// 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. #ifndef CONTENT_BROWSER_FRAME_HOST_CROSS_PROCESS_FRAME_CONNECTOR_H_ #define CONTENT_BROWSER_FRAME_HOST_CROSS_PROCESS_FRAME_CONNECTOR_H_ #include "cc/output/compositor_frame.h" #include "ui/gfx/rect.h" namespace blink { class WebInputEvent; } namespace IPC { class Message; } struct FrameHostMsg_CompositorFrameSwappedACK_Params; struct FrameHostMsg_ReclaimCompositorResources_Params; namespace content { class RenderFrameProxyHost; class RenderWidgetHostImpl; class RenderWidgetHostViewChildFrame; // CrossProcessFrameConnector provides the platform view abstraction for // RenderWidgetHostViewChildFrame allowing RWHVChildFrame to remain ignorant // of RenderFrameHost. // // The RenderWidgetHostView of an out-of-process child frame needs to // communicate with the RenderFrameProxyHost representing this frame in the // process of the parent frame. For example, assume you have this page: // // ----------------- // | frame 1 | // | ----------- | // | | frame 2 | | // | ----------- | // ----------------- // // If frames 1 and 2 are in process A and B, there are 4 RenderFrameHosts: // A1 - RFH for frame 1 in process A // B1 - RFPH for frame 1 in process B // A2 - RFPH for frame 2 in process A // B2 - RFH for frame 2 in process B // // B2, having a parent frame in a different process, will have a // RenderWidgetHostViewChildFrame. This RenderWidgetHostViewChildFrame needs // to communicate with A2 because the embedding process is an abstract // for the child frame -- it needs information necessary for compositing child // frame textures, and also can pass platform messages such as view resizing. // CrossProcessFrameConnector bridges between B2's // RenderWidgetHostViewChildFrame and A2 to allow for this communication. // (Note: B1 is only mentioned for completeness. It is not needed in this // example.) // // CrossProcessFrameConnector objects are owned by the RenderFrameProxyHost // in the child frame's RenderFrameHostManager corresponding to the parent's // SiteInstance, A2 in the picture above. When a child frame navigates in a new // process, set_view() is called to update to the new view. // class CrossProcessFrameConnector { public: // |frame_proxy_in_parent_renderer| corresponds to A2 in the example above. explicit CrossProcessFrameConnector( RenderFrameProxyHost* frame_proxy_in_parent_renderer); virtual ~CrossProcessFrameConnector(); bool OnMessageReceived(const IPC::Message &msg); // |view| corresponds to B2's RenderWidgetHostViewChildFrame in the example // above. void set_view(RenderWidgetHostViewChildFrame* view); RenderWidgetHostViewChildFrame* get_view_for_testing() { return view_; } void RenderProcessGone(); void ChildFrameCompositorFrameSwapped(uint32 output_surface_id, int host_id, int route_id, scoped_ptr frame); gfx::Rect ChildFrameRect(); private: // Handlers for messages received from the parent frame. void OnCompositorFrameSwappedACK( const FrameHostMsg_CompositorFrameSwappedACK_Params& params); void OnReclaimCompositorResources( const FrameHostMsg_ReclaimCompositorResources_Params& params); void OnForwardInputEvent(const blink::WebInputEvent* event); void OnInitializeChildFrame(gfx::Rect frame_rect, float scale_factor); void SetDeviceScaleFactor(float scale_factor); void SetSize(gfx::Rect frame_rect); // The RenderFrameProxyHost that routes messages to the parent frame's // renderer process. RenderFrameProxyHost* frame_proxy_in_parent_renderer_; // The RenderWidgetHostView for the frame. Initially NULL. RenderWidgetHostViewChildFrame* view_; gfx::Rect child_frame_rect_; float device_scale_factor_; }; } // namespace content #endif // CONTENT_BROWSER_FRAME_HOST_CROSS_PROCESS_FRAME_CONNECTOR_H_