/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- * vim: sw=2 ts=8 et : */ /* 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 "ISurfaceAllocator.h" #include // for int32_t #include "gfx2DGlue.h" // for IntSize #include "gfxPlatform.h" // for gfxPlatform, gfxImageFormat #include "gfxSharedImageSurface.h" // for gfxSharedImageSurface #include "mozilla/Assertions.h" // for MOZ_ASSERT, etc #include "mozilla/Atomics.h" // for PrimitiveIntrinsics #include "mozilla/ipc/SharedMemory.h" // for SharedMemory, etc #include "mozilla/layers/LayersSurfaces.h" // for SurfaceDescriptor, etc #include "mozilla/layers/SharedBufferManagerChild.h" #include "ShadowLayerUtils.h" #include "mozilla/mozalloc.h" // for operator delete[], etc #include "nsAutoPtr.h" // for nsRefPtr, getter_AddRefs, etc #include "nsDebug.h" // for NS_RUNTIMEABORT #include "nsXULAppAPI.h" // for XRE_GetProcessType, etc #include "mozilla/ipc/Shmem.h" #include "mozilla/layers/ImageDataSerializer.h" #ifdef DEBUG #include "prenv.h" #endif using namespace mozilla::ipc; namespace mozilla { namespace layers { NS_IMPL_ISUPPORTS(GfxMemoryImageReporter, nsIMemoryReporter) mozilla::Atomic GfxMemoryImageReporter::sAmount(0); mozilla::ipc::SharedMemory::SharedMemoryType OptimalShmemType() { return mozilla::ipc::SharedMemory::TYPE_BASIC; } bool IsSurfaceDescriptorValid(const SurfaceDescriptor& aSurface) { return aSurface.type() != SurfaceDescriptor::T__None && aSurface.type() != SurfaceDescriptor::Tnull_t; } ISurfaceAllocator::~ISurfaceAllocator() { // Check if we're not leaking.. MOZ_ASSERT(mUsedShmems.empty()); } void ISurfaceAllocator::Finalize() { ShrinkShmemSectionHeap(); } static inline uint8_t* GetAddressFromDescriptor(const SurfaceDescriptor& aDescriptor, size_t& aSize) { MOZ_ASSERT(IsSurfaceDescriptorValid(aDescriptor)); MOZ_ASSERT(aDescriptor.type() == SurfaceDescriptor::TSurfaceDescriptorShmem || aDescriptor.type() == SurfaceDescriptor::TSurfaceDescriptorMemory); if (aDescriptor.type() == SurfaceDescriptor::TSurfaceDescriptorShmem) { Shmem shmem(aDescriptor.get_SurfaceDescriptorShmem().data()); aSize = shmem.Size(); return shmem.get(); } else { const SurfaceDescriptorMemory& image = aDescriptor.get_SurfaceDescriptorMemory(); aSize = std::numeric_limits::max(); return reinterpret_cast(image.data()); } } TemporaryRef GetDrawTargetForDescriptor(const SurfaceDescriptor& aDescriptor, gfx::BackendType aBackend) { size_t size; uint8_t* data = GetAddressFromDescriptor(aDescriptor, size); ImageDataDeserializer image(data, size); return image.GetAsDrawTarget(aBackend); } TemporaryRef GetSurfaceForDescriptor(const SurfaceDescriptor& aDescriptor) { size_t size; uint8_t* data = GetAddressFromDescriptor(aDescriptor, size); ImageDataDeserializer image(data, size); return image.GetAsSurface(); } bool ISurfaceAllocator::AllocSurfaceDescriptor(const gfx::IntSize& aSize, gfxContentType aContent, SurfaceDescriptor* aBuffer) { return AllocSurfaceDescriptorWithCaps(aSize, aContent, DEFAULT_BUFFER_CAPS, aBuffer); } bool ISurfaceAllocator::AllocSurfaceDescriptorWithCaps(const gfx::IntSize& aSize, gfxContentType aContent, uint32_t aCaps, SurfaceDescriptor* aBuffer) { gfx::SurfaceFormat format = gfxPlatform::GetPlatform()->Optimal2DFormatForContent(aContent); size_t size = ImageDataSerializer::ComputeMinBufferSize(aSize, format); if (IsSameProcess()) { uint8_t *data = new (std::nothrow) uint8_t[size]; if (!data) { return false; } GfxMemoryImageReporter::DidAlloc(data); #ifdef XP_MACOSX // Workaround a bug in Quartz where drawing an a8 surface to another a8 // surface with OPERATOR_SOURCE still requires the destination to be clear. if (format == gfx::SurfaceFormat::A8) { memset(data, 0, size); } #endif *aBuffer = SurfaceDescriptorMemory((uintptr_t)data, format); } else { mozilla::ipc::SharedMemory::SharedMemoryType shmemType = OptimalShmemType(); mozilla::ipc::Shmem shmem; if (!AllocUnsafeShmem(size, shmemType, &shmem)) { return false; } *aBuffer = SurfaceDescriptorShmem(shmem, format); } uint8_t* data = GetAddressFromDescriptor(*aBuffer, size); ImageDataSerializer serializer(data, size); serializer.InitializeBufferInfo(aSize, format); return true; } /* static */ bool ISurfaceAllocator::IsShmem(SurfaceDescriptor* aSurface) { return aSurface && (aSurface->type() == SurfaceDescriptor::TSurfaceDescriptorShmem); } void ISurfaceAllocator::DestroySharedSurface(SurfaceDescriptor* aSurface) { MOZ_ASSERT(aSurface); if (!aSurface) { return; } if (!IPCOpen()) { return; } switch (aSurface->type()) { case SurfaceDescriptor::TSurfaceDescriptorShmem: DeallocShmem(aSurface->get_SurfaceDescriptorShmem().data()); break; case SurfaceDescriptor::TSurfaceDescriptorMemory: GfxMemoryImageReporter::WillFree((uint8_t*)aSurface->get_SurfaceDescriptorMemory().data()); delete [] (uint8_t*)aSurface->get_SurfaceDescriptorMemory().data(); break; case SurfaceDescriptor::Tnull_t: case SurfaceDescriptor::T__None: break; default: NS_RUNTIMEABORT("surface type not implemented!"); } *aSurface = SurfaceDescriptor(); } // XXX - We should actually figure out the minimum shmem allocation size on // a certain platform and use that. const uint32_t sShmemPageSize = 4096; const uint32_t sSupportedBlockSize = 4; enum AllocationStatus { STATUS_ALLOCATED, STATUS_FREED }; struct ShmemSectionHeapHeader { Atomic mTotalBlocks; Atomic mAllocatedBlocks; }; struct ShmemSectionHeapAllocation { Atomic mStatus; uint32_t mSize; }; bool ISurfaceAllocator::AllocShmemSection(size_t aSize, mozilla::layers::ShmemSection* aShmemSection) { // For now we only support sizes of 4. If we want to support different sizes // some more complicated bookkeeping should be added. MOZ_ASSERT(aSize == sSupportedBlockSize); MOZ_ASSERT(aShmemSection); uint32_t allocationSize = (aSize + sizeof(ShmemSectionHeapAllocation)); for (size_t i = 0; i < mUsedShmems.size(); i++) { ShmemSectionHeapHeader* header = mUsedShmems[i].get(); if ((header->mAllocatedBlocks + 1) * allocationSize + sizeof(ShmemSectionHeapHeader) < sShmemPageSize) { aShmemSection->shmem() = mUsedShmems[i]; MOZ_ASSERT(mUsedShmems[i].IsWritable()); break; } } if (!aShmemSection->shmem().IsWritable()) { ipc::Shmem tmp; if (!AllocUnsafeShmem(sShmemPageSize, ipc::SharedMemory::TYPE_BASIC, &tmp)) { return false; } ShmemSectionHeapHeader* header = tmp.get(); header->mTotalBlocks = 0; header->mAllocatedBlocks = 0; mUsedShmems.push_back(tmp); aShmemSection->shmem() = tmp; } MOZ_ASSERT(aShmemSection->shmem().IsWritable()); ShmemSectionHeapHeader* header = aShmemSection->shmem().get(); uint8_t* heap = aShmemSection->shmem().get() + sizeof(ShmemSectionHeapHeader); ShmemSectionHeapAllocation* allocHeader = nullptr; if (header->mTotalBlocks > header->mAllocatedBlocks) { // Search for the first available block. for (size_t i = 0; i < header->mTotalBlocks; i++) { allocHeader = reinterpret_cast(heap); if (allocHeader->mStatus == STATUS_FREED) { break; } heap += allocationSize; } MOZ_ASSERT(allocHeader && allocHeader->mStatus == STATUS_FREED); MOZ_ASSERT(allocHeader->mSize == sSupportedBlockSize); } else { heap += header->mTotalBlocks * allocationSize; header->mTotalBlocks++; allocHeader = reinterpret_cast(heap); allocHeader->mSize = aSize; } MOZ_ASSERT(allocHeader); header->mAllocatedBlocks++; allocHeader->mStatus = STATUS_ALLOCATED; aShmemSection->size() = aSize; aShmemSection->offset() = (heap + sizeof(ShmemSectionHeapAllocation)) - aShmemSection->shmem().get(); ShrinkShmemSectionHeap(); return true; } void ISurfaceAllocator::FreeShmemSection(mozilla::layers::ShmemSection& aShmemSection) { MOZ_ASSERT(aShmemSection.size() == sSupportedBlockSize); MOZ_ASSERT(aShmemSection.offset() < sShmemPageSize - sSupportedBlockSize); ShmemSectionHeapAllocation* allocHeader = reinterpret_cast(aShmemSection.shmem().get() + aShmemSection.offset() - sizeof(ShmemSectionHeapAllocation)); MOZ_ASSERT(allocHeader->mSize == aShmemSection.size()); DebugOnly success = allocHeader->mStatus.compareExchange(STATUS_ALLOCATED, STATUS_FREED); // If this fails something really weird is going on. MOZ_ASSERT(success); ShmemSectionHeapHeader* header = aShmemSection.shmem().get(); header->mAllocatedBlocks--; ShrinkShmemSectionHeap(); } void ISurfaceAllocator::ShrinkShmemSectionHeap() { for (size_t i = 0; i < mUsedShmems.size(); i++) { ShmemSectionHeapHeader* header = mUsedShmems[i].get(); if (header->mAllocatedBlocks == 0) { DeallocShmem(mUsedShmems[i]); // We don't particularly care about order, move the last one in the array // to this position. mUsedShmems[i] = mUsedShmems[mUsedShmems.size() - 1]; mUsedShmems.pop_back(); i--; break; } } } bool ISurfaceAllocator::AllocGrallocBuffer(const gfx::IntSize& aSize, uint32_t aFormat, uint32_t aUsage, MaybeMagicGrallocBufferHandle* aHandle) { return SharedBufferManagerChild::GetSingleton()->AllocGrallocBuffer(aSize, aFormat, aUsage, aHandle); } void ISurfaceAllocator::DeallocGrallocBuffer(MaybeMagicGrallocBufferHandle* aHandle) { SharedBufferManagerChild::GetSingleton()->DeallocGrallocBuffer(*aHandle); } } // namespace } // namespace