chrome/browser/renderer_host/web_cache_manager.h - platform/external/chromium_org - Git at Google

 // Copyright (c) 2011 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.

 // This is the browser side of the cache manager, it tracks the activity of the
 // render processes and allocates available memory cache resources.

 #ifndef CHROME_BROWSER_RENDERER_HOST_WEB_CACHE_MANAGER_H_
 #define CHROME_BROWSER_RENDERER_HOST_WEB_CACHE_MANAGER_H_

 #include <list>
 #include <map>
 #include <set>

 #include "base/basictypes.h"
 #include "base/compiler_specific.h"
 #include "base/gtest_prod_util.h"
 #include "base/memory/weak_ptr.h"
 #include "base/time/time.h"
 #include "content/public/browser/notification_observer.h"
 #include "content/public/browser/notification_registrar.h"
 #include "third_party/WebKit/public/web/WebCache.h"

 template<typename Type>
 struct DefaultSingletonTraits;
 class PrefRegistrySimple;

 class WebCacheManager : public content::NotificationObserver {
   friend class WebCacheManagerTest;
   FRIEND_TEST_ALL_PREFIXES(WebCacheManagerBrowserTest, CrashOnceOnly);

  public:
   static void RegisterPrefs(PrefRegistrySimple* registry);

   // Gets the singleton WebCacheManager object.  The first time this method
   // is called, a WebCacheManager object is constructed and returned.
   // Subsequent calls will return the same object.
   static WebCacheManager* GetInstance();

   // When a render process is created, it registers itself with the cache
   // manager host, causing the renderer to be allocated cache resources.
   void Add(int renderer_id);

   // When a render process ends, it removes itself from the cache manager host,
   // freeing the manager to assign its cache resources to other renderers.
   void Remove(int renderer_id);

   // The cache manager assigns more cache resources to active renderer.  When a
   // renderer is active, it should inform the cache manager to receive more
   // cache resources.
   //
   // When a renderer moves from being inactive to being active, the cache
   // manager may decide to adjust its resource allocation, but it will delay
   // the recalculation, allowing ObserveActivity to return quickly.
   void ObserveActivity(int renderer_id);

   // Periodically, renderers should inform the cache manager of their current
   // statistics.  The more up-to-date the cache manager's statistics, the
   // better it can allocate cache resources.
   void ObserveStats(
       int renderer_id, const blink::WebCache::UsageStats& stats);

   // The global limit on the number of bytes in all the in-memory caches.
   size_t global_size_limit() const { return global_size_limit_; }

   // Sets the global size limit, forcing a recalculation of cache allocations.
   void SetGlobalSizeLimit(size_t bytes);

   // Clears all in-memory caches.
   void ClearCache();

   // Clears all in-memory caches when a tab is reloaded or the user navigates
   // to a different website.
   void ClearCacheOnNavigation();

   // content::NotificationObserver implementation:
   virtual void Observe(int type,
                        const content::NotificationSource& source,
                        const content::NotificationDetails& details) OVERRIDE;

   // Gets the default global size limit.  This interrogates system metrics to
   // tune the default size to the current system.
   static size_t GetDefaultGlobalSizeLimit();

  protected:
   // The amount of idle time before we consider a tab to be "inactive"
   static const int kRendererInactiveThresholdMinutes = 5;

   // Keep track of some renderer information.
   struct RendererInfo : blink::WebCache::UsageStats {
     // The access time for this renderer.
     base::Time access;
   };

   typedef std::map<int, RendererInfo> StatsMap;

   // An allocation is the number of bytes a specific renderer should use for
   // its cache.
   typedef std::pair<int,size_t> Allocation;

   // An allocation strategy is a list of allocations specifying the resources
   // each renderer is permitted to consume for its cache.
   typedef std::list<Allocation> AllocationStrategy;

   // This class is a singleton.  Do not instantiate directly.
   WebCacheManager();
   friend struct DefaultSingletonTraits<WebCacheManager>;

   virtual ~WebCacheManager();

   // Recomputes the allocation of cache resources among the renderers.  Also
   // informs the renderers of their new allocation.
   void ReviseAllocationStrategy();

   // Schedules a call to ReviseAllocationStrategy after a short delay.
   void ReviseAllocationStrategyLater();

   // The various tactics used as part of an allocation strategy.  To decide
   // how many resources a given renderer should be allocated, we consider its
   // usage statistics.  Each tactic specifies the function that maps usage
   // statistics to resource allocations.
   //
   // Determining a resource allocation strategy amounts to picking a tactic
   // for each renderer and checking that the total memory required fits within
   // our |global_size_limit_|.
   enum AllocationTactic {
     // Ignore cache statistics and divide resources equally among the given
     // set of caches.
     DIVIDE_EVENLY,

     // Allow each renderer to keep its current set of cached resources, with
     // some extra allocation to store new objects.
     KEEP_CURRENT_WITH_HEADROOM,

     // Allow each renderer to keep its current set of cached resources.
     KEEP_CURRENT,

     // Allow each renderer to keep cache resources it believes are currently
     // being used, with some extra allocation to store new objects.
     KEEP_LIVE_WITH_HEADROOM,

     // Allow each renderer to keep cache resources it believes are currently
     // being used, but instruct the renderer to discard all other data.
     KEEP_LIVE,
   };

   // Helper functions for devising an allocation strategy

   // Add up all the stats from the given set of renderers and place the result
   // in |stats|.
   void GatherStats(const std::set<int>& renderers,
                    blink::WebCache::UsageStats* stats);

   // Get the amount of memory that would be required to implement |tactic|
   // using the specified allocation tactic.  This function defines the
   // semantics for each of the tactics.
   static size_t GetSize(AllocationTactic tactic,
                         const blink::WebCache::UsageStats& stats);

   // Attempt to use the specified tactics to compute an allocation strategy
   // and place the result in |strategy|.  |active_stats| and |inactive_stats|
   // are the aggregate statistics for |active_renderers_| and
   // |inactive_renderers_|, respectively.
   //
   // Returns |true| on success and |false| on failure.  Does not modify
   // |strategy| on failure.
   bool AttemptTactic(AllocationTactic active_tactic,
                      const blink::WebCache::UsageStats& active_stats,
                      AllocationTactic inactive_tactic,
                      const blink::WebCache::UsageStats& inactive_stats,
                      AllocationStrategy* strategy);

   // For each renderer in |renderers|, computes its allocation according to
   // |tactic| and add the result to |strategy|.  Any |extra_bytes_to_allocate|
   // is divided evenly among the renderers.
   void AddToStrategy(const std::set<int>& renderers,
                      AllocationTactic tactic,
                      size_t extra_bytes_to_allocate,
                      AllocationStrategy* strategy);

   // Enact an allocation strategy by informing the renderers of their
   // allocations according to |strategy|.
   void EnactStrategy(const AllocationStrategy& strategy);

   enum ClearCacheOccasion {
     // Instructs to clear the cache instantly.
     INSTANTLY,
     // Instructs to clear the cache when a navigation takes place (this
     // includes reloading a tab).
     ON_NAVIGATION
   };

   // Inform all |renderers| to clear their cache.
   void ClearRendererCache(const std::set<int>& renderers,
                           ClearCacheOccasion occation);

   // Check to see if any active renderers have fallen inactive.
   void FindInactiveRenderers();

   // The global size limit for all in-memory caches.
   size_t global_size_limit_;

   // Maps every renderer_id our most recent copy of its statistics.
   StatsMap stats_;

   // Every renderer we think is still around is in one of these two sets.
   //
   // Active renderers are those renderers that have been active more recently
   // than they have been inactive.
   std::set<int> active_renderers_;
   // Inactive renderers are those renderers that have been inactive more
   // recently than they have been active.
   std::set<int> inactive_renderers_;

   base::WeakPtrFactory<WebCacheManager> weak_factory_;

   content::NotificationRegistrar registrar_;

   DISALLOW_COPY_AND_ASSIGN(WebCacheManager);
 };

 #endif  // CHROME_BROWSER_RENDERER_HOST_WEB_CACHE_MANAGER_H_
	// Copyright (c) 2011 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.

	// This is the browser side of the cache manager, it tracks the activity of the
	// render processes and allocates available memory cache resources.

	#ifndef CHROME_BROWSER_RENDERER_HOST_WEB_CACHE_MANAGER_H_
	#define CHROME_BROWSER_RENDERER_HOST_WEB_CACHE_MANAGER_H_

	#include <list>
	#include <map>
	#include <set>

	#include "base/basictypes.h"
	#include "base/compiler_specific.h"
	#include "base/gtest_prod_util.h"
	#include "base/memory/weak_ptr.h"
	#include "base/time/time.h"
	#include "content/public/browser/notification_observer.h"
	#include "content/public/browser/notification_registrar.h"
	#include "third_party/WebKit/public/web/WebCache.h"

	template<typename Type>
	struct DefaultSingletonTraits;
	class PrefRegistrySimple;

	class WebCacheManager : public content::NotificationObserver {
	friend class WebCacheManagerTest;
	FRIEND_TEST_ALL_PREFIXES(WebCacheManagerBrowserTest, CrashOnceOnly);

	public:
	static void RegisterPrefs(PrefRegistrySimple* registry);

	// Gets the singleton WebCacheManager object. The first time this method
	// is called, a WebCacheManager object is constructed and returned.
	// Subsequent calls will return the same object.
	static WebCacheManager* GetInstance();

	// When a render process is created, it registers itself with the cache
	// manager host, causing the renderer to be allocated cache resources.
	void Add(int renderer_id);

	// When a render process ends, it removes itself from the cache manager host,
	// freeing the manager to assign its cache resources to other renderers.
	void Remove(int renderer_id);

	// The cache manager assigns more cache resources to active renderer. When a
	// renderer is active, it should inform the cache manager to receive more
	// cache resources.
	//
	// When a renderer moves from being inactive to being active, the cache
	// manager may decide to adjust its resource allocation, but it will delay
	// the recalculation, allowing ObserveActivity to return quickly.
	void ObserveActivity(int renderer_id);

	// Periodically, renderers should inform the cache manager of their current
	// statistics. The more up-to-date the cache manager's statistics, the
	// better it can allocate cache resources.
	void ObserveStats(
	int renderer_id, const blink::WebCache::UsageStats& stats);

	// The global limit on the number of bytes in all the in-memory caches.
	size_t global_size_limit() const { return global_size_limit_; }

	// Sets the global size limit, forcing a recalculation of cache allocations.
	void SetGlobalSizeLimit(size_t bytes);

	// Clears all in-memory caches.
	void ClearCache();

	// Clears all in-memory caches when a tab is reloaded or the user navigates
	// to a different website.
	void ClearCacheOnNavigation();

	// content::NotificationObserver implementation:
	virtual void Observe(int type,
	const content::NotificationSource& source,
	const content::NotificationDetails& details) OVERRIDE;

	// Gets the default global size limit. This interrogates system metrics to
	// tune the default size to the current system.
	static size_t GetDefaultGlobalSizeLimit();

	protected:
	// The amount of idle time before we consider a tab to be "inactive"
	static const int kRendererInactiveThresholdMinutes = 5;

	// Keep track of some renderer information.
	struct RendererInfo : blink::WebCache::UsageStats {
	// The access time for this renderer.
	base::Time access;
	};

	typedef std::map<int, RendererInfo> StatsMap;

	// An allocation is the number of bytes a specific renderer should use for
	// its cache.
	typedef std::pair<int,size_t> Allocation;

	// An allocation strategy is a list of allocations specifying the resources
	// each renderer is permitted to consume for its cache.
	typedef std::list<Allocation> AllocationStrategy;

	// This class is a singleton. Do not instantiate directly.
	WebCacheManager();
	friend struct DefaultSingletonTraits<WebCacheManager>;

	virtual ~WebCacheManager();

	// Recomputes the allocation of cache resources among the renderers. Also
	// informs the renderers of their new allocation.
	void ReviseAllocationStrategy();

	// Schedules a call to ReviseAllocationStrategy after a short delay.
	void ReviseAllocationStrategyLater();

	// The various tactics used as part of an allocation strategy. To decide
	// how many resources a given renderer should be allocated, we consider its
	// usage statistics. Each tactic specifies the function that maps usage
	// statistics to resource allocations.
	//
	// Determining a resource allocation strategy amounts to picking a tactic
	// for each renderer and checking that the total memory required fits within
	// our \|global_size_limit_\|.
	enum AllocationTactic {
	// Ignore cache statistics and divide resources equally among the given
	// set of caches.
	DIVIDE_EVENLY,

	// Allow each renderer to keep its current set of cached resources, with
	// some extra allocation to store new objects.
	KEEP_CURRENT_WITH_HEADROOM,

	// Allow each renderer to keep its current set of cached resources.
	KEEP_CURRENT,

	// Allow each renderer to keep cache resources it believes are currently
	// being used, with some extra allocation to store new objects.
	KEEP_LIVE_WITH_HEADROOM,

	// Allow each renderer to keep cache resources it believes are currently
	// being used, but instruct the renderer to discard all other data.
	KEEP_LIVE,
	};

	// Helper functions for devising an allocation strategy

	// Add up all the stats from the given set of renderers and place the result
	// in \|stats\|.
	void GatherStats(const std::set<int>& renderers,
	blink::WebCache::UsageStats* stats);

	// Get the amount of memory that would be required to implement \|tactic\|
	// using the specified allocation tactic. This function defines the
	// semantics for each of the tactics.
	static size_t GetSize(AllocationTactic tactic,
	const blink::WebCache::UsageStats& stats);

	// Attempt to use the specified tactics to compute an allocation strategy
	// and place the result in \|strategy\|. \|active_stats\| and \|inactive_stats\|
	// are the aggregate statistics for \|active_renderers_\| and
	// \|inactive_renderers_\|, respectively.
	//
	// Returns \|true\| on success and \|false\| on failure. Does not modify
	// \|strategy\| on failure.
	bool AttemptTactic(AllocationTactic active_tactic,
	const blink::WebCache::UsageStats& active_stats,
	AllocationTactic inactive_tactic,
	const blink::WebCache::UsageStats& inactive_stats,
	AllocationStrategy* strategy);

	// For each renderer in \|renderers\|, computes its allocation according to
	// \|tactic\| and add the result to \|strategy\|. Any \|extra_bytes_to_allocate\|
	// is divided evenly among the renderers.
	void AddToStrategy(const std::set<int>& renderers,
	AllocationTactic tactic,
	size_t extra_bytes_to_allocate,
	AllocationStrategy* strategy);

	// Enact an allocation strategy by informing the renderers of their
	// allocations according to \|strategy\|.
	void EnactStrategy(const AllocationStrategy& strategy);

	enum ClearCacheOccasion {
	// Instructs to clear the cache instantly.
	INSTANTLY,
	// Instructs to clear the cache when a navigation takes place (this
	// includes reloading a tab).
	ON_NAVIGATION
	};

	// Inform all \|renderers\| to clear their cache.
	void ClearRendererCache(const std::set<int>& renderers,
	ClearCacheOccasion occation);

	// Check to see if any active renderers have fallen inactive.
	void FindInactiveRenderers();

	// The global size limit for all in-memory caches.
	size_t global_size_limit_;

	// Maps every renderer_id our most recent copy of its statistics.
	StatsMap stats_;

	// Every renderer we think is still around is in one of these two sets.
	//
	// Active renderers are those renderers that have been active more recently
	// than they have been inactive.
	std::set<int> active_renderers_;
	// Inactive renderers are those renderers that have been inactive more
	// recently than they have been active.
	std::set<int> inactive_renderers_;

	base::WeakPtrFactory<WebCacheManager> weak_factory_;

	content::NotificationRegistrar registrar_;

	DISALLOW_COPY_AND_ASSIGN(WebCacheManager);
	};

	#endif // CHROME_BROWSER_RENDERER_HOST_WEB_CACHE_MANAGER_H_