/*
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 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 CachedResource_h
#define CachedResource_h
#include "CachePolicy.h"
#include "FrameLoaderTypes.h"
#include "PlatformString.h"
#include "PurgePriority.h"
#include "ResourceLoadPriority.h"
#include "ResourceResponse.h"
#include <wtf/HashCountedSet.h>
#include <wtf/HashSet.h>
#include <wtf/OwnPtr.h>
#include <wtf/Vector.h>
#include <time.h>
namespace WebCore {
class MemoryCache;
class CachedMetadata;
class CachedResourceClient;
class CachedResourceHandleBase;
class CachedResourceLoader;
class CachedResourceRequest;
class Frame;
class InspectorResource;
class PurgeableBuffer;
// A resource that is held in the cache. Classes who want to use this object should derive
// from CachedResourceClient, 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 CachedResource {
WTF_MAKE_NONCOPYABLE(CachedResource); WTF_MAKE_FAST_ALLOCATED;
friend class MemoryCache;
friend class InspectorResource;
public:
enum Type {
ImageResource,
CSSStyleSheet,
Script,
FontResource
#if ENABLE(XSLT)
, XSLStyleSheet
#endif
#if ENABLE(LINK_PREFETCH)
, LinkResource
#endif
};
enum Status {
Unknown, // let cache decide what to do with it
Pending, // only partially loaded
Cached, // regular case
LoadError,
DecodeError
};
CachedResource(const String& url, Type);
virtual ~CachedResource();
virtual void load(CachedResourceLoader* cachedResourceLoader) { load(cachedResourceLoader, false, DoSecurityCheck, true); }
void load(CachedResourceLoader*, bool incremental, SecurityCheckPolicy, bool sendResourceLoadCallbacks);
virtual void setEncoding(const String&) { }
virtual String encoding() const { return String(); }
virtual void data(PassRefPtr<SharedBuffer> data, bool allDataReceived);
virtual void error(CachedResource::Status);
virtual bool shouldIgnoreHTTPStatusCodeErrors() const { return false; }
const String &url() const { return m_url; }
Type type() const { return static_cast<Type>(m_type); }
ResourceLoadPriority loadPriority() const { return m_loadPriority; }
void setLoadPriority(ResourceLoadPriority);
void addClient(CachedResourceClient*);
void removeClient(CachedResourceClient*);
bool hasClients() const { return !m_clients.isEmpty(); }
void deleteIfPossible();
enum PreloadResult {
PreloadNotReferenced,
PreloadReferenced,
PreloadReferencedWhileLoading,
PreloadReferencedWhileComplete
};
PreloadResult preloadResult() const { return static_cast<PreloadResult>(m_preloadResult); }
void setRequestedFromNetworkingLayer() { m_requestedFromNetworkingLayer = true; }
virtual void didAddClient(CachedResourceClient*);
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 isImage() const { return false; }
bool isLinkResource() const
{
#if ENABLE(LINK_PREFETCH)
return type() == LinkResource;
#else
return false;
#endif
}
unsigned accessCount() const { return m_accessCount; }
void increaseAccessCount() { m_accessCount++; }
// Computes the status of an object after loading.
// Updates the expire date on the cache entry file
void finish();
// 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 setInLiveDecodedResourcesList(bool b) { m_inLiveDecodedResourcesList = b; }
bool inLiveDecodedResourcesList() { return m_inLiveDecodedResourcesList; }
void setRequest(CachedResourceRequest*);
SharedBuffer* data() const { ASSERT(!m_purgeableData); return m_data.get(); }
void setResponse(const ResourceResponse&);
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_request && !m_preloadCount && !m_handleCount && !m_resourceToRevalidate && !m_proxyResource; }
bool isExpired() const;
// List of acceptable MIME types separated by ",".
// A MIME type may contain a wildcard, e.g. "text/*".
String accept() const { return m_accept; }
void setAccept(const String& accept) { m_accept = accept; }
bool errorOccurred() const { return (status() == LoadError || status() == DecodeError); }
bool sendResourceLoadCallbacks() const { return m_sendResourceLoadCallbacks; }
virtual void destroyDecodedData() { }
void setOwningCachedResourceLoader(CachedResourceLoader* cachedResourceLoader) { m_owningCachedResourceLoader = cachedResourceLoader; }
bool isPreloaded() const { return m_preloadCount; }
void increasePreloadCount() { ++m_preloadCount; }
void decreasePreloadCount() { ASSERT(m_preloadCount); --m_preloadCount; }
void registerHandle(CachedResourceHandleBase* h);
void unregisterHandle(CachedResourceHandleBase* h);
bool canUseCacheValidator() const;
bool mustRevalidateDueToCacheHeaders(CachePolicy) const;
bool isCacheValidator() const { return m_resourceToRevalidate; }
CachedResource* resourceToRevalidate() const { return m_resourceToRevalidate; }
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);
// HTTP revalidation support methods for CachedResourceLoader.
void setResourceToRevalidate(CachedResource*);
void switchClientsToRevalidatedResource();
void clearResourceToRevalidate();
void updateResponseAfterRevalidation(const ResourceResponse& validatingResponse);
protected:
void checkNotify();
void setEncodedSize(unsigned);
void setDecodedSize(unsigned);
void didAccessDecodedData(double timeStamp);
bool isSafeToMakePurgeable() const;
HashCountedSet<CachedResourceClient*> m_clients;
String m_url;
String m_accept;
CachedResourceRequest* m_request;
ResourceLoadPriority m_loadPriority;
ResourceResponse m_response;
double m_responseTimestamp;
RefPtr<SharedBuffer> m_data;
OwnPtr<PurgeableBuffer> m_purgeableData;
private:
void addClientToSet(CachedResourceClient*);
virtual PurgePriority purgePriority() const { return PurgeDefault; }
double currentAge() const;
double freshnessLifetime() const;
RefPtr<CachedMetadata> m_cachedMetadata;
double m_lastDecodedAccessTime; // Used as a "thrash guard" in the cache
unsigned m_encodedSize;
unsigned m_decodedSize;
unsigned m_accessCount;
unsigned m_handleCount;
unsigned m_preloadCount;
unsigned m_preloadResult : 2; // PreloadResult
bool m_inLiveDecodedResourcesList : 1;
bool m_requestedFromNetworkingLayer : 1;
bool m_sendResourceLoadCallbacks : 1;
bool m_inCache : 1;
bool m_loading : 1;
unsigned m_type : 3; // Type
unsigned m_status : 3; // Status
#ifndef NDEBUG
bool m_deleted;
unsigned m_lruIndex;
#endif
CachedResource* m_nextInAllResourcesList;
CachedResource* m_prevInAllResourcesList;
CachedResource* m_nextInLiveResourcesList;
CachedResource* m_prevInLiveResourcesList;
CachedResourceLoader* m_owningCachedResourceLoader; // only non-0 for resources that are not in the cache
// 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.
CachedResource* 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).
CachedResource* m_proxyResource;
// These handles will need to be updated to point to the m_resourceToRevalidate in case we get 304 response.
HashSet<CachedResourceHandleBase*> m_handlesToRevalidate;
};
}
#endif