src/net/http/http_cache.h - cobalt - 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.

 // This file declares a HttpTransactionFactory implementation that can be
 // layered on top of another HttpTransactionFactory to add HTTP caching.  The
 // caching logic follows RFC 2616 (any exceptions are called out in the code).
 //
 // The HttpCache takes a disk_cache::Backend as a parameter, and uses that for
 // the cache storage.
 //
 // See HttpTransactionFactory and HttpTransaction for more details.

 #ifndef NET_HTTP_HTTP_CACHE_H_
 #define NET_HTTP_HTTP_CACHE_H_

 #include <list>
 #include <set>
 #include <string>

 #include "base/basictypes.h"
 #include "base/file_path.h"
 #include "base/hash_tables.h"
 #include "base/memory/scoped_ptr.h"
 #include "base/memory/weak_ptr.h"
 #include "base/message_loop_proxy.h"
 #include "base/time.h"
 #include "base/threading/non_thread_safe.h"
 #include "net/base/cache_type.h"
 #include "net/base/completion_callback.h"
 #include "net/base/load_states.h"
 #include "net/base/net_export.h"
 #include "net/http/http_network_session.h"
 #include "net/http/http_transaction_factory.h"
 #include "net/http/infinite_cache.h"

 class GURL;

 namespace disk_cache {
 class Backend;
 class Entry;
 }

 namespace net {

 class CertVerifier;
 class HostResolver;
 class HttpAuthHandlerFactory;
 class HttpNetworkSession;
 class HttpResponseInfo;
 class HttpServerProperties;
 class IOBuffer;
 class NetLog;
 class NetworkDelegate;
 class ServerBoundCertService;
 class ProxyService;
 class SSLConfigService;
 class TransportSecurityState;
 class ViewCacheHelper;
 struct HttpRequestInfo;

 class NET_EXPORT HttpCache : public HttpTransactionFactory,
                              public base::SupportsWeakPtr<HttpCache>,
                              NON_EXPORTED_BASE(public base::NonThreadSafe) {
  public:
   // The cache mode of operation.
   enum Mode {
     // Normal mode just behaves like a standard web cache.
     NORMAL = 0,
     // Record mode caches everything for purposes of offline playback.
     RECORD,
     // Playback mode replays from a cache without considering any
     // standard invalidations.
     PLAYBACK,
     // Disables reads and writes from the cache.
     // Equivalent to setting LOAD_DISABLE_CACHE on every request.
     DISABLE
   };

   // A BackendFactory creates a backend object to be used by the HttpCache.
   class NET_EXPORT BackendFactory {
    public:
     virtual ~BackendFactory() {}

     // The actual method to build the backend. Returns a net error code. If
     // ERR_IO_PENDING is returned, the |callback| will be notified when the
     // operation completes, and |backend| must remain valid until the
     // notification arrives.
     // The implementation must not access the factory object after invoking the
     // |callback| because the object can be deleted from within the callback.
     virtual int CreateBackend(NetLog* net_log,
                               disk_cache::Backend** backend,
                               const CompletionCallback& callback) = 0;
   };

   // A default backend factory for the common use cases.
   class NET_EXPORT DefaultBackend : public BackendFactory {
    public:
     // |path| is the destination for any files used by the backend, and
     // |cache_thread| is the thread where disk operations should take place. If
     // |max_bytes| is  zero, a default value will be calculated automatically.
     DefaultBackend(CacheType type, const FilePath& path, int max_bytes,
                    base::MessageLoopProxy* thread);
     virtual ~DefaultBackend();

     // Returns a factory for an in-memory cache.
     static BackendFactory* InMemory(int max_bytes);

     // BackendFactory implementation.
     virtual int CreateBackend(NetLog* net_log,
                               disk_cache::Backend** backend,
                               const CompletionCallback& callback) override;

    private:
     const FilePath path_;
 #if !defined(__LB_SHELL__)
     CacheType type_;
     int max_bytes_;
 #endif
     scoped_refptr<base::MessageLoopProxy> thread_;
   };

   // The disk cache is initialized lazily (by CreateTransaction) in this case.
   // The HttpCache takes ownership of the |backend_factory|.
   HttpCache(const net::HttpNetworkSession::Params& params,
             BackendFactory* backend_factory);

   // The disk cache is initialized lazily (by CreateTransaction) in  this case.
   // Provide an existing HttpNetworkSession, the cache can construct a
   // network layer with a shared HttpNetworkSession in order for multiple
   // network layers to share information (e.g. authentication data). The
   // HttpCache takes ownership of the |backend_factory|.
   HttpCache(HttpNetworkSession* session, BackendFactory* backend_factory);

   // Initialize the cache from its component parts, which is useful for
   // testing.  The lifetime of the network_layer and backend_factory are managed
   // by the HttpCache and will be destroyed using |delete| when the HttpCache is
   // destroyed.
   HttpCache(HttpTransactionFactory* network_layer,
             NetLog* net_log,
             BackendFactory* backend_factory);

   virtual ~HttpCache();

   HttpTransactionFactory* network_layer() { return network_layer_.get(); }

   // Retrieves the cache backend for this HttpCache instance. If the backend
   // is not initialized yet, this method will initialize it. The return value is
   // a network error code, and it could be ERR_IO_PENDING, in which case the
   // |callback| will be notified when the operation completes. The pointer that
   // receives the |backend| must remain valid until the operation completes.
   int GetBackend(disk_cache::Backend** backend,
                  const net::CompletionCallback& callback);

   // Returns the current backend (can be NULL).
   disk_cache::Backend* GetCurrentBackend() const;

   // Given a header data blob, convert it to a response info object.
   static bool ParseResponseInfo(const char* data, int len,
                                 HttpResponseInfo* response_info,
                                 bool* response_truncated);

   // Writes |buf_len| bytes of metadata stored in |buf| to the cache entry
   // referenced by |url|, as long as the entry's |expected_response_time| has
   // not changed. This method returns without blocking, and the operation will
   // be performed asynchronously without any completion notification.
   void WriteMetadata(const GURL& url, base::Time expected_response_time,
                      IOBuffer* buf, int buf_len);

   // Get/Set the cache's mode.
   void set_mode(Mode value) { mode_ = value; }
   Mode mode() { return mode_; }

   // Close currently active sockets so that fresh page loads will not use any
   // recycled connections.  For sockets currently in use, they may not close
   // immediately, but they will not be reusable. This is for debugging.
   void CloseAllConnections();

   // Close all idle connections. Will close all sockets not in active use.
   void CloseIdleConnections();

   // Called whenever an external cache in the system reuses the resource
   // referred to by |url| and |http_method|.
   void OnExternalCacheHit(const GURL& url, const std::string& http_method);

   // Initializes the Infinite Cache, if selected by the field trial.
   void InitializeInfiniteCache(const FilePath& path);

   // Returns a pointer to the Infinite Cache.
   InfiniteCache* infinite_cache() { return &infinite_cache_; }

   // HttpTransactionFactory implementation:
   virtual int CreateTransaction(scoped_ptr<HttpTransaction>* trans,
                                 HttpTransactionDelegate* delegate) override;
   virtual HttpCache* GetCache() override;
   virtual HttpNetworkSession* GetSession() override;

  protected:
   // Disk cache entry data indices.
   enum {
     kResponseInfoIndex = 0,
     kResponseContentIndex,
     kMetadataIndex,

     // Must remain at the end of the enum.
     kNumCacheEntryDataIndices
   };
   friend class ViewCacheHelper;

  private:
   // Types --------------------------------------------------------------------

   class MetadataWriter;
   class Transaction;
   class WorkItem;
   friend class Transaction;
   friend class InfiniteCache;
   struct PendingOp;  // Info for an entry under construction.

   typedef std::list<Transaction*> TransactionList;
   typedef std::list<WorkItem*> WorkItemList;

   struct ActiveEntry {
     explicit ActiveEntry(disk_cache::Entry* entry);
     ~ActiveEntry();

     disk_cache::Entry* disk_entry;
     Transaction*       writer;
     TransactionList    readers;
     TransactionList    pending_queue;
     bool               will_process_pending_queue;
     bool               doomed;
   };

   typedef base::hash_map<std::string, ActiveEntry*> ActiveEntriesMap;
   typedef base::hash_map<std::string, PendingOp*> PendingOpsMap;
   typedef std::set<ActiveEntry*> ActiveEntriesSet;
   typedef base::hash_map<std::string, int> PlaybackCacheMap;

   // Methods ------------------------------------------------------------------

   // Creates the |backend| object and notifies the |callback| when the operation
   // completes. Returns an error code.
   int CreateBackend(disk_cache::Backend** backend,
                     const net::CompletionCallback& callback);

   // Makes sure that the backend creation is complete before allowing the
   // provided transaction to use the object. Returns an error code.  |trans|
   // will be notified via its IO callback if this method returns ERR_IO_PENDING.
   // The transaction is free to use the backend directly at any time after
   // receiving the notification.
   int GetBackendForTransaction(Transaction* trans);

   // Generates the cache key for this request.
   std::string GenerateCacheKey(const HttpRequestInfo*);

   // Dooms the entry selected by |key|, if it is currently in the list of active
   // entries.
   void DoomActiveEntry(const std::string& key);

   // Dooms the entry selected by |key|. |trans| will be notified via its IO
   // callback if this method returns ERR_IO_PENDING. The entry can be
   // currently in use or not.
   int DoomEntry(const std::string& key, Transaction* trans);

   // Dooms the entry selected by |key|. |trans| will be notified via its IO
   // callback if this method returns ERR_IO_PENDING. The entry should not
   // be currently in use.
   int AsyncDoomEntry(const std::string& key, Transaction* trans);

   // Closes a previously doomed entry.
   void FinalizeDoomedEntry(ActiveEntry* entry);

   // Returns an entry that is currently in use and not doomed, or NULL.
   ActiveEntry* FindActiveEntry(const std::string& key);

   // Creates a new ActiveEntry and starts tracking it. |disk_entry| is the disk
   // cache entry.
   ActiveEntry* ActivateEntry(disk_cache::Entry* disk_entry);

   // Deletes an ActiveEntry.
   void DeactivateEntry(ActiveEntry* entry);

   // Deletes an ActiveEntry using an exhaustive search.
   void SlowDeactivateEntry(ActiveEntry* entry);

   // Returns the PendingOp for the desired |key|. If an entry is not under
   // construction already, a new PendingOp structure is created.
   PendingOp* GetPendingOp(const std::string& key);

   // Deletes a PendingOp.
   void DeletePendingOp(PendingOp* pending_op);

   // Opens the disk cache entry associated with |key|, returning an ActiveEntry
   // in |*entry|. |trans| will be notified via its IO callback if this method
   // returns ERR_IO_PENDING.
   int OpenEntry(const std::string& key, ActiveEntry** entry,
                 Transaction* trans);

   // Creates the disk cache entry associated with |key|, returning an
   // ActiveEntry in |*entry|. |trans| will be notified via its IO callback if
   // this method returns ERR_IO_PENDING.
   int CreateEntry(const std::string& key, ActiveEntry** entry,
                   Transaction* trans);

   // Destroys an ActiveEntry (active or doomed).
   void DestroyEntry(ActiveEntry* entry);

   // Adds a transaction to an ActiveEntry. If this method returns ERR_IO_PENDING
   // the transaction will be notified about completion via its IO callback. This
   // method returns ERR_CACHE_RACE to signal the transaction that it cannot be
   // added to the provided entry, and it should retry the process with another
   // one (in this case, the entry is no longer valid).
   int AddTransactionToEntry(ActiveEntry* entry, Transaction* trans);

   // Called when the transaction has finished working with this entry. |cancel|
   // is true if the operation was cancelled by the caller instead of running
   // to completion.
   void DoneWithEntry(ActiveEntry* entry, Transaction* trans, bool cancel);

   // Called when the transaction has finished writing to this entry. |success|
   // is false if the cache entry should be deleted.
   void DoneWritingToEntry(ActiveEntry* entry, bool success);

   // Called when the transaction has finished reading from this entry.
   void DoneReadingFromEntry(ActiveEntry* entry, Transaction* trans);

   // Converts the active writer transaction to a reader so that other
   // transactions can start reading from this entry.
   void ConvertWriterToReader(ActiveEntry* entry);

   // Returns the LoadState of the provided pending transaction.
   LoadState GetLoadStateForPendingTransaction(const Transaction* trans);

   // Removes the transaction |trans|, from the pending list of an entry
   // (PendingOp, active or doomed entry).
   void RemovePendingTransaction(Transaction* trans);

   // Removes the transaction |trans|, from the pending list of |entry|.
   bool RemovePendingTransactionFromEntry(ActiveEntry* entry,
                                          Transaction* trans);

   // Removes the transaction |trans|, from the pending list of |pending_op|.
   bool RemovePendingTransactionFromPendingOp(PendingOp* pending_op,
                                              Transaction* trans);

   // Resumes processing the pending list of |entry|.
   void ProcessPendingQueue(ActiveEntry* entry);

   // Events (called via PostTask) ---------------------------------------------

   void OnProcessPendingQueue(ActiveEntry* entry);

   // Callbacks ----------------------------------------------------------------

   // Processes BackendCallback notifications.
   void OnIOComplete(int result, PendingOp* entry);

   // Helper to conditionally delete |pending_op| if the HttpCache object it
   // is meant for has been deleted.
   //
   // TODO(ajwong): The PendingOp lifetime management is very tricky.  It might
   // be possible to simplify it using either base::Owned() or base::Passed()
   // with the callback.
   static void OnPendingOpComplete(const base::WeakPtr<HttpCache>& cache,
                                   PendingOp* pending_op,
                                   int result);

   // Processes the backend creation notification.
   void OnBackendCreated(int result, PendingOp* pending_op);

   // Variables ----------------------------------------------------------------

   NetLog* net_log_;

   // Used when lazily constructing the disk_cache_.
   scoped_ptr<BackendFactory> backend_factory_;
   bool building_backend_;

   Mode mode_;

   const scoped_ptr<HttpTransactionFactory> network_layer_;
   scoped_ptr<disk_cache::Backend> disk_cache_;

   // The set of active entries indexed by cache key.
   ActiveEntriesMap active_entries_;

   // The set of doomed entries.
   ActiveEntriesSet doomed_entries_;

   // The set of entries "under construction".
   PendingOpsMap pending_ops_;

   scoped_ptr<PlaybackCacheMap> playback_cache_map_;

   InfiniteCache infinite_cache_;

   DISALLOW_COPY_AND_ASSIGN(HttpCache);
 };

 }  // namespace net

 #endif  // NET_HTTP_HTTP_CACHE_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.

	// This file declares a HttpTransactionFactory implementation that can be
	// layered on top of another HttpTransactionFactory to add HTTP caching. The
	// caching logic follows RFC 2616 (any exceptions are called out in the code).
	//
	// The HttpCache takes a disk_cache::Backend as a parameter, and uses that for
	// the cache storage.
	//
	// See HttpTransactionFactory and HttpTransaction for more details.

	#ifndef NET_HTTP_HTTP_CACHE_H_
	#define NET_HTTP_HTTP_CACHE_H_

	#include <list>
	#include <set>
	#include <string>

	#include "base/basictypes.h"
	#include "base/file_path.h"
	#include "base/hash_tables.h"
	#include "base/memory/scoped_ptr.h"
	#include "base/memory/weak_ptr.h"
	#include "base/message_loop_proxy.h"
	#include "base/time.h"
	#include "base/threading/non_thread_safe.h"
	#include "net/base/cache_type.h"
	#include "net/base/completion_callback.h"
	#include "net/base/load_states.h"
	#include "net/base/net_export.h"
	#include "net/http/http_network_session.h"
	#include "net/http/http_transaction_factory.h"
	#include "net/http/infinite_cache.h"

	class GURL;

	namespace disk_cache {
	class Backend;
	class Entry;
	}

	namespace net {

	class CertVerifier;
	class HostResolver;
	class HttpAuthHandlerFactory;
	class HttpNetworkSession;
	class HttpResponseInfo;
	class HttpServerProperties;
	class IOBuffer;
	class NetLog;
	class NetworkDelegate;
	class ServerBoundCertService;
	class ProxyService;
	class SSLConfigService;
	class TransportSecurityState;
	class ViewCacheHelper;
	struct HttpRequestInfo;

	class NET_EXPORT HttpCache : public HttpTransactionFactory,
	public base::SupportsWeakPtr<HttpCache>,
	NON_EXPORTED_BASE(public base::NonThreadSafe) {
	public:
	// The cache mode of operation.
	enum Mode {
	// Normal mode just behaves like a standard web cache.
	NORMAL = 0,
	// Record mode caches everything for purposes of offline playback.
	RECORD,
	// Playback mode replays from a cache without considering any
	// standard invalidations.
	PLAYBACK,
	// Disables reads and writes from the cache.
	// Equivalent to setting LOAD_DISABLE_CACHE on every request.
	DISABLE
	};

	// A BackendFactory creates a backend object to be used by the HttpCache.
	class NET_EXPORT BackendFactory {
	public:
	virtual ~BackendFactory() {}

	// The actual method to build the backend. Returns a net error code. If
	// ERR_IO_PENDING is returned, the \|callback\| will be notified when the
	// operation completes, and \|backend\| must remain valid until the
	// notification arrives.
	// The implementation must not access the factory object after invoking the
	// \|callback\| because the object can be deleted from within the callback.
	virtual int CreateBackend(NetLog* net_log,
	disk_cache::Backend** backend,
	const CompletionCallback& callback) = 0;
	};

	// A default backend factory for the common use cases.
	class NET_EXPORT DefaultBackend : public BackendFactory {
	public:
	// \|path\| is the destination for any files used by the backend, and
	// \|cache_thread\| is the thread where disk operations should take place. If
	// \|max_bytes\| is zero, a default value will be calculated automatically.
	DefaultBackend(CacheType type, const FilePath& path, int max_bytes,
	base::MessageLoopProxy* thread);
	virtual ~DefaultBackend();

	// Returns a factory for an in-memory cache.
	static BackendFactory* InMemory(int max_bytes);

	// BackendFactory implementation.
	virtual int CreateBackend(NetLog* net_log,
	disk_cache::Backend** backend,
	const CompletionCallback& callback) override;

	private:
	const FilePath path_;
	#if !defined(__LB_SHELL__)
	CacheType type_;
	int max_bytes_;
	#endif
	scoped_refptr<base::MessageLoopProxy> thread_;
	};

	// The disk cache is initialized lazily (by CreateTransaction) in this case.
	// The HttpCache takes ownership of the \|backend_factory\|.
	HttpCache(const net::HttpNetworkSession::Params& params,
	BackendFactory* backend_factory);

	// The disk cache is initialized lazily (by CreateTransaction) in this case.
	// Provide an existing HttpNetworkSession, the cache can construct a
	// network layer with a shared HttpNetworkSession in order for multiple
	// network layers to share information (e.g. authentication data). The
	// HttpCache takes ownership of the \|backend_factory\|.
	HttpCache(HttpNetworkSession* session, BackendFactory* backend_factory);

	// Initialize the cache from its component parts, which is useful for
	// testing. The lifetime of the network_layer and backend_factory are managed
	// by the HttpCache and will be destroyed using \|delete\| when the HttpCache is
	// destroyed.
	HttpCache(HttpTransactionFactory* network_layer,
	NetLog* net_log,
	BackendFactory* backend_factory);

	virtual ~HttpCache();

	HttpTransactionFactory* network_layer() { return network_layer_.get(); }

	// Retrieves the cache backend for this HttpCache instance. If the backend
	// is not initialized yet, this method will initialize it. The return value is
	// a network error code, and it could be ERR_IO_PENDING, in which case the
	// \|callback\| will be notified when the operation completes. The pointer that
	// receives the \|backend\| must remain valid until the operation completes.
	int GetBackend(disk_cache::Backend** backend,
	const net::CompletionCallback& callback);

	// Returns the current backend (can be NULL).
	disk_cache::Backend* GetCurrentBackend() const;

	// Given a header data blob, convert it to a response info object.
	static bool ParseResponseInfo(const char* data, int len,
	HttpResponseInfo* response_info,
	bool* response_truncated);

	// Writes \|buf_len\| bytes of metadata stored in \|buf\| to the cache entry
	// referenced by \|url\|, as long as the entry's \|expected_response_time\| has
	// not changed. This method returns without blocking, and the operation will
	// be performed asynchronously without any completion notification.
	void WriteMetadata(const GURL& url, base::Time expected_response_time,
	IOBuffer* buf, int buf_len);

	// Get/Set the cache's mode.
	void set_mode(Mode value) { mode_ = value; }
	Mode mode() { return mode_; }

	// Close currently active sockets so that fresh page loads will not use any
	// recycled connections. For sockets currently in use, they may not close
	// immediately, but they will not be reusable. This is for debugging.
	void CloseAllConnections();

	// Close all idle connections. Will close all sockets not in active use.
	void CloseIdleConnections();

	// Called whenever an external cache in the system reuses the resource
	// referred to by \|url\| and \|http_method\|.
	void OnExternalCacheHit(const GURL& url, const std::string& http_method);

	// Initializes the Infinite Cache, if selected by the field trial.
	void InitializeInfiniteCache(const FilePath& path);

	// Returns a pointer to the Infinite Cache.
	InfiniteCache* infinite_cache() { return &infinite_cache_; }

	// HttpTransactionFactory implementation:
	virtual int CreateTransaction(scoped_ptr<HttpTransaction>* trans,
	HttpTransactionDelegate* delegate) override;
	virtual HttpCache* GetCache() override;
	virtual HttpNetworkSession* GetSession() override;

	protected:
	// Disk cache entry data indices.
	enum {
	kResponseInfoIndex = 0,
	kResponseContentIndex,
	kMetadataIndex,

	// Must remain at the end of the enum.
	kNumCacheEntryDataIndices
	};
	friend class ViewCacheHelper;

	private:
	// Types --------------------------------------------------------------------

	class MetadataWriter;
	class Transaction;
	class WorkItem;
	friend class Transaction;
	friend class InfiniteCache;
	struct PendingOp; // Info for an entry under construction.

	typedef std::list<Transaction*> TransactionList;
	typedef std::list<WorkItem*> WorkItemList;

	struct ActiveEntry {
	explicit ActiveEntry(disk_cache::Entry* entry);
	~ActiveEntry();

	disk_cache::Entry* disk_entry;
	Transaction* writer;
	TransactionList readers;
	TransactionList pending_queue;
	bool will_process_pending_queue;
	bool doomed;
	};

	typedef base::hash_map<std::string, ActiveEntry*> ActiveEntriesMap;
	typedef base::hash_map<std::string, PendingOp*> PendingOpsMap;
	typedef std::set<ActiveEntry*> ActiveEntriesSet;
	typedef base::hash_map<std::string, int> PlaybackCacheMap;

	// Methods ------------------------------------------------------------------

	// Creates the \|backend\| object and notifies the \|callback\| when the operation
	// completes. Returns an error code.
	int CreateBackend(disk_cache::Backend** backend,
	const net::CompletionCallback& callback);

	// Makes sure that the backend creation is complete before allowing the
	// provided transaction to use the object. Returns an error code. \|trans\|
	// will be notified via its IO callback if this method returns ERR_IO_PENDING.
	// The transaction is free to use the backend directly at any time after
	// receiving the notification.
	int GetBackendForTransaction(Transaction* trans);

	// Generates the cache key for this request.
	std::string GenerateCacheKey(const HttpRequestInfo*);

	// Dooms the entry selected by \|key\|, if it is currently in the list of active
	// entries.
	void DoomActiveEntry(const std::string& key);

	// Dooms the entry selected by \|key\|. \|trans\| will be notified via its IO
	// callback if this method returns ERR_IO_PENDING. The entry can be
	// currently in use or not.
	int DoomEntry(const std::string& key, Transaction* trans);

	// Dooms the entry selected by \|key\|. \|trans\| will be notified via its IO
	// callback if this method returns ERR_IO_PENDING. The entry should not
	// be currently in use.
	int AsyncDoomEntry(const std::string& key, Transaction* trans);

	// Closes a previously doomed entry.
	void FinalizeDoomedEntry(ActiveEntry* entry);

	// Returns an entry that is currently in use and not doomed, or NULL.
	ActiveEntry* FindActiveEntry(const std::string& key);

	// Creates a new ActiveEntry and starts tracking it. \|disk_entry\| is the disk
	// cache entry.
	ActiveEntry* ActivateEntry(disk_cache::Entry* disk_entry);

	// Deletes an ActiveEntry.
	void DeactivateEntry(ActiveEntry* entry);

	// Deletes an ActiveEntry using an exhaustive search.
	void SlowDeactivateEntry(ActiveEntry* entry);

	// Returns the PendingOp for the desired \|key\|. If an entry is not under
	// construction already, a new PendingOp structure is created.
	PendingOp* GetPendingOp(const std::string& key);

	// Deletes a PendingOp.
	void DeletePendingOp(PendingOp* pending_op);

	// Opens the disk cache entry associated with \|key\|, returning an ActiveEntry
	// in \|*entry\|. \|trans\| will be notified via its IO callback if this method
	// returns ERR_IO_PENDING.
	int OpenEntry(const std::string& key, ActiveEntry** entry,
	Transaction* trans);

	// Creates the disk cache entry associated with \|key\|, returning an
	// ActiveEntry in \|*entry\|. \|trans\| will be notified via its IO callback if
	// this method returns ERR_IO_PENDING.
	int CreateEntry(const std::string& key, ActiveEntry** entry,
	Transaction* trans);

	// Destroys an ActiveEntry (active or doomed).
	void DestroyEntry(ActiveEntry* entry);

	// Adds a transaction to an ActiveEntry. If this method returns ERR_IO_PENDING
	// the transaction will be notified about completion via its IO callback. This
	// method returns ERR_CACHE_RACE to signal the transaction that it cannot be
	// added to the provided entry, and it should retry the process with another
	// one (in this case, the entry is no longer valid).
	int AddTransactionToEntry(ActiveEntry* entry, Transaction* trans);

	// Called when the transaction has finished working with this entry. \|cancel\|
	// is true if the operation was cancelled by the caller instead of running
	// to completion.
	void DoneWithEntry(ActiveEntry* entry, Transaction* trans, bool cancel);

	// Called when the transaction has finished writing to this entry. \|success\|
	// is false if the cache entry should be deleted.
	void DoneWritingToEntry(ActiveEntry* entry, bool success);

	// Called when the transaction has finished reading from this entry.
	void DoneReadingFromEntry(ActiveEntry* entry, Transaction* trans);

	// Converts the active writer transaction to a reader so that other
	// transactions can start reading from this entry.
	void ConvertWriterToReader(ActiveEntry* entry);

	// Returns the LoadState of the provided pending transaction.
	LoadState GetLoadStateForPendingTransaction(const Transaction* trans);

	// Removes the transaction \|trans\|, from the pending list of an entry
	// (PendingOp, active or doomed entry).
	void RemovePendingTransaction(Transaction* trans);

	// Removes the transaction \|trans\|, from the pending list of \|entry\|.
	bool RemovePendingTransactionFromEntry(ActiveEntry* entry,
	Transaction* trans);

	// Removes the transaction \|trans\|, from the pending list of \|pending_op\|.
	bool RemovePendingTransactionFromPendingOp(PendingOp* pending_op,
	Transaction* trans);

	// Resumes processing the pending list of \|entry\|.
	void ProcessPendingQueue(ActiveEntry* entry);

	// Events (called via PostTask) ---------------------------------------------

	void OnProcessPendingQueue(ActiveEntry* entry);

	// Callbacks ----------------------------------------------------------------

	// Processes BackendCallback notifications.
	void OnIOComplete(int result, PendingOp* entry);

	// Helper to conditionally delete \|pending_op\| if the HttpCache object it
	// is meant for has been deleted.
	//
	// TODO(ajwong): The PendingOp lifetime management is very tricky. It might
	// be possible to simplify it using either base::Owned() or base::Passed()
	// with the callback.
	static void OnPendingOpComplete(const base::WeakPtr<HttpCache>& cache,
	PendingOp* pending_op,
	int result);

	// Processes the backend creation notification.
	void OnBackendCreated(int result, PendingOp* pending_op);

	// Variables ----------------------------------------------------------------

	NetLog* net_log_;

	// Used when lazily constructing the disk_cache_.
	scoped_ptr<BackendFactory> backend_factory_;
	bool building_backend_;

	Mode mode_;

	const scoped_ptr<HttpTransactionFactory> network_layer_;
	scoped_ptr<disk_cache::Backend> disk_cache_;

	// The set of active entries indexed by cache key.
	ActiveEntriesMap active_entries_;

	// The set of doomed entries.
	ActiveEntriesSet doomed_entries_;

	// The set of entries "under construction".
	PendingOpsMap pending_ops_;

	scoped_ptr<PlaybackCacheMap> playback_cache_map_;

	InfiniteCache infinite_cache_;

	DISALLOW_COPY_AND_ASSIGN(HttpCache);
	};

	} // namespace net

	#endif // NET_HTTP_HTTP_CACHE_H_