content/browser/frame_host/frame_tree.h - chromium/src - Git at Google

 // Copyright 2013 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_FRAME_TREE_H_
 #define CONTENT_BROWSER_FRAME_HOST_FRAME_TREE_H_

 #include <stdint.h>

 #include <iterator>
 #include <memory>
 #include <string>

 #include "base/callback.h"
 #include "base/containers/queue.h"
 #include "base/gtest_prod_util.h"
 #include "base/macros.h"
 #include "content/browser/frame_host/frame_tree_node.h"
 #include "content/common/content_export.h"
 #include "services/service_manager/public/mojom/interface_provider.mojom.h"

 namespace blink {
 struct FramePolicy;
 }  // namespace blink

 namespace content {

 struct FrameOwnerProperties;
 class Navigator;
 class RenderFrameHostDelegate;
 class RenderViewHostDelegate;
 class RenderViewHostImpl;
 class RenderFrameHostManager;
 class RenderWidgetHostDelegate;

 // Represents the frame tree for a page. With the exception of the main frame,
 // all FrameTreeNodes will be created/deleted in response to frame attach and
 // detach events in the DOM.
 //
 // The main frame's FrameTreeNode is special in that it is reused. This allows
 // it to serve as an anchor for state that needs to persist across top-level
 // page navigations.
 //
 // TODO(ajwong): Move NavigationController ownership to the main frame
 // FrameTreeNode. Possibly expose access to it from here.
 //
 // This object is only used on the UI thread.
 class CONTENT_EXPORT FrameTree {
  public:
   class NodeRange;

   class CONTENT_EXPORT NodeIterator
       : public std::iterator<std::forward_iterator_tag, FrameTreeNode> {
    public:
     NodeIterator(const NodeIterator& other);
     ~NodeIterator();

     NodeIterator& operator++();

     bool operator==(const NodeIterator& rhs) const;
     bool operator!=(const NodeIterator& rhs) const { return !(*this == rhs); }

     FrameTreeNode* operator*() { return current_node_; }

    private:
     friend class NodeRange;

     NodeIterator(FrameTreeNode* starting_node,
                  FrameTreeNode* root_of_subtree_to_skip);

     FrameTreeNode* current_node_;
     FrameTreeNode* const root_of_subtree_to_skip_;
     base::queue<FrameTreeNode*> queue_;
   };

   class CONTENT_EXPORT NodeRange {
    public:
     NodeIterator begin();
     NodeIterator end();

    private:
     friend class FrameTree;

     NodeRange(FrameTreeNode* root, FrameTreeNode* root_of_subtree_to_skip);

     FrameTreeNode* const root_;
     FrameTreeNode* const root_of_subtree_to_skip_;
   };

   // Each FrameTreeNode will default to using the given |navigator| for
   // navigation tasks in the frame.
   // A set of delegates are remembered here so that we can create
   // RenderFrameHostManagers.
   // TODO(creis): This set of delegates will change as we move things to
   // Navigator.
   FrameTree(Navigator* navigator,
             RenderFrameHostDelegate* render_frame_delegate,
             RenderViewHostDelegate* render_view_delegate,
             RenderWidgetHostDelegate* render_widget_delegate,
             RenderFrameHostManager::Delegate* manager_delegate);
   ~FrameTree();

   FrameTreeNode* root() const { return root_; }

   // Returns the FrameTreeNode with the given |frame_tree_node_id| if it is part
   // of this FrameTree.
   FrameTreeNode* FindByID(int frame_tree_node_id);

   // Returns the FrameTreeNode with the given renderer-specific |routing_id|.
   FrameTreeNode* FindByRoutingID(int process_id, int routing_id);

   // Returns the first frame in this tree with the given |name|, or the main
   // frame if |name| is empty.
   // Note that this does NOT support pseudo-names like _self, _top, and _blank,
   // nor searching other FrameTrees (unlike blink::WebView::findFrameByName).
   FrameTreeNode* FindByName(const std::string& name);

   // Returns a range to iterate over all FrameTreeNodes in the frame tree in
   // breadth-first traversal order.
   NodeRange Nodes();

   // Returns a range to iterate over all FrameTreeNodes in a subtree of the
   // frame tree, starting from |subtree_root|.
   NodeRange SubtreeNodes(FrameTreeNode* subtree_root);

   // Adds a new child frame to the frame tree. |process_id| is required to
   // disambiguate |new_routing_id|, and it must match the process of the
   // |parent| node. Otherwise no child is added and this method returns false.
   // |interface_provider_request| is the request end of the InterfaceProvider
   // interface through which the child RenderFrame can access Mojo services
   // exposed by the corresponding RenderFrameHost. The caller takes care of
   // sending the client end of the interface down to the RenderFrame.
   bool AddFrame(FrameTreeNode* parent,
                 int process_id,
                 int new_routing_id,
                 service_manager::mojom::InterfaceProviderRequest
                     interface_provider_request,
                 blink::WebTreeScopeType scope,
                 const std::string& frame_name,
                 const std::string& frame_unique_name,
                 bool is_created_by_script,
                 const base::UnguessableToken& devtools_frame_token,
                 const blink::FramePolicy& frame_policy,
                 const FrameOwnerProperties& frame_owner_properties,
                 bool was_discarded);

   // Removes a frame from the frame tree. |child|, its children, and objects
   // owned by their RenderFrameHostManagers are immediately deleted. The root
   // node cannot be removed this way.
   void RemoveFrame(FrameTreeNode* child);

   // This method walks the entire frame tree and creates a RenderFrameProxyHost
   // for the given |site_instance| in each node except the |source| one --
   // the source will have a RenderFrameHost.  |source| may be null if there is
   // no node navigating in this frame tree (such as when this is called
   // for an opener's frame tree), in which case no nodes are skipped for
   // RenderFrameProxyHost creation.
   void CreateProxiesForSiteInstance(FrameTreeNode* source,
                                     SiteInstance* site_instance);

   // Convenience accessor for the main frame's RenderFrameHostImpl.
   RenderFrameHostImpl* GetMainFrame() const;

   // Returns the focused frame.
   FrameTreeNode* GetFocusedFrame();

   // Sets the focused frame to |node|.  |source| identifies the SiteInstance
   // that initiated this focus change.  If this FrameTree has SiteInstances
   // other than |source|, those SiteInstances will be notified about the new
   // focused frame.   Note that |source| may differ from |node|'s current
   // SiteInstance (e.g., this happens for cross-process window.focus() calls).
   void SetFocusedFrame(FrameTreeNode* node, SiteInstance* source);

   // Allows a client to listen for frame removal.  The listener should expect
   // to receive the RenderViewHostImpl containing the frame and the renderer-
   // specific frame routing ID of the removed frame.
   void SetFrameRemoveListener(
       const base::Callback<void(RenderFrameHost*)>& on_frame_removed);

   // Creates a RenderViewHost for a new RenderFrameHost in the given
   // |site_instance|.  The RenderViewHost will have its Shutdown method called
   // when all of the RenderFrameHosts using it are deleted.
   RenderViewHostImpl* CreateRenderViewHost(SiteInstance* site_instance,
                                            int32_t routing_id,
                                            int32_t main_frame_routing_id,
                                            int32_t widget_routing_id,
                                            bool swapped_out,
                                            bool hidden);

   // Returns the existing RenderViewHost for a new RenderFrameHost.
   // There should always be such a RenderViewHost, because the main frame
   // RenderFrameHost for each SiteInstance should be created before subframes.
   RenderViewHostImpl* GetRenderViewHost(SiteInstance* site_instance);

   // Keeps track of which RenderFrameHosts and RenderFrameProxyHosts are using
   // each RenderViewHost.  When the number drops to zero, we call Shutdown on
   // the RenderViewHost.
   void AddRenderViewHostRef(RenderViewHostImpl* render_view_host);
   void ReleaseRenderViewHostRef(RenderViewHostImpl* render_view_host);

   // This is only meant to be called by FrameTreeNode. Triggers calling
   // the listener installed by SetFrameRemoveListener.
   void FrameRemoved(FrameTreeNode* frame);

   // Updates the overall load progress and notifies the WebContents.
   // Set based on the main frame's progress only.
   void UpdateLoadProgress(double progress);

   // Returns this FrameTree's total load progress.
   double load_progress() { return load_progress_; }

   // Resets the load progress on all nodes in this FrameTree.
   void ResetLoadProgress();

   // Returns true if at least one of the nodes in this FrameTree is loading.
   bool IsLoading() const;

   // Set page-level focus in all SiteInstances involved in rendering
   // this FrameTree, not including the current main frame's
   // SiteInstance. The focus update will be sent via the main frame's proxies
   // in those SiteInstances.
   void ReplicatePageFocus(bool is_focused);

   // Updates page-level focus for this FrameTree in the subframe renderer
   // identified by |instance|.
   void SetPageFocus(SiteInstance* instance, bool is_focused);

  private:
   friend class FrameTreeTest;
   FRIEND_TEST_ALL_PREFIXES(RenderFrameHostImplBrowserTest, RemoveFocusedFrame);
   typedef base::hash_map<int, RenderViewHostImpl*> RenderViewHostMap;

   // Returns a range to iterate over all FrameTreeNodes in the frame tree in
   // breadth-first traversal order, skipping the subtree rooted at
   // |node|, but including |node| itself.
   NodeRange NodesExceptSubtree(FrameTreeNode* node);

   // These delegates are installed into all the RenderViewHosts and
   // RenderFrameHosts that we create.
   RenderFrameHostDelegate* render_frame_delegate_;
   RenderViewHostDelegate* render_view_delegate_;
   RenderWidgetHostDelegate* render_widget_delegate_;
   RenderFrameHostManager::Delegate* manager_delegate_;

   // Map of SiteInstance ID to a RenderViewHost.  This allows us to look up the
   // RenderViewHost for a given SiteInstance when creating RenderFrameHosts.
   // Combined with the refcount on RenderViewHost, this allows us to call
   // Shutdown on the RenderViewHost and remove it from the map when no more
   // RenderFrameHosts are using it.
   //
   // Must be declared before |root_| so that it is deleted afterward.  Otherwise
   // the map will be cleared before we delete the RenderFrameHosts in the tree.
   RenderViewHostMap render_view_host_map_;

   // This is an owned ptr to the root FrameTreeNode, which never changes over
   // the lifetime of the FrameTree. It is not a scoped_ptr because we need the
   // pointer to remain valid even while the FrameTreeNode is being destroyed,
   // since it's common for a node to test whether it's the root node.
   FrameTreeNode* root_;

   int focused_frame_tree_node_id_;

   base::Callback<void(RenderFrameHost*)> on_frame_removed_;

   // Overall load progress.
   double load_progress_;

   DISALLOW_COPY_AND_ASSIGN(FrameTree);
 };

 }  // namespace content

 #endif  // CONTENT_BROWSER_FRAME_HOST_FRAME_TREE_H_
	// Copyright 2013 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_FRAME_TREE_H_
	#define CONTENT_BROWSER_FRAME_HOST_FRAME_TREE_H_

	#include <stdint.h>

	#include <iterator>
	#include <memory>
	#include <string>

	#include "base/callback.h"
	#include "base/containers/queue.h"
	#include "base/gtest_prod_util.h"
	#include "base/macros.h"
	#include "content/browser/frame_host/frame_tree_node.h"
	#include "content/common/content_export.h"
	#include "services/service_manager/public/mojom/interface_provider.mojom.h"

	namespace blink {
	struct FramePolicy;
	} // namespace blink

	namespace content {

	struct FrameOwnerProperties;
	class Navigator;
	class RenderFrameHostDelegate;
	class RenderViewHostDelegate;
	class RenderViewHostImpl;
	class RenderFrameHostManager;
	class RenderWidgetHostDelegate;

	// Represents the frame tree for a page. With the exception of the main frame,
	// all FrameTreeNodes will be created/deleted in response to frame attach and
	// detach events in the DOM.
	//
	// The main frame's FrameTreeNode is special in that it is reused. This allows
	// it to serve as an anchor for state that needs to persist across top-level
	// page navigations.
	//
	// TODO(ajwong): Move NavigationController ownership to the main frame
	// FrameTreeNode. Possibly expose access to it from here.
	//
	// This object is only used on the UI thread.
	class CONTENT_EXPORT FrameTree {
	public:
	class NodeRange;

	class CONTENT_EXPORT NodeIterator
	: public std::iterator<std::forward_iterator_tag, FrameTreeNode> {
	public:
	NodeIterator(const NodeIterator& other);
	~NodeIterator();

	NodeIterator& operator++();

	bool operator==(const NodeIterator& rhs) const;
	bool operator!=(const NodeIterator& rhs) const { return !(*this == rhs); }

	FrameTreeNode* operator*() { return current_node_; }

	private:
	friend class NodeRange;

	NodeIterator(FrameTreeNode* starting_node,
	FrameTreeNode* root_of_subtree_to_skip);

	FrameTreeNode* current_node_;
	FrameTreeNode* const root_of_subtree_to_skip_;
	base::queue<FrameTreeNode*> queue_;
	};

	class CONTENT_EXPORT NodeRange {
	public:
	NodeIterator begin();
	NodeIterator end();

	private:
	friend class FrameTree;

	NodeRange(FrameTreeNode* root, FrameTreeNode* root_of_subtree_to_skip);

	FrameTreeNode* const root_;
	FrameTreeNode* const root_of_subtree_to_skip_;
	};

	// Each FrameTreeNode will default to using the given \|navigator\| for
	// navigation tasks in the frame.
	// A set of delegates are remembered here so that we can create
	// RenderFrameHostManagers.
	// TODO(creis): This set of delegates will change as we move things to
	// Navigator.
	FrameTree(Navigator* navigator,
	RenderFrameHostDelegate* render_frame_delegate,
	RenderViewHostDelegate* render_view_delegate,
	RenderWidgetHostDelegate* render_widget_delegate,
	RenderFrameHostManager::Delegate* manager_delegate);
	~FrameTree();

	FrameTreeNode* root() const { return root_; }

	// Returns the FrameTreeNode with the given \|frame_tree_node_id\| if it is part
	// of this FrameTree.
	FrameTreeNode* FindByID(int frame_tree_node_id);

	// Returns the FrameTreeNode with the given renderer-specific \|routing_id\|.
	FrameTreeNode* FindByRoutingID(int process_id, int routing_id);

	// Returns the first frame in this tree with the given \|name\|, or the main
	// frame if \|name\| is empty.
	// Note that this does NOT support pseudo-names like _self, _top, and _blank,
	// nor searching other FrameTrees (unlike blink::WebView::findFrameByName).
	FrameTreeNode* FindByName(const std::string& name);

	// Returns a range to iterate over all FrameTreeNodes in the frame tree in
	// breadth-first traversal order.
	NodeRange Nodes();

	// Returns a range to iterate over all FrameTreeNodes in a subtree of the
	// frame tree, starting from \|subtree_root\|.
	NodeRange SubtreeNodes(FrameTreeNode* subtree_root);

	// Adds a new child frame to the frame tree. \|process_id\| is required to
	// disambiguate \|new_routing_id\|, and it must match the process of the
	// \|parent\| node. Otherwise no child is added and this method returns false.
	// \|interface_provider_request\| is the request end of the InterfaceProvider
	// interface through which the child RenderFrame can access Mojo services
	// exposed by the corresponding RenderFrameHost. The caller takes care of
	// sending the client end of the interface down to the RenderFrame.
	bool AddFrame(FrameTreeNode* parent,
	int process_id,
	int new_routing_id,
	service_manager::mojom::InterfaceProviderRequest
	interface_provider_request,
	blink::WebTreeScopeType scope,
	const std::string& frame_name,
	const std::string& frame_unique_name,
	bool is_created_by_script,
	const base::UnguessableToken& devtools_frame_token,
	const blink::FramePolicy& frame_policy,
	const FrameOwnerProperties& frame_owner_properties,
	bool was_discarded);

	// Removes a frame from the frame tree. \|child\|, its children, and objects
	// owned by their RenderFrameHostManagers are immediately deleted. The root
	// node cannot be removed this way.
	void RemoveFrame(FrameTreeNode* child);

	// This method walks the entire frame tree and creates a RenderFrameProxyHost
	// for the given \|site_instance\| in each node except the \|source\| one --
	// the source will have a RenderFrameHost. \|source\| may be null if there is
	// no node navigating in this frame tree (such as when this is called
	// for an opener's frame tree), in which case no nodes are skipped for
	// RenderFrameProxyHost creation.
	void CreateProxiesForSiteInstance(FrameTreeNode* source,
	SiteInstance* site_instance);

	// Convenience accessor for the main frame's RenderFrameHostImpl.
	RenderFrameHostImpl* GetMainFrame() const;

	// Returns the focused frame.
	FrameTreeNode* GetFocusedFrame();

	// Sets the focused frame to \|node\|. \|source\| identifies the SiteInstance
	// that initiated this focus change. If this FrameTree has SiteInstances
	// other than \|source\|, those SiteInstances will be notified about the new
	// focused frame. Note that \|source\| may differ from \|node\|'s current
	// SiteInstance (e.g., this happens for cross-process window.focus() calls).
	void SetFocusedFrame(FrameTreeNode* node, SiteInstance* source);

	// Allows a client to listen for frame removal. The listener should expect
	// to receive the RenderViewHostImpl containing the frame and the renderer-
	// specific frame routing ID of the removed frame.
	void SetFrameRemoveListener(
	const base::Callback<void(RenderFrameHost*)>& on_frame_removed);

	// Creates a RenderViewHost for a new RenderFrameHost in the given
	// \|site_instance\|. The RenderViewHost will have its Shutdown method called
	// when all of the RenderFrameHosts using it are deleted.
	RenderViewHostImpl* CreateRenderViewHost(SiteInstance* site_instance,
	int32_t routing_id,
	int32_t main_frame_routing_id,
	int32_t widget_routing_id,
	bool swapped_out,
	bool hidden);

	// Returns the existing RenderViewHost for a new RenderFrameHost.
	// There should always be such a RenderViewHost, because the main frame
	// RenderFrameHost for each SiteInstance should be created before subframes.
	RenderViewHostImpl* GetRenderViewHost(SiteInstance* site_instance);

	// Keeps track of which RenderFrameHosts and RenderFrameProxyHosts are using
	// each RenderViewHost. When the number drops to zero, we call Shutdown on
	// the RenderViewHost.
	void AddRenderViewHostRef(RenderViewHostImpl* render_view_host);
	void ReleaseRenderViewHostRef(RenderViewHostImpl* render_view_host);

	// This is only meant to be called by FrameTreeNode. Triggers calling
	// the listener installed by SetFrameRemoveListener.
	void FrameRemoved(FrameTreeNode* frame);

	// Updates the overall load progress and notifies the WebContents.
	// Set based on the main frame's progress only.
	void UpdateLoadProgress(double progress);

	// Returns this FrameTree's total load progress.
	double load_progress() { return load_progress_; }

	// Resets the load progress on all nodes in this FrameTree.
	void ResetLoadProgress();

	// Returns true if at least one of the nodes in this FrameTree is loading.
	bool IsLoading() const;

	// Set page-level focus in all SiteInstances involved in rendering
	// this FrameTree, not including the current main frame's
	// SiteInstance. The focus update will be sent via the main frame's proxies
	// in those SiteInstances.
	void ReplicatePageFocus(bool is_focused);

	// Updates page-level focus for this FrameTree in the subframe renderer
	// identified by \|instance\|.
	void SetPageFocus(SiteInstance* instance, bool is_focused);

	private:
	friend class FrameTreeTest;
	FRIEND_TEST_ALL_PREFIXES(RenderFrameHostImplBrowserTest, RemoveFocusedFrame);
	typedef base::hash_map<int, RenderViewHostImpl*> RenderViewHostMap;

	// Returns a range to iterate over all FrameTreeNodes in the frame tree in
	// breadth-first traversal order, skipping the subtree rooted at
	// \|node\|, but including \|node\| itself.
	NodeRange NodesExceptSubtree(FrameTreeNode* node);

	// These delegates are installed into all the RenderViewHosts and
	// RenderFrameHosts that we create.
	RenderFrameHostDelegate* render_frame_delegate_;
	RenderViewHostDelegate* render_view_delegate_;
	RenderWidgetHostDelegate* render_widget_delegate_;
	RenderFrameHostManager::Delegate* manager_delegate_;

	// Map of SiteInstance ID to a RenderViewHost. This allows us to look up the
	// RenderViewHost for a given SiteInstance when creating RenderFrameHosts.
	// Combined with the refcount on RenderViewHost, this allows us to call
	// Shutdown on the RenderViewHost and remove it from the map when no more
	// RenderFrameHosts are using it.
	//
	// Must be declared before \|root_\| so that it is deleted afterward. Otherwise
	// the map will be cleared before we delete the RenderFrameHosts in the tree.
	RenderViewHostMap render_view_host_map_;

	// This is an owned ptr to the root FrameTreeNode, which never changes over
	// the lifetime of the FrameTree. It is not a scoped_ptr because we need the
	// pointer to remain valid even while the FrameTreeNode is being destroyed,
	// since it's common for a node to test whether it's the root node.
	FrameTreeNode* root_;

	int focused_frame_tree_node_id_;

	base::Callback<void(RenderFrameHost*)> on_frame_removed_;

	// Overall load progress.
	double load_progress_;

	DISALLOW_COPY_AND_ASSIGN(FrameTree);
	};

	} // namespace content

	#endif // CONTENT_BROWSER_FRAME_HOST_FRAME_TREE_H_