriptor0(mSize, gfx::SurfaceFormat::A8); wr::ImageDescriptor descriptor1(mSize / 2, gfx::SurfaceFormat::R8G8); auto bufferType = wr::WrExternalImageBufferType::TextureExternalHandle; (aResources.*method)(aImageKeys[0], descriptor0, aExtID, bufferType, 0); (aResources.*method)(aImageKeys[1], descriptor1, aExtID, bufferType, 1); break; } default: { MOZ_ASSERT_UNREACHABLE("unexpected to be called"); } } } void DXGITextureHostD3D11::PushDisplayItems(wr::DisplayListBuilder& aBuilder, const wr::LayoutRect& aBounds, const wr::LayoutRect& aClip, wr::ImageRendering aFilter, const Range& aImageKeys) { switch (GetFormat()) { case gfx::SurfaceFormat::R8G8B8X8: case gfx::SurfaceFormat::R8G8B8A8: case gfx::SurfaceFormat::B8G8R8A8: case gfx::SurfaceFormat::B8G8R8X8: { MOZ_ASSERT(aImageKeys.length() == 1); aBuilder.PushImage(aBounds, aClip, true, aFilter, aImageKeys[0], !(mFlags & TextureFlags::NON_PREMULTIPLIED)); break; } case gfx::SurfaceFormat::NV12: { MOZ_ASSERT(aImageKeys.length() == 2); aBuilder.PushNV12Image(aBounds, aClip, true, aImageKeys[0], aImageKeys[1], wr::ToWrYuvColorSpace(YUVColorSpace::BT601), aFilter); break; } default: { MOZ_ASSERT_UNREACHABLE("unexpected to be called"); } } } DXGIYCbCrTextureHostD3D11::DXGIYCbCrTextureHostD3D11(TextureFlags aFlags, const SurfaceDescriptorDXGIYCbCr& aDescriptor) : TextureHost(aFlags) , mSize(aDescriptor.size()) , mSizeCbCr(aDescriptor.sizeCbCr()) , mIsLocked(false) , mYUVColorSpace(aDescriptor.yUVColorSpace()) { mHandles[0] = aDescriptor.handleY(); mHandles[1] = aDescriptor.handleCb(); mHandles[2] = aDescriptor.handleCr(); } bool DXGIYCbCrTextureHostD3D11::EnsureTexture() { RefPtr device; if (mTextures[0]) { mTextures[0]->GetDevice(getter_AddRefs(device)); if (device == DeviceManagerDx::Get()->GetCompositorDevice()) { NS_WARNING("Incompatible texture."); return true; } mTextures[0] = nullptr; mTextures[1] = nullptr; mTextures[2] = nullptr; } if (!GetDevice() || GetDevice() != DeviceManagerDx::Get()->GetCompositorDevice()) { NS_WARNING("No device or incompatible device."); return false; } device = GetDevice(); RefPtr textures[3]; HRESULT hr = device->OpenSharedResource((HANDLE)mHandles[0], __uuidof(ID3D11Texture2D), (void**)(ID3D11Texture2D**)getter_AddRefs(textures[0])); if (FAILED(hr)) { NS_WARNING("Failed to open shared texture for Y Plane"); return false; } hr = device->OpenSharedResource((HANDLE)mHandles[1], __uuidof(ID3D11Texture2D), (void**)(ID3D11Texture2D**)getter_AddRefs(textures[1])); if (FAILED(hr)) { NS_WARNING("Failed to open shared texture for Cb Plane"); return false; } hr = device->OpenSharedResource((HANDLE)mHandles[2], __uuidof(ID3D11Texture2D), (void**)(ID3D11Texture2D**)getter_AddRefs(textures[2])); if (FAILED(hr)) { NS_WARNING("Failed to open shared texture for Cr Plane"); return false; } mTextures[0] = textures[0].forget(); mTextures[1] = textures[1].forget(); mTextures[2] = textures[2].forget(); return true; } RefPtr DXGIYCbCrTextureHostD3D11::GetDevice() { if (mFlags & TextureFlags::INVALID_COMPOSITOR) { return nullptr; } return mProvider->GetD3D11Device(); } void DXGIYCbCrTextureHostD3D11::SetTextureSourceProvider(TextureSourceProvider* aProvider) { if (!aProvider || !aProvider->GetD3D11Device()) { mProvider = nullptr; mTextureSources[0] = nullptr; mTextureSources[1] = nullptr; mTextureSources[2] = nullptr; return; } mProvider = aProvider; if (mTextureSources[0]) { mTextureSources[0]->SetTextureSourceProvider(aProvider); } } bool DXGIYCbCrTextureHostD3D11::Lock() { if (!EnsureTextureSource()) { return false; } mIsLocked = LockD3DTexture(mTextureSources[0]->GetD3D11Texture()) && LockD3DTexture(mTextureSources[1]->GetD3D11Texture()) && LockD3DTexture(mTextureSources[2]->GetD3D11Texture()); return mIsLocked; } bool DXGIYCbCrTextureHostD3D11::EnsureTextureSource() { if (!mProvider) { NS_WARNING("no suitable compositor"); return false; } if (!GetDevice()) { NS_WARNING("trying to lock a TextureHost without a D3D device"); return false; } if (!mTextureSources[0]) { if (!EnsureTexture()) { return false; } MOZ_ASSERT(mTextures[1] && mTextures[2]); mTextureSources[0] = new DataTextureSourceD3D11(SurfaceFormat::A8, mProvider, mTextures[0]); mTextureSources[1] = new DataTextureSourceD3D11(SurfaceFormat::A8, mProvider, mTextures[1]); mTextureSources[2] = new DataTextureSourceD3D11(SurfaceFormat::A8, mProvider, mTextures[2]); mTextureSources[0]->SetNextSibling(mTextureSources[1]); mTextureSources[1]->SetNextSibling(mTextureSources[2]); } return true; } void DXGIYCbCrTextureHostD3D11::Unlock() { MOZ_ASSERT(mIsLocked); UnlockD3DTexture(mTextureSources[0]->GetD3D11Texture()); UnlockD3DTexture(mTextureSources[1]->GetD3D11Texture()); UnlockD3DTexture(mTextureSources[2]->GetD3D11Texture()); mIsLocked = false; } bool DXGIYCbCrTextureHostD3D11::BindTextureSource(CompositableTextureSourceRef& aTexture) { MOZ_ASSERT(mIsLocked); // If Lock was successful we must have a valid TextureSource. MOZ_ASSERT(mTextureSources[0] && mTextureSources[1] && mTextureSources[2]); aTexture = mTextureSources[0].get(); return !!aTexture; } void DXGIYCbCrTextureHostD3D11::CreateRenderTexture(const wr::ExternalImageId& aExternalImageId) { RefPtr texture = new wr::RenderDXGIYCbCrTextureHostOGL(mHandles, mSize, mSizeCbCr); wr::RenderThread::Get()->RegisterExternalImage(wr::AsUint64(aExternalImageId), texture.forget()); } uint32_t DXGIYCbCrTextureHostD3D11::NumSubTextures() const { // ycbcr use 3 sub textures. return 3; } void DXGIYCbCrTextureHostD3D11::PushResourceUpdates(wr::ResourceUpdateQueue& aResources, ResourceUpdateOp aOp, const Range& aImageKeys, const wr::ExternalImageId& aExtID) { MOZ_ASSERT(mHandles[0] && mHandles[1] && mHandles[2]); MOZ_ASSERT(aImageKeys.length() == 3); MOZ_ASSERT(mSize.width % 2 == 0); MOZ_ASSERT(mSize.height % 2 == 0); auto method = aOp == TextureHost::ADD_IMAGE ? &wr::ResourceUpdateQueue::AddExternalImage : &wr::ResourceUpdateQueue::UpdateExternalImage; auto bufferType = wr::WrExternalImageBufferType::TextureExternalHandle; // y wr::ImageDescriptor descriptor0(mSize, gfx::SurfaceFormat::A8); // cb and cr wr::ImageDescriptor descriptor1(mSizeCbCr, gfx::SurfaceFormat::A8); (aResources.*method)(aImageKeys[0], descriptor0, aExtID, bufferType, 0); (aResources.*method)(aImageKeys[1], descriptor1, aExtID, bufferType, 1); (aResources.*method)(aImageKeys[2], descriptor1, aExtID, bufferType, 2); } void DXGIYCbCrTextureHostD3D11::PushDisplayItems(wr::DisplayListBuilder& aBuilder, const wr::LayoutRect& aBounds, const wr::LayoutRect& aClip, wr::ImageRendering aFilter, const Range& aImageKeys) { MOZ_ASSERT(aImageKeys.length() == 3); aBuilder.PushYCbCrPlanarImage(aBounds, aClip, true, aImageKeys[0], aImageKeys[1], aImageKeys[2], wr::ToWrYuvColorSpace(mYUVColorSpace), aFilter); } bool DXGIYCbCrTextureHostD3D11::AcquireTextureSource(CompositableTextureSourceRef& aTexture) { if (!EnsureTextureSource()) { return false; } aTexture = mTextureSources[0].get(); return !!aTexture; } bool DataTextureSourceD3D11::Update(DataSourceSurface* aSurface, nsIntRegion* aDestRegion, IntPoint* aSrcOffset) { // Incremental update with a source offset is only used on Mac so it is not // clear that we ever will need to support it for D3D. MOZ_ASSERT(!aSrcOffset); MOZ_ASSERT(aSurface); MOZ_ASSERT(mAllowTextureUploads); if (!mAllowTextureUploads) { return false; } HRESULT hr; if (!mDevice) { return false; } uint32_t bpp = BytesPerPixel(aSurface->GetFormat()); DXGI_FORMAT dxgiFormat = SurfaceFormatToDXGIFormat(aSurface->GetFormat()); mSize = aSurface->GetSize(); mFormat = aSurface->GetFormat(); CD3D11_TEXTURE2D_DESC desc(dxgiFormat, mSize.width, mSize.height, 1, 1); int32_t maxSize = GetMaxTextureSizeFromDevice(mDevice); if ((mSize.width <= maxSize && mSize.height <= maxSize) || (mFlags & TextureFlags::DISALLOW_BIGIMAGE)) { if (mTexture) { D3D11_TEXTURE2D_DESC currentDesc; mTexture->GetDesc(¤tDesc); // Make sure there's no size mismatch, if there is, recreate. if (currentDesc.Width != mSize.width || currentDesc.Height != mSize.height || currentDesc.Format != dxgiFormat) { mTexture = nullptr; // Make sure we upload the whole surface. aDestRegion = nullptr; } } nsIntRegion *regionToUpdate = aDestRegion; if (!mTexture) { hr = mDevice->CreateTexture2D(&desc, nullptr, getter_AddRefs(mTexture)); mIsTiled = false; if (FAILED(hr) || !mTexture) { Reset(); return false; } if (mFlags & TextureFlags::COMPONENT_ALPHA) { regionToUpdate = nullptr; } } DataSourceSurface::MappedSurface map; if (!aSurface->Map(DataSourceSurface::MapType::READ, &map)) { gfxCriticalError() << "Failed to map surface."; Reset(); return false; } RefPtr context; mDevice->GetImmediateContext(getter_AddRefs(context)); if (regionToUpdate) { for (auto iter = regionToUpdate->RectIter(); !iter.Done(); iter.Next()) { const IntRect& rect = iter.Get(); D3D11_BOX box; box.front = 0; box.back = 1; box.left = rect.X(); box.top = rect.Y(); box.right = rect.XMost(); box.bottom = rect.YMost(); void* data = map.mData + map.mStride * rect.Y() + BytesPerPixel(aSurface->GetFormat()) * rect.X(); context->UpdateSubresource(mTexture, 0, &box, data, map.mStride, map.mStride * rect.Height()); } } else { context->UpdateSubresource(mTexture, 0, nullptr, map.mData, map.mStride, map.mStride * mSize.height); } aSurface->Unmap(); } else { mIsTiled = true; uint32_t tileCount = GetRequiredTilesD3D11(mSize.width, maxSize) * GetRequiredTilesD3D11(mSize.height, maxSize); mTileTextures.resize(tileCount); mTileSRVs.resize(tileCount); mTexture = nullptr; DataSourceSurface::ScopedMap map(aSurface, DataSourceSurface::READ); if (!map.IsMapped()) { gfxCriticalError() << "Failed to map surface."; Reset(); return false; } for (uint32_t i = 0; i < tileCount; i++) { IntRect tileRect = GetTileRect(i); desc.Width = tileRect.Width(); desc.Height = tileRect.Height(); desc.Usage = D3D11_USAGE_IMMUTABLE; D3D11_SUBRESOURCE_DATA initData; initData.pSysMem = map.GetData() + tileRect.Y() * map.GetStride() + tileRect.X() * bpp; initData.SysMemPitch = map.GetStride(); hr = mDevice->CreateTexture2D(&desc, &initData, getter_AddRefs(mTileTextures[i])); if (FAILED(hr) || !mTileTextures[i]) { Reset(); return false; } } } return true; } ID3D11Texture2D* DataTextureSourceD3D11::GetD3D11Texture() const { return mIterating ? mTileTextures[mCurrentTile] : mTexture; } RefPtr DataTextureSourceD3D11::ExtractCurrentTile() { MOZ_ASSERT(mIterating); return new DataTextureSourceD3D11(mDevice, mFormat, mTileTextures[mCurrentTile]); } ID3D11ShaderResourceView* DataTextureSourceD3D11::GetShaderResourceView() { if (mIterating) { if (!mTileSRVs[mCurrentTile]) { if (!mTileTextures[mCurrentTile]) { return nullptr; } RefPtr device; mTileTextures[mCurrentTile]->GetDevice(getter_AddRefs(device)); HRESULT hr = device->CreateShaderResourceView(mTileTextures[mCurrentTile], nullptr, getter_AddRefs(mTileSRVs[mCurrentTile])); if (FAILED(hr)) { gfxCriticalNote << "[D3D11] DataTextureSourceD3D11:GetShaderResourceView CreateSRV failure " << gfx::hexa(hr); return nullptr; } } return mTileSRVs[mCurrentTile]; } return TextureSourceD3D11::GetShaderResourceView(); } void DataTextureSourceD3D11::Reset() { mTexture = nullptr; mTileSRVs.resize(0); mTileTextures.resize(0); mIsTiled = false; mSize.width = 0; mSize.height = 0; } IntRect DataTextureSourceD3D11::GetTileRect(uint32_t aIndex) const { return GetTileRectD3D11(aIndex, mSize, GetMaxTextureSizeFromDevice(mDevice)); } IntRect DataTextureSourceD3D11::GetTileRect() { IntRect rect = GetTileRect(mCurrentTile); return IntRect(rect.X(), rect.Y(), rect.Width(), rect.Height()); } CompositingRenderTargetD3D11::CompositingRenderTargetD3D11(ID3D11Texture2D* aTexture, const gfx::IntPoint& aOrigin, DXGI_FORMAT aFormatOverride) : CompositingRenderTarget(aOrigin) { MOZ_ASSERT(aTexture); mTexture = aTexture; RefPtr device; mTexture->GetDevice(getter_AddRefs(device)); mFormatOverride = aFormatOverride; // If we happen to have a typeless underlying DXGI surface, we need to be explicit // about the format here. (Such a surface could come from an external source, such // as the Oculus compositor) CD3D11_RENDER_TARGET_VIEW_DESC rtvDesc(D3D11_RTV_DIMENSION_TEXTURE2D, mFormatOverride); D3D11_RENDER_TARGET_VIEW_DESC *desc = aFormatOverride == DXGI_FORMAT_UNKNOWN ? nullptr : &rtvDesc; HRESULT hr = device->CreateRenderTargetView(mTexture, desc, getter_AddRefs(mRTView)); if (FAILED(hr)) { LOGD3D11("Failed to create RenderTargetView."); } } void CompositingRenderTargetD3D11::BindRenderTarget(ID3D11DeviceContext* aContext) { if (mClearOnBind) { FLOAT clear[] = { 0, 0, 0, 0 }; aContext->ClearRenderTargetView(mRTView, clear); mClearOnBind = false; } ID3D11RenderTargetView* view = mRTView; aContext->OMSetRenderTargets(1, &view, nullptr); } IntSize CompositingRenderTargetD3D11::GetSize() const { return TextureSourceD3D11::GetSize(); } static inline bool ShouldDevCrashOnSyncInitFailure() { // Compositor shutdown does not wait for video decoding to finish, so it is // possible for the compositor to destroy the SyncObject before video has a // chance to initialize it. if (!NS_IsMainThread()) { return false; } // Note: CompositorIsInGPUProcess is a main-thread-only function. return !CompositorBridgeChild::CompositorIsInGPUProcess() && !DeviceManagerDx::Get()->HasDeviceReset(); } SyncObjectD3D11Host::SyncObjectD3D11Host(ID3D11Device* aDevice) : mSyncHandle(0) , mDevice(aDevice) { MOZ_ASSERT(aDevice); } bool SyncObjectD3D11Host::Init() { CD3D11_TEXTURE2D_DESC desc(DXGI_FORMAT_B8G8R8A8_UNORM, 1, 1, 1, 1, D3D11_BIND_SHADER_RESOURCE | D3D11_BIND_RENDER_TARGET); desc.MiscFlags = D3D11_RESOURCE_MISC_SHARED_KEYEDMUTEX; RefPtr texture; HRESULT hr = mDevice->CreateTexture2D(&desc, nullptr, getter_AddRefs(texture)); if (FAILED(hr) || !texture) { gfxWarning() << "Could not create a sync texture: " << gfx::hexa(hr); return false; } hr = texture->QueryInterface((IDXGIResource**)getter_AddRefs(mSyncTexture)); if (FAILED(hr) || !mSyncTexture) { gfxWarning() << "Could not QI sync texture: " << gfx::hexa(hr); return false; } hr = mSyncTexture->QueryInterface((IDXGIKeyedMutex**)getter_AddRefs(mKeyedMutex)); if (FAILED(hr) || !mKeyedMutex) { gfxWarning() << "Could not QI keyed-mutex: " << gfx::hexa(hr); return false; } hr = mSyncTexture->GetSharedHandle(&mSyncHandle); if (FAILED(hr) || !mSyncHandle) { NS_DispatchToMainThread(NS_NewRunnableFunction("layers::SyncObjectD3D11Renderer::Init", [] () -> void { Accumulate(Telemetry::D3D11_SYNC_HANDLE_FAILURE, 1); })); gfxWarning() << "Could not get sync texture shared handle: " << gfx::hexa(hr); return false; } return true; } SyncHandle SyncObjectD3D11Host::GetSyncHandle() { return mSyncHandle; } bool SyncObjectD3D11Host::Synchronize() { HRESULT hr; AutoTextureLock lock(mKeyedMutex, hr, 10000); if (hr == WAIT_TIMEOUT) { hr = mDevice->GetDeviceRemovedReason(); if (hr == S_OK) { // There is no driver-removed event. Crash with this timeout. MOZ_CRASH("GFX: D3D11 normal status timeout"); } // Since the timeout is related to the driver-removed. Return false for // error handling. gfxCriticalNote << "GFX: D3D11 timeout with device-removed:" << gfx::hexa(hr); return false; } if (hr == WAIT_ABANDONED) { gfxCriticalNote << "GFX: AL_D3D11 abandoned sync"; } return true; } SyncObjectD3D11Client::SyncObjectD3D11Client(SyncHandle aSyncHandle, ID3D11Device* aDevice) : mSyncHandle(aSyncHandle) , mSyncLock("SyncObjectD3D11") { if (!aDevice) { mDevice = DeviceManagerDx::Get()->GetContentDevice(); return; } mDevice = aDevice; } bool SyncObjectD3D11Client::Init(bool aFallible) { if (mKeyedMutex) { return true; } HRESULT hr = mDevice->OpenSharedResource( mSyncHandle, __uuidof(ID3D11Texture2D), (void**)(ID3D11Texture2D**)getter_AddRefs(mSyncTexture)); if (FAILED(hr) || !mSyncTexture) { gfxCriticalNote << "Failed to OpenSharedResource for SyncObjectD3D11: " << hexa(hr); if (!aFallible && ShouldDevCrashOnSyncInitFailure()) { gfxDevCrash(LogReason::D3D11FinalizeFrame) << "Without device reset: " << hexa(hr); } return false; } hr = mSyncTexture->QueryInterface(__uuidof(IDXGIKeyedMutex), getter_AddRefs(mKeyedMutex)); if (FAILED(hr) || !mKeyedMutex) { // Leave both the critical error and MOZ_CRASH for now; the critical error lets // us "save" the hr value. We will probably eventually replace this with gfxDevCrash. if (!aFallible) { gfxCriticalError() << "Failed to get KeyedMutex (2): " << hexa(hr); MOZ_CRASH("GFX: Cannot get D3D11 KeyedMutex"); } else { gfxCriticalNote << "Failed to get KeyedMutex (3): " << hexa(hr); } return false; } return true; } void SyncObjectD3D11Client::RegisterTexture(ID3D11Texture2D* aTexture) { mSyncedTextures.push_back(aTexture); } bool SyncObjectD3D11Client::IsSyncObjectValid() { RefPtr dev = DeviceManagerDx::Get()->GetContentDevice(); if (!dev || (NS_IsMainThread() && dev != mDevice)) { return false; } return true; } // We have only 1 sync object. As a thing that somehow works, // we copy each of the textures that need to be synced with the compositor // into our sync object and only use a lock for this sync object. // This way, we don't have to sync every texture we send to the compositor. // We only have to do this once per transaction. bool SyncObjectD3D11Client::Synchronize(bool aFallible) { // Since this can be called from either the Paint or Main thread. // We don't want this to race since we initialize the sync texture here // too. MutexAutoLock syncLock(mSyncLock); if (!mSyncedTextures.size()) { return true; } if (!Init(aFallible)) { return false; } HRESULT hr; AutoTextureLock lock(mKeyedMutex, hr, 20000); if (hr == WAIT_TIMEOUT) { if (DeviceManagerDx::Get()->HasDeviceReset()) { gfxWarning() << "AcquireSync timed out because of device reset."; return false; } if (aFallible) { gfxWarning() << "Timeout on the D3D11 sync lock."; } else { gfxDevCrash(LogReason::D3D11SyncLock) << "Timeout on the D3D11 sync lock."; } return false; } D3D11_BOX box; box.front = box.top = box.left = 0; box.back = box.bottom = box.right = 1; RefPtr dev; mSyncTexture->GetDevice(getter_AddRefs(dev)); if (dev == DeviceManagerDx::Get()->GetContentDevice()) { if (DeviceManagerDx::Get()->HasDeviceReset()) { return false; } } if (dev != mDevice) { gfxWarning() << "Attempt to sync texture from invalid device."; return false; } RefPtr ctx; dev->GetImmediateContext(getter_AddRefs(ctx)); for (auto iter = mSyncedTextures.begin(); iter != mSyncedTextures.end(); iter++) { ctx->CopySubresourceRegion(mSyncTexture, 0, 0, 0, 0, *iter, 0, &box); } mSyncedTextures.clear(); return true; } uint32_t GetMaxTextureSizeFromDevice(ID3D11Device* aDevice) { return GetMaxTextureSizeForFeatureLevel(aDevice->GetFeatureLevel()); } AutoLockD3D11Texture::AutoLockD3D11Texture(ID3D11Texture2D* aTexture) { aTexture->QueryInterface((IDXGIKeyedMutex**)getter_AddRefs(mMutex)); if (!mMutex) { return; } HRESULT hr = mMutex->AcquireSync(0, 10000); if (hr == WAIT_TIMEOUT) { MOZ_CRASH("GFX: IMFYCbCrImage timeout"); } if (FAILED(hr)) { NS_WARNING("Failed to lock the texture"); } } AutoLockD3D11Texture::~AutoLockD3D11Texture() { if (!mMutex) { return; } HRESULT hr = mMutex->ReleaseSync(0); if (FAILED(hr)) { NS_WARNING("Failed to unlock the texture"); } } } // namespace layers } // namespace mozilla