content/renderer/child_frame_compositing_helper.cc - chromium/chromium - Git at Google

 // Copyright 2014 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/child_frame_compositing_helper.h"

 #include "cc/layers/delegated_frame_provider.h"
 #include "cc/layers/delegated_frame_resource_collection.h"
 #include "cc/layers/delegated_renderer_layer.h"
 #include "cc/layers/solid_color_layer.h"
 #include "cc/layers/texture_layer.h"
 #include "cc/output/context_provider.h"
 #include "cc/output/copy_output_request.h"
 #include "cc/output/copy_output_result.h"
 #include "cc/resources/single_release_callback.h"
 #include "content/common/browser_plugin/browser_plugin_messages.h"
 #include "content/common/frame_messages.h"
 #include "content/common/gpu/client/context_provider_command_buffer.h"
 #include "content/renderer/browser_plugin/browser_plugin.h"
 #include "content/renderer/browser_plugin/browser_plugin_manager.h"
 #include "content/renderer/compositor_bindings/web_layer_impl.h"
 #include "content/renderer/render_frame_impl.h"
 #include "content/renderer/render_frame_proxy.h"
 #include "content/renderer/render_thread_impl.h"
 #include "skia/ext/image_operations.h"
 #include "third_party/WebKit/public/platform/WebGraphicsContext3D.h"
 #include "third_party/WebKit/public/web/WebFrame.h"
 #include "third_party/WebKit/public/web/WebPluginContainer.h"
 #include "third_party/khronos/GLES2/gl2.h"
 #include "ui/gfx/size_conversions.h"
 #include "ui/gfx/skia_util.h"

 namespace content {

 ChildFrameCompositingHelper::SwapBuffersInfo::SwapBuffersInfo()
     : route_id(0),
       output_surface_id(0),
       host_id(0),
       software_frame_id(0),
       shared_memory(NULL) {}

 ChildFrameCompositingHelper*
 ChildFrameCompositingHelper::CreateForBrowserPlugin(
     const base::WeakPtr<BrowserPlugin>& browser_plugin) {
   return new ChildFrameCompositingHelper(
       browser_plugin, NULL, NULL, browser_plugin->render_view_routing_id());
 }

 ChildFrameCompositingHelper*
 ChildFrameCompositingHelper::CreateForRenderFrameProxy(
     RenderFrameProxy* render_frame_proxy) {
   return new ChildFrameCompositingHelper(base::WeakPtr<BrowserPlugin>(),
                                          render_frame_proxy->web_frame(),
                                          render_frame_proxy,
                                          render_frame_proxy->routing_id());
 }

 ChildFrameCompositingHelper::ChildFrameCompositingHelper(
     const base::WeakPtr<BrowserPlugin>& browser_plugin,
     blink::WebFrame* frame,
     RenderFrameProxy* render_frame_proxy,
     int host_routing_id)
     : host_routing_id_(host_routing_id),
       last_route_id_(0),
       last_output_surface_id_(0),
       last_host_id_(0),
       last_mailbox_valid_(false),
       ack_pending_(true),
       software_ack_pending_(false),
       opaque_(true),
       browser_plugin_(browser_plugin),
       render_frame_proxy_(render_frame_proxy),
       frame_(frame) {}

 ChildFrameCompositingHelper::~ChildFrameCompositingHelper() {}

 BrowserPluginManager* ChildFrameCompositingHelper::GetBrowserPluginManager() {
   if (!browser_plugin_)
     return NULL;

   return browser_plugin_->browser_plugin_manager();
 }

 blink::WebPluginContainer* ChildFrameCompositingHelper::GetContainer() {
   if (!browser_plugin_)
     return NULL;

   return browser_plugin_->container();
 }

 int ChildFrameCompositingHelper::GetInstanceID() {
   if (!browser_plugin_)
     return 0;

   return browser_plugin_->guest_instance_id();
 }

 void ChildFrameCompositingHelper::SendCompositorFrameSwappedACKToBrowser(
     FrameHostMsg_CompositorFrameSwappedACK_Params& params) {
   // This function will be removed when BrowserPluginManager is removed and
   // BrowserPlugin is modified to use a RenderFrame.
   if (GetBrowserPluginManager()) {
     GetBrowserPluginManager()->Send(
         new BrowserPluginHostMsg_CompositorFrameSwappedACK(
             host_routing_id_, GetInstanceID(), params));
   } else if (render_frame_proxy_) {
     render_frame_proxy_->Send(
         new FrameHostMsg_CompositorFrameSwappedACK(host_routing_id_, params));
   }
 }

 void ChildFrameCompositingHelper::SendBuffersSwappedACKToBrowser(
     FrameHostMsg_BuffersSwappedACK_Params& params) {
   // This function will be removed when BrowserPluginManager is removed and
   // BrowserPlugin is modified to use a RenderFrame.
   if (GetBrowserPluginManager()) {
     GetBrowserPluginManager()->Send(new BrowserPluginHostMsg_BuffersSwappedACK(
         host_routing_id_, params));
   } else if (render_frame_proxy_) {
     render_frame_proxy_->Send(
         new FrameHostMsg_BuffersSwappedACK(host_routing_id_, params));
   }
 }

 void ChildFrameCompositingHelper::SendReclaimCompositorResourcesToBrowser(
     FrameHostMsg_ReclaimCompositorResources_Params& params) {
   // This function will be removed when BrowserPluginManager is removed and
   // BrowserPlugin is modified to use a RenderFrame.
   if (GetBrowserPluginManager()) {
     GetBrowserPluginManager()->Send(
         new BrowserPluginHostMsg_ReclaimCompositorResources(
             host_routing_id_, GetInstanceID(), params));
   } else if (render_frame_proxy_) {
     render_frame_proxy_->Send(
         new FrameHostMsg_ReclaimCompositorResources(host_routing_id_, params));
   }
 }

 void ChildFrameCompositingHelper::CopyFromCompositingSurface(
     int request_id,
     gfx::Rect source_rect,
     gfx::Size dest_size) {
   CHECK(background_layer_);
   scoped_ptr<cc::CopyOutputRequest> request =
       cc::CopyOutputRequest::CreateBitmapRequest(base::Bind(
           &ChildFrameCompositingHelper::CopyFromCompositingSurfaceHasResult,
           this,
           request_id,
           dest_size));
   request->set_area(source_rect);
   background_layer_->RequestCopyOfOutput(request.Pass());
 }

 void ChildFrameCompositingHelper::DidCommitCompositorFrame() {
   if (software_ack_pending_) {
     FrameHostMsg_CompositorFrameSwappedACK_Params params;
     params.producing_host_id = last_host_id_;
     params.producing_route_id = last_route_id_;
     params.output_surface_id = last_output_surface_id_;
     if (!unacked_software_frames_.empty()) {
       params.ack.last_software_frame_id = unacked_software_frames_.back();
       unacked_software_frames_.pop_back();
     }

     SendCompositorFrameSwappedACKToBrowser(params);

     software_ack_pending_ = false;
   }
   if (!resource_collection_.get() || !ack_pending_)
     return;

   FrameHostMsg_CompositorFrameSwappedACK_Params params;
   params.producing_host_id = last_host_id_;
   params.producing_route_id = last_route_id_;
   params.output_surface_id = last_output_surface_id_;
   resource_collection_->TakeUnusedResourcesForChildCompositor(
       &params.ack.resources);

   SendCompositorFrameSwappedACKToBrowser(params);

   ack_pending_ = false;
 }

 void ChildFrameCompositingHelper::EnableCompositing(bool enable) {
   if (enable && !background_layer_.get()) {
     background_layer_ = cc::SolidColorLayer::Create();
     background_layer_->SetMasksToBounds(true);
     background_layer_->SetBackgroundColor(
         SkColorSetARGBInline(255, 255, 255, 255));
     web_layer_.reset(new WebLayerImpl(background_layer_));
   }

   if (GetContainer()) {
     GetContainer()->setWebLayer(enable ? web_layer_.get() : NULL);
   } else if (frame_) {
     frame_->setRemoteWebLayer(enable ? web_layer_.get() : NULL);
   }
 }

 void ChildFrameCompositingHelper::CheckSizeAndAdjustLayerProperties(
     const gfx::Size& new_size,
     float device_scale_factor,
     cc::Layer* layer) {
   if (buffer_size_ != new_size) {
     buffer_size_ = new_size;
     // The container size is in DIP, so is the layer size.
     // Buffer size is in physical pixels, so we need to adjust
     // it by the device scale factor.
     gfx::Size device_scale_adjusted_size = gfx::ToFlooredSize(
         gfx::ScaleSize(buffer_size_, 1.0f / device_scale_factor));
     layer->SetBounds(device_scale_adjusted_size);
   }

   // Manually manage background layer for transparent webview.
   if (!opaque_)
     background_layer_->SetIsDrawable(false);
 }

 void ChildFrameCompositingHelper::MailboxReleased(SwapBuffersInfo mailbox,
                                                   uint32 sync_point,
                                                   bool lost_resource) {
   if (mailbox.type == SOFTWARE_COMPOSITOR_FRAME) {
     delete mailbox.shared_memory;
     mailbox.shared_memory = NULL;
   } else if (lost_resource) {
     // Reset mailbox's name if the resource was lost.
     mailbox.name.SetZero();
   }

   // This means the GPU process crashed or guest crashed.
   if (last_host_id_ != mailbox.host_id ||
       last_output_surface_id_ != mailbox.output_surface_id ||
       last_route_id_ != mailbox.route_id)
     return;

   if (mailbox.type == SOFTWARE_COMPOSITOR_FRAME)
     unacked_software_frames_.push_back(mailbox.software_frame_id);

   // We need to send an ACK to for every buffer sent to us.
   // However, if a buffer is freed up from
   // the compositor in cases like switching back to SW mode without a new
   // buffer arriving, no ACK is needed.
   if (!ack_pending_) {
     last_mailbox_valid_ = false;
     return;
   }
   ack_pending_ = false;
   switch (mailbox.type) {
     case TEXTURE_IMAGE_TRANSPORT: {
       FrameHostMsg_BuffersSwappedACK_Params params;
       params.gpu_host_id = mailbox.host_id;
       params.gpu_route_id = mailbox.route_id;
       params.mailbox = mailbox.name;
       params.sync_point = sync_point;
       SendBuffersSwappedACKToBrowser(params);
       break;
     }
     case GL_COMPOSITOR_FRAME: {
       FrameHostMsg_CompositorFrameSwappedACK_Params params;
       params.producing_host_id = mailbox.host_id;
       params.producing_route_id = mailbox.route_id;
       params.output_surface_id = mailbox.output_surface_id;
       params.ack.gl_frame_data.reset(new cc::GLFrameData());
       params.ack.gl_frame_data->mailbox = mailbox.name;
       params.ack.gl_frame_data->size = mailbox.size;
       params.ack.gl_frame_data->sync_point = sync_point;
       SendCompositorFrameSwappedACKToBrowser(params);
       break;
     }
     case SOFTWARE_COMPOSITOR_FRAME:
       break;
   }
 }

 void ChildFrameCompositingHelper::OnContainerDestroy() {
   if (GetContainer())
     GetContainer()->setWebLayer(NULL);

   if (resource_collection_)
     resource_collection_->SetClient(NULL);

   ack_pending_ = false;
   software_ack_pending_ = false;
   resource_collection_ = NULL;
   frame_provider_ = NULL;
   texture_layer_ = NULL;
   delegated_layer_ = NULL;
   background_layer_ = NULL;
   web_layer_.reset();
 }

 void ChildFrameCompositingHelper::ChildFrameGone() {
   background_layer_->SetBackgroundColor(SkColorSetARGBInline(255, 0, 128, 0));
   background_layer_->RemoveAllChildren();
   background_layer_->SetIsDrawable(true);
   background_layer_->SetContentsOpaque(true);
 }

 void ChildFrameCompositingHelper::OnBuffersSwappedPrivate(
     const SwapBuffersInfo& mailbox,
     uint32 sync_point,
     float device_scale_factor) {
   DCHECK(!delegated_layer_.get());
   // If these mismatch, we are either just starting up, GPU process crashed or
   // guest renderer crashed.
   // In this case, we are communicating with a new image transport
   // surface and must ACK with the new ID's and an empty mailbox.
   if (last_route_id_ != mailbox.route_id ||
       last_output_surface_id_ != mailbox.output_surface_id ||
       last_host_id_ != mailbox.host_id)
     last_mailbox_valid_ = false;

   last_route_id_ = mailbox.route_id;
   last_output_surface_id_ = mailbox.output_surface_id;
   last_host_id_ = mailbox.host_id;

   ack_pending_ = true;
   // Browser plugin getting destroyed, do a fast ACK.
   if (!background_layer_.get()) {
     MailboxReleased(mailbox, sync_point, false);
     return;
   }

   if (!texture_layer_.get()) {
     texture_layer_ = cc::TextureLayer::CreateForMailbox(NULL);
     texture_layer_->SetIsDrawable(true);
     SetContentsOpaque(opaque_);

     background_layer_->AddChild(texture_layer_);
   }

   // The size of browser plugin container is not always equal to the size
   // of the buffer that arrives here. This could be for a number of reasons,
   // including autosize and a resize in progress.
   // During resize, the container size changes first and then some time
   // later, a new buffer with updated size will arrive. During this process,
   // we need to make sure that things are still displayed pixel perfect.
   // We accomplish this by modifying bounds of the texture layer only
   // when a new buffer arrives.
   // Visually, this will either display a smaller part of the buffer
   // or introduce a gutter around it.
   CheckSizeAndAdjustLayerProperties(
       mailbox.size, device_scale_factor, texture_layer_.get());

   bool is_software_frame = mailbox.type == SOFTWARE_COMPOSITOR_FRAME;
   bool current_mailbox_valid = is_software_frame ? mailbox.shared_memory != NULL
                                                  : !mailbox.name.IsZero();
   if (!is_software_frame && !last_mailbox_valid_) {
     SwapBuffersInfo empty_info = mailbox;
     empty_info.name.SetZero();
     MailboxReleased(empty_info, 0, false);
     if (!current_mailbox_valid)
       return;
   }

   cc::TextureMailbox texture_mailbox;
   scoped_ptr<cc::SingleReleaseCallback> release_callback;
   if (current_mailbox_valid) {
     release_callback =
         cc::SingleReleaseCallback::Create(
             base::Bind(&ChildFrameCompositingHelper::MailboxReleased,
                        scoped_refptr<ChildFrameCompositingHelper>(this),
                        mailbox)).Pass();
     if (is_software_frame) {
       texture_mailbox = cc::TextureMailbox(mailbox.shared_memory, mailbox.size);
     } else {
       texture_mailbox =
           cc::TextureMailbox(mailbox.name, GL_TEXTURE_2D, sync_point);
     }
   }

   texture_layer_->SetFlipped(!is_software_frame);
   texture_layer_->SetTextureMailbox(texture_mailbox, release_callback.Pass());
   texture_layer_->SetNeedsDisplay();
   last_mailbox_valid_ = current_mailbox_valid;
 }

 void ChildFrameCompositingHelper::OnBuffersSwapped(
     const gfx::Size& size,
     const gpu::Mailbox& mailbox,
     int gpu_route_id,
     int gpu_host_id,
     float device_scale_factor) {
   SwapBuffersInfo swap_info;
   swap_info.name = mailbox;
   swap_info.type = TEXTURE_IMAGE_TRANSPORT;
   swap_info.size = size;
   swap_info.route_id = gpu_route_id;
   swap_info.output_surface_id = 0;
   swap_info.host_id = gpu_host_id;
   OnBuffersSwappedPrivate(swap_info, 0, device_scale_factor);
 }

 void ChildFrameCompositingHelper::OnCompositorFrameSwapped(
     scoped_ptr<cc::CompositorFrame> frame,
     int route_id,
     uint32 output_surface_id,
     int host_id,
     base::SharedMemoryHandle handle) {

   if (frame->gl_frame_data) {
     SwapBuffersInfo swap_info;
     swap_info.name = frame->gl_frame_data->mailbox;
     swap_info.type = GL_COMPOSITOR_FRAME;
     swap_info.size = frame->gl_frame_data->size;
     swap_info.route_id = route_id;
     swap_info.output_surface_id = output_surface_id;
     swap_info.host_id = host_id;
     OnBuffersSwappedPrivate(swap_info,
                             frame->gl_frame_data->sync_point,
                             frame->metadata.device_scale_factor);
     return;
   }

   if (frame->software_frame_data) {
     cc::SoftwareFrameData* frame_data = frame->software_frame_data.get();

     SwapBuffersInfo swap_info;
     swap_info.type = SOFTWARE_COMPOSITOR_FRAME;
     swap_info.size = frame_data->size;
     swap_info.route_id = route_id;
     swap_info.output_surface_id = output_surface_id;
     swap_info.host_id = host_id;
     swap_info.software_frame_id = frame_data->id;

     scoped_ptr<base::SharedMemory> shared_memory(
         new base::SharedMemory(handle, true));
     const size_t size_in_bytes = 4 * frame_data->size.GetArea();
     if (!shared_memory->Map(size_in_bytes)) {
       LOG(ERROR) << "Failed to map shared memory of size " << size_in_bytes;
       // Send ACK right away.
       software_ack_pending_ = true;
       MailboxReleased(swap_info, 0, false);
       DidCommitCompositorFrame();
       return;
     }

     swap_info.shared_memory = shared_memory.release();
     OnBuffersSwappedPrivate(swap_info, 0, frame->metadata.device_scale_factor);
     software_ack_pending_ = true;
     last_route_id_ = route_id;
     last_output_surface_id_ = output_surface_id;
     last_host_id_ = host_id;
     return;
   }

   DCHECK(!texture_layer_.get());

   cc::DelegatedFrameData* frame_data = frame->delegated_frame_data.get();
   // Do nothing if we are getting destroyed or have no frame data.
   if (!frame_data || !background_layer_)
     return;

   DCHECK(!frame_data->render_pass_list.empty());
   cc::RenderPass* root_pass = frame_data->render_pass_list.back();
   gfx::Size frame_size = root_pass->output_rect.size();

   if (last_route_id_ != route_id ||
       last_output_surface_id_ != output_surface_id ||
       last_host_id_ != host_id) {
     // Resource ids are scoped by the output surface.
     // If the originating output surface doesn't match the last one, it
     // indicates the guest's output surface may have been recreated, in which
     // case we should recreate the DelegatedRendererLayer, to avoid matching
     // resources from the old one with resources from the new one which would
     // have the same id.
     frame_provider_ = NULL;

     // Drop the cc::DelegatedFrameResourceCollection so that we will not return
     // any resources from the old output surface with the new output surface id.
     if (resource_collection_) {
       resource_collection_->SetClient(NULL);

       if (resource_collection_->LoseAllResources())
         SendReturnedDelegatedResources();
       resource_collection_ = NULL;
     }
     last_output_surface_id_ = output_surface_id;
     last_route_id_ = route_id;
     last_host_id_ = host_id;
   }
   if (!resource_collection_) {
     resource_collection_ = new cc::DelegatedFrameResourceCollection;
     resource_collection_->SetClient(this);
   }
   if (!frame_provider_.get() || frame_provider_->frame_size() != frame_size) {
     frame_provider_ = new cc::DelegatedFrameProvider(
         resource_collection_.get(), frame->delegated_frame_data.Pass());
     if (delegated_layer_.get())
       delegated_layer_->RemoveFromParent();
     delegated_layer_ =
         cc::DelegatedRendererLayer::Create(frame_provider_.get());
     delegated_layer_->SetIsDrawable(true);
     SetContentsOpaque(opaque_);
     background_layer_->AddChild(delegated_layer_);
   } else {
     frame_provider_->SetFrameData(frame->delegated_frame_data.Pass());
   }

   CheckSizeAndAdjustLayerProperties(
       frame_data->render_pass_list.back()->output_rect.size(),
       frame->metadata.device_scale_factor,
       delegated_layer_.get());

   ack_pending_ = true;
 }

 void ChildFrameCompositingHelper::UpdateVisibility(bool visible) {
   if (texture_layer_.get())
     texture_layer_->SetIsDrawable(visible);
   if (delegated_layer_.get())
     delegated_layer_->SetIsDrawable(visible);
 }

 void ChildFrameCompositingHelper::UnusedResourcesAreAvailable() {
   if (ack_pending_)
     return;

   SendReturnedDelegatedResources();
 }

 void ChildFrameCompositingHelper::SendReturnedDelegatedResources() {
   FrameHostMsg_ReclaimCompositorResources_Params params;
   if (resource_collection_)
     resource_collection_->TakeUnusedResourcesForChildCompositor(
         &params.ack.resources);
   DCHECK(!params.ack.resources.empty());

   params.route_id = last_route_id_;
   params.output_surface_id = last_output_surface_id_;
   params.renderer_host_id = last_host_id_;
   SendReclaimCompositorResourcesToBrowser(params);
 }

 void ChildFrameCompositingHelper::SetContentsOpaque(bool opaque) {
   opaque_ = opaque;

   if (texture_layer_.get())
     texture_layer_->SetContentsOpaque(opaque_);
   if (delegated_layer_.get())
     delegated_layer_->SetContentsOpaque(opaque_);
 }

 void ChildFrameCompositingHelper::CopyFromCompositingSurfaceHasResult(
     int request_id,
     gfx::Size dest_size,
     scoped_ptr<cc::CopyOutputResult> result) {
   scoped_ptr<SkBitmap> bitmap;
   if (result && result->HasBitmap() && !result->size().IsEmpty())
     bitmap = result->TakeBitmap();

   SkBitmap resized_bitmap;
   if (bitmap) {
     resized_bitmap =
         skia::ImageOperations::Resize(*bitmap,
                                       skia::ImageOperations::RESIZE_BEST,
                                       dest_size.width(),
                                       dest_size.height());
   }
   if (GetBrowserPluginManager()) {
     GetBrowserPluginManager()->Send(
         new BrowserPluginHostMsg_CopyFromCompositingSurfaceAck(
             host_routing_id_, GetInstanceID(), request_id, resized_bitmap));
   }
 }

 }  // namespace content
	// Copyright 2014 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/child_frame_compositing_helper.h"

	#include "cc/layers/delegated_frame_provider.h"
	#include "cc/layers/delegated_frame_resource_collection.h"
	#include "cc/layers/delegated_renderer_layer.h"
	#include "cc/layers/solid_color_layer.h"
	#include "cc/layers/texture_layer.h"
	#include "cc/output/context_provider.h"
	#include "cc/output/copy_output_request.h"
	#include "cc/output/copy_output_result.h"
	#include "cc/resources/single_release_callback.h"
	#include "content/common/browser_plugin/browser_plugin_messages.h"
	#include "content/common/frame_messages.h"
	#include "content/common/gpu/client/context_provider_command_buffer.h"
	#include "content/renderer/browser_plugin/browser_plugin.h"
	#include "content/renderer/browser_plugin/browser_plugin_manager.h"
	#include "content/renderer/compositor_bindings/web_layer_impl.h"
	#include "content/renderer/render_frame_impl.h"
	#include "content/renderer/render_frame_proxy.h"
	#include "content/renderer/render_thread_impl.h"
	#include "skia/ext/image_operations.h"
	#include "third_party/WebKit/public/platform/WebGraphicsContext3D.h"
	#include "third_party/WebKit/public/web/WebFrame.h"
	#include "third_party/WebKit/public/web/WebPluginContainer.h"
	#include "third_party/khronos/GLES2/gl2.h"
	#include "ui/gfx/size_conversions.h"
	#include "ui/gfx/skia_util.h"

	namespace content {

	ChildFrameCompositingHelper::SwapBuffersInfo::SwapBuffersInfo()
	: route_id(0),
	output_surface_id(0),
	host_id(0),
	software_frame_id(0),
	shared_memory(NULL) {}

	ChildFrameCompositingHelper*
	ChildFrameCompositingHelper::CreateForBrowserPlugin(
	const base::WeakPtr<BrowserPlugin>& browser_plugin) {
	return new ChildFrameCompositingHelper(
	browser_plugin, NULL, NULL, browser_plugin->render_view_routing_id());
	}

	ChildFrameCompositingHelper*
	ChildFrameCompositingHelper::CreateForRenderFrameProxy(
	RenderFrameProxy* render_frame_proxy) {
	return new ChildFrameCompositingHelper(base::WeakPtr<BrowserPlugin>(),
	render_frame_proxy->web_frame(),
	render_frame_proxy,
	render_frame_proxy->routing_id());
	}

	ChildFrameCompositingHelper::ChildFrameCompositingHelper(
	const base::WeakPtr<BrowserPlugin>& browser_plugin,
	blink::WebFrame* frame,
	RenderFrameProxy* render_frame_proxy,
	int host_routing_id)
	: host_routing_id_(host_routing_id),
	last_route_id_(0),
	last_output_surface_id_(0),
	last_host_id_(0),
	last_mailbox_valid_(false),
	ack_pending_(true),
	software_ack_pending_(false),
	opaque_(true),
	browser_plugin_(browser_plugin),
	render_frame_proxy_(render_frame_proxy),
	frame_(frame) {}

	ChildFrameCompositingHelper::~ChildFrameCompositingHelper() {}

	BrowserPluginManager* ChildFrameCompositingHelper::GetBrowserPluginManager() {
	if (!browser_plugin_)
	return NULL;

	return browser_plugin_->browser_plugin_manager();
	}

	blink::WebPluginContainer* ChildFrameCompositingHelper::GetContainer() {
	if (!browser_plugin_)
	return NULL;

	return browser_plugin_->container();
	}

	int ChildFrameCompositingHelper::GetInstanceID() {
	if (!browser_plugin_)
	return 0;

	return browser_plugin_->guest_instance_id();
	}

	void ChildFrameCompositingHelper::SendCompositorFrameSwappedACKToBrowser(
	FrameHostMsg_CompositorFrameSwappedACK_Params& params) {
	// This function will be removed when BrowserPluginManager is removed and
	// BrowserPlugin is modified to use a RenderFrame.
	if (GetBrowserPluginManager()) {
	GetBrowserPluginManager()->Send(
	new BrowserPluginHostMsg_CompositorFrameSwappedACK(
	host_routing_id_, GetInstanceID(), params));
	} else if (render_frame_proxy_) {
	render_frame_proxy_->Send(
	new FrameHostMsg_CompositorFrameSwappedACK(host_routing_id_, params));
	}
	}

	void ChildFrameCompositingHelper::SendBuffersSwappedACKToBrowser(
	FrameHostMsg_BuffersSwappedACK_Params& params) {
	// This function will be removed when BrowserPluginManager is removed and
	// BrowserPlugin is modified to use a RenderFrame.
	if (GetBrowserPluginManager()) {
	GetBrowserPluginManager()->Send(new BrowserPluginHostMsg_BuffersSwappedACK(
	host_routing_id_, params));
	} else if (render_frame_proxy_) {
	render_frame_proxy_->Send(
	new FrameHostMsg_BuffersSwappedACK(host_routing_id_, params));
	}
	}

	void ChildFrameCompositingHelper::SendReclaimCompositorResourcesToBrowser(
	FrameHostMsg_ReclaimCompositorResources_Params& params) {
	// This function will be removed when BrowserPluginManager is removed and
	// BrowserPlugin is modified to use a RenderFrame.
	if (GetBrowserPluginManager()) {
	GetBrowserPluginManager()->Send(
	new BrowserPluginHostMsg_ReclaimCompositorResources(
	host_routing_id_, GetInstanceID(), params));
	} else if (render_frame_proxy_) {
	render_frame_proxy_->Send(
	new FrameHostMsg_ReclaimCompositorResources(host_routing_id_, params));
	}
	}

	void ChildFrameCompositingHelper::CopyFromCompositingSurface(
	int request_id,
	gfx::Rect source_rect,
	gfx::Size dest_size) {
	CHECK(background_layer_);
	scoped_ptr<cc::CopyOutputRequest> request =
	cc::CopyOutputRequest::CreateBitmapRequest(base::Bind(
	&ChildFrameCompositingHelper::CopyFromCompositingSurfaceHasResult,
	this,
	request_id,
	dest_size));
	request->set_area(source_rect);
	background_layer_->RequestCopyOfOutput(request.Pass());
	}

	void ChildFrameCompositingHelper::DidCommitCompositorFrame() {
	if (software_ack_pending_) {
	FrameHostMsg_CompositorFrameSwappedACK_Params params;
	params.producing_host_id = last_host_id_;
	params.producing_route_id = last_route_id_;
	params.output_surface_id = last_output_surface_id_;
	if (!unacked_software_frames_.empty()) {
	params.ack.last_software_frame_id = unacked_software_frames_.back();
	unacked_software_frames_.pop_back();
	}

	SendCompositorFrameSwappedACKToBrowser(params);

	software_ack_pending_ = false;
	}
	if (!resource_collection_.get() \|\| !ack_pending_)
	return;

	FrameHostMsg_CompositorFrameSwappedACK_Params params;
	params.producing_host_id = last_host_id_;
	params.producing_route_id = last_route_id_;
	params.output_surface_id = last_output_surface_id_;
	resource_collection_->TakeUnusedResourcesForChildCompositor(
	&params.ack.resources);

	SendCompositorFrameSwappedACKToBrowser(params);

	ack_pending_ = false;
	}

	void ChildFrameCompositingHelper::EnableCompositing(bool enable) {
	if (enable && !background_layer_.get()) {
	background_layer_ = cc::SolidColorLayer::Create();
	background_layer_->SetMasksToBounds(true);
	background_layer_->SetBackgroundColor(
	SkColorSetARGBInline(255, 255, 255, 255));
	web_layer_.reset(new WebLayerImpl(background_layer_));
	}

	if (GetContainer()) {
	GetContainer()->setWebLayer(enable ? web_layer_.get() : NULL);
	} else if (frame_) {
	frame_->setRemoteWebLayer(enable ? web_layer_.get() : NULL);
	}
	}

	void ChildFrameCompositingHelper::CheckSizeAndAdjustLayerProperties(
	const gfx::Size& new_size,
	float device_scale_factor,
	cc::Layer* layer) {
	if (buffer_size_ != new_size) {
	buffer_size_ = new_size;
	// The container size is in DIP, so is the layer size.
	// Buffer size is in physical pixels, so we need to adjust
	// it by the device scale factor.
	gfx::Size device_scale_adjusted_size = gfx::ToFlooredSize(
	gfx::ScaleSize(buffer_size_, 1.0f / device_scale_factor));
	layer->SetBounds(device_scale_adjusted_size);
	}

	// Manually manage background layer for transparent webview.
	if (!opaque_)
	background_layer_->SetIsDrawable(false);
	}

	void ChildFrameCompositingHelper::MailboxReleased(SwapBuffersInfo mailbox,
	uint32 sync_point,
	bool lost_resource) {
	if (mailbox.type == SOFTWARE_COMPOSITOR_FRAME) {
	delete mailbox.shared_memory;
	mailbox.shared_memory = NULL;
	} else if (lost_resource) {
	// Reset mailbox's name if the resource was lost.
	mailbox.name.SetZero();
	}

	// This means the GPU process crashed or guest crashed.
	if (last_host_id_ != mailbox.host_id \|\|
	last_output_surface_id_ != mailbox.output_surface_id \|\|
	last_route_id_ != mailbox.route_id)
	return;

	if (mailbox.type == SOFTWARE_COMPOSITOR_FRAME)
	unacked_software_frames_.push_back(mailbox.software_frame_id);

	// We need to send an ACK to for every buffer sent to us.
	// However, if a buffer is freed up from
	// the compositor in cases like switching back to SW mode without a new
	// buffer arriving, no ACK is needed.
	if (!ack_pending_) {
	last_mailbox_valid_ = false;
	return;
	}
	ack_pending_ = false;
	switch (mailbox.type) {
	case TEXTURE_IMAGE_TRANSPORT: {
	FrameHostMsg_BuffersSwappedACK_Params params;
	params.gpu_host_id = mailbox.host_id;
	params.gpu_route_id = mailbox.route_id;
	params.mailbox = mailbox.name;
	params.sync_point = sync_point;
	SendBuffersSwappedACKToBrowser(params);
	break;
	}
	case GL_COMPOSITOR_FRAME: {
	FrameHostMsg_CompositorFrameSwappedACK_Params params;
	params.producing_host_id = mailbox.host_id;
	params.producing_route_id = mailbox.route_id;
	params.output_surface_id = mailbox.output_surface_id;
	params.ack.gl_frame_data.reset(new cc::GLFrameData());
	params.ack.gl_frame_data->mailbox = mailbox.name;
	params.ack.gl_frame_data->size = mailbox.size;
	params.ack.gl_frame_data->sync_point = sync_point;
	SendCompositorFrameSwappedACKToBrowser(params);
	break;
	}
	case SOFTWARE_COMPOSITOR_FRAME:
	break;
	}
	}

	void ChildFrameCompositingHelper::OnContainerDestroy() {
	if (GetContainer())
	GetContainer()->setWebLayer(NULL);

	if (resource_collection_)
	resource_collection_->SetClient(NULL);

	ack_pending_ = false;
	software_ack_pending_ = false;
	resource_collection_ = NULL;
	frame_provider_ = NULL;
	texture_layer_ = NULL;
	delegated_layer_ = NULL;
	background_layer_ = NULL;
	web_layer_.reset();
	}

	void ChildFrameCompositingHelper::ChildFrameGone() {
	background_layer_->SetBackgroundColor(SkColorSetARGBInline(255, 0, 128, 0));
	background_layer_->RemoveAllChildren();
	background_layer_->SetIsDrawable(true);
	background_layer_->SetContentsOpaque(true);
	}

	void ChildFrameCompositingHelper::OnBuffersSwappedPrivate(
	const SwapBuffersInfo& mailbox,
	uint32 sync_point,
	float device_scale_factor) {
	DCHECK(!delegated_layer_.get());
	// If these mismatch, we are either just starting up, GPU process crashed or
	// guest renderer crashed.
	// In this case, we are communicating with a new image transport
	// surface and must ACK with the new ID's and an empty mailbox.
	if (last_route_id_ != mailbox.route_id \|\|
	last_output_surface_id_ != mailbox.output_surface_id \|\|
	last_host_id_ != mailbox.host_id)
	last_mailbox_valid_ = false;

	last_route_id_ = mailbox.route_id;
	last_output_surface_id_ = mailbox.output_surface_id;
	last_host_id_ = mailbox.host_id;

	ack_pending_ = true;
	// Browser plugin getting destroyed, do a fast ACK.
	if (!background_layer_.get()) {
	MailboxReleased(mailbox, sync_point, false);
	return;
	}

	if (!texture_layer_.get()) {
	texture_layer_ = cc::TextureLayer::CreateForMailbox(NULL);
	texture_layer_->SetIsDrawable(true);
	SetContentsOpaque(opaque_);

	background_layer_->AddChild(texture_layer_);
	}

	// The size of browser plugin container is not always equal to the size
	// of the buffer that arrives here. This could be for a number of reasons,
	// including autosize and a resize in progress.
	// During resize, the container size changes first and then some time
	// later, a new buffer with updated size will arrive. During this process,
	// we need to make sure that things are still displayed pixel perfect.
	// We accomplish this by modifying bounds of the texture layer only
	// when a new buffer arrives.
	// Visually, this will either display a smaller part of the buffer
	// or introduce a gutter around it.
	CheckSizeAndAdjustLayerProperties(
	mailbox.size, device_scale_factor, texture_layer_.get());

	bool is_software_frame = mailbox.type == SOFTWARE_COMPOSITOR_FRAME;
	bool current_mailbox_valid = is_software_frame ? mailbox.shared_memory != NULL
	: !mailbox.name.IsZero();
	if (!is_software_frame && !last_mailbox_valid_) {
	SwapBuffersInfo empty_info = mailbox;
	empty_info.name.SetZero();
	MailboxReleased(empty_info, 0, false);
	if (!current_mailbox_valid)
	return;
	}

	cc::TextureMailbox texture_mailbox;
	scoped_ptr<cc::SingleReleaseCallback> release_callback;
	if (current_mailbox_valid) {
	release_callback =
	cc::SingleReleaseCallback::Create(
	base::Bind(&ChildFrameCompositingHelper::MailboxReleased,
	scoped_refptr<ChildFrameCompositingHelper>(this),
	mailbox)).Pass();
	if (is_software_frame) {
	texture_mailbox = cc::TextureMailbox(mailbox.shared_memory, mailbox.size);
	} else {
	texture_mailbox =
	cc::TextureMailbox(mailbox.name, GL_TEXTURE_2D, sync_point);
	}
	}

	texture_layer_->SetFlipped(!is_software_frame);
	texture_layer_->SetTextureMailbox(texture_mailbox, release_callback.Pass());
	texture_layer_->SetNeedsDisplay();
	last_mailbox_valid_ = current_mailbox_valid;
	}

	void ChildFrameCompositingHelper::OnBuffersSwapped(
	const gfx::Size& size,
	const gpu::Mailbox& mailbox,
	int gpu_route_id,
	int gpu_host_id,
	float device_scale_factor) {
	SwapBuffersInfo swap_info;
	swap_info.name = mailbox;
	swap_info.type = TEXTURE_IMAGE_TRANSPORT;
	swap_info.size = size;
	swap_info.route_id = gpu_route_id;
	swap_info.output_surface_id = 0;
	swap_info.host_id = gpu_host_id;
	OnBuffersSwappedPrivate(swap_info, 0, device_scale_factor);
	}

	void ChildFrameCompositingHelper::OnCompositorFrameSwapped(
	scoped_ptr<cc::CompositorFrame> frame,
	int route_id,
	uint32 output_surface_id,
	int host_id,
	base::SharedMemoryHandle handle) {

	if (frame->gl_frame_data) {
	SwapBuffersInfo swap_info;
	swap_info.name = frame->gl_frame_data->mailbox;
	swap_info.type = GL_COMPOSITOR_FRAME;
	swap_info.size = frame->gl_frame_data->size;
	swap_info.route_id = route_id;
	swap_info.output_surface_id = output_surface_id;
	swap_info.host_id = host_id;
	OnBuffersSwappedPrivate(swap_info,
	frame->gl_frame_data->sync_point,
	frame->metadata.device_scale_factor);
	return;
	}

	if (frame->software_frame_data) {
	cc::SoftwareFrameData* frame_data = frame->software_frame_data.get();

	SwapBuffersInfo swap_info;
	swap_info.type = SOFTWARE_COMPOSITOR_FRAME;
	swap_info.size = frame_data->size;
	swap_info.route_id = route_id;
	swap_info.output_surface_id = output_surface_id;
	swap_info.host_id = host_id;
	swap_info.software_frame_id = frame_data->id;

	scoped_ptr<base::SharedMemory> shared_memory(
	new base::SharedMemory(handle, true));
	const size_t size_in_bytes = 4 * frame_data->size.GetArea();
	if (!shared_memory->Map(size_in_bytes)) {
	LOG(ERROR) << "Failed to map shared memory of size " << size_in_bytes;
	// Send ACK right away.
	software_ack_pending_ = true;
	MailboxReleased(swap_info, 0, false);
	DidCommitCompositorFrame();
	return;
	}

	swap_info.shared_memory = shared_memory.release();
	OnBuffersSwappedPrivate(swap_info, 0, frame->metadata.device_scale_factor);
	software_ack_pending_ = true;
	last_route_id_ = route_id;
	last_output_surface_id_ = output_surface_id;
	last_host_id_ = host_id;
	return;
	}

	DCHECK(!texture_layer_.get());

	cc::DelegatedFrameData* frame_data = frame->delegated_frame_data.get();
	// Do nothing if we are getting destroyed or have no frame data.
	if (!frame_data \|\| !background_layer_)
	return;

	DCHECK(!frame_data->render_pass_list.empty());
	cc::RenderPass* root_pass = frame_data->render_pass_list.back();
	gfx::Size frame_size = root_pass->output_rect.size();

	if (last_route_id_ != route_id \|\|
	last_output_surface_id_ != output_surface_id \|\|
	last_host_id_ != host_id) {
	// Resource ids are scoped by the output surface.
	// If the originating output surface doesn't match the last one, it
	// indicates the guest's output surface may have been recreated, in which
	// case we should recreate the DelegatedRendererLayer, to avoid matching
	// resources from the old one with resources from the new one which would
	// have the same id.
	frame_provider_ = NULL;

	// Drop the cc::DelegatedFrameResourceCollection so that we will not return
	// any resources from the old output surface with the new output surface id.
	if (resource_collection_) {
	resource_collection_->SetClient(NULL);

	if (resource_collection_->LoseAllResources())
	SendReturnedDelegatedResources();
	resource_collection_ = NULL;
	}
	last_output_surface_id_ = output_surface_id;
	last_route_id_ = route_id;
	last_host_id_ = host_id;
	}
	if (!resource_collection_) {
	resource_collection_ = new cc::DelegatedFrameResourceCollection;
	resource_collection_->SetClient(this);
	}
	if (!frame_provider_.get() \|\| frame_provider_->frame_size() != frame_size) {
	frame_provider_ = new cc::DelegatedFrameProvider(
	resource_collection_.get(), frame->delegated_frame_data.Pass());
	if (delegated_layer_.get())
	delegated_layer_->RemoveFromParent();
	delegated_layer_ =
	cc::DelegatedRendererLayer::Create(frame_provider_.get());
	delegated_layer_->SetIsDrawable(true);
	SetContentsOpaque(opaque_);
	background_layer_->AddChild(delegated_layer_);
	} else {
	frame_provider_->SetFrameData(frame->delegated_frame_data.Pass());
	}

	CheckSizeAndAdjustLayerProperties(
	frame_data->render_pass_list.back()->output_rect.size(),
	frame->metadata.device_scale_factor,
	delegated_layer_.get());

	ack_pending_ = true;
	}

	void ChildFrameCompositingHelper::UpdateVisibility(bool visible) {
	if (texture_layer_.get())
	texture_layer_->SetIsDrawable(visible);
	if (delegated_layer_.get())
	delegated_layer_->SetIsDrawable(visible);
	}

	void ChildFrameCompositingHelper::UnusedResourcesAreAvailable() {
	if (ack_pending_)
	return;

	SendReturnedDelegatedResources();
	}

	void ChildFrameCompositingHelper::SendReturnedDelegatedResources() {
	FrameHostMsg_ReclaimCompositorResources_Params params;
	if (resource_collection_)
	resource_collection_->TakeUnusedResourcesForChildCompositor(
	&params.ack.resources);
	DCHECK(!params.ack.resources.empty());

	params.route_id = last_route_id_;
	params.output_surface_id = last_output_surface_id_;
	params.renderer_host_id = last_host_id_;
	SendReclaimCompositorResourcesToBrowser(params);
	}

	void ChildFrameCompositingHelper::SetContentsOpaque(bool opaque) {
	opaque_ = opaque;

	if (texture_layer_.get())
	texture_layer_->SetContentsOpaque(opaque_);
	if (delegated_layer_.get())
	delegated_layer_->SetContentsOpaque(opaque_);
	}

	void ChildFrameCompositingHelper::CopyFromCompositingSurfaceHasResult(
	int request_id,
	gfx::Size dest_size,
	scoped_ptr<cc::CopyOutputResult> result) {
	scoped_ptr<SkBitmap> bitmap;
	if (result && result->HasBitmap() && !result->size().IsEmpty())
	bitmap = result->TakeBitmap();

	SkBitmap resized_bitmap;
	if (bitmap) {
	resized_bitmap =
	skia::ImageOperations::Resize(*bitmap,
	skia::ImageOperations::RESIZE_BEST,
	dest_size.width(),
	dest_size.height());
	}
	if (GetBrowserPluginManager()) {
	GetBrowserPluginManager()->Send(
	new BrowserPluginHostMsg_CopyFromCompositingSurfaceAck(
	host_routing_id_, GetInstanceID(), request_id, resized_bitmap));
	}
	}

	} // namespace content