// Copyright (c) 2009 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 GFX_GTK_NATIVE_VIEW_ID_MANAGER_H_ #define GFX_GTK_NATIVE_VIEW_ID_MANAGER_H_ #pragma once #include #include "base/singleton.h" #include "gfx/native_widget_types.h" typedef unsigned long XID; // NativeViewIds are the opaque values which the renderer holds as a reference // to a window. These ids are often used in sync calls from the renderer and // one cannot terminate sync calls on the UI thread as that can lead to // deadlocks. // // Because of this, we have the BACKGROUND_X11 thread for these calls and this // thread has a separate X connection in order to answer them. But one cannot // use GTK on multiple threads, so the BACKGROUND_X11 thread deals only in Xlib // calls and, thus, XIDs. // // So we could make NativeViewIds be the X id of the window. However, at the // time when we need to tell the renderer about its NativeViewId, an XID isn't // availible and it goes very much against the grain of the code to make it so. // Also, we worry that GTK might choose to change the underlying X window id // when, say, the widget is hidden or repacked. Finally, if we used XIDs then a // compromised renderer could start asking questions about any X windows on the // system. // // Thus, we have this object. It produces random NativeViewIds from GtkWidget // pointers and observes the various signals from the widget for when an X // window is created, destroyed etc. Thus it provides a thread safe mapping // from NativeViewIds to the current XID for that widget. // // You get a reference to the global instance with: // Singleton() class GtkNativeViewManager { public: // Must be called from the UI thread: // // Return a NativeViewId for the given widget and attach to the various // signals emitted by that widget. The NativeViewId is pseudo-randomly // allocated so that a compromised renderer trying to guess values will fail // with high probability. The NativeViewId will not be reused for the // lifetime of the GtkWidget. gfx::NativeViewId GetIdForWidget(gfx::NativeView widget); // May be called from any thread: // // xid: (output) the resulting X window ID, or 0 // id: a value previously returned from GetIdForWidget // returns: true if |id| is a valid id, false otherwise. // // If the widget referenced by |id| does not current have an X window id, // |*xid| is set to 0. bool GetXIDForId(XID* xid, gfx::NativeViewId id); // Must be called from the UI thread because we may need the associated // widget to create a window. // // Keeping the XID permanent requires a bit of overhead, so it must // be explicitly requested. // // xid: (output) the resulting X window // id: a value previously returned from GetIdForWidget // returns: true if |id| is a valid id, false otherwise. bool GetPermanentXIDForId(XID* xid, gfx::NativeViewId id); // These are actually private functions, but need to be called from statics. void OnRealize(gfx::NativeView widget); void OnUnrealize(gfx::NativeView widget); void OnDestroy(gfx::NativeView widget); Lock& unrealize_lock() { return unrealize_lock_; } private: // This object is a singleton: GtkNativeViewManager(); ~GtkNativeViewManager(); friend struct DefaultSingletonTraits; struct NativeViewInfo { NativeViewInfo() : widget(NULL), x_window_id(0) { } gfx::NativeView widget; XID x_window_id; }; gfx::NativeViewId GetWidgetId(gfx::NativeView id); // This lock can be used to block GTK from unrealizing windows. This is needed // when the BACKGROUND_X11 thread is using a window obtained via GetXIDForId, // and can't allow the X11 resource to be deleted. Lock unrealize_lock_; // protects native_view_to_id_ and id_to_info_ Lock lock_; // If asked for an id for the same widget twice, we want to return the same // id. So this records the current mapping. std::map native_view_to_id_; std::map id_to_info_; DISALLOW_COPY_AND_ASSIGN(GtkNativeViewManager); }; #endif // GFX_GTK_NATIVE_VIEW_ID_MANAGER_H_