chrome/browser/task_manager/task_manager.h - chromium/src - Git at Google

 // Copyright (c) 2012 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_BROWSER_TASK_MANAGER_TASK_MANAGER_H_
 #define CHROME_BROWSER_TASK_MANAGER_TASK_MANAGER_H_

 #include <stddef.h>
 #include <stdint.h>

 #include <map>
 #include <memory>
 #include <vector>

 #include "base/callback_forward.h"
 #include "base/gtest_prod_util.h"
 #include "base/macros.h"
 #include "base/memory/ref_counted.h"
 #include "base/memory/singleton.h"
 #include "base/observer_list.h"
 #include "base/strings/string16.h"
 #include "build/build_config.h"
 #include "chrome/browser/task_manager/resource_provider.h"
 #include "gpu/ipc/common/memory_stats.h"
 #include "third_party/WebKit/public/web/WebCache.h"

 // -----------------------------------------------------------------------------
 // DEPRECATED:
 // - This is currently enabled only on MacOSX, and will be removed soon (See
 //   crbug.com/528486).
 // - Please don't add any new stuff here. See the new implementation in
 //   //src/chrome/browser/task_management.
 // -----------------------------------------------------------------------------
 #if !defined(OS_MACOSX)
 #error "The old task manager is deprecated on non-macos platforms."
 #endif  // defined(OS_MACOSX)

 class PrefRegistrySimple;
 class PrivateWorkingSetSnapshot;
 class TaskManagerModel;
 class TaskManagerModelGpuDataManagerObserver;

 namespace base {
 class ProcessMetrics;
 }

 namespace content {
 class WebContents;
 }

 namespace extensions {
 class Extension;
 }

 namespace gfx {
 class ImageSkia;
 }

 namespace net {
 class URLRequest;
 }

 // This class is a singleton.
 class TaskManager {
  public:
   // Returns true if the process at the specified index is the browser process.
   bool IsBrowserProcess(int index) const;

   // Terminates the process at the specified index.
   void KillProcess(int index);

   // Activates the browser tab associated with the process in the specified
   // index.
   void ActivateProcess(int index);

   // These methods are invoked by the resource providers to add/remove resources
   // to the Task Manager. Note that the resources are owned by the
   // ResourceProviders and are not valid after StopUpdating() has been called
   // on the ResourceProviders.
   void AddResource(task_manager::Resource* resource);
   void RemoveResource(task_manager::Resource* resource);

   void OnWindowClosed();

   // Invoked when a change to a resource has occurred that should cause any
   // observers to completely refresh themselves (for example, the creation of
   // a background resource in a process). Results in all observers receiving
   // OnModelChanged() events.
   void ModelChanged();

   // Returns the singleton instance (and initializes it if necessary).
   static TaskManager* GetInstance();

   TaskManagerModel* model() const { return model_.get(); }

  private:
   FRIEND_TEST_ALL_PREFIXES(TaskManagerTest, Basic);
   FRIEND_TEST_ALL_PREFIXES(TaskManagerTest, Resources);
   FRIEND_TEST_ALL_PREFIXES(TaskManagerTest, RefreshCalled);
   FRIEND_TEST_ALL_PREFIXES(TaskManagerWindowControllerTest, Init);
   FRIEND_TEST_ALL_PREFIXES(TaskManagerWindowControllerTest, Sort);
   FRIEND_TEST_ALL_PREFIXES(TaskManagerWindowControllerTest,
                            SelectionAdaptsToSorting);
   FRIEND_TEST_ALL_PREFIXES(TaskManagerWindowControllerTest,
                            EnsureNewPrimarySortColumn);
   FRIEND_TEST_ALL_PREFIXES(TaskManagerWindowControllerTest,
                            EnsureOneColumnVisible);

   // Obtain an instance via GetInstance().
   TaskManager();
   friend struct base::DefaultSingletonTraits<TaskManager>;

   ~TaskManager();

   // The model used for gathering and processing task data. It is ref counted
   // because it is passed as a parameter to MessageLoop::InvokeLater().
   scoped_refptr<TaskManagerModel> model_;

   DISALLOW_COPY_AND_ASSIGN(TaskManager);
 };

 class TaskManagerModelObserver {
  public:
   virtual ~TaskManagerModelObserver() {}

   // Invoked when the model has been completely changed.
   virtual void OnModelChanged() = 0;

   // Invoked when a range of items has changed.
   virtual void OnItemsChanged(int start, int length) = 0;

   // Invoked when new items are added.
   virtual void OnItemsAdded(int start, int length) = 0;

   // Invoked when a range of items has been removed.
   virtual void OnItemsRemoved(int start, int length) = 0;

   // Invoked when a range of items is to be immediately removed. It differs
   // from OnItemsRemoved by the fact that the item is still in the task manager,
   // so it can be queried for and found.
   virtual void OnItemsToBeRemoved(int start, int length) {}

   // Invoked when the initialization of the model has been finished and
   // periodical updates is started. The first periodical update will be done
   // in a few seconds. (depending on platform)
   virtual void OnReadyPeriodicalUpdate() {}
 };

 // The model used by TaskManager.
 //
 // TaskManagerModel caches the values from all task_manager::Resources. This is
 // done so the UI sees a consistant view of the resources until it is told a
 // value has been updated.
 class TaskManagerModel : public base::RefCountedThreadSafe<TaskManagerModel> {
  public:
   // (start, length)
   typedef std::pair<int, int> GroupRange;

   explicit TaskManagerModel(TaskManager* task_manager);

   void AddObserver(TaskManagerModelObserver* observer);
   void RemoveObserver(TaskManagerModelObserver* observer);

   // Returns number of registered resources.
   int ResourceCount() const;
   // Returns number of registered groups.
   int GroupCount() const;

   // Methods to return raw resource information.
   int GetNaClDebugStubPort(int index) const;
   int64_t GetNetworkUsage(int index) const;
   double GetCPUUsage(int index) const;
   int GetIdleWakeupsPerSecond(int index) const;
   base::ProcessId GetProcessId(int index) const;
   base::ProcessHandle GetProcess(int index) const;

   // Catchall method that calls off to the appropriate GetResourceXXX method
   // based on |col_id|. |col_id| is an IDS_ value used to identify the column.
   base::string16 GetResourceById(int index, int col_id) const;

   // Methods to return formatted resource information.
   const base::string16& GetResourceTitle(int index) const;
   const base::string16& GetResourceProfileName(int index) const;
   base::string16 GetResourceNaClDebugStubPort(int index) const;
   base::string16 GetResourceNetworkUsage(int index) const;
   base::string16 GetResourceCPUUsage(int index) const;
   base::string16 GetResourcePrivateMemory(int index) const;
   base::string16 GetResourceSharedMemory(int index) const;
   base::string16 GetResourcePhysicalMemory(int index) const;
   base::string16 GetResourceProcessId(int index) const;
   base::string16 GetResourceGDIHandles(int index) const;
   base::string16 GetResourceUSERHandles(int index) const;
   base::string16 GetResourceWebCoreImageCacheSize(int index) const;
   base::string16 GetResourceWebCoreScriptsCacheSize(int index) const;
   base::string16 GetResourceWebCoreCSSCacheSize(int index) const;
   base::string16 GetResourceVideoMemory(int index) const;
   base::string16 GetResourceSqliteMemoryUsed(int index) const;
   base::string16 GetResourceIdleWakeupsPerSecond(int index) const;
   base::string16 GetResourceV8MemoryAllocatedSize(int index) const;

   // Gets the private memory (in bytes) that should be displayed for the passed
   // resource index. Caches the result since this calculation can take time on
   // some platforms.
   bool GetPrivateMemory(int index, size_t* result) const;

   // Gets the shared memory (in bytes) that should be displayed for the passed
   // resource index. Caches the result since this calculation can take time on
   // some platforms.
   bool GetSharedMemory(int index, size_t* result) const;

   // Gets the physical memory (in bytes) that should be displayed for the passed
   // resource index.
   bool GetPhysicalMemory(int index, size_t* result) const;

   // On Windows, get the current and peak number of GDI handles in use.
   void GetGDIHandles(int index, size_t* current, size_t* peak) const;

   // On Windows, get the current and peak number of USER handles in use.
   void GetUSERHandles(int index, size_t* current, size_t* peak) const;

   // Gets the statuses of webkit. Return false if the resource for the given row
   // isn't a renderer.
   bool GetWebCoreCacheStats(int index,
                             blink::WebCache::ResourceTypeStats* result) const;

   // Gets the GPU memory allocated of the given page.
   bool GetVideoMemory(int index,
                       size_t* video_memory,
                       bool* has_duplicates) const;

   // Gets the sqlite memory (in byte). Return false if the resource for the
   // given row doesn't report information.
   bool GetSqliteMemoryUsedBytes(int index, size_t* result) const;

   // Gets the amount of memory allocated for javascript. Returns false if the
   // resource for the given row isn't a renderer.
   bool GetV8Memory(int index, size_t* result) const;

   // Gets the amount of memory used for javascript. Returns false if the
   // resource for the given row isn't a renderer.
   bool GetV8MemoryUsed(int index, size_t* result) const;

   // Returns true if resource for the given row can be activated.
   bool CanActivate(int index) const;

   // Returns true if the resource is first/last in its group (resources
   // rendered by the same process are groupped together).
   bool IsResourceFirstInGroup(int index) const;
   bool IsResourceLastInGroup(int index) const;

   // Returns icon to be used for resource (for example a favicon).
   gfx::ImageSkia GetResourceIcon(int index) const;

   // Returns the group range of resource.
   GroupRange GetGroupRangeForResource(int index) const;

   // Returns an index of groups to which the resource belongs.
   int GetGroupIndexForResource(int index) const;

   // Returns an index of resource which belongs to the |group_index|th group
   // and which is the |index_in_group|th resource in group.
   int GetResourceIndexForGroup(int group_index, int index_in_group) const;

   // Compares values in column |col_id| and rows |row1|, |row2|.
   // Returns -1 if value in |row1| is less than value in |row2|,
   // 0 if they are equal, and 1 otherwise.
   int CompareValues(int row1, int row2, int col_id) const;

   // Returns the unique child process ID generated by Chromium, not the OS
   // process id. This is used to identify processes internally and for
   // extensions. It is not meant to be displayed to the user.
   int GetUniqueChildProcessId(int index) const;

   // Returns the type of the given resource.
   task_manager::Resource::Type GetResourceType(int index) const;

   // Returns WebContents of given resource or NULL if not applicable.
   content::WebContents* GetResourceWebContents(int index) const;

   void AddResource(task_manager::Resource* resource);
   void RemoveResource(task_manager::Resource* resource);

   void StartUpdating();
   void StopUpdating();

   // Listening involves calling StartUpdating on all resource providers. This
   // causes all of them to subscribe to notifications and enumerate current
   // resources. It differs from StartUpdating that it doesn't start the
   // Refresh timer. The end result is that we have a full view of resources, but
   // don't spend unneeded time updating, unless we have a real need to.
   void StartListening();
   void StopListening();

   void Clear();  // Removes all items.

   // Sends OnModelChanged() to all observers to inform them of significant
   // changes to the model.
   void ModelChanged();

   // Updates the values for all rows.
   void Refresh();

   // Do a bulk repopulation of the physical_memory data on platforms where that
   // is faster.
   void RefreshPhysicalMemoryFromWorkingSetSnapshot();

   void NotifyVideoMemoryUsageStats(
       const gpu::VideoMemoryUsageStats& video_memory_usage_stats);

   void NotifyBytesRead(const net::URLRequest& request, int64_t bytes_read);

   void RegisterOnDataReadyCallback(const base::Closure& callback);

   void NotifyDataReady();

  private:
   friend class base::RefCountedThreadSafe<TaskManagerModel>;
   friend class TaskManagerBrowserTest;
   FRIEND_TEST_ALL_PREFIXES(ProcessesApiTest, ProcessesVsTaskManager);
   FRIEND_TEST_ALL_PREFIXES(TaskManagerTest, RefreshCalled);
   FRIEND_TEST_ALL_PREFIXES(TaskManagerWindowControllerTest,
                            SelectionAdaptsToSorting);

   enum UpdateState {
     IDLE = 0,      // Currently not updating.
     TASK_PENDING,  // An update task is pending.
     STOPPING       // A update task is pending and it should stop the update.
   };

   // The delay between updates of the information (in ms).
   // Match Activity Monitor's default refresh rate.
   static const int kUpdateTimeMs = 2000;

   // Values cached per resource. Values are validated on demand. The is_XXX
   // members indicate if a value is valid.
   struct PerResourceValues {
     PerResourceValues();
     PerResourceValues(const PerResourceValues& other);
     ~PerResourceValues();

     bool is_title_valid;
     base::string16 title;

     bool is_profile_name_valid;
     base::string16 profile_name;

     // No is_network_usage since default (0) is fine.
     int64_t network_usage;

     bool is_process_id_valid;
     base::ProcessId process_id;

     bool is_webcore_stats_valid;
     blink::WebCache::ResourceTypeStats webcore_stats;

     bool is_sqlite_memory_bytes_valid;
     size_t sqlite_memory_bytes;

     bool is_v8_memory_valid;
     size_t v8_memory_allocated;
     size_t v8_memory_used;
   };

   // Values cached per process. Values are validated on demand. The is_XXX
   // members indicate if a value is valid.
   struct PerProcessValues {
     PerProcessValues();
     PerProcessValues(const PerProcessValues& other);
     ~PerProcessValues();

     bool is_cpu_usage_valid;
     double cpu_usage;

     bool is_idle_wakeups_valid;
     int idle_wakeups;

     bool is_private_and_shared_valid;
     size_t private_bytes;
     size_t shared_bytes;

     bool is_physical_memory_valid;
     size_t physical_memory;

     bool is_video_memory_valid;
     size_t video_memory;
     bool video_memory_has_duplicates;

     bool is_gdi_handles_valid;
     size_t gdi_handles;
     size_t gdi_handles_peak;

     bool is_user_handles_valid;
     size_t user_handles;
     size_t user_handles_peak;

     bool is_nacl_debug_stub_port_valid;
     int nacl_debug_stub_port;
   };

   typedef std::vector<task_manager::Resource*> ResourceList;
   typedef std::vector<scoped_refptr<task_manager::ResourceProvider> >
       ResourceProviderList;
   typedef std::map<base::ProcessHandle, ResourceList> GroupMap;
   typedef std::map<base::ProcessHandle, base::ProcessMetrics*> MetricsMap;
   typedef std::map<task_manager::Resource*, int64_t> ResourceValueMap;
   typedef std::map<task_manager::Resource*,
                    PerResourceValues> PerResourceCache;
   typedef std::map<base::ProcessHandle, PerProcessValues> PerProcessCache;

   // This struct is used to exchange information between the io and ui threads.
   struct BytesReadParam {
     BytesReadParam(int origin_pid,
                    int child_id,
                    int route_id,
                    int64_t byte_count)
         : origin_pid(origin_pid),
           child_id(child_id),
           route_id(route_id),
           byte_count(byte_count) {}

     // The process ID that triggered the request.  For plugin requests this
     // will differ from the renderer process ID.
     int origin_pid;

     // The child ID of the process this request was routed through.
     int child_id;

     int route_id;
     int64_t byte_count;
   };

   ~TaskManagerModel();

   // Callback from the timer to refresh. Invokes Refresh() as appropriate.
   void RefreshCallback();

   void RefreshVideoMemoryUsageStats();

   // Returns the network usage (in bytes per seconds) for the specified
   // resource. That's the value retrieved at the last timer's tick.
   int64_t GetNetworkUsageForResource(task_manager::Resource* resource) const;

   // Called on the UI thread when some bytes are read.
   void BytesRead(BytesReadParam param);

   void MultipleBytesRead(const std::vector<BytesReadParam>* params);

   // Notifies the UI thread about all the bytes read. Allows for coalescing
   // multiple bytes read into a single task for the UI thread. This is important
   // for when downloading a lot of data on the IO thread, since posting a Task
   // for each one is expensive.
   void NotifyMultipleBytesRead();

   // Called on the IO thread to start/stop updating byte counts.
   void SetUpdatingByteCount(bool is_updating);

   // Returns the network usage (in byte per second) that should be displayed for
   // the passed |resource|.  -1 means the information is not available for that
   // resource.
   int64_t GetNetworkUsage(task_manager::Resource* resource) const;

   // Returns the CPU usage (in %) that should be displayed for the passed
   // |resource|.
   double GetCPUUsage(task_manager::Resource* resource) const;

   // Returns the idle wakeups that should be displayed for the passed
   // |resource|.
   int GetIdleWakeupsPerSecond(task_manager::Resource* resource) const;

   // Given a number, this function returns the formatted string that should be
   // displayed in the task manager's memory cell.
   base::string16 GetMemCellText(int64_t number) const;

   // Verifies the private and shared memory for |handle| is valid in
   // |per_process_cache_|. Returns true if the data in |per_process_cache_| is
   // valid.
   bool CachePrivateAndSharedMemory(base::ProcessHandle handle) const;

   // Verifies |webcore_stats| in |per_resource_cache_|, returning true on
   // success.
   bool CacheWebCoreStats(int index) const;

   // Verifies |v8_memory_allocated| and |v8_memory_used| in
   // |per_resource_cache_|. Returns true if valid, false if not valid.
   bool CacheV8Memory(int index) const;

   // Adds a resource provider to be managed.
   void AddResourceProvider(task_manager::ResourceProvider* provider);

   // Returns the PerResourceValues for the specified index.
   PerResourceValues& GetPerResourceValues(int index) const;

   // Returns the Resource for the specified index.
   task_manager::Resource* GetResource(int index) const;

   // The list of providers to the task manager. They are ref counted.
   ResourceProviderList providers_;

   // The list of all the resources displayed in the task manager. They are owned
   // by the ResourceProviders.
   ResourceList resources_;

   // A map to keep tracks of the grouped resources (they are grouped if they
   // share the same process). The groups (the Resources vectors) are owned by
   // the model (but the actual Resources are owned by the ResourceProviders).
   GroupMap group_map_;

   // A map to retrieve the process metrics for a process. The ProcessMetrics are
   // owned by the model.
   MetricsMap metrics_map_;

   // A map that keeps track of the number of bytes read per process since last
   // tick. The Resources are owned by the ResourceProviders.
   ResourceValueMap current_byte_count_map_;

   // A map that contains the video memory usage for a process
   gpu::VideoMemoryUsageStats video_memory_usage_stats_;

   // Set to true when we've requested video stats and false once we get them.
   bool pending_video_memory_usage_stats_update_;

   // An observer waiting for video memory usage stats updates from the GPU
   // process
   std::unique_ptr<TaskManagerModelGpuDataManagerObserver>
       video_memory_usage_stats_observer_;

   base::ObserverList<TaskManagerModelObserver> observer_list_;

   // How many calls to StartUpdating have been made without matching calls to
   // StopUpdating.
   int update_requests_;

   // How many calls to StartListening have been made without matching calls to
   // StopListening.
   int listen_requests_;

   // Whether we are currently in the process of updating.
   UpdateState update_state_;

   // Whether the IO thread is currently in the process of updating; accessed
   // only on the IO thread.
   bool is_updating_byte_count_;

   // Buffer for coalescing BytesReadParam so we don't have to post a task on
   // each NotifyBytesRead() call.
   std::vector<BytesReadParam> bytes_read_buffer_;

   std::vector<base::Closure> on_data_ready_callbacks_;

   // All per-Resource values are stored here.
   mutable PerResourceCache per_resource_cache_;

   // All per-Process values are stored here.
   mutable PerProcessCache per_process_cache_;

   DISALLOW_COPY_AND_ASSIGN(TaskManagerModel);
 };

 #endif  // CHROME_BROWSER_TASK_MANAGER_TASK_MANAGER_H_
	// Copyright (c) 2012 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_BROWSER_TASK_MANAGER_TASK_MANAGER_H_
	#define CHROME_BROWSER_TASK_MANAGER_TASK_MANAGER_H_

	#include <stddef.h>
	#include <stdint.h>

	#include <map>
	#include <memory>
	#include <vector>

	#include "base/callback_forward.h"
	#include "base/gtest_prod_util.h"
	#include "base/macros.h"
	#include "base/memory/ref_counted.h"
	#include "base/memory/singleton.h"
	#include "base/observer_list.h"
	#include "base/strings/string16.h"
	#include "build/build_config.h"
	#include "chrome/browser/task_manager/resource_provider.h"
	#include "gpu/ipc/common/memory_stats.h"
	#include "third_party/WebKit/public/web/WebCache.h"

	// -----------------------------------------------------------------------------
	// DEPRECATED:
	// - This is currently enabled only on MacOSX, and will be removed soon (See
	// crbug.com/528486).
	// - Please don't add any new stuff here. See the new implementation in
	// //src/chrome/browser/task_management.
	// -----------------------------------------------------------------------------
	#if !defined(OS_MACOSX)
	#error "The old task manager is deprecated on non-macos platforms."
	#endif // defined(OS_MACOSX)

	class PrefRegistrySimple;
	class PrivateWorkingSetSnapshot;
	class TaskManagerModel;
	class TaskManagerModelGpuDataManagerObserver;

	namespace base {
	class ProcessMetrics;
	}

	namespace content {
	class WebContents;
	}

	namespace extensions {
	class Extension;
	}

	namespace gfx {
	class ImageSkia;
	}

	namespace net {
	class URLRequest;
	}

	// This class is a singleton.
	class TaskManager {
	public:
	// Returns true if the process at the specified index is the browser process.
	bool IsBrowserProcess(int index) const;

	// Terminates the process at the specified index.
	void KillProcess(int index);

	// Activates the browser tab associated with the process in the specified
	// index.
	void ActivateProcess(int index);

	// These methods are invoked by the resource providers to add/remove resources
	// to the Task Manager. Note that the resources are owned by the
	// ResourceProviders and are not valid after StopUpdating() has been called
	// on the ResourceProviders.
	void AddResource(task_manager::Resource* resource);
	void RemoveResource(task_manager::Resource* resource);

	void OnWindowClosed();

	// Invoked when a change to a resource has occurred that should cause any
	// observers to completely refresh themselves (for example, the creation of
	// a background resource in a process). Results in all observers receiving
	// OnModelChanged() events.
	void ModelChanged();

	// Returns the singleton instance (and initializes it if necessary).
	static TaskManager* GetInstance();

	TaskManagerModel* model() const { return model_.get(); }

	private:
	FRIEND_TEST_ALL_PREFIXES(TaskManagerTest, Basic);
	FRIEND_TEST_ALL_PREFIXES(TaskManagerTest, Resources);
	FRIEND_TEST_ALL_PREFIXES(TaskManagerTest, RefreshCalled);
	FRIEND_TEST_ALL_PREFIXES(TaskManagerWindowControllerTest, Init);
	FRIEND_TEST_ALL_PREFIXES(TaskManagerWindowControllerTest, Sort);
	FRIEND_TEST_ALL_PREFIXES(TaskManagerWindowControllerTest,
	SelectionAdaptsToSorting);
	FRIEND_TEST_ALL_PREFIXES(TaskManagerWindowControllerTest,
	EnsureNewPrimarySortColumn);
	FRIEND_TEST_ALL_PREFIXES(TaskManagerWindowControllerTest,
	EnsureOneColumnVisible);

	// Obtain an instance via GetInstance().
	TaskManager();
	friend struct base::DefaultSingletonTraits<TaskManager>;

	~TaskManager();

	// The model used for gathering and processing task data. It is ref counted
	// because it is passed as a parameter to MessageLoop::InvokeLater().
	scoped_refptr<TaskManagerModel> model_;

	DISALLOW_COPY_AND_ASSIGN(TaskManager);
	};

	class TaskManagerModelObserver {
	public:
	virtual ~TaskManagerModelObserver() {}

	// Invoked when the model has been completely changed.
	virtual void OnModelChanged() = 0;

	// Invoked when a range of items has changed.
	virtual void OnItemsChanged(int start, int length) = 0;

	// Invoked when new items are added.
	virtual void OnItemsAdded(int start, int length) = 0;

	// Invoked when a range of items has been removed.
	virtual void OnItemsRemoved(int start, int length) = 0;

	// Invoked when a range of items is to be immediately removed. It differs
	// from OnItemsRemoved by the fact that the item is still in the task manager,
	// so it can be queried for and found.
	virtual void OnItemsToBeRemoved(int start, int length) {}

	// Invoked when the initialization of the model has been finished and
	// periodical updates is started. The first periodical update will be done
	// in a few seconds. (depending on platform)
	virtual void OnReadyPeriodicalUpdate() {}
	};

	// The model used by TaskManager.
	//
	// TaskManagerModel caches the values from all task_manager::Resources. This is
	// done so the UI sees a consistant view of the resources until it is told a
	// value has been updated.
	class TaskManagerModel : public base::RefCountedThreadSafe<TaskManagerModel> {
	public:
	// (start, length)
	typedef std::pair<int, int> GroupRange;

	explicit TaskManagerModel(TaskManager* task_manager);

	void AddObserver(TaskManagerModelObserver* observer);
	void RemoveObserver(TaskManagerModelObserver* observer);

	// Returns number of registered resources.
	int ResourceCount() const;
	// Returns number of registered groups.
	int GroupCount() const;

	// Methods to return raw resource information.
	int GetNaClDebugStubPort(int index) const;
	int64_t GetNetworkUsage(int index) const;
	double GetCPUUsage(int index) const;
	int GetIdleWakeupsPerSecond(int index) const;
	base::ProcessId GetProcessId(int index) const;
	base::ProcessHandle GetProcess(int index) const;

	// Catchall method that calls off to the appropriate GetResourceXXX method
	// based on \|col_id\|. \|col_id\| is an IDS_ value used to identify the column.
	base::string16 GetResourceById(int index, int col_id) const;

	// Methods to return formatted resource information.
	const base::string16& GetResourceTitle(int index) const;
	const base::string16& GetResourceProfileName(int index) const;
	base::string16 GetResourceNaClDebugStubPort(int index) const;
	base::string16 GetResourceNetworkUsage(int index) const;
	base::string16 GetResourceCPUUsage(int index) const;
	base::string16 GetResourcePrivateMemory(int index) const;
	base::string16 GetResourceSharedMemory(int index) const;
	base::string16 GetResourcePhysicalMemory(int index) const;
	base::string16 GetResourceProcessId(int index) const;
	base::string16 GetResourceGDIHandles(int index) const;
	base::string16 GetResourceUSERHandles(int index) const;
	base::string16 GetResourceWebCoreImageCacheSize(int index) const;
	base::string16 GetResourceWebCoreScriptsCacheSize(int index) const;
	base::string16 GetResourceWebCoreCSSCacheSize(int index) const;
	base::string16 GetResourceVideoMemory(int index) const;
	base::string16 GetResourceSqliteMemoryUsed(int index) const;
	base::string16 GetResourceIdleWakeupsPerSecond(int index) const;
	base::string16 GetResourceV8MemoryAllocatedSize(int index) const;

	// Gets the private memory (in bytes) that should be displayed for the passed
	// resource index. Caches the result since this calculation can take time on
	// some platforms.
	bool GetPrivateMemory(int index, size_t* result) const;

	// Gets the shared memory (in bytes) that should be displayed for the passed
	// resource index. Caches the result since this calculation can take time on
	// some platforms.
	bool GetSharedMemory(int index, size_t* result) const;

	// Gets the physical memory (in bytes) that should be displayed for the passed
	// resource index.
	bool GetPhysicalMemory(int index, size_t* result) const;

	// On Windows, get the current and peak number of GDI handles in use.
	void GetGDIHandles(int index, size_t* current, size_t* peak) const;

	// On Windows, get the current and peak number of USER handles in use.
	void GetUSERHandles(int index, size_t* current, size_t* peak) const;

	// Gets the statuses of webkit. Return false if the resource for the given row
	// isn't a renderer.
	bool GetWebCoreCacheStats(int index,
	blink::WebCache::ResourceTypeStats* result) const;

	// Gets the GPU memory allocated of the given page.
	bool GetVideoMemory(int index,
	size_t* video_memory,
	bool* has_duplicates) const;

	// Gets the sqlite memory (in byte). Return false if the resource for the
	// given row doesn't report information.
	bool GetSqliteMemoryUsedBytes(int index, size_t* result) const;

	// Gets the amount of memory allocated for javascript. Returns false if the
	// resource for the given row isn't a renderer.
	bool GetV8Memory(int index, size_t* result) const;

	// Gets the amount of memory used for javascript. Returns false if the
	// resource for the given row isn't a renderer.
	bool GetV8MemoryUsed(int index, size_t* result) const;

	// Returns true if resource for the given row can be activated.
	bool CanActivate(int index) const;

	// Returns true if the resource is first/last in its group (resources
	// rendered by the same process are groupped together).
	bool IsResourceFirstInGroup(int index) const;
	bool IsResourceLastInGroup(int index) const;

	// Returns icon to be used for resource (for example a favicon).
	gfx::ImageSkia GetResourceIcon(int index) const;

	// Returns the group range of resource.
	GroupRange GetGroupRangeForResource(int index) const;

	// Returns an index of groups to which the resource belongs.
	int GetGroupIndexForResource(int index) const;

	// Returns an index of resource which belongs to the \|group_index\|th group
	// and which is the \|index_in_group\|th resource in group.
	int GetResourceIndexForGroup(int group_index, int index_in_group) const;

	// Compares values in column \|col_id\| and rows \|row1\|, \|row2\|.
	// Returns -1 if value in \|row1\| is less than value in \|row2\|,
	// 0 if they are equal, and 1 otherwise.
	int CompareValues(int row1, int row2, int col_id) const;

	// Returns the unique child process ID generated by Chromium, not the OS
	// process id. This is used to identify processes internally and for
	// extensions. It is not meant to be displayed to the user.
	int GetUniqueChildProcessId(int index) const;

	// Returns the type of the given resource.
	task_manager::Resource::Type GetResourceType(int index) const;

	// Returns WebContents of given resource or NULL if not applicable.
	content::WebContents* GetResourceWebContents(int index) const;

	void AddResource(task_manager::Resource* resource);
	void RemoveResource(task_manager::Resource* resource);

	void StartUpdating();
	void StopUpdating();

	// Listening involves calling StartUpdating on all resource providers. This
	// causes all of them to subscribe to notifications and enumerate current
	// resources. It differs from StartUpdating that it doesn't start the
	// Refresh timer. The end result is that we have a full view of resources, but
	// don't spend unneeded time updating, unless we have a real need to.
	void StartListening();
	void StopListening();

	void Clear(); // Removes all items.

	// Sends OnModelChanged() to all observers to inform them of significant
	// changes to the model.
	void ModelChanged();

	// Updates the values for all rows.
	void Refresh();

	// Do a bulk repopulation of the physical_memory data on platforms where that
	// is faster.
	void RefreshPhysicalMemoryFromWorkingSetSnapshot();

	void NotifyVideoMemoryUsageStats(
	const gpu::VideoMemoryUsageStats& video_memory_usage_stats);

	void NotifyBytesRead(const net::URLRequest& request, int64_t bytes_read);

	void RegisterOnDataReadyCallback(const base::Closure& callback);

	void NotifyDataReady();

	private:
	friend class base::RefCountedThreadSafe<TaskManagerModel>;
	friend class TaskManagerBrowserTest;
	FRIEND_TEST_ALL_PREFIXES(ProcessesApiTest, ProcessesVsTaskManager);
	FRIEND_TEST_ALL_PREFIXES(TaskManagerTest, RefreshCalled);
	FRIEND_TEST_ALL_PREFIXES(TaskManagerWindowControllerTest,
	SelectionAdaptsToSorting);

	enum UpdateState {
	IDLE = 0, // Currently not updating.
	TASK_PENDING, // An update task is pending.
	STOPPING // A update task is pending and it should stop the update.
	};

	// The delay between updates of the information (in ms).
	// Match Activity Monitor's default refresh rate.
	static const int kUpdateTimeMs = 2000;

	// Values cached per resource. Values are validated on demand. The is_XXX
	// members indicate if a value is valid.
	struct PerResourceValues {
	PerResourceValues();
	PerResourceValues(const PerResourceValues& other);
	~PerResourceValues();

	bool is_title_valid;
	base::string16 title;

	bool is_profile_name_valid;
	base::string16 profile_name;

	// No is_network_usage since default (0) is fine.
	int64_t network_usage;

	bool is_process_id_valid;
	base::ProcessId process_id;

	bool is_webcore_stats_valid;
	blink::WebCache::ResourceTypeStats webcore_stats;

	bool is_sqlite_memory_bytes_valid;
	size_t sqlite_memory_bytes;

	bool is_v8_memory_valid;
	size_t v8_memory_allocated;
	size_t v8_memory_used;
	};

	// Values cached per process. Values are validated on demand. The is_XXX
	// members indicate if a value is valid.
	struct PerProcessValues {
	PerProcessValues();
	PerProcessValues(const PerProcessValues& other);
	~PerProcessValues();

	bool is_cpu_usage_valid;
	double cpu_usage;

	bool is_idle_wakeups_valid;
	int idle_wakeups;

	bool is_private_and_shared_valid;
	size_t private_bytes;
	size_t shared_bytes;

	bool is_physical_memory_valid;
	size_t physical_memory;

	bool is_video_memory_valid;
	size_t video_memory;
	bool video_memory_has_duplicates;

	bool is_gdi_handles_valid;
	size_t gdi_handles;
	size_t gdi_handles_peak;

	bool is_user_handles_valid;
	size_t user_handles;
	size_t user_handles_peak;

	bool is_nacl_debug_stub_port_valid;
	int nacl_debug_stub_port;
	};

	typedef std::vector<task_manager::Resource*> ResourceList;
	typedef std::vector<scoped_refptr<task_manager::ResourceProvider> >
	ResourceProviderList;
	typedef std::map<base::ProcessHandle, ResourceList> GroupMap;
	typedef std::map<base::ProcessHandle, base::ProcessMetrics*> MetricsMap;
	typedef std::map<task_manager::Resource*, int64_t> ResourceValueMap;
	typedef std::map<task_manager::Resource*,
	PerResourceValues> PerResourceCache;
	typedef std::map<base::ProcessHandle, PerProcessValues> PerProcessCache;

	// This struct is used to exchange information between the io and ui threads.
	struct BytesReadParam {
	BytesReadParam(int origin_pid,
	int child_id,
	int route_id,
	int64_t byte_count)
	: origin_pid(origin_pid),
	child_id(child_id),
	route_id(route_id),
	byte_count(byte_count) {}

	// The process ID that triggered the request. For plugin requests this
	// will differ from the renderer process ID.
	int origin_pid;

	// The child ID of the process this request was routed through.
	int child_id;

	int route_id;
	int64_t byte_count;
	};

	~TaskManagerModel();

	// Callback from the timer to refresh. Invokes Refresh() as appropriate.
	void RefreshCallback();

	void RefreshVideoMemoryUsageStats();

	// Returns the network usage (in bytes per seconds) for the specified
	// resource. That's the value retrieved at the last timer's tick.
	int64_t GetNetworkUsageForResource(task_manager::Resource* resource) const;

	// Called on the UI thread when some bytes are read.
	void BytesRead(BytesReadParam param);

	void MultipleBytesRead(const std::vector<BytesReadParam>* params);

	// Notifies the UI thread about all the bytes read. Allows for coalescing
	// multiple bytes read into a single task for the UI thread. This is important
	// for when downloading a lot of data on the IO thread, since posting a Task
	// for each one is expensive.
	void NotifyMultipleBytesRead();

	// Called on the IO thread to start/stop updating byte counts.
	void SetUpdatingByteCount(bool is_updating);

	// Returns the network usage (in byte per second) that should be displayed for
	// the passed \|resource\|. -1 means the information is not available for that
	// resource.
	int64_t GetNetworkUsage(task_manager::Resource* resource) const;

	// Returns the CPU usage (in %) that should be displayed for the passed
	// \|resource\|.
	double GetCPUUsage(task_manager::Resource* resource) const;

	// Returns the idle wakeups that should be displayed for the passed
	// \|resource\|.
	int GetIdleWakeupsPerSecond(task_manager::Resource* resource) const;

	// Given a number, this function returns the formatted string that should be
	// displayed in the task manager's memory cell.
	base::string16 GetMemCellText(int64_t number) const;

	// Verifies the private and shared memory for \|handle\| is valid in
	// \|per_process_cache_\|. Returns true if the data in \|per_process_cache_\| is
	// valid.
	bool CachePrivateAndSharedMemory(base::ProcessHandle handle) const;

	// Verifies \|webcore_stats\| in \|per_resource_cache_\|, returning true on
	// success.
	bool CacheWebCoreStats(int index) const;

	// Verifies \|v8_memory_allocated\| and \|v8_memory_used\| in
	// \|per_resource_cache_\|. Returns true if valid, false if not valid.
	bool CacheV8Memory(int index) const;

	// Adds a resource provider to be managed.
	void AddResourceProvider(task_manager::ResourceProvider* provider);

	// Returns the PerResourceValues for the specified index.
	PerResourceValues& GetPerResourceValues(int index) const;

	// Returns the Resource for the specified index.
	task_manager::Resource* GetResource(int index) const;

	// The list of providers to the task manager. They are ref counted.
	ResourceProviderList providers_;

	// The list of all the resources displayed in the task manager. They are owned
	// by the ResourceProviders.
	ResourceList resources_;

	// A map to keep tracks of the grouped resources (they are grouped if they
	// share the same process). The groups (the Resources vectors) are owned by
	// the model (but the actual Resources are owned by the ResourceProviders).
	GroupMap group_map_;

	// A map to retrieve the process metrics for a process. The ProcessMetrics are
	// owned by the model.
	MetricsMap metrics_map_;

	// A map that keeps track of the number of bytes read per process since last
	// tick. The Resources are owned by the ResourceProviders.
	ResourceValueMap current_byte_count_map_;

	// A map that contains the video memory usage for a process
	gpu::VideoMemoryUsageStats video_memory_usage_stats_;

	// Set to true when we've requested video stats and false once we get them.
	bool pending_video_memory_usage_stats_update_;

	// An observer waiting for video memory usage stats updates from the GPU
	// process
	std::unique_ptr<TaskManagerModelGpuDataManagerObserver>
	video_memory_usage_stats_observer_;

	base::ObserverList<TaskManagerModelObserver> observer_list_;

	// How many calls to StartUpdating have been made without matching calls to
	// StopUpdating.
	int update_requests_;

	// How many calls to StartListening have been made without matching calls to
	// StopListening.
	int listen_requests_;

	// Whether we are currently in the process of updating.
	UpdateState update_state_;

	// Whether the IO thread is currently in the process of updating; accessed
	// only on the IO thread.
	bool is_updating_byte_count_;

	// Buffer for coalescing BytesReadParam so we don't have to post a task on
	// each NotifyBytesRead() call.
	std::vector<BytesReadParam> bytes_read_buffer_;

	std::vector<base::Closure> on_data_ready_callbacks_;

	// All per-Resource values are stored here.
	mutable PerResourceCache per_resource_cache_;

	// All per-Process values are stored here.
	mutable PerProcessCache per_process_cache_;

	DISALLOW_COPY_AND_ASSIGN(TaskManagerModel);
	};

	#endif // CHROME_BROWSER_TASK_MANAGER_TASK_MANAGER_H_