Source/core/fetch/Resource.h - platform/external/chromium_org/third_party/WebKit - Git at Google

 /*
     Copyright (C) 1998 Lars Knoll (knoll@mpi-hd.mpg.de)
     Copyright (C) 2001 Dirk Mueller <mueller@kde.org>
     Copyright (C) 2006 Samuel Weinig (sam.weinig@gmail.com)
     Copyright (C) 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011 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.
 */

 #ifndef Resource_h
 #define Resource_h

 #include "core/fetch/CachePolicy.h"
 #include "core/fetch/ResourceLoaderOptions.h"
 #include "platform/Timer.h"
 #include "platform/network/ResourceError.h"
 #include "platform/network/ResourceLoadPriority.h"
 #include "platform/network/ResourceRequest.h"
 #include "platform/network/ResourceResponse.h"
 #include "wtf/HashCountedSet.h"
 #include "wtf/HashSet.h"
 #include "wtf/OwnPtr.h"
 #include "wtf/text/WTFString.h"

 namespace WebCore {

 class MemoryCache;
 class CachedMetadata;
 class ResourceClient;
 class ResourcePtrBase;
 class ResourceFetcher;
 class InspectorResource;
 class PurgeableBuffer;
 class ResourceLoader;
 class SecurityOrigin;
 class SharedBuffer;

 // A resource that is held in the cache. Classes who want to use this object should derive
 // from ResourceClient, to get the function calls in case the requested data has arrived.
 // This class also does the actual communication with the loader to obtain the resource from the network.
 class Resource {
     WTF_MAKE_NONCOPYABLE(Resource); WTF_MAKE_FAST_ALLOCATED;
     friend class MemoryCache;
     friend class InspectorResource;

 public:
     enum Type {
         MainResource,
         Image,
         CSSStyleSheet,
         Script,
         Font,
         Raw,
         SVGDocument,
         XSLStyleSheet,
         LinkPrefetch,
         LinkSubresource,
         TextTrack,
         Shader,
         ImportResource
     };

     enum Status {
         Unknown, // let cache decide what to do with it
         Pending, // only partially loaded
         Cached, // regular case
         LoadError,
         DecodeError
     };

     Resource(const ResourceRequest&, Type);
     virtual ~Resource();

     // Determines the order in which CachedResources are evicted
     // from the decoded resources cache.
     enum CacheLiveResourcePriority {
         CacheLiveResourcePriorityLow = 0,
         CacheLiveResourcePriorityHigh
     };

     virtual void load(ResourceFetcher*, const ResourceLoaderOptions&);

     virtual void setEncoding(const String&) { }
     virtual String encoding() const { return String(); }
     virtual void appendData(const char*, int);
     virtual void error(Resource::Status);

     void setResourceError(const ResourceError& error) { m_error = error; }
     const ResourceError& resourceError() const { return m_error; }

     void setIdentifier(unsigned long identifier) { m_identifier = identifier; }
     unsigned long identifier() const { return m_identifier; }

     virtual bool shouldIgnoreHTTPStatusCodeErrors() const { return false; }

     ResourceRequest& resourceRequest() { return m_resourceRequest; }
     const KURL& url() const { return m_resourceRequest.url();}
     Type type() const { return static_cast<Type>(m_type); }
     const ResourceLoaderOptions& options() const {  return m_options; }

     void didChangePriority(ResourceLoadPriority);

     void addClient(ResourceClient*);
     void removeClient(ResourceClient*);
     bool hasClients() const { return !m_clients.isEmpty() || !m_clientsAwaitingCallback.isEmpty(); }
     bool deleteIfPossible();

     enum PreloadResult {
         PreloadNotReferenced,
         PreloadReferenced,
         PreloadReferencedWhileLoading,
         PreloadReferencedWhileComplete
     };
     PreloadResult preloadResult() const { return static_cast<PreloadResult>(m_preloadResult); }

     virtual void didAddClient(ResourceClient*);
     virtual void didRemoveClient(ResourceClient*) { }
     virtual void allClientsRemoved();

     unsigned count() const { return m_clients.size(); }

     Status status() const { return static_cast<Status>(m_status); }
     void setStatus(Status status) { m_status = status; }

     unsigned size() const { return encodedSize() + decodedSize() + overheadSize(); }
     unsigned encodedSize() const { return m_encodedSize; }
     unsigned decodedSize() const { return m_decodedSize; }
     unsigned overheadSize() const;

     bool isLoaded() const { return !m_loading; } // FIXME. Method name is inaccurate. Loading might not have started yet.

     bool isLoading() const { return m_loading; }
     void setLoading(bool b) { m_loading = b; }
     virtual bool stillNeedsLoad() const { return false; }

     ResourceLoader* loader() const { return m_loader.get(); }

     virtual bool isImage() const { return false; }
     bool ignoreForRequestCount() const
     {
         return type() == MainResource
             || type() == LinkPrefetch
             || type() == LinkSubresource
             || type() == Raw;
     }

     void updateForAccess();
     unsigned accessCount() const { return m_accessCount; }

     // Computes the status of an object after loading.
     // Updates the expire date on the cache entry file
     void finish(double finishTime = 0.0);

     // FIXME: Remove the stringless variant once all the callsites' error messages are updated.
     bool passesAccessControlCheck(SecurityOrigin*);
     bool passesAccessControlCheck(SecurityOrigin*, String& errorDescription);

     // Called by the cache if the object has been removed from the cache
     // while still being referenced. This means the object should delete itself
     // if the number of clients observing it ever drops to 0.
     // The resource can be brought back to cache after successful revalidation.
     void setInCache(bool inCache) { m_inCache = inCache; }
     bool inCache() const { return m_inCache; }

     void setCacheLiveResourcePriority(CacheLiveResourcePriority);
     unsigned cacheLiveResourcePriority() const { return m_cacheLiveResourcePriority; }
     bool inLiveDecodedResourcesList() { return m_inLiveDecodedResourcesList; }

     void clearLoader();

     SharedBuffer* resourceBuffer() const { ASSERT(!m_purgeableData); return m_data.get(); }
     void setResourceBuffer(PassRefPtr<SharedBuffer>);

     virtual void willSendRequest(ResourceRequest&, const ResourceResponse&) { m_requestedFromNetworkingLayer = true; }
     virtual void responseReceived(const ResourceResponse&);
     void setResponse(const ResourceResponse& response) { m_response = response; }
     const ResourceResponse& response() const { return m_response; }

     // Sets the serialized metadata retrieved from the platform's cache.
     void setSerializedCachedMetadata(const char*, size_t);

     // Caches the given metadata in association with this resource and suggests
     // that the platform persist it. The dataTypeID is a pseudo-randomly chosen
     // identifier that is used to distinguish data generated by the caller.
     void setCachedMetadata(unsigned dataTypeID, const char*, size_t);

     // Returns cached metadata of the given type associated with this resource.
     CachedMetadata* cachedMetadata(unsigned dataTypeID) const;

     bool canDelete() const { return !hasClients() && !m_loader && !m_preloadCount && !m_handleCount && !m_resourceToRevalidate && !m_proxyResource; }
     bool hasOneHandle() const { return m_handleCount == 1; }

     bool isExpired() const;

     // List of acceptable MIME types separated by ",".
     // A MIME type may contain a wildcard, e.g. "text/*".
     AtomicString accept() const { return m_accept; }
     void setAccept(const AtomicString& accept) { m_accept = accept; }

     bool wasCanceled() const { return m_error.isCancellation(); }
     bool errorOccurred() const { return m_status == LoadError || m_status == DecodeError; }
     bool loadFailedOrCanceled() { return !m_error.isNull(); }

     bool shouldSendResourceLoadCallbacks() const { return m_options.sendLoadCallbacks == SendCallbacks; }
     DataBufferingPolicy dataBufferingPolicy() const { return m_options.dataBufferingPolicy; }

     virtual void destroyDecodedData() { }

     bool isPreloaded() const { return m_preloadCount; }
     void increasePreloadCount() { ++m_preloadCount; }
     void decreasePreloadCount() { ASSERT(m_preloadCount); --m_preloadCount; }

     void registerHandle(ResourcePtrBase* h);
     void unregisterHandle(ResourcePtrBase* h);

     bool canUseCacheValidator() const;
     bool mustRevalidateDueToCacheHeaders(CachePolicy) const;
     bool isCacheValidator() const { return m_resourceToRevalidate; }
     Resource* resourceToRevalidate() const { return m_resourceToRevalidate; }
     void setResourceToRevalidate(Resource*);

     bool isPurgeable() const;
     bool wasPurged() const;

     // This is used by the archive machinery to get at a purged resource without
     // triggering a load. We should make it protected again if we can find a
     // better way to handle the archive case.
     bool makePurgeable(bool purgeable);

     virtual void didSendData(unsigned long long /* bytesSent */, unsigned long long /* totalBytesToBeSent */) { }
     virtual void didDownloadData(int) { }

     double loadFinishTime() const { return m_loadFinishTime; }

     virtual bool canReuse(const ResourceRequest&) const { return true; }

 protected:
     virtual void checkNotify();
     virtual void finishOnePart();

     void setEncodedSize(unsigned);
     void setDecodedSize(unsigned);
     void didAccessDecodedData(double timeStamp);

     bool isSafeToMakePurgeable() const;

     virtual void switchClientsToRevalidatedResource();
     void clearResourceToRevalidate();
     void updateResponseAfterRevalidation(const ResourceResponse& validatingResponse);

     void finishPendingClients();

     HashCountedSet<ResourceClient*> m_clients;
     HashCountedSet<ResourceClient*> m_clientsAwaitingCallback;

     class ResourceCallback {
     public:
         static ResourceCallback* callbackHandler();
         void schedule(Resource*);
         void cancel(Resource*);
     private:
         ResourceCallback();
         void timerFired(Timer<ResourceCallback>*);
         Timer<ResourceCallback> m_callbackTimer;
         HashSet<Resource*> m_resourcesWithPendingClients;
     };

     bool hasClient(ResourceClient* client) { return m_clients.contains(client) || m_clientsAwaitingCallback.contains(client); }

     ResourceRequest m_resourceRequest;
     AtomicString m_accept;
     RefPtr<ResourceLoader> m_loader;
     ResourceLoaderOptions m_options;

     ResourceResponse m_response;
     double m_responseTimestamp;

     RefPtr<SharedBuffer> m_data;
     OwnPtr<PurgeableBuffer> m_purgeableData;
     Timer<Resource> m_cancelTimer;

 private:
     bool addClientToSet(ResourceClient*);
     void cancelTimerFired(Timer<Resource>*);

     void revalidationSucceeded(const ResourceResponse&);
     void revalidationFailed();

     double currentAge() const;
     double freshnessLifetime() const;

     void failBeforeStarting();

     String m_fragmentIdentifierForRequest;

     RefPtr<CachedMetadata> m_cachedMetadata;

     ResourceError m_error;

     double m_lastDecodedAccessTime; // Used as a "thrash guard" in the cache
     double m_loadFinishTime;

     unsigned long m_identifier;

     unsigned m_encodedSize;
     unsigned m_decodedSize;
     unsigned m_accessCount;
     unsigned m_handleCount;
     unsigned m_preloadCount;

     unsigned m_preloadResult : 2; // PreloadResult
     unsigned m_cacheLiveResourcePriority : 2; // CacheLiveResourcePriority
     unsigned m_inLiveDecodedResourcesList : 1;
     unsigned m_requestedFromNetworkingLayer : 1;

     unsigned m_inCache : 1;
     unsigned m_loading : 1;

     unsigned m_switchingClientsToRevalidatedResource : 1;

     unsigned m_type : 4; // Type
     unsigned m_status : 3; // Status

 #ifndef NDEBUG
     bool m_deleted;
     unsigned m_lruIndex;
 #endif

     Resource* m_nextInAllResourcesList;
     Resource* m_prevInAllResourcesList;

     Resource* m_nextInLiveResourcesList;
     Resource* m_prevInLiveResourcesList;

     // If this field is non-null we are using the resource as a proxy for checking whether an existing resource is still up to date
     // using HTTP If-Modified-Since/If-None-Match headers. If the response is 304 all clients of this resource are moved
     // to to be clients of m_resourceToRevalidate and the resource is deleted. If not, the field is zeroed and this
     // resources becomes normal resource load.
     Resource* m_resourceToRevalidate;

     // If this field is non-null, the resource has a proxy for checking whether it is still up to date (see m_resourceToRevalidate).
     Resource* m_proxyResource;

     // These handles will need to be updated to point to the m_resourceToRevalidate in case we get 304 response.
     HashSet<ResourcePtrBase*> m_handlesToRevalidate;
 };

 }

 #endif
	/*
	Copyright (C) 1998 Lars Knoll (knoll@mpi-hd.mpg.de)
	Copyright (C) 2001 Dirk Mueller <mueller@kde.org>
	Copyright (C) 2006 Samuel Weinig (sam.weinig@gmail.com)
	Copyright (C) 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011 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.
	*/

	#ifndef Resource_h
	#define Resource_h

	#include "core/fetch/CachePolicy.h"
	#include "core/fetch/ResourceLoaderOptions.h"
	#include "platform/Timer.h"
	#include "platform/network/ResourceError.h"
	#include "platform/network/ResourceLoadPriority.h"
	#include "platform/network/ResourceRequest.h"
	#include "platform/network/ResourceResponse.h"
	#include "wtf/HashCountedSet.h"
	#include "wtf/HashSet.h"
	#include "wtf/OwnPtr.h"
	#include "wtf/text/WTFString.h"

	namespace WebCore {

	class MemoryCache;
	class CachedMetadata;
	class ResourceClient;
	class ResourcePtrBase;
	class ResourceFetcher;
	class InspectorResource;
	class PurgeableBuffer;
	class ResourceLoader;
	class SecurityOrigin;
	class SharedBuffer;

	// A resource that is held in the cache. Classes who want to use this object should derive
	// from ResourceClient, to get the function calls in case the requested data has arrived.
	// This class also does the actual communication with the loader to obtain the resource from the network.
	class Resource {
	WTF_MAKE_NONCOPYABLE(Resource); WTF_MAKE_FAST_ALLOCATED;
	friend class MemoryCache;
	friend class InspectorResource;

	public:
	enum Type {
	MainResource,
	Image,
	CSSStyleSheet,
	Script,
	Font,
	Raw,
	SVGDocument,
	XSLStyleSheet,
	LinkPrefetch,
	LinkSubresource,
	TextTrack,
	Shader,
	ImportResource
	};

	enum Status {
	Unknown, // let cache decide what to do with it
	Pending, // only partially loaded
	Cached, // regular case
	LoadError,
	DecodeError
	};

	Resource(const ResourceRequest&, Type);
	virtual ~Resource();

	// Determines the order in which CachedResources are evicted
	// from the decoded resources cache.
	enum CacheLiveResourcePriority {
	CacheLiveResourcePriorityLow = 0,
	CacheLiveResourcePriorityHigh
	};

	virtual void load(ResourceFetcher*, const ResourceLoaderOptions&);

	virtual void setEncoding(const String&) { }
	virtual String encoding() const { return String(); }
	virtual void appendData(const char*, int);
	virtual void error(Resource::Status);

	void setResourceError(const ResourceError& error) { m_error = error; }
	const ResourceError& resourceError() const { return m_error; }

	void setIdentifier(unsigned long identifier) { m_identifier = identifier; }
	unsigned long identifier() const { return m_identifier; }

	virtual bool shouldIgnoreHTTPStatusCodeErrors() const { return false; }

	ResourceRequest& resourceRequest() { return m_resourceRequest; }
	const KURL& url() const { return m_resourceRequest.url();}
	Type type() const { return static_cast<Type>(m_type); }
	const ResourceLoaderOptions& options() const { return m_options; }

	void didChangePriority(ResourceLoadPriority);

	void addClient(ResourceClient*);
	void removeClient(ResourceClient*);
	bool hasClients() const { return !m_clients.isEmpty() \|\| !m_clientsAwaitingCallback.isEmpty(); }
	bool deleteIfPossible();

	enum PreloadResult {
	PreloadNotReferenced,
	PreloadReferenced,
	PreloadReferencedWhileLoading,
	PreloadReferencedWhileComplete
	};
	PreloadResult preloadResult() const { return static_cast<PreloadResult>(m_preloadResult); }

	virtual void didAddClient(ResourceClient*);
	virtual void didRemoveClient(ResourceClient*) { }
	virtual void allClientsRemoved();

	unsigned count() const { return m_clients.size(); }

	Status status() const { return static_cast<Status>(m_status); }
	void setStatus(Status status) { m_status = status; }

	unsigned size() const { return encodedSize() + decodedSize() + overheadSize(); }
	unsigned encodedSize() const { return m_encodedSize; }
	unsigned decodedSize() const { return m_decodedSize; }
	unsigned overheadSize() const;

	bool isLoaded() const { return !m_loading; } // FIXME. Method name is inaccurate. Loading might not have started yet.

	bool isLoading() const { return m_loading; }
	void setLoading(bool b) { m_loading = b; }
	virtual bool stillNeedsLoad() const { return false; }

	ResourceLoader* loader() const { return m_loader.get(); }

	virtual bool isImage() const { return false; }
	bool ignoreForRequestCount() const
	{
	return type() == MainResource
	\|\| type() == LinkPrefetch
	\|\| type() == LinkSubresource
	\|\| type() == Raw;
	}

	void updateForAccess();
	unsigned accessCount() const { return m_accessCount; }

	// Computes the status of an object after loading.
	// Updates the expire date on the cache entry file
	void finish(double finishTime = 0.0);

	// FIXME: Remove the stringless variant once all the callsites' error messages are updated.
	bool passesAccessControlCheck(SecurityOrigin*);
	bool passesAccessControlCheck(SecurityOrigin*, String& errorDescription);

	// Called by the cache if the object has been removed from the cache
	// while still being referenced. This means the object should delete itself
	// if the number of clients observing it ever drops to 0.
	// The resource can be brought back to cache after successful revalidation.
	void setInCache(bool inCache) { m_inCache = inCache; }
	bool inCache() const { return m_inCache; }

	void setCacheLiveResourcePriority(CacheLiveResourcePriority);
	unsigned cacheLiveResourcePriority() const { return m_cacheLiveResourcePriority; }
	bool inLiveDecodedResourcesList() { return m_inLiveDecodedResourcesList; }

	void clearLoader();

	SharedBuffer* resourceBuffer() const { ASSERT(!m_purgeableData); return m_data.get(); }
	void setResourceBuffer(PassRefPtr<SharedBuffer>);

	virtual void willSendRequest(ResourceRequest&, const ResourceResponse&) { m_requestedFromNetworkingLayer = true; }
	virtual void responseReceived(const ResourceResponse&);
	void setResponse(const ResourceResponse& response) { m_response = response; }
	const ResourceResponse& response() const { return m_response; }

	// Sets the serialized metadata retrieved from the platform's cache.
	void setSerializedCachedMetadata(const char*, size_t);

	// Caches the given metadata in association with this resource and suggests
	// that the platform persist it. The dataTypeID is a pseudo-randomly chosen
	// identifier that is used to distinguish data generated by the caller.
	void setCachedMetadata(unsigned dataTypeID, const char*, size_t);

	// Returns cached metadata of the given type associated with this resource.
	CachedMetadata* cachedMetadata(unsigned dataTypeID) const;

	bool canDelete() const { return !hasClients() && !m_loader && !m_preloadCount && !m_handleCount && !m_resourceToRevalidate && !m_proxyResource; }
	bool hasOneHandle() const { return m_handleCount == 1; }

	bool isExpired() const;

	// List of acceptable MIME types separated by ",".
	// A MIME type may contain a wildcard, e.g. "text/*".
	AtomicString accept() const { return m_accept; }
	void setAccept(const AtomicString& accept) { m_accept = accept; }

	bool wasCanceled() const { return m_error.isCancellation(); }
	bool errorOccurred() const { return m_status == LoadError \|\| m_status == DecodeError; }
	bool loadFailedOrCanceled() { return !m_error.isNull(); }

	bool shouldSendResourceLoadCallbacks() const { return m_options.sendLoadCallbacks == SendCallbacks; }
	DataBufferingPolicy dataBufferingPolicy() const { return m_options.dataBufferingPolicy; }

	virtual void destroyDecodedData() { }

	bool isPreloaded() const { return m_preloadCount; }
	void increasePreloadCount() { ++m_preloadCount; }
	void decreasePreloadCount() { ASSERT(m_preloadCount); --m_preloadCount; }

	void registerHandle(ResourcePtrBase* h);
	void unregisterHandle(ResourcePtrBase* h);

	bool canUseCacheValidator() const;
	bool mustRevalidateDueToCacheHeaders(CachePolicy) const;
	bool isCacheValidator() const { return m_resourceToRevalidate; }
	Resource* resourceToRevalidate() const { return m_resourceToRevalidate; }
	void setResourceToRevalidate(Resource*);

	bool isPurgeable() const;
	bool wasPurged() const;

	// This is used by the archive machinery to get at a purged resource without
	// triggering a load. We should make it protected again if we can find a
	// better way to handle the archive case.
	bool makePurgeable(bool purgeable);

	virtual void didSendData(unsigned long long /* bytesSent /, unsigned long long / totalBytesToBeSent */) { }
	virtual void didDownloadData(int) { }

	double loadFinishTime() const { return m_loadFinishTime; }

	virtual bool canReuse(const ResourceRequest&) const { return true; }

	protected:
	virtual void checkNotify();
	virtual void finishOnePart();

	void setEncodedSize(unsigned);
	void setDecodedSize(unsigned);
	void didAccessDecodedData(double timeStamp);

	bool isSafeToMakePurgeable() const;

	virtual void switchClientsToRevalidatedResource();
	void clearResourceToRevalidate();
	void updateResponseAfterRevalidation(const ResourceResponse& validatingResponse);

	void finishPendingClients();

	HashCountedSet<ResourceClient*> m_clients;
	HashCountedSet<ResourceClient*> m_clientsAwaitingCallback;

	class ResourceCallback {
	public:
	static ResourceCallback* callbackHandler();
	void schedule(Resource*);
	void cancel(Resource*);
	private:
	ResourceCallback();
	void timerFired(Timer<ResourceCallback>*);
	Timer<ResourceCallback> m_callbackTimer;
	HashSet<Resource*> m_resourcesWithPendingClients;
	};

	bool hasClient(ResourceClient* client) { return m_clients.contains(client) \|\| m_clientsAwaitingCallback.contains(client); }

	ResourceRequest m_resourceRequest;
	AtomicString m_accept;
	RefPtr<ResourceLoader> m_loader;
	ResourceLoaderOptions m_options;

	ResourceResponse m_response;
	double m_responseTimestamp;

	RefPtr<SharedBuffer> m_data;
	OwnPtr<PurgeableBuffer> m_purgeableData;
	Timer<Resource> m_cancelTimer;

	private:
	bool addClientToSet(ResourceClient*);
	void cancelTimerFired(Timer<Resource>*);

	void revalidationSucceeded(const ResourceResponse&);
	void revalidationFailed();

	double currentAge() const;
	double freshnessLifetime() const;

	void failBeforeStarting();

	String m_fragmentIdentifierForRequest;

	RefPtr<CachedMetadata> m_cachedMetadata;

	ResourceError m_error;

	double m_lastDecodedAccessTime; // Used as a "thrash guard" in the cache
	double m_loadFinishTime;

	unsigned long m_identifier;

	unsigned m_encodedSize;
	unsigned m_decodedSize;
	unsigned m_accessCount;
	unsigned m_handleCount;
	unsigned m_preloadCount;

	unsigned m_preloadResult : 2; // PreloadResult
	unsigned m_cacheLiveResourcePriority : 2; // CacheLiveResourcePriority
	unsigned m_inLiveDecodedResourcesList : 1;
	unsigned m_requestedFromNetworkingLayer : 1;

	unsigned m_inCache : 1;
	unsigned m_loading : 1;

	unsigned m_switchingClientsToRevalidatedResource : 1;

	unsigned m_type : 4; // Type
	unsigned m_status : 3; // Status

	#ifndef NDEBUG
	bool m_deleted;
	unsigned m_lruIndex;
	#endif

	Resource* m_nextInAllResourcesList;
	Resource* m_prevInAllResourcesList;

	Resource* m_nextInLiveResourcesList;
	Resource* m_prevInLiveResourcesList;

	// If this field is non-null we are using the resource as a proxy for checking whether an existing resource is still up to date
	// using HTTP If-Modified-Since/If-None-Match headers. If the response is 304 all clients of this resource are moved
	// to to be clients of m_resourceToRevalidate and the resource is deleted. If not, the field is zeroed and this
	// resources becomes normal resource load.
	Resource* m_resourceToRevalidate;

	// If this field is non-null, the resource has a proxy for checking whether it is still up to date (see m_resourceToRevalidate).
	Resource* m_proxyResource;

	// These handles will need to be updated to point to the m_resourceToRevalidate in case we get 304 response.
	HashSet<ResourcePtrBase*> m_handlesToRevalidate;
	};

	}

	#endif