chrome/renderer/render_thread.h - chromium/src.git - Git at Google

 // Copyright (c) 2010 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 CHROME_RENDERER_RENDER_THREAD_H_
 #define CHROME_RENDERER_RENDER_THREAD_H_
 #pragma once

 #include <map>
 #include <string>
 #include <vector>

 #include "base/shared_memory.h"
 #include "base/time.h"
 #include "base/timer.h"
 #include "build/build_config.h"
 #include "chrome/common/child_thread.h"
 #include "chrome/common/css_colors.h"
 #include "chrome/common/gpu_info.h"
 #include "chrome/renderer/visitedlink_slave.h"
 #include "gfx/native_widget_types.h"
 #include "ipc/ipc_channel_proxy.h"
 #include "ipc/ipc_platform_file.h"

 class AppCacheDispatcher;
 class CookieMessageFilter;
 class DBMessageFilter;
 class DevToolsAgentFilter;
 class FilePath;
 class GpuChannelHost;
 class IndexedDBDispatcher;
 class ListValue;
 class NullableString16;
 class RendererHistogram;
 class RendererHistogramSnapshots;
 class RendererNetPredictor;
 class RendererWebKitClientImpl;
 class SpellCheck;
 class SkBitmap;
 class UserScriptSlave;
 class URLPattern;
 class WebDatabaseObserverImpl;

 struct ContentSettings;
 struct RendererPreferences;
 struct ViewMsg_DOMStorageEvent_Params;
 struct ViewMsg_ExtensionsUpdated_Params;
 struct ViewMsg_New_Params;
 struct WebPreferences;

 namespace base {
 class MessageLoopProxy;
 class Thread;
 }

 namespace IPC {
 struct ChannelHandle;
 }

 namespace WebKit {
 class WebStorageEventDispatcher;
 }

 namespace v8 {
 class Extension;
 }

 // The RenderThreadBase is the minimal interface that a RenderView/Widget
 // expects from a render thread. The interface basically abstracts a way to send
 // and receive messages.
 //
 // TODO(brettw): This has two different and opposing usage patterns which
 // make it confusing.
 //
 // In the first mode, callers call RenderThread::current() to get the one and
 // only global RenderThread (bug 10837: this should be renamed get()). Then
 // they access it. Since RenderThread is a concrete class, this can be NULL
 // during unit tests. Callers need to NULL check this every time. Some callers
 // don't happen to get called during unit tests and don't do the NULL checks,
 // which is also confusing since it's not clear if you need to or not.
 //
 // In the second mode, the abstract base class RenderThreadBase is passed to
 // RenderView and RenderWidget. Normally, this points to
 // RenderThread::current() so it's quite confusing which accessing mode should
 // be used. However, during unit testing, this class is replaced with a mock
 // to support testing functions, and is guaranteed non-NULL.
 //
 // It might be nice not to have the ::current() call and put all of the
 // functions on the abstract class so they can be mocked. However, there are
 // some standalone functions like in ChromiumBridge that are not associated
 // with a view that need to access the current thread to send messages to the
 // browser process. These need the ::current() paradigm. So instead, we should
 // probably remove the render_thread_ parameter to RenderView/Widget in
 // preference to just getting the global singleton. We can make it easier to
 // understand by moving everything to the abstract interface and saying that
 // there should never be a NULL RenderThread::current(). Tests would be
 // responsible for setting up the mock one.
 class RenderThreadBase {
  public:
   virtual ~RenderThreadBase() {}

   virtual bool Send(IPC::Message* msg) = 0;

   // Called to add or remove a listener for a particular message routing ID.
   // These methods normally get delegated to a MessageRouter.
   virtual void AddRoute(int32 routing_id, IPC::Channel::Listener* listener) = 0;
   virtual void RemoveRoute(int32 routing_id) = 0;

   virtual void AddFilter(IPC::ChannelProxy::MessageFilter* filter) = 0;
   virtual void RemoveFilter(IPC::ChannelProxy::MessageFilter* filter) = 0;

   // Called by a RenderWidget when it is hidden or restored.
   virtual void WidgetHidden() = 0;
   virtual void WidgetRestored() = 0;

   // True if this process should be treated as an extension process.
   virtual bool IsExtensionProcess() const = 0;

   // True if this process is running in an incognito profile.
   virtual bool IsIncognitoProcess() const = 0;
 };

 // The RenderThread class represents a background thread where RenderView
 // instances live.  The RenderThread supports an API that is used by its
 // consumer to talk indirectly to the RenderViews and supporting objects.
 // Likewise, it provides an API for the RenderViews to talk back to the main
 // process (i.e., their corresponding TabContents).
 //
 // Most of the communication occurs in the form of IPC messages.  They are
 // routed to the RenderThread according to the routing IDs of the messages.
 // The routing IDs correspond to RenderView instances.
 class RenderThread : public RenderThreadBase,
                      public ChildThread {
  public:
   // Grabs the IPC channel name from the command line.
   RenderThread();
   // Constructor that's used when running in single process mode.
   explicit RenderThread(const std::string& channel_name);
   virtual ~RenderThread();

   // Returns the one render thread for this process.  Note that this should only
   // be accessed when running on the render thread itself
   //
   // TODO(brettw) this should be on the abstract base class instead of here,
   // and return the base class' interface instead. Currently this causes
   // problems with testing. See the comment above RenderThreadBase above.
   static RenderThread* current();

   // Returns the routing ID of the RenderWidget containing the current script
   // execution context (corresponding to WebFrame::frameForCurrentContext).
   static int32 RoutingIDForCurrentContext();

   // Overridden from RenderThreadBase.
   virtual bool Send(IPC::Message* msg);
   virtual void AddRoute(int32 routing_id, IPC::Channel::Listener* listener);
   virtual void RemoveRoute(int32 routing_id);
   virtual void AddFilter(IPC::ChannelProxy::MessageFilter* filter);
   virtual void RemoveFilter(IPC::ChannelProxy::MessageFilter* filter);
   virtual void WidgetHidden();
   virtual void WidgetRestored();
   virtual bool IsExtensionProcess() const { return is_extension_process_; }
   virtual bool IsIncognitoProcess() const { return is_incognito_process_; }

   // These methods modify how the next message is sent.  Normally, when sending
   // a synchronous message that runs a nested message loop, we need to suspend
   // callbacks into WebKit.  This involves disabling timers and deferring
   // resource loads.  However, there are exceptions when we need to customize
   // the behavior.
   void DoNotSuspendWebKitSharedTimer();
   void DoNotNotifyWebKitOfModalLoop();

   VisitedLinkSlave* visited_link_slave() const {
     return visited_link_slave_.get();
   }

   UserScriptSlave* user_script_slave() const {
     return user_script_slave_.get();
   }

   AppCacheDispatcher* appcache_dispatcher() const {
     return appcache_dispatcher_.get();
   }

   IndexedDBDispatcher* indexed_db_dispatcher() const {
     return indexed_db_dispatcher_.get();
   }

   SpellCheck* spellchecker() const {
     return spellchecker_.get();
   }

   bool plugin_refresh_allowed() const { return plugin_refresh_allowed_; }

   // Do DNS prefetch resolution of a hostname.
   void Resolve(const char* name, size_t length);

   // Send all the Histogram data to browser.
   void SendHistograms(int sequence_number);

   // Invokes InformHostOfCacheStats after a short delay.  Used to move this
   // bookkeeping operation off the critical latency path.
   void InformHostOfCacheStatsLater();

   // Sends a message to the browser to close all connections.
   void CloseCurrentConnections();

   // Sends a message to the browser to enable or disable the disk cache.
   void SetCacheMode(bool enabled);

   // Sends a message to the browser to clear the disk cache.
   void ClearCache();

   // Sends a message to the browser to enable/disable spdy.
   void EnableSpdy(bool enable);

   // Update the list of active extensions that will be reported when we crash.
   void UpdateActiveExtensions();

   // Asynchronously establish a channel to the GPU plugin if not previously
   // established or if it has been lost (for example if the GPU plugin crashed).
   // Use GetGpuChannel() to determine when the channel is ready for use.
   void EstablishGpuChannel();

   // Synchronously establish a channel to the GPU plugin if not previously
   // established or if it has been lost (for example if the GPU plugin crashed).
   // If there is a pending asynchronous request, it will be completed by the
   // time this routine returns.
   GpuChannelHost* EstablishGpuChannelSync();

   // Get the GPU channel. Returns NULL if the channel is not established or
   // has been lost.
   GpuChannelHost* GetGpuChannel();

   // Returns a MessageLoopProxy instance corresponding to the message loop
   // of the thread on which file operations should be run. Must be called
   // on the renderer's main thread.
   scoped_refptr<base::MessageLoopProxy> GetFileThreadMessageLoopProxy();

   // This function is called for every registered V8 extension each time a new
   // script context is created. Returns true if the given V8 extension is
   // allowed to run on the given URL and extension group.
   bool AllowScriptExtension(const std::string& v8_extension_name,
                             const GURL& url,
                             int extension_group);

  private:
   virtual void OnControlMessageReceived(const IPC::Message& msg);

   void Init();

   void OnUpdateVisitedLinks(base::SharedMemoryHandle table);
   void OnAddVisitedLinks(const VisitedLinkSlave::Fingerprints& fingerprints);
   void OnResetVisitedLinks();
   void OnSetZoomLevelForCurrentURL(const GURL& url, double zoom_level);
   void OnSetContentSettingsForCurrentURL(
       const GURL& url, const ContentSettings& content_settings);
   void OnUpdateUserScripts(base::SharedMemoryHandle table);
   void OnSetExtensionFunctionNames(const std::vector<std::string>& names);
   void OnExtensionsUpdated(
       const ViewMsg_ExtensionsUpdated_Params& params);
   void OnPageActionsUpdated(const std::string& extension_id,
       const std::vector<std::string>& page_actions);
   void OnDOMStorageEvent(const ViewMsg_DOMStorageEvent_Params& params);
   void OnExtensionSetAPIPermissions(
       const std::string& extension_id,
       const std::set<std::string>& permissions);
   void OnExtensionSetHostPermissions(
       const GURL& extension_url,
       const std::vector<URLPattern>& permissions);
   void OnSetNextPageID(int32 next_page_id);
   void OnSetIsIncognitoProcess(bool is_incognito_process);
   void OnSetCSSColors(const std::vector<CSSColors::CSSColorMapping>& colors);
   void OnCreateNewView(const ViewMsg_New_Params& params);
   void OnTransferBitmap(const SkBitmap& bitmap, int resource_id);
   void OnSetCacheCapacities(size_t min_dead_capacity,
                             size_t max_dead_capacity,
                             size_t capacity);
   void OnClearCache();
   void OnGetCacheResourceStats();

   // Send all histograms to browser.
   void OnGetRendererHistograms(int sequence_number);

   // Send tcmalloc info to browser.
   void OnGetRendererTcmalloc();
   void OnGetV8HeapStats();

   void OnExtensionMessageInvoke(const std::string& extension_id,
                                 const std::string& function_name,
                                 const ListValue& args,
                                 const GURL& event_url);
   void OnPurgeMemory();
   void OnPurgePluginListCache(bool reload_pages);

   void OnInitSpellChecker(IPC::PlatformFileForTransit bdict_file,
                           const std::vector<std::string>& custom_words,
                           const std::string& language,
                           bool auto_spell_correct);
   void OnSpellCheckWordAdded(const std::string& word);
   void OnSpellCheckEnableAutoSpellCorrect(bool enable);

   void OnGpuChannelEstablished(const IPC::ChannelHandle& channel_handle,
                                const GPUInfo& gpu_info);

   void OnSetPhishingModel(IPC::PlatformFileForTransit model_file);

   void OnGetAccessibilityTree();

   // Gather usage statistics from the in-memory cache and inform our host.
   // These functions should be call periodically so that the host can make
   // decisions about how to allocation resources using current information.
   void InformHostOfCacheStats();

   // We initialize WebKit as late as possible.
   void EnsureWebKitInitialized();

   // A task we invoke periodically to assist with idle cleanup.
   void IdleHandler();

   // Schedule a call to IdleHandler with the given initial delay.
   void ScheduleIdleHandler(double initial_delay_s);

   // Registers the given V8 extension with WebKit, and also tracks what pages
   // it is allowed to run on.
   void RegisterExtension(v8::Extension* extension, bool restrict_to_extensions);

   // These objects live solely on the render thread.
   scoped_ptr<ScopedRunnableMethodFactory<RenderThread> > task_factory_;
   scoped_ptr<VisitedLinkSlave> visited_link_slave_;
   scoped_ptr<UserScriptSlave> user_script_slave_;
   scoped_ptr<RendererNetPredictor> renderer_net_predictor_;
   scoped_ptr<AppCacheDispatcher> appcache_dispatcher_;
   scoped_ptr<IndexedDBDispatcher> indexed_db_dispatcher_;
   scoped_refptr<DevToolsAgentFilter> devtools_agent_filter_;
   scoped_ptr<RendererHistogramSnapshots> histogram_snapshots_;
   scoped_ptr<RendererWebKitClientImpl> webkit_client_;
   scoped_ptr<WebKit::WebStorageEventDispatcher> dom_storage_event_dispatcher_;
   scoped_ptr<WebDatabaseObserverImpl> web_database_observer_impl_;
   scoped_ptr<SpellCheck> spellchecker_;

   // Used on the renderer and IPC threads.
   scoped_refptr<DBMessageFilter> db_message_filter_;
   scoped_refptr<CookieMessageFilter> cookie_message_filter_;

 #if defined(OS_POSIX)
   scoped_refptr<IPC::ChannelProxy::MessageFilter>
       suicide_on_channel_error_filter_;
 #endif

   // If true, then a GetPlugins call is allowed to rescan the disk.
   bool plugin_refresh_allowed_;

   // Is there a pending task for doing CacheStats.
   bool cache_stats_task_pending_;

   // The count of RenderWidgets running through this thread.
   int widget_count_;

   // The count of hidden RenderWidgets running through this thread.
   int hidden_widget_count_;

   // The current value of the idle notification timer delay.
   double idle_notification_delay_in_s_;

   // True if this renderer is running extensions.
   bool is_extension_process_;

   // True if this renderer is incognito.
   bool is_incognito_process_;

   bool suspend_webkit_shared_timer_;
   bool notify_webkit_of_modal_loop_;

   // Timer that periodically calls IdleHandler.
   base::RepeatingTimer<RenderThread> idle_timer_;

   // Same as above, but on a longer timer and will run even if the process is
   // not idle, to ensure that IdleHandle gets called eventually.
   base::RepeatingTimer<RenderThread> forced_idle_timer_;

   // The channel from the renderer process to the GPU process.
   scoped_refptr<GpuChannelHost> gpu_channel_;

   // A lazily initiated thread on which file operations are run.
   scoped_ptr<base::Thread> file_thread_;

   // Map of registered v8 extensions. The key is the extension name. The value
   // is true if the extension should be restricted to extension-related
   // contexts.
   std::map<std::string, bool> v8_extensions_;

   DISALLOW_COPY_AND_ASSIGN(RenderThread);
 };

 #endif  // CHROME_RENDERER_RENDER_THREAD_H_
	// Copyright (c) 2010 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 CHROME_RENDERER_RENDER_THREAD_H_
	#define CHROME_RENDERER_RENDER_THREAD_H_
	#pragma once

	#include <map>
	#include <string>
	#include <vector>

	#include "base/shared_memory.h"
	#include "base/time.h"
	#include "base/timer.h"
	#include "build/build_config.h"
	#include "chrome/common/child_thread.h"
	#include "chrome/common/css_colors.h"
	#include "chrome/common/gpu_info.h"
	#include "chrome/renderer/visitedlink_slave.h"
	#include "gfx/native_widget_types.h"
	#include "ipc/ipc_channel_proxy.h"
	#include "ipc/ipc_platform_file.h"

	class AppCacheDispatcher;
	class CookieMessageFilter;
	class DBMessageFilter;
	class DevToolsAgentFilter;
	class FilePath;
	class GpuChannelHost;
	class IndexedDBDispatcher;
	class ListValue;
	class NullableString16;
	class RendererHistogram;
	class RendererHistogramSnapshots;
	class RendererNetPredictor;
	class RendererWebKitClientImpl;
	class SpellCheck;
	class SkBitmap;
	class UserScriptSlave;
	class URLPattern;
	class WebDatabaseObserverImpl;

	struct ContentSettings;
	struct RendererPreferences;
	struct ViewMsg_DOMStorageEvent_Params;
	struct ViewMsg_ExtensionsUpdated_Params;
	struct ViewMsg_New_Params;
	struct WebPreferences;

	namespace base {
	class MessageLoopProxy;
	class Thread;
	}

	namespace IPC {
	struct ChannelHandle;
	}

	namespace WebKit {
	class WebStorageEventDispatcher;
	}

	namespace v8 {
	class Extension;
	}

	// The RenderThreadBase is the minimal interface that a RenderView/Widget
	// expects from a render thread. The interface basically abstracts a way to send
	// and receive messages.
	//
	// TODO(brettw): This has two different and opposing usage patterns which
	// make it confusing.
	//
	// In the first mode, callers call RenderThread::current() to get the one and
	// only global RenderThread (bug 10837: this should be renamed get()). Then
	// they access it. Since RenderThread is a concrete class, this can be NULL
	// during unit tests. Callers need to NULL check this every time. Some callers
	// don't happen to get called during unit tests and don't do the NULL checks,
	// which is also confusing since it's not clear if you need to or not.
	//
	// In the second mode, the abstract base class RenderThreadBase is passed to
	// RenderView and RenderWidget. Normally, this points to
	// RenderThread::current() so it's quite confusing which accessing mode should
	// be used. However, during unit testing, this class is replaced with a mock
	// to support testing functions, and is guaranteed non-NULL.
	//
	// It might be nice not to have the ::current() call and put all of the
	// functions on the abstract class so they can be mocked. However, there are
	// some standalone functions like in ChromiumBridge that are not associated
	// with a view that need to access the current thread to send messages to the
	// browser process. These need the ::current() paradigm. So instead, we should
	// probably remove the render_thread_ parameter to RenderView/Widget in
	// preference to just getting the global singleton. We can make it easier to
	// understand by moving everything to the abstract interface and saying that
	// there should never be a NULL RenderThread::current(). Tests would be
	// responsible for setting up the mock one.
	class RenderThreadBase {
	public:
	virtual ~RenderThreadBase() {}

	virtual bool Send(IPC::Message* msg) = 0;

	// Called to add or remove a listener for a particular message routing ID.
	// These methods normally get delegated to a MessageRouter.
	virtual void AddRoute(int32 routing_id, IPC::Channel::Listener* listener) = 0;
	virtual void RemoveRoute(int32 routing_id) = 0;

	virtual void AddFilter(IPC::ChannelProxy::MessageFilter* filter) = 0;
	virtual void RemoveFilter(IPC::ChannelProxy::MessageFilter* filter) = 0;

	// Called by a RenderWidget when it is hidden or restored.
	virtual void WidgetHidden() = 0;
	virtual void WidgetRestored() = 0;

	// True if this process should be treated as an extension process.
	virtual bool IsExtensionProcess() const = 0;

	// True if this process is running in an incognito profile.
	virtual bool IsIncognitoProcess() const = 0;
	};

	// The RenderThread class represents a background thread where RenderView
	// instances live. The RenderThread supports an API that is used by its
	// consumer to talk indirectly to the RenderViews and supporting objects.
	// Likewise, it provides an API for the RenderViews to talk back to the main
	// process (i.e., their corresponding TabContents).
	//
	// Most of the communication occurs in the form of IPC messages. They are
	// routed to the RenderThread according to the routing IDs of the messages.
	// The routing IDs correspond to RenderView instances.
	class RenderThread : public RenderThreadBase,
	public ChildThread {
	public:
	// Grabs the IPC channel name from the command line.
	RenderThread();
	// Constructor that's used when running in single process mode.
	explicit RenderThread(const std::string& channel_name);
	virtual ~RenderThread();

	// Returns the one render thread for this process. Note that this should only
	// be accessed when running on the render thread itself
	//
	// TODO(brettw) this should be on the abstract base class instead of here,
	// and return the base class' interface instead. Currently this causes
	// problems with testing. See the comment above RenderThreadBase above.
	static RenderThread* current();

	// Returns the routing ID of the RenderWidget containing the current script
	// execution context (corresponding to WebFrame::frameForCurrentContext).
	static int32 RoutingIDForCurrentContext();

	// Overridden from RenderThreadBase.
	virtual bool Send(IPC::Message* msg);
	virtual void AddRoute(int32 routing_id, IPC::Channel::Listener* listener);
	virtual void RemoveRoute(int32 routing_id);
	virtual void AddFilter(IPC::ChannelProxy::MessageFilter* filter);
	virtual void RemoveFilter(IPC::ChannelProxy::MessageFilter* filter);
	virtual void WidgetHidden();
	virtual void WidgetRestored();
	virtual bool IsExtensionProcess() const { return is_extension_process_; }
	virtual bool IsIncognitoProcess() const { return is_incognito_process_; }

	// These methods modify how the next message is sent. Normally, when sending
	// a synchronous message that runs a nested message loop, we need to suspend
	// callbacks into WebKit. This involves disabling timers and deferring
	// resource loads. However, there are exceptions when we need to customize
	// the behavior.
	void DoNotSuspendWebKitSharedTimer();
	void DoNotNotifyWebKitOfModalLoop();

	VisitedLinkSlave* visited_link_slave() const {
	return visited_link_slave_.get();
	}

	UserScriptSlave* user_script_slave() const {
	return user_script_slave_.get();
	}

	AppCacheDispatcher* appcache_dispatcher() const {
	return appcache_dispatcher_.get();
	}

	IndexedDBDispatcher* indexed_db_dispatcher() const {
	return indexed_db_dispatcher_.get();
	}

	SpellCheck* spellchecker() const {
	return spellchecker_.get();
	}

	bool plugin_refresh_allowed() const { return plugin_refresh_allowed_; }

	// Do DNS prefetch resolution of a hostname.
	void Resolve(const char* name, size_t length);

	// Send all the Histogram data to browser.
	void SendHistograms(int sequence_number);

	// Invokes InformHostOfCacheStats after a short delay. Used to move this
	// bookkeeping operation off the critical latency path.
	void InformHostOfCacheStatsLater();

	// Sends a message to the browser to close all connections.
	void CloseCurrentConnections();

	// Sends a message to the browser to enable or disable the disk cache.
	void SetCacheMode(bool enabled);

	// Sends a message to the browser to clear the disk cache.
	void ClearCache();

	// Sends a message to the browser to enable/disable spdy.
	void EnableSpdy(bool enable);

	// Update the list of active extensions that will be reported when we crash.
	void UpdateActiveExtensions();

	// Asynchronously establish a channel to the GPU plugin if not previously
	// established or if it has been lost (for example if the GPU plugin crashed).
	// Use GetGpuChannel() to determine when the channel is ready for use.
	void EstablishGpuChannel();

	// Synchronously establish a channel to the GPU plugin if not previously
	// established or if it has been lost (for example if the GPU plugin crashed).
	// If there is a pending asynchronous request, it will be completed by the
	// time this routine returns.
	GpuChannelHost* EstablishGpuChannelSync();

	// Get the GPU channel. Returns NULL if the channel is not established or
	// has been lost.
	GpuChannelHost* GetGpuChannel();

	// Returns a MessageLoopProxy instance corresponding to the message loop
	// of the thread on which file operations should be run. Must be called
	// on the renderer's main thread.
	scoped_refptr<base::MessageLoopProxy> GetFileThreadMessageLoopProxy();

	// This function is called for every registered V8 extension each time a new
	// script context is created. Returns true if the given V8 extension is
	// allowed to run on the given URL and extension group.
	bool AllowScriptExtension(const std::string& v8_extension_name,
	const GURL& url,
	int extension_group);

	private:
	virtual void OnControlMessageReceived(const IPC::Message& msg);

	void Init();

	void OnUpdateVisitedLinks(base::SharedMemoryHandle table);
	void OnAddVisitedLinks(const VisitedLinkSlave::Fingerprints& fingerprints);
	void OnResetVisitedLinks();
	void OnSetZoomLevelForCurrentURL(const GURL& url, double zoom_level);
	void OnSetContentSettingsForCurrentURL(
	const GURL& url, const ContentSettings& content_settings);
	void OnUpdateUserScripts(base::SharedMemoryHandle table);
	void OnSetExtensionFunctionNames(const std::vector<std::string>& names);
	void OnExtensionsUpdated(
	const ViewMsg_ExtensionsUpdated_Params& params);
	void OnPageActionsUpdated(const std::string& extension_id,
	const std::vector<std::string>& page_actions);
	void OnDOMStorageEvent(const ViewMsg_DOMStorageEvent_Params& params);
	void OnExtensionSetAPIPermissions(
	const std::string& extension_id,
	const std::set<std::string>& permissions);
	void OnExtensionSetHostPermissions(
	const GURL& extension_url,
	const std::vector<URLPattern>& permissions);
	void OnSetNextPageID(int32 next_page_id);
	void OnSetIsIncognitoProcess(bool is_incognito_process);
	void OnSetCSSColors(const std::vector<CSSColors::CSSColorMapping>& colors);
	void OnCreateNewView(const ViewMsg_New_Params& params);
	void OnTransferBitmap(const SkBitmap& bitmap, int resource_id);
	void OnSetCacheCapacities(size_t min_dead_capacity,
	size_t max_dead_capacity,
	size_t capacity);
	void OnClearCache();
	void OnGetCacheResourceStats();

	// Send all histograms to browser.
	void OnGetRendererHistograms(int sequence_number);

	// Send tcmalloc info to browser.
	void OnGetRendererTcmalloc();
	void OnGetV8HeapStats();

	void OnExtensionMessageInvoke(const std::string& extension_id,
	const std::string& function_name,
	const ListValue& args,
	const GURL& event_url);
	void OnPurgeMemory();
	void OnPurgePluginListCache(bool reload_pages);

	void OnInitSpellChecker(IPC::PlatformFileForTransit bdict_file,
	const std::vector<std::string>& custom_words,
	const std::string& language,
	bool auto_spell_correct);
	void OnSpellCheckWordAdded(const std::string& word);
	void OnSpellCheckEnableAutoSpellCorrect(bool enable);

	void OnGpuChannelEstablished(const IPC::ChannelHandle& channel_handle,
	const GPUInfo& gpu_info);

	void OnSetPhishingModel(IPC::PlatformFileForTransit model_file);

	void OnGetAccessibilityTree();

	// Gather usage statistics from the in-memory cache and inform our host.
	// These functions should be call periodically so that the host can make
	// decisions about how to allocation resources using current information.
	void InformHostOfCacheStats();

	// We initialize WebKit as late as possible.
	void EnsureWebKitInitialized();

	// A task we invoke periodically to assist with idle cleanup.
	void IdleHandler();

	// Schedule a call to IdleHandler with the given initial delay.
	void ScheduleIdleHandler(double initial_delay_s);

	// Registers the given V8 extension with WebKit, and also tracks what pages
	// it is allowed to run on.
	void RegisterExtension(v8::Extension* extension, bool restrict_to_extensions);

	// These objects live solely on the render thread.
	scoped_ptr<ScopedRunnableMethodFactory<RenderThread> > task_factory_;
	scoped_ptr<VisitedLinkSlave> visited_link_slave_;
	scoped_ptr<UserScriptSlave> user_script_slave_;
	scoped_ptr<RendererNetPredictor> renderer_net_predictor_;
	scoped_ptr<AppCacheDispatcher> appcache_dispatcher_;
	scoped_ptr<IndexedDBDispatcher> indexed_db_dispatcher_;
	scoped_refptr<DevToolsAgentFilter> devtools_agent_filter_;
	scoped_ptr<RendererHistogramSnapshots> histogram_snapshots_;
	scoped_ptr<RendererWebKitClientImpl> webkit_client_;
	scoped_ptr<WebKit::WebStorageEventDispatcher> dom_storage_event_dispatcher_;
	scoped_ptr<WebDatabaseObserverImpl> web_database_observer_impl_;
	scoped_ptr<SpellCheck> spellchecker_;

	// Used on the renderer and IPC threads.
	scoped_refptr<DBMessageFilter> db_message_filter_;
	scoped_refptr<CookieMessageFilter> cookie_message_filter_;

	#if defined(OS_POSIX)
	scoped_refptr<IPC::ChannelProxy::MessageFilter>
	suicide_on_channel_error_filter_;
	#endif

	// If true, then a GetPlugins call is allowed to rescan the disk.
	bool plugin_refresh_allowed_;

	// Is there a pending task for doing CacheStats.
	bool cache_stats_task_pending_;

	// The count of RenderWidgets running through this thread.
	int widget_count_;

	// The count of hidden RenderWidgets running through this thread.
	int hidden_widget_count_;

	// The current value of the idle notification timer delay.
	double idle_notification_delay_in_s_;

	// True if this renderer is running extensions.
	bool is_extension_process_;

	// True if this renderer is incognito.
	bool is_incognito_process_;

	bool suspend_webkit_shared_timer_;
	bool notify_webkit_of_modal_loop_;

	// Timer that periodically calls IdleHandler.
	base::RepeatingTimer<RenderThread> idle_timer_;

	// Same as above, but on a longer timer and will run even if the process is
	// not idle, to ensure that IdleHandle gets called eventually.
	base::RepeatingTimer<RenderThread> forced_idle_timer_;

	// The channel from the renderer process to the GPU process.
	scoped_refptr<GpuChannelHost> gpu_channel_;

	// A lazily initiated thread on which file operations are run.
	scoped_ptr<base::Thread> file_thread_;

	// Map of registered v8 extensions. The key is the extension name. The value
	// is true if the extension should be restricted to extension-related
	// contexts.
	std::map<std::string, bool> v8_extensions_;

	DISALLOW_COPY_AND_ASSIGN(RenderThread);
	};

	#endif // CHROME_RENDERER_RENDER_THREAD_H_