Source/WebCore/loader/cache/MemoryCache.h - WebKit - Git at Google

 /*
     Copyright (C) 1998 Lars Knoll (knoll@mpi-hd.mpg.de)
     Copyright (C) 2001 Dirk Mueller <mueller@kde.org>
     Copyright (C) 2004, 2005, 2006, 2007, 2008 Apple Inc. All rights reserved.

     This library is free software; you can redistribute it and/or
     modify it under the terms of the GNU Library General Public
     License as published by the Free Software Foundation; either
     version 2 of the License, or (at your option) any later version.

     This library is distributed in the hope that it will be useful,
     but WITHOUT ANY WARRANTY; without even the implied warranty of
     MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
     Library General Public License for more details.

     You should have received a copy of the GNU Library General Public License
     along with this library; see the file COPYING.LIB.  If not, write to
     the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
     Boston, MA 02110-1301, USA.

     This class provides all functionality needed for loading images, style sheets and html
     pages from the web. It has a memory cache for these objects.
 */

 #ifndef Cache_h
 #define Cache_h

 #include "NativeImagePtr.h"
 #include "SecurityOriginHash.h"
 #include <wtf/HashMap.h>
 #include <wtf/HashSet.h>
 #include <wtf/Noncopyable.h>
 #include <wtf/Vector.h>
 #include <wtf/text/StringHash.h>
 #include <wtf/text/WTFString.h>

 namespace WebCore  {

 class CachedCSSStyleSheet;
 class CachedResource;
 class CachedResourceLoader;
 class URL;
 class ResourceRequest;
 class ResourceResponse;
 class ScriptExecutionContext;
 class SecurityOrigin;
 struct CrossThreadResourceRequestData;
 struct SecurityOriginHash;

 // This cache holds subresources used by Web pages: images, scripts, stylesheets, etc.

 // The cache keeps a flexible but bounded window of dead resources that grows/shrinks
 // depending on the live resource load. Here's an example of cache growth over time,
 // with a min dead resource capacity of 25% and a max dead resource capacity of 50%:

 //        |-----|                              Dead: -
 //        |----------|                         Live: +
 //      --|----------|                         Cache boundary: | (objects outside this mark have been evicted)
 //      --|----------++++++++++|
 // -------|-----+++++++++++++++|
 // -------|-----+++++++++++++++|+++++

 // The behavior of the cache changes in the following way if shouldMakeResourcePurgeableOnEviction
 // returns true.
 //
 // 1. Dead resources in the cache are kept in non-purgeable memory.
 // 2. When we prune dead resources, instead of freeing them, we mark their memory as purgeable and
 //    keep the resources until the kernel reclaims the purgeable memory.
 //
 // By leaving the in-cache dead resources in dirty resident memory, we decrease the likelihood of
 // the kernel claiming that memory and forcing us to refetch the resource (for example when a user
 // presses back).
 //
 // And by having an unbounded number of resource objects using purgeable memory, we can use as much
 // memory as is available on the machine. The trade-off here is that the CachedResource object (and
 // its member variables) are allocated in non-purgeable TC-malloc'd memory so we would see slightly
 // more memory use due to this.

 class MemoryCache {
     WTF_MAKE_NONCOPYABLE(MemoryCache); WTF_MAKE_FAST_ALLOCATED;
 public:
     friend MemoryCache* memoryCache();

 #if ENABLE(CACHE_PARTITIONING)
     typedef HashMap<String, CachedResource*> CachedResourceItem;
     typedef HashMap<String, OwnPtr<CachedResourceItem>> CachedResourceMap;
 #else
     typedef HashMap<String, CachedResource*> CachedResourceMap;
 #endif

     struct LRUList {
         CachedResource* m_head;
         CachedResource* m_tail;
         LRUList() : m_head(0), m_tail(0) { }
     };

     struct TypeStatistic {
         int count;
         int size;
         int liveSize;
         int decodedSize;
         int purgeableSize;
         int purgedSize;
 #if ENABLE(DISK_IMAGE_CACHE)
         int mappedSize;
         TypeStatistic() : count(0), size(0), liveSize(0), decodedSize(0), purgeableSize(0), purgedSize(0), mappedSize(0) { }
 #else
         TypeStatistic() : count(0), size(0), liveSize(0), decodedSize(0), purgeableSize(0), purgedSize(0) { }
 #endif
         void addResource(CachedResource*);
     };

     struct Statistics {
         TypeStatistic images;
         TypeStatistic cssStyleSheets;
         TypeStatistic scripts;
         TypeStatistic xslStyleSheets;
         TypeStatistic fonts;
     };

     CachedResource* resourceForURL(const URL&);
     CachedResource* resourceForRequest(const ResourceRequest&);

     bool add(CachedResource* resource);
     void remove(CachedResource* resource) { evict(resource); }

     static URL removeFragmentIdentifierIfNeeded(const URL& originalURL);

     void revalidationSucceeded(CachedResource* revalidatingResource, const ResourceResponse&);
     void revalidationFailed(CachedResource* revalidatingResource);

     // Sets the cache's memory capacities, in bytes. These will hold only approximately,
     // since the decoded cost of resources like scripts and stylesheets is not known.
     //  - minDeadBytes: The maximum number of bytes that dead resources should consume when the cache is under pressure.
     //  - maxDeadBytes: The maximum number of bytes that dead resources should consume when the cache is not under pressure.
     //  - totalBytes: The maximum number of bytes that the cache should consume overall.
     void setCapacities(unsigned minDeadBytes, unsigned maxDeadBytes, unsigned totalBytes);

     // Turn the cache on and off.  Disabling the cache will remove all resources from the cache.  They may
     // still live on if they are referenced by some Web page though.
     void setDisabled(bool);
     bool disabled() const { return m_disabled; }

     void evictResources();

     void setPruneEnabled(bool enabled) { m_pruneEnabled = enabled; }
     void prune();
     void pruneToPercentage(float targetPercentLive);

     void setDeadDecodedDataDeletionInterval(double interval) { m_deadDecodedDataDeletionInterval = interval; }
     double deadDecodedDataDeletionInterval() const { return m_deadDecodedDataDeletionInterval; }

     // Calls to put the cached resource into and out of LRU lists.
     void insertInLRUList(CachedResource*);
     void removeFromLRUList(CachedResource*);

     // Called to adjust the cache totals when a resource changes size.
     void adjustSize(bool live, int delta);

     // Track decoded resources that are in the cache and referenced by a Web page.
     void insertInLiveDecodedResourcesList(CachedResource*);
     void removeFromLiveDecodedResourcesList(CachedResource*);

     void addToLiveResourcesSize(CachedResource*);
     void removeFromLiveResourcesSize(CachedResource*);

     static bool shouldMakeResourcePurgeableOnEviction();

 #if ENABLE(DISK_IMAGE_CACHE)
     void flushCachedImagesToDisk(); // Flush encoded data from resources still referenced by web pages.
 #endif

     static void removeUrlFromCache(ScriptExecutionContext*, const String& urlString);
     static void removeRequestFromCache(ScriptExecutionContext*, const ResourceRequest&);

     // Function to collect cache statistics for the caches window in the Safari Debug menu.
     Statistics getStatistics();

     void resourceAccessed(CachedResource*);

     typedef HashSet<RefPtr<SecurityOrigin>> SecurityOriginSet;
     void removeResourcesWithOrigin(SecurityOrigin*);
     void getOriginsWithCache(SecurityOriginSet& origins);

     unsigned minDeadCapacity() const { return m_minDeadCapacity; }
     unsigned maxDeadCapacity() const { return m_maxDeadCapacity; }
     unsigned capacity() const { return m_capacity; }
     unsigned liveSize() const { return m_liveSize; }
     unsigned deadSize() const { return m_deadSize; }

 #if USE(CG)
     // FIXME: Remove the USE(CG) once we either make NativeImagePtr a smart pointer on all platforms or
     // remove the usage of CFRetain() in MemoryCache::addImageToCache() so as to make the code platform-independent.
     bool addImageToCache(NativeImagePtr, const URL&, const String& cachePartition);
     void removeImageFromCache(const URL&, const String& cachePartition);
 #endif

     // pruneDead*() - Flush decoded and encoded data from resources not referenced by Web pages.
     // pruneLive*() - Flush decoded data from resources still referenced by Web pages.
     void pruneDeadResources(); // Automatically decide how much to prune.
     void pruneLiveResources(bool shouldDestroyDecodedDataForAllLiveResources = false);

 private:
     void pruneDeadResourcesToPercentage(float prunePercentage); // Prune to % current size
     void pruneLiveResourcesToPercentage(float prunePercentage);
     void pruneDeadResourcesToSize(unsigned targetSize);
     void pruneLiveResourcesToSize(unsigned targetSize, bool shouldDestroyDecodedDataForAllLiveResources = false);

     MemoryCache();
     ~MemoryCache(); // Not implemented to make sure nobody accidentally calls delete -- WebCore does not delete singletons.

     LRUList* lruListFor(CachedResource*);
 #ifndef NDEBUG
     void dumpStats();
     void dumpLRULists(bool includeLive) const;
 #endif

     unsigned liveCapacity() const;
     unsigned deadCapacity() const;

     bool makeResourcePurgeable(CachedResource*);
     void evict(CachedResource*);

     static void removeRequestFromCacheImpl(ScriptExecutionContext*, const ResourceRequest&);
     static void crossThreadRemoveRequestFromCache(ScriptExecutionContext*, PassOwnPtr<CrossThreadResourceRequestData>);

     bool m_disabled;  // Whether or not the cache is enabled.
     bool m_pruneEnabled;
     bool m_inPruneResources;

     unsigned m_capacity;
     unsigned m_minDeadCapacity;
     unsigned m_maxDeadCapacity;
     double m_deadDecodedDataDeletionInterval;

     unsigned m_liveSize; // The number of bytes currently consumed by "live" resources in the cache.
     unsigned m_deadSize; // The number of bytes currently consumed by "dead" resources in the cache.

     // Size-adjusted and popularity-aware LRU list collection for cache objects.  This collection can hold
     // more resources than the cached resource map, since it can also hold "stale" multiple versions of objects that are
     // waiting to die when the clients referencing them go away.
     Vector<LRUList, 32> m_allResources;

     // List just for live resources with decoded data.  Access to this list is based off of painting the resource.
     LRUList m_liveDecodedResources;

     // A URL-based map of all resources that are in the cache (including the freshest version of objects that are currently being
     // referenced by a Web page).
     CachedResourceMap m_resources;
 };

 inline bool MemoryCache::shouldMakeResourcePurgeableOnEviction()
 {
 #if PLATFORM(IOS)
     return true;
 #else
     return false;
 #endif
 }

 // Function to obtain the global cache.
 MemoryCache* memoryCache();

 }

 #endif
	/*
	Copyright (C) 1998 Lars Knoll (knoll@mpi-hd.mpg.de)
	Copyright (C) 2001 Dirk Mueller <mueller@kde.org>
	Copyright (C) 2004, 2005, 2006, 2007, 2008 Apple Inc. All rights reserved.

	This library is free software; you can redistribute it and/or
	modify it under the terms of the GNU Library General Public
	License as published by the Free Software Foundation; either
	version 2 of the License, or (at your option) any later version.

	This library is distributed in the hope that it will be useful,
	but WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	Library General Public License for more details.

	You should have received a copy of the GNU Library General Public License
	along with this library; see the file COPYING.LIB. If not, write to
	the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
	Boston, MA 02110-1301, USA.

	This class provides all functionality needed for loading images, style sheets and html
	pages from the web. It has a memory cache for these objects.
	*/

	#ifndef Cache_h
	#define Cache_h

	#include "NativeImagePtr.h"
	#include "SecurityOriginHash.h"
	#include <wtf/HashMap.h>
	#include <wtf/HashSet.h>
	#include <wtf/Noncopyable.h>
	#include <wtf/Vector.h>
	#include <wtf/text/StringHash.h>
	#include <wtf/text/WTFString.h>

	namespace WebCore {

	class CachedCSSStyleSheet;
	class CachedResource;
	class CachedResourceLoader;
	class URL;
	class ResourceRequest;
	class ResourceResponse;
	class ScriptExecutionContext;
	class SecurityOrigin;
	struct CrossThreadResourceRequestData;
	struct SecurityOriginHash;

	// This cache holds subresources used by Web pages: images, scripts, stylesheets, etc.

	// The cache keeps a flexible but bounded window of dead resources that grows/shrinks
	// depending on the live resource load. Here's an example of cache growth over time,
	// with a min dead resource capacity of 25% and a max dead resource capacity of 50%:

	// \|-----\| Dead: -
	// \|----------\| Live: +
	// --\|----------\| Cache boundary: \| (objects outside this mark have been evicted)
	// --\|----------++++++++++\|
	// -------\|-----+++++++++++++++\|
	// -------\|-----+++++++++++++++\|+++++

	// The behavior of the cache changes in the following way if shouldMakeResourcePurgeableOnEviction
	// returns true.
	//
	// 1. Dead resources in the cache are kept in non-purgeable memory.
	// 2. When we prune dead resources, instead of freeing them, we mark their memory as purgeable and
	// keep the resources until the kernel reclaims the purgeable memory.
	//
	// By leaving the in-cache dead resources in dirty resident memory, we decrease the likelihood of
	// the kernel claiming that memory and forcing us to refetch the resource (for example when a user
	// presses back).
	//
	// And by having an unbounded number of resource objects using purgeable memory, we can use as much
	// memory as is available on the machine. The trade-off here is that the CachedResource object (and
	// its member variables) are allocated in non-purgeable TC-malloc'd memory so we would see slightly
	// more memory use due to this.

	class MemoryCache {
	WTF_MAKE_NONCOPYABLE(MemoryCache); WTF_MAKE_FAST_ALLOCATED;
	public:
	friend MemoryCache* memoryCache();

	#if ENABLE(CACHE_PARTITIONING)
	typedef HashMap<String, CachedResource*> CachedResourceItem;
	typedef HashMap<String, OwnPtr<CachedResourceItem>> CachedResourceMap;
	#else
	typedef HashMap<String, CachedResource*> CachedResourceMap;
	#endif

	struct LRUList {
	CachedResource* m_head;
	CachedResource* m_tail;
	LRUList() : m_head(0), m_tail(0) { }
	};

	struct TypeStatistic {
	int count;
	int size;
	int liveSize;
	int decodedSize;
	int purgeableSize;
	int purgedSize;
	#if ENABLE(DISK_IMAGE_CACHE)
	int mappedSize;
	TypeStatistic() : count(0), size(0), liveSize(0), decodedSize(0), purgeableSize(0), purgedSize(0), mappedSize(0) { }
	#else
	TypeStatistic() : count(0), size(0), liveSize(0), decodedSize(0), purgeableSize(0), purgedSize(0) { }
	#endif
	void addResource(CachedResource*);
	};

	struct Statistics {
	TypeStatistic images;
	TypeStatistic cssStyleSheets;
	TypeStatistic scripts;
	TypeStatistic xslStyleSheets;
	TypeStatistic fonts;
	};

	CachedResource* resourceForURL(const URL&);
	CachedResource* resourceForRequest(const ResourceRequest&);

	bool add(CachedResource* resource);
	void remove(CachedResource* resource) { evict(resource); }

	static URL removeFragmentIdentifierIfNeeded(const URL& originalURL);

	void revalidationSucceeded(CachedResource* revalidatingResource, const ResourceResponse&);
	void revalidationFailed(CachedResource* revalidatingResource);

	// Sets the cache's memory capacities, in bytes. These will hold only approximately,
	// since the decoded cost of resources like scripts and stylesheets is not known.
	// - minDeadBytes: The maximum number of bytes that dead resources should consume when the cache is under pressure.
	// - maxDeadBytes: The maximum number of bytes that dead resources should consume when the cache is not under pressure.
	// - totalBytes: The maximum number of bytes that the cache should consume overall.
	void setCapacities(unsigned minDeadBytes, unsigned maxDeadBytes, unsigned totalBytes);

	// Turn the cache on and off. Disabling the cache will remove all resources from the cache. They may
	// still live on if they are referenced by some Web page though.
	void setDisabled(bool);
	bool disabled() const { return m_disabled; }

	void evictResources();

	void setPruneEnabled(bool enabled) { m_pruneEnabled = enabled; }
	void prune();
	void pruneToPercentage(float targetPercentLive);

	void setDeadDecodedDataDeletionInterval(double interval) { m_deadDecodedDataDeletionInterval = interval; }
	double deadDecodedDataDeletionInterval() const { return m_deadDecodedDataDeletionInterval; }

	// Calls to put the cached resource into and out of LRU lists.
	void insertInLRUList(CachedResource*);
	void removeFromLRUList(CachedResource*);

	// Called to adjust the cache totals when a resource changes size.
	void adjustSize(bool live, int delta);

	// Track decoded resources that are in the cache and referenced by a Web page.
	void insertInLiveDecodedResourcesList(CachedResource*);
	void removeFromLiveDecodedResourcesList(CachedResource*);

	void addToLiveResourcesSize(CachedResource*);
	void removeFromLiveResourcesSize(CachedResource*);

	static bool shouldMakeResourcePurgeableOnEviction();

	#if ENABLE(DISK_IMAGE_CACHE)
	void flushCachedImagesToDisk(); // Flush encoded data from resources still referenced by web pages.
	#endif

	static void removeUrlFromCache(ScriptExecutionContext*, const String& urlString);
	static void removeRequestFromCache(ScriptExecutionContext*, const ResourceRequest&);

	// Function to collect cache statistics for the caches window in the Safari Debug menu.
	Statistics getStatistics();

	void resourceAccessed(CachedResource*);

	typedef HashSet<RefPtr<SecurityOrigin>> SecurityOriginSet;
	void removeResourcesWithOrigin(SecurityOrigin*);
	void getOriginsWithCache(SecurityOriginSet& origins);

	unsigned minDeadCapacity() const { return m_minDeadCapacity; }
	unsigned maxDeadCapacity() const { return m_maxDeadCapacity; }
	unsigned capacity() const { return m_capacity; }
	unsigned liveSize() const { return m_liveSize; }
	unsigned deadSize() const { return m_deadSize; }

	#if USE(CG)
	// FIXME: Remove the USE(CG) once we either make NativeImagePtr a smart pointer on all platforms or
	// remove the usage of CFRetain() in MemoryCache::addImageToCache() so as to make the code platform-independent.
	bool addImageToCache(NativeImagePtr, const URL&, const String& cachePartition);
	void removeImageFromCache(const URL&, const String& cachePartition);
	#endif

	// pruneDead*() - Flush decoded and encoded data from resources not referenced by Web pages.
	// pruneLive*() - Flush decoded data from resources still referenced by Web pages.
	void pruneDeadResources(); // Automatically decide how much to prune.
	void pruneLiveResources(bool shouldDestroyDecodedDataForAllLiveResources = false);

	private:
	void pruneDeadResourcesToPercentage(float prunePercentage); // Prune to % current size
	void pruneLiveResourcesToPercentage(float prunePercentage);
	void pruneDeadResourcesToSize(unsigned targetSize);
	void pruneLiveResourcesToSize(unsigned targetSize, bool shouldDestroyDecodedDataForAllLiveResources = false);

	MemoryCache();
	~MemoryCache(); // Not implemented to make sure nobody accidentally calls delete -- WebCore does not delete singletons.

	LRUList* lruListFor(CachedResource*);
	#ifndef NDEBUG
	void dumpStats();
	void dumpLRULists(bool includeLive) const;
	#endif

	unsigned liveCapacity() const;
	unsigned deadCapacity() const;

	bool makeResourcePurgeable(CachedResource*);
	void evict(CachedResource*);

	static void removeRequestFromCacheImpl(ScriptExecutionContext*, const ResourceRequest&);
	static void crossThreadRemoveRequestFromCache(ScriptExecutionContext*, PassOwnPtr<CrossThreadResourceRequestData>);

	bool m_disabled; // Whether or not the cache is enabled.
	bool m_pruneEnabled;
	bool m_inPruneResources;

	unsigned m_capacity;
	unsigned m_minDeadCapacity;
	unsigned m_maxDeadCapacity;
	double m_deadDecodedDataDeletionInterval;

	unsigned m_liveSize; // The number of bytes currently consumed by "live" resources in the cache.
	unsigned m_deadSize; // The number of bytes currently consumed by "dead" resources in the cache.

	// Size-adjusted and popularity-aware LRU list collection for cache objects. This collection can hold
	// more resources than the cached resource map, since it can also hold "stale" multiple versions of objects that are
	// waiting to die when the clients referencing them go away.
	Vector<LRUList, 32> m_allResources;

	// List just for live resources with decoded data. Access to this list is based off of painting the resource.
	LRUList m_liveDecodedResources;

	// A URL-based map of all resources that are in the cache (including the freshest version of objects that are currently being
	// referenced by a Web page).
	CachedResourceMap m_resources;
	};

	inline bool MemoryCache::shouldMakeResourcePurgeableOnEviction()
	{
	#if PLATFORM(IOS)
	return true;
	#else
	return false;
	#endif
	}

	// Function to obtain the global cache.
	MemoryCache* memoryCache();

	}

	#endif