content/browser/appcache/appcache_storage.h - chromium/src.git - 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 CONTENT_BROWSER_APPCACHE_APPCACHE_STORAGE_H_
 #define CONTENT_BROWSER_APPCACHE_APPCACHE_STORAGE_H_

 #include <map>
 #include <vector>

 #include "base/compiler_specific.h"
 #include "base/gtest_prod_util.h"
 #include "base/macros.h"
 #include "base/memory/ref_counted.h"
 #include "base/memory/scoped_ptr.h"
 #include "content/browser/appcache/appcache_working_set.h"
 #include "content/common/content_export.h"
 #include "net/base/completion_callback.h"

 class GURL;

 namespace content {
 FORWARD_DECLARE_TEST(AppCacheStorageTest, DelegateReferences);
 FORWARD_DECLARE_TEST(AppCacheStorageTest, UsageMap);
 class AppCache;
 class AppCacheEntry;
 class AppCacheGroup;
 class AppCacheQuotaClientTest;
 class AppCacheResponseMetadataWriter;
 class AppCacheResponseReader;
 class AppCacheResponseTest;
 class AppCacheResponseWriter;
 class AppCacheServiceImpl;
 class AppCacheStorageTest;
 struct AppCacheInfoCollection;
 struct HttpResponseInfoIOBuffer;

 class CONTENT_EXPORT AppCacheStorage {
  public:
   typedef std::map<GURL, int64_t> UsageMap;

   class CONTENT_EXPORT Delegate {
    public:
     // If retrieval fails, 'collection' will be NULL.
     virtual void OnAllInfo(AppCacheInfoCollection* collection) {}

     // If a load fails the 'cache' will be NULL.
     virtual void OnCacheLoaded(AppCache* cache, int64_t cache_id) {}

     // If a load fails the 'group' will be NULL.
     virtual void OnGroupLoaded(
         AppCacheGroup* group, const GURL& manifest_url) {}

     // If successfully stored 'success' will be true.
     virtual void OnGroupAndNewestCacheStored(
         AppCacheGroup* group, AppCache* newest_cache, bool success,
         bool would_exceed_quota) {}

     // If the operation fails, success will be false.
     virtual void OnGroupMadeObsolete(AppCacheGroup* group,
                                      bool success,
                                      int response_code) {}

     // If a load fails the 'response_info' will be NULL.
     virtual void OnResponseInfoLoaded(AppCacheResponseInfo* response_info,
                                       int64_t response_id) {}

     // If no response is found, entry.response_id() and
     // fallback_entry.response_id() will be kAppCacheNoResponseId.
     // If the response is the entry for an intercept or fallback
     // namespace, the url of the namespece entry is returned.
     // If a response is found, the cache id and manifest url of the
     // containing cache and group are also returned.
     virtual void OnMainResponseFound(const GURL& url,
                                      const AppCacheEntry& entry,
                                      const GURL& namespace_entry_url,
                                      const AppCacheEntry& fallback_entry,
                                      int64_t cache_id,
                                      int64_t group_id,
                                      const GURL& mainfest_url) {}

    protected:
     virtual ~Delegate() {}
   };

   explicit AppCacheStorage(AppCacheServiceImpl* service);
   virtual ~AppCacheStorage();

   // Schedules a task to retrieve basic info about all groups and caches
   // stored in the system. Upon completion the delegate will be called
   // with the results.
   virtual void GetAllInfo(Delegate* delegate) = 0;

   // Schedules a cache to be loaded from storage. Upon load completion
   // the delegate will be called back. If the cache already resides in
   // memory, the delegate will be called back immediately without returning
   // to the message loop. If the load fails, the delegate will be called
   // back with a NULL cache pointer.
   virtual void LoadCache(int64_t id, Delegate* delegate) = 0;

   // Schedules a group and its newest cache, if any, to be loaded from storage.
   // Upon load completion the delegate will be called back. If the group
   // and newest cache already reside in memory, the delegate will be called
   // back immediately without returning to the message loop. If the load fails,
   // the delegate will be called back with a NULL group pointer.
   virtual void LoadOrCreateGroup(
       const GURL& manifest_url, Delegate* delegate) = 0;

   // Schedules response info to be loaded from storage.
   // Upon load completion the delegate will be called back. If the data
   // already resides in memory, the delegate will be called back
   // immediately without returning to the message loop. If the load fails,
   // the delegate will be called back with a NULL pointer.
   virtual void LoadResponseInfo(const GURL& manifest_url,
                                 int64_t group_id,
                                 int64_t response_id,
                                 Delegate* delegate);

   // Schedules a group and its newest complete cache to be initially stored or
   // incrementally updated with new changes. Upon completion the delegate
   // will be called back. A group without a newest cache cannot be stored.
   // It's a programming error to call this method without a newest cache. A
   // side effect of storing a new newest cache is the removal of the group's
   // old caches and responses from persistent storage (although they may still
   // linger in the in-memory working set until no longer needed). The new
   // cache will be added as the group's newest complete cache only if storage
   // succeeds.
   virtual void StoreGroupAndNewestCache(
       AppCacheGroup* group, AppCache* newest_cache, Delegate* delegate) = 0;

   // Schedules a query to identify a response for a main request. Upon
   // completion the delegate will be called back.
   virtual void FindResponseForMainRequest(
       const GURL& url,
       const GURL& preferred_manifest_url,
       Delegate* delegate) = 0;

   // Performs an immediate lookup of the in-memory cache to
   // identify a response for a sub resource request.
   virtual void FindResponseForSubRequest(
       AppCache* cache, const GURL& url,
       AppCacheEntry* found_entry, AppCacheEntry* found_fallback_entry,
       bool* found_network_namespace) = 0;

   // Immediately updates in-memory storage, if the cache is in memory,
   // and schedules a task to update persistent storage. If the cache is
   // already scheduled to be loaded, upon loading completion the entry
   // will be marked. There is no delegate completion callback.
   virtual void MarkEntryAsForeign(const GURL& entry_url, int64_t cache_id) = 0;

   // Schedules a task to update persistent storage and doom the group and all
   // related caches and responses for deletion. Upon completion the in-memory
   // instance is marked as obsolete and the delegate callback is called.
   virtual void MakeGroupObsolete(AppCacheGroup* group,
                                  Delegate* delegate,
                                  int response_code) = 0;

   // Schedules a task to update persistent storage with the times of the first
   // evictable error and last successful full update check.
   virtual void StoreEvictionTimes(AppCacheGroup* group) = 0;

   // Cancels all pending callbacks for the delegate. The delegate callbacks
   // will not be invoked after, however any scheduled operations will still
   // take place. The callbacks for subsequently scheduled operations are
   // unaffected.
   void CancelDelegateCallbacks(Delegate* delegate) {
     DelegateReference* delegate_reference = GetDelegateReference(delegate);
     if (delegate_reference)
       delegate_reference->CancelReference();
   }

   // Creates a reader to read a response from storage.
   virtual AppCacheResponseReader* CreateResponseReader(const GURL& manifest_url,
                                                        int64_t group_id,
                                                        int64_t response_id) = 0;

   // Creates a writer to write a new response to storage. This call
   // establishes a new response id.
   virtual AppCacheResponseWriter* CreateResponseWriter(const GURL& manifest_url,
                                                        int64_t group_id) = 0;

   // Creates a metadata writer to write metadata of response to storage.
   virtual AppCacheResponseMetadataWriter* CreateResponseMetadataWriter(
       int64_t group_id,
       int64_t response_id) = 0;

   // Schedules the lazy deletion of responses and saves the ids
   // persistently such that the responses will be deleted upon restart
   // if they aren't deleted prior to shutdown.
   virtual void DoomResponses(const GURL& manifest_url,
                              const std::vector<int64_t>& response_ids) = 0;

   // Schedules the lazy deletion of responses without persistently saving
   // the response ids.
   virtual void DeleteResponses(const GURL& manifest_url,
                                const std::vector<int64_t>& response_ids) = 0;

   // Generates unique storage ids for different object types.
   int64_t NewCacheId() { return ++last_cache_id_; }
   int64_t NewGroupId() { return ++last_group_id_; }

   // The working set of object instances currently in memory.
   AppCacheWorkingSet* working_set() { return &working_set_; }

   // A map of origins to usage.
   const UsageMap* usage_map() { return &usage_map_; }

   // Simple ptr back to the service object that owns us.
   AppCacheServiceImpl* service() { return service_; }

  protected:
   friend class content::AppCacheQuotaClientTest;
   friend class content::AppCacheResponseTest;
   friend class content::AppCacheStorageTest;

   // Helper to call a collection of delegates.
   #define FOR_EACH_DELEGATE(delegates, func_and_args)                \
     do {                                                             \
       for (DelegateReferenceVector::iterator it = delegates.begin(); \
            it != delegates.end(); ++it) {                            \
         if (it->get()->delegate)                                     \
           it->get()->delegate->func_and_args;                        \
       }                                                              \
     } while (0)

   // Helper used to manage multiple references to a 'delegate' and to
   // allow all pending callbacks to that delegate to be easily cancelled.
   struct CONTENT_EXPORT DelegateReference :
       public base::RefCounted<DelegateReference> {
     Delegate* delegate;
     AppCacheStorage* storage;

     DelegateReference(Delegate* delegate, AppCacheStorage* storage);

     void CancelReference() {
       storage->delegate_references_.erase(delegate);
       storage = NULL;
       delegate = NULL;
     }

    private:
     friend class base::RefCounted<DelegateReference>;

     virtual ~DelegateReference();
   };
   typedef std::map<Delegate*, DelegateReference*> DelegateReferenceMap;
   typedef std::vector<scoped_refptr<DelegateReference> >
       DelegateReferenceVector;

   // Helper used to manage an async LoadResponseInfo calls on behalf of
   // multiple callers.
   class ResponseInfoLoadTask {
    public:
     ResponseInfoLoadTask(const GURL& manifest_url,
                          int64_t group_id,
                          int64_t response_id,
                          AppCacheStorage* storage);
     ~ResponseInfoLoadTask();

     int64_t response_id() const { return response_id_; }
     const GURL& manifest_url() const { return manifest_url_; }
     int64_t group_id() const { return group_id_; }

     void AddDelegate(DelegateReference* delegate_reference) {
       delegates_.push_back(delegate_reference);
     }

     void StartIfNeeded();

    private:
     void OnReadComplete(int result);

     AppCacheStorage* storage_;
     GURL manifest_url_;
     int64_t group_id_;
     int64_t response_id_;
     scoped_ptr<AppCacheResponseReader> reader_;
     DelegateReferenceVector delegates_;
     scoped_refptr<HttpResponseInfoIOBuffer> info_buffer_;
   };

   typedef std::map<int64_t, ResponseInfoLoadTask*> PendingResponseInfoLoads;

   DelegateReference* GetDelegateReference(Delegate* delegate) {
     DelegateReferenceMap::iterator iter =
         delegate_references_.find(delegate);
     if (iter != delegate_references_.end())
       return iter->second;
     return NULL;
   }

   DelegateReference* GetOrCreateDelegateReference(Delegate* delegate) {
     DelegateReference* reference = GetDelegateReference(delegate);
     if (reference)
       return reference;
     return new DelegateReference(delegate, this);
   }

   ResponseInfoLoadTask* GetOrCreateResponseInfoLoadTask(
       const GURL& manifest_url,
       int64_t group_id,
       int64_t response_id) {
     PendingResponseInfoLoads::iterator iter =
         pending_info_loads_.find(response_id);
     if (iter != pending_info_loads_.end())
       return iter->second;
     return new ResponseInfoLoadTask(manifest_url, group_id, response_id, this);
   }

   // Should only be called when creating a new response writer.
   int64_t NewResponseId() { return ++last_response_id_; }

   // Helpers to query and notify the QuotaManager.
   void UpdateUsageMapAndNotify(const GURL& origin, int64_t new_usage);
   void ClearUsageMapAndNotify();
   void NotifyStorageAccessed(const GURL& origin);

   // The last storage id used for different object types.
   int64_t last_cache_id_;
   int64_t last_group_id_;
   int64_t last_response_id_;

   UsageMap usage_map_;  // maps origin to usage
   AppCacheWorkingSet working_set_;
   AppCacheServiceImpl* service_;
   DelegateReferenceMap delegate_references_;
   PendingResponseInfoLoads pending_info_loads_;

   // The set of last ids must be retrieved from storage prior to being used.
   static const int64_t kUnitializedId;

   FRIEND_TEST_ALL_PREFIXES(content::AppCacheStorageTest, DelegateReferences);
   FRIEND_TEST_ALL_PREFIXES(content::AppCacheStorageTest, UsageMap);

   DISALLOW_COPY_AND_ASSIGN(AppCacheStorage);
 };

 }  // namespace content

 #endif  // CONTENT_BROWSER_APPCACHE_APPCACHE_STORAGE_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 CONTENT_BROWSER_APPCACHE_APPCACHE_STORAGE_H_
	#define CONTENT_BROWSER_APPCACHE_APPCACHE_STORAGE_H_

	#include <map>
	#include <vector>

	#include "base/compiler_specific.h"
	#include "base/gtest_prod_util.h"
	#include "base/macros.h"
	#include "base/memory/ref_counted.h"
	#include "base/memory/scoped_ptr.h"
	#include "content/browser/appcache/appcache_working_set.h"
	#include "content/common/content_export.h"
	#include "net/base/completion_callback.h"

	class GURL;

	namespace content {
	FORWARD_DECLARE_TEST(AppCacheStorageTest, DelegateReferences);
	FORWARD_DECLARE_TEST(AppCacheStorageTest, UsageMap);
	class AppCache;
	class AppCacheEntry;
	class AppCacheGroup;
	class AppCacheQuotaClientTest;
	class AppCacheResponseMetadataWriter;
	class AppCacheResponseReader;
	class AppCacheResponseTest;
	class AppCacheResponseWriter;
	class AppCacheServiceImpl;
	class AppCacheStorageTest;
	struct AppCacheInfoCollection;
	struct HttpResponseInfoIOBuffer;

	class CONTENT_EXPORT AppCacheStorage {
	public:
	typedef std::map<GURL, int64_t> UsageMap;

	class CONTENT_EXPORT Delegate {
	public:
	// If retrieval fails, 'collection' will be NULL.
	virtual void OnAllInfo(AppCacheInfoCollection* collection) {}

	// If a load fails the 'cache' will be NULL.
	virtual void OnCacheLoaded(AppCache* cache, int64_t cache_id) {}

	// If a load fails the 'group' will be NULL.
	virtual void OnGroupLoaded(
	AppCacheGroup* group, const GURL& manifest_url) {}

	// If successfully stored 'success' will be true.
	virtual void OnGroupAndNewestCacheStored(
	AppCacheGroup* group, AppCache* newest_cache, bool success,
	bool would_exceed_quota) {}

	// If the operation fails, success will be false.
	virtual void OnGroupMadeObsolete(AppCacheGroup* group,
	bool success,
	int response_code) {}

	// If a load fails the 'response_info' will be NULL.
	virtual void OnResponseInfoLoaded(AppCacheResponseInfo* response_info,
	int64_t response_id) {}

	// If no response is found, entry.response_id() and
	// fallback_entry.response_id() will be kAppCacheNoResponseId.
	// If the response is the entry for an intercept or fallback
	// namespace, the url of the namespece entry is returned.
	// If a response is found, the cache id and manifest url of the
	// containing cache and group are also returned.
	virtual void OnMainResponseFound(const GURL& url,
	const AppCacheEntry& entry,
	const GURL& namespace_entry_url,
	const AppCacheEntry& fallback_entry,
	int64_t cache_id,
	int64_t group_id,
	const GURL& mainfest_url) {}

	protected:
	virtual ~Delegate() {}
	};

	explicit AppCacheStorage(AppCacheServiceImpl* service);
	virtual ~AppCacheStorage();

	// Schedules a task to retrieve basic info about all groups and caches
	// stored in the system. Upon completion the delegate will be called
	// with the results.
	virtual void GetAllInfo(Delegate* delegate) = 0;

	// Schedules a cache to be loaded from storage. Upon load completion
	// the delegate will be called back. If the cache already resides in
	// memory, the delegate will be called back immediately without returning
	// to the message loop. If the load fails, the delegate will be called
	// back with a NULL cache pointer.
	virtual void LoadCache(int64_t id, Delegate* delegate) = 0;

	// Schedules a group and its newest cache, if any, to be loaded from storage.
	// Upon load completion the delegate will be called back. If the group
	// and newest cache already reside in memory, the delegate will be called
	// back immediately without returning to the message loop. If the load fails,
	// the delegate will be called back with a NULL group pointer.
	virtual void LoadOrCreateGroup(
	const GURL& manifest_url, Delegate* delegate) = 0;

	// Schedules response info to be loaded from storage.
	// Upon load completion the delegate will be called back. If the data
	// already resides in memory, the delegate will be called back
	// immediately without returning to the message loop. If the load fails,
	// the delegate will be called back with a NULL pointer.
	virtual void LoadResponseInfo(const GURL& manifest_url,
	int64_t group_id,
	int64_t response_id,
	Delegate* delegate);

	// Schedules a group and its newest complete cache to be initially stored or
	// incrementally updated with new changes. Upon completion the delegate
	// will be called back. A group without a newest cache cannot be stored.
	// It's a programming error to call this method without a newest cache. A
	// side effect of storing a new newest cache is the removal of the group's
	// old caches and responses from persistent storage (although they may still
	// linger in the in-memory working set until no longer needed). The new
	// cache will be added as the group's newest complete cache only if storage
	// succeeds.
	virtual void StoreGroupAndNewestCache(
	AppCacheGroup* group, AppCache* newest_cache, Delegate* delegate) = 0;

	// Schedules a query to identify a response for a main request. Upon
	// completion the delegate will be called back.
	virtual void FindResponseForMainRequest(
	const GURL& url,
	const GURL& preferred_manifest_url,
	Delegate* delegate) = 0;

	// Performs an immediate lookup of the in-memory cache to
	// identify a response for a sub resource request.
	virtual void FindResponseForSubRequest(
	AppCache* cache, const GURL& url,
	AppCacheEntry* found_entry, AppCacheEntry* found_fallback_entry,
	bool* found_network_namespace) = 0;

	// Immediately updates in-memory storage, if the cache is in memory,
	// and schedules a task to update persistent storage. If the cache is
	// already scheduled to be loaded, upon loading completion the entry
	// will be marked. There is no delegate completion callback.
	virtual void MarkEntryAsForeign(const GURL& entry_url, int64_t cache_id) = 0;

	// Schedules a task to update persistent storage and doom the group and all
	// related caches and responses for deletion. Upon completion the in-memory
	// instance is marked as obsolete and the delegate callback is called.
	virtual void MakeGroupObsolete(AppCacheGroup* group,
	Delegate* delegate,
	int response_code) = 0;

	// Schedules a task to update persistent storage with the times of the first
	// evictable error and last successful full update check.
	virtual void StoreEvictionTimes(AppCacheGroup* group) = 0;

	// Cancels all pending callbacks for the delegate. The delegate callbacks
	// will not be invoked after, however any scheduled operations will still
	// take place. The callbacks for subsequently scheduled operations are
	// unaffected.
	void CancelDelegateCallbacks(Delegate* delegate) {
	DelegateReference* delegate_reference = GetDelegateReference(delegate);
	if (delegate_reference)
	delegate_reference->CancelReference();
	}

	// Creates a reader to read a response from storage.
	virtual AppCacheResponseReader* CreateResponseReader(const GURL& manifest_url,
	int64_t group_id,
	int64_t response_id) = 0;

	// Creates a writer to write a new response to storage. This call
	// establishes a new response id.
	virtual AppCacheResponseWriter* CreateResponseWriter(const GURL& manifest_url,
	int64_t group_id) = 0;

	// Creates a metadata writer to write metadata of response to storage.
	virtual AppCacheResponseMetadataWriter* CreateResponseMetadataWriter(
	int64_t group_id,
	int64_t response_id) = 0;

	// Schedules the lazy deletion of responses and saves the ids
	// persistently such that the responses will be deleted upon restart
	// if they aren't deleted prior to shutdown.
	virtual void DoomResponses(const GURL& manifest_url,
	const std::vector<int64_t>& response_ids) = 0;

	// Schedules the lazy deletion of responses without persistently saving
	// the response ids.
	virtual void DeleteResponses(const GURL& manifest_url,
	const std::vector<int64_t>& response_ids) = 0;

	// Generates unique storage ids for different object types.
	int64_t NewCacheId() { return ++last_cache_id_; }
	int64_t NewGroupId() { return ++last_group_id_; }

	// The working set of object instances currently in memory.
	AppCacheWorkingSet* working_set() { return &working_set_; }

	// A map of origins to usage.
	const UsageMap* usage_map() { return &usage_map_; }

	// Simple ptr back to the service object that owns us.
	AppCacheServiceImpl* service() { return service_; }

	protected:
	friend class content::AppCacheQuotaClientTest;
	friend class content::AppCacheResponseTest;
	friend class content::AppCacheStorageTest;

	// Helper to call a collection of delegates.
	#define FOR_EACH_DELEGATE(delegates, func_and_args) \
	do { \
	for (DelegateReferenceVector::iterator it = delegates.begin(); \
	it != delegates.end(); ++it) { \
	if (it->get()->delegate) \
	it->get()->delegate->func_and_args; \
	} \
	} while (0)

	// Helper used to manage multiple references to a 'delegate' and to
	// allow all pending callbacks to that delegate to be easily cancelled.
	struct CONTENT_EXPORT DelegateReference :
	public base::RefCounted<DelegateReference> {
	Delegate* delegate;
	AppCacheStorage* storage;

	DelegateReference(Delegate* delegate, AppCacheStorage* storage);

	void CancelReference() {
	storage->delegate_references_.erase(delegate);
	storage = NULL;
	delegate = NULL;
	}

	private:
	friend class base::RefCounted<DelegateReference>;

	virtual ~DelegateReference();
	};
	typedef std::map<Delegate, DelegateReference> DelegateReferenceMap;
	typedef std::vector<scoped_refptr<DelegateReference> >
	DelegateReferenceVector;

	// Helper used to manage an async LoadResponseInfo calls on behalf of
	// multiple callers.
	class ResponseInfoLoadTask {
	public:
	ResponseInfoLoadTask(const GURL& manifest_url,
	int64_t group_id,
	int64_t response_id,
	AppCacheStorage* storage);
	~ResponseInfoLoadTask();

	int64_t response_id() const { return response_id_; }
	const GURL& manifest_url() const { return manifest_url_; }
	int64_t group_id() const { return group_id_; }

	void AddDelegate(DelegateReference* delegate_reference) {
	delegates_.push_back(delegate_reference);
	}

	void StartIfNeeded();

	private:
	void OnReadComplete(int result);

	AppCacheStorage* storage_;
	GURL manifest_url_;
	int64_t group_id_;
	int64_t response_id_;
	scoped_ptr<AppCacheResponseReader> reader_;
	DelegateReferenceVector delegates_;
	scoped_refptr<HttpResponseInfoIOBuffer> info_buffer_;
	};

	typedef std::map<int64_t, ResponseInfoLoadTask*> PendingResponseInfoLoads;

	DelegateReference* GetDelegateReference(Delegate* delegate) {
	DelegateReferenceMap::iterator iter =
	delegate_references_.find(delegate);
	if (iter != delegate_references_.end())
	return iter->second;
	return NULL;
	}

	DelegateReference* GetOrCreateDelegateReference(Delegate* delegate) {
	DelegateReference* reference = GetDelegateReference(delegate);
	if (reference)
	return reference;
	return new DelegateReference(delegate, this);
	}

	ResponseInfoLoadTask* GetOrCreateResponseInfoLoadTask(
	const GURL& manifest_url,
	int64_t group_id,
	int64_t response_id) {
	PendingResponseInfoLoads::iterator iter =
	pending_info_loads_.find(response_id);
	if (iter != pending_info_loads_.end())
	return iter->second;
	return new ResponseInfoLoadTask(manifest_url, group_id, response_id, this);
	}

	// Should only be called when creating a new response writer.
	int64_t NewResponseId() { return ++last_response_id_; }

	// Helpers to query and notify the QuotaManager.
	void UpdateUsageMapAndNotify(const GURL& origin, int64_t new_usage);
	void ClearUsageMapAndNotify();
	void NotifyStorageAccessed(const GURL& origin);

	// The last storage id used for different object types.
	int64_t last_cache_id_;
	int64_t last_group_id_;
	int64_t last_response_id_;

	UsageMap usage_map_; // maps origin to usage
	AppCacheWorkingSet working_set_;
	AppCacheServiceImpl* service_;
	DelegateReferenceMap delegate_references_;
	PendingResponseInfoLoads pending_info_loads_;

	// The set of last ids must be retrieved from storage prior to being used.
	static const int64_t kUnitializedId;

	FRIEND_TEST_ALL_PREFIXES(content::AppCacheStorageTest, DelegateReferences);
	FRIEND_TEST_ALL_PREFIXES(content::AppCacheStorageTest, UsageMap);

	DISALLOW_COPY_AND_ASSIGN(AppCacheStorage);
	};

	} // namespace content

	#endif // CONTENT_BROWSER_APPCACHE_APPCACHE_STORAGE_H_