// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "content/renderer/pepper/ppb_image_data_impl.h" #include #include #include "base/logging.h" #include "base/memory/scoped_ptr.h" #include "content/common/pepper_file_util.h" #include "content/common/view_messages.h" #include "content/renderer/render_thread_impl.h" #include "ppapi/c/pp_errors.h" #include "ppapi/c/pp_instance.h" #include "ppapi/c/pp_resource.h" #include "ppapi/c/ppb_image_data.h" #include "ppapi/thunk/thunk.h" #include "skia/ext/platform_canvas.h" #include "third_party/skia/include/core/SkCanvas.h" #include "third_party/skia/include/core/SkColorPriv.h" #include "third_party/skia/include/core/SkDevice.h" #include "third_party/skia/include/core/SkPixmap.h" #include "ui/surface/transport_dib.h" using ppapi::thunk::PPB_ImageData_API; namespace content { PPB_ImageData_Impl::PPB_ImageData_Impl(PP_Instance instance, PPB_ImageData_Shared::ImageDataType type) : Resource(ppapi::OBJECT_IS_IMPL, instance), format_(PP_IMAGEDATAFORMAT_BGRA_PREMUL), width_(0), height_(0) { switch (type) { case PPB_ImageData_Shared::PLATFORM: backend_.reset(new ImageDataPlatformBackend()); return; case PPB_ImageData_Shared::SIMPLE: backend_.reset(new ImageDataSimpleBackend); return; // No default: so that we get a compiler warning if any types are added. } NOTREACHED(); } PPB_ImageData_Impl::PPB_ImageData_Impl(PP_Instance instance, ForTest) : Resource(ppapi::OBJECT_IS_IMPL, instance), format_(PP_IMAGEDATAFORMAT_BGRA_PREMUL), width_(0), height_(0) { backend_.reset(new ImageDataPlatformBackend()); } PPB_ImageData_Impl::~PPB_ImageData_Impl() {} bool PPB_ImageData_Impl::Init(PP_ImageDataFormat format, int width, int height, bool init_to_zero) { // TODO(brettw) this should be called only on the main thread! if (!IsImageDataFormatSupported(format)) return false; // Only support this one format for now. if (width <= 0 || height <= 0) return false; if (static_cast(width) * static_cast(height) >= std::numeric_limits::max() / 4) return false; // Prevent overflow of signed 32-bit ints. format_ = format; width_ = width; height_ = height; return backend_->Init(this, format, width, height, init_to_zero); } // static PP_Resource PPB_ImageData_Impl::Create(PP_Instance instance, PPB_ImageData_Shared::ImageDataType type, PP_ImageDataFormat format, const PP_Size& size, PP_Bool init_to_zero) { scoped_refptr data( new PPB_ImageData_Impl(instance, type)); if (!data->Init(format, size.width, size.height, !!init_to_zero)) return 0; return data->GetReference(); } PPB_ImageData_API* PPB_ImageData_Impl::AsPPB_ImageData_API() { return this; } bool PPB_ImageData_Impl::IsMapped() const { return backend_->IsMapped(); } TransportDIB* PPB_ImageData_Impl::GetTransportDIB() const { return backend_->GetTransportDIB(); } PP_Bool PPB_ImageData_Impl::Describe(PP_ImageDataDesc* desc) { desc->format = format_; desc->size.width = width_; desc->size.height = height_; desc->stride = width_ * 4; return PP_TRUE; } void* PPB_ImageData_Impl::Map() { return backend_->Map(); } void PPB_ImageData_Impl::Unmap() { backend_->Unmap(); } int32_t PPB_ImageData_Impl::GetSharedMemory(base::SharedMemory** shm, uint32_t* byte_count) { return backend_->GetSharedMemory(shm, byte_count); } SkCanvas* PPB_ImageData_Impl::GetPlatformCanvas() { return backend_->GetPlatformCanvas(); } SkCanvas* PPB_ImageData_Impl::GetCanvas() { return backend_->GetCanvas(); } void PPB_ImageData_Impl::SetIsCandidateForReuse() { // Nothing to do since we don't support image data re-use in-process. } const SkBitmap* PPB_ImageData_Impl::GetMappedBitmap() const { return backend_->GetMappedBitmap(); } // ImageDataPlatformBackend ---------------------------------------------------- ImageDataPlatformBackend::ImageDataPlatformBackend() : width_(0), height_(0) { } ImageDataPlatformBackend::~ImageDataPlatformBackend() { } bool ImageDataPlatformBackend::Init(PPB_ImageData_Impl* impl, PP_ImageDataFormat format, int width, int height, bool init_to_zero) { // TODO(brettw) use init_to_zero when we implement caching. width_ = width; height_ = height; uint32_t buffer_size = width_ * height_ * 4; scoped_ptr shared_memory = RenderThread::Get()->HostAllocateSharedMemoryBuffer(buffer_size); if (!shared_memory) return false; // The TransportDIB is always backed by shared memory, so give the shared // memory handle to it. base::SharedMemoryHandle handle; if (!shared_memory->GiveToProcess(base::GetCurrentProcessHandle(), &handle)) return false; dib_.reset(TransportDIB::CreateWithHandle(handle)); return !!dib_; } bool ImageDataPlatformBackend::IsMapped() const { return !!mapped_canvas_.get(); } TransportDIB* ImageDataPlatformBackend::GetTransportDIB() const { return dib_.get(); } void* ImageDataPlatformBackend::Map() { if (!mapped_canvas_) { const bool is_opaque = false; mapped_canvas_ = skia::AdoptRef(dib_->GetPlatformCanvas(width_, height_, is_opaque)); if (!mapped_canvas_) return NULL; } SkPixmap pixmap; skia::GetWritablePixels(mapped_canvas_.get(), &pixmap); DCHECK(pixmap.addr()); // SkPixmap does not manage the lifetime of this pointer, so it remains // valid after the object goes out of scope. It will become invalid if // the canvas' backing is destroyed or a pending saveLayer() is resolved. return pixmap.writable_addr32(0, 0); } void ImageDataPlatformBackend::Unmap() { // This is currently unimplemented, which is OK. The data will just always // be around once it's mapped. Chrome's TransportDIB isn't currently // unmappable without freeing it, but this may be something we want to support // in the future to save some memory. } int32_t ImageDataPlatformBackend::GetSharedMemory(base::SharedMemory** shm, uint32_t* byte_count) { *byte_count = dib_->size(); *shm = dib_->shared_memory(); return PP_OK; } SkCanvas* ImageDataPlatformBackend::GetPlatformCanvas() { return mapped_canvas_.get(); } SkCanvas* ImageDataPlatformBackend::GetCanvas() { return mapped_canvas_.get(); } const SkBitmap* ImageDataPlatformBackend::GetMappedBitmap() const { if (!mapped_canvas_) return NULL; return &skia::GetTopDevice(*mapped_canvas_)->accessBitmap(false); } // ImageDataSimpleBackend ------------------------------------------------------ ImageDataSimpleBackend::ImageDataSimpleBackend() : map_count_(0) {} ImageDataSimpleBackend::~ImageDataSimpleBackend() {} bool ImageDataSimpleBackend::Init(PPB_ImageData_Impl* impl, PP_ImageDataFormat format, int width, int height, bool init_to_zero) { skia_bitmap_.setInfo( SkImageInfo::MakeN32Premul(impl->width(), impl->height())); shared_memory_.reset( RenderThread::Get() ->HostAllocateSharedMemoryBuffer(skia_bitmap_.getSize()) .release()); return !!shared_memory_.get(); } bool ImageDataSimpleBackend::IsMapped() const { return map_count_ > 0; } TransportDIB* ImageDataSimpleBackend::GetTransportDIB() const { return NULL; } void* ImageDataSimpleBackend::Map() { DCHECK(shared_memory_.get()); if (map_count_++ == 0) { shared_memory_->Map(skia_bitmap_.getSize()); skia_bitmap_.setPixels(shared_memory_->memory()); // Our platform bitmaps are set to opaque by default, which we don't want. skia_bitmap_.setAlphaType(kPremul_SkAlphaType); skia_canvas_ = skia::AdoptRef(new SkCanvas(skia_bitmap_)); return skia_bitmap_.getAddr32(0, 0); } return shared_memory_->memory(); } void ImageDataSimpleBackend::Unmap() { if (--map_count_ == 0) shared_memory_->Unmap(); } int32_t ImageDataSimpleBackend::GetSharedMemory(base::SharedMemory** shm, uint32_t* byte_count) { *byte_count = skia_bitmap_.getSize(); *shm = shared_memory_.get(); return PP_OK; } SkCanvas* ImageDataSimpleBackend::GetPlatformCanvas() { return NULL; } SkCanvas* ImageDataSimpleBackend::GetCanvas() { if (!IsMapped()) return NULL; return skia_canvas_.get(); } const SkBitmap* ImageDataSimpleBackend::GetMappedBitmap() const { if (!IsMapped()) return NULL; return &skia_bitmap_; } } // namespace content