src/net/http/http_cache_transaction.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 HttpCache::Transaction, a private class of HttpCache so
 // it should only be included by http_cache.cc

 #ifndef NET_HTTP_HTTP_CACHE_TRANSACTION_H_
 #define NET_HTTP_HTTP_CACHE_TRANSACTION_H_

 #include <string>

 #include "base/time.h"
 #include "net/base/completion_callback.h"
 #include "net/base/net_log.h"
 #include "net/http/http_cache.h"
 #include "net/http/http_response_info.h"
 #include "net/http/http_request_headers.h"
 #include "net/http/http_transaction.h"

 namespace net {

 class PartialData;
 struct HttpRequestInfo;
 class HttpTransactionDelegate;

 // This is the transaction that is returned by the HttpCache transaction
 // factory.
 class HttpCache::Transaction : public HttpTransaction {
  public:
   // The transaction has the following modes, which apply to how it may access
   // its cache entry.
   //
   //  o If the mode of the transaction is NONE, then it is in "pass through"
   //    mode and all methods just forward to the inner network transaction.
   //
   //  o If the mode of the transaction is only READ, then it may only read from
   //    the cache entry.
   //
   //  o If the mode of the transaction is only WRITE, then it may only write to
   //    the cache entry.
   //
   //  o If the mode of the transaction is READ_WRITE, then the transaction may
   //    optionally modify the cache entry (e.g., possibly corresponding to
   //    cache validation).
   //
   //  o If the mode of the transaction is UPDATE, then the transaction may
   //    update existing cache entries, but will never create a new entry or
   //    respond using the entry read from the cache.
   enum Mode {
     NONE            = 0,
     READ_META       = 1 << 0,
     READ_DATA       = 1 << 1,
     READ            = READ_META | READ_DATA,
     WRITE           = 1 << 2,
     READ_WRITE      = READ | WRITE,
     UPDATE          = READ_META | WRITE,  // READ_WRITE & ~READ_DATA
   };

   Transaction(HttpCache* cache,
               HttpTransactionDelegate* transaction_delegate,
               InfiniteCacheTransaction* infinite_cache_transaction);
   virtual ~Transaction();

   Mode mode() const { return mode_; }

   const std::string& key() const { return cache_key_; }

   // Writes |buf_len| bytes of meta-data from the provided buffer |buf|. to the
   // HTTP cache entry that backs this transaction (if any).
   // Returns the number of bytes actually written, or a net error code. If the
   // operation cannot complete immediately, returns ERR_IO_PENDING, grabs a
   // reference to the buffer (until completion), and notifies the caller using
   // the provided |callback| when the operation finishes.
   //
   // The first time this method is called for a given transaction, previous
   // meta-data will be overwritten with the provided data, and subsequent
   // invocations will keep appending to the cached entry.
   //
   // In order to guarantee that the metadata is set to the correct entry, the
   // response (or response info) must be evaluated by the caller, for instance
   // to make sure that the response_time is as expected, before calling this
   // method.
   int WriteMetadata(IOBuffer* buf,
                     int buf_len,
                     const CompletionCallback& callback);

   // This transaction is being deleted and we are not done writing to the cache.
   // We need to indicate that the response data was truncated.  Returns true on
   // success. Keep in mind that this operation may have side effects, such as
   // deleting the active entry.
   bool AddTruncatedFlag();

   HttpCache::ActiveEntry* entry() { return entry_; }

   // Returns the LoadState of the writer transaction of a given ActiveEntry. In
   // other words, returns the LoadState of this transaction without asking the
   // http cache, because this transaction should be the one currently writing
   // to the cache entry.
   LoadState GetWriterLoadState() const;

   const CompletionCallback& io_callback() { return io_callback_; }

   const BoundNetLog& net_log() const;

   // HttpTransaction methods:
   virtual int Start(const HttpRequestInfo*, const CompletionCallback&,
                     const BoundNetLog&) override;
   virtual int RestartIgnoringLastError(
       const CompletionCallback& callback) override;
   virtual int RestartWithCertificate(
       X509Certificate* client_cert,
       const CompletionCallback& callback) override;
   virtual int RestartWithAuth(const AuthCredentials& credentials,
                               const CompletionCallback& callback) override;
   virtual bool IsReadyToRestartForAuth() override;
   virtual int Read(IOBuffer* buf,
                    int buf_len,
                    const CompletionCallback& callback) override;
   virtual void StopCaching() override;
   virtual void DoneReading() override;
   virtual const HttpResponseInfo* GetResponseInfo() const override;
   virtual LoadState GetLoadState() const override;
   virtual UploadProgress GetUploadProgress(void) const override;

  private:
   static const size_t kNumValidationHeaders = 2;
   // Helper struct to pair a header name with its value, for
   // headers used to validate cache entries.
   struct ValidationHeaders {
     ValidationHeaders() : initialized(false) {}

     std::string values[kNumValidationHeaders];
     bool initialized;
   };

   enum State {
     STATE_NONE,
     STATE_GET_BACKEND,
     STATE_GET_BACKEND_COMPLETE,
     STATE_SEND_REQUEST,
     STATE_SEND_REQUEST_COMPLETE,
     STATE_SUCCESSFUL_SEND_REQUEST,
     STATE_NETWORK_READ,
     STATE_NETWORK_READ_COMPLETE,
     STATE_INIT_ENTRY,
     STATE_OPEN_ENTRY,
     STATE_OPEN_ENTRY_COMPLETE,
     STATE_CREATE_ENTRY,
     STATE_CREATE_ENTRY_COMPLETE,
     STATE_DOOM_ENTRY,
     STATE_DOOM_ENTRY_COMPLETE,
     STATE_ADD_TO_ENTRY,
     STATE_ADD_TO_ENTRY_COMPLETE,
     STATE_ADD_TO_ENTRY_COMPLETE_AFTER_DELAY,
     STATE_START_PARTIAL_CACHE_VALIDATION,
     STATE_COMPLETE_PARTIAL_CACHE_VALIDATION,
     STATE_UPDATE_CACHED_RESPONSE,
     STATE_UPDATE_CACHED_RESPONSE_COMPLETE,
     STATE_OVERWRITE_CACHED_RESPONSE,
     STATE_TRUNCATE_CACHED_DATA,
     STATE_TRUNCATE_CACHED_DATA_COMPLETE,
     STATE_TRUNCATE_CACHED_METADATA,
     STATE_TRUNCATE_CACHED_METADATA_COMPLETE,
     STATE_PARTIAL_HEADERS_RECEIVED,
     STATE_CACHE_READ_RESPONSE,
     STATE_CACHE_READ_RESPONSE_COMPLETE,
     STATE_CACHE_WRITE_RESPONSE,
     STATE_CACHE_WRITE_TRUNCATED_RESPONSE,
     STATE_CACHE_WRITE_RESPONSE_COMPLETE,
     STATE_CACHE_READ_METADATA,
     STATE_CACHE_READ_METADATA_COMPLETE,
     STATE_CACHE_QUERY_DATA,
     STATE_CACHE_QUERY_DATA_COMPLETE,
     STATE_CACHE_READ_DATA,
     STATE_CACHE_READ_DATA_COMPLETE,
     STATE_CACHE_WRITE_DATA,
     STATE_CACHE_WRITE_DATA_COMPLETE
   };

   // Used for categorizing transactions for reporting in histograms. Patterns
   // cover relatively common use cases being measured and considered for
   // optimization. Many use cases that are more complex or uncommon are binned
   // as PATTERN_NOT_COVERED, and details are not reported.
   // NOTE: This enumeration is used in histograms, so please do not add entries
   // in the middle.
   enum TransactionPattern {
     PATTERN_UNDEFINED,
     PATTERN_NOT_COVERED,
     PATTERN_ENTRY_NOT_CACHED,
     PATTERN_ENTRY_USED,
     PATTERN_ENTRY_VALIDATED,
     PATTERN_ENTRY_UPDATED,
     PATTERN_ENTRY_CANT_CONDITIONALIZE,
     PATTERN_MAX,
   };

   // This is a helper function used to trigger a completion callback.  It may
   // only be called if callback_ is non-null.
   void DoCallback(int rv);

   // This will trigger the completion callback if appropriate.
   int HandleResult(int rv);

   // Runs the state transition loop.
   int DoLoop(int result);

   // Each of these methods corresponds to a State value.  If there is an
   // argument, the value corresponds to the return of the previous state or
   // corresponding callback.
   int DoGetBackend();
   int DoGetBackendComplete(int result);
   int DoSendRequest();
   int DoSendRequestComplete(int result);
   int DoSuccessfulSendRequest();
   int DoNetworkRead();
   int DoNetworkReadComplete(int result);
   int DoInitEntry();
   int DoOpenEntry();
   int DoOpenEntryComplete(int result);
   int DoCreateEntry();
   int DoCreateEntryComplete(int result);
   int DoDoomEntry();
   int DoDoomEntryComplete(int result);
   int DoAddToEntry();
   int DoAddToEntryComplete(int result);
   int DoAddToEntryCompleteAfterDelay(int result);
   int DoStartPartialCacheValidation();
   int DoCompletePartialCacheValidation(int result);
   int DoUpdateCachedResponse();
   int DoUpdateCachedResponseComplete(int result);
   int DoOverwriteCachedResponse();
   int DoTruncateCachedData();
   int DoTruncateCachedDataComplete(int result);
   int DoTruncateCachedMetadata();
   int DoTruncateCachedMetadataComplete(int result);
   int DoPartialHeadersReceived();
   int DoCacheReadResponse();
   int DoCacheReadResponseComplete(int result);
   int DoCacheWriteResponse();
   int DoCacheWriteTruncatedResponse();
   int DoCacheWriteResponseComplete(int result);
   int DoCacheReadMetadata();
   int DoCacheReadMetadataComplete(int result);
   int DoCacheQueryData();
   int DoCacheQueryDataComplete(int result);
   int DoCacheReadData();
   int DoCacheReadDataComplete(int result);
   int DoCacheWriteData(int num_bytes);
   int DoCacheWriteDataComplete(int result);

   // Sets request_ and fields derived from it.
   void SetRequest(const BoundNetLog& net_log, const HttpRequestInfo* request);

   // Returns true if the request should be handled exclusively by the network
   // layer (skipping the cache entirely).
   bool ShouldPassThrough();

   // Called to begin reading from the cache.  Returns network error code.
   int BeginCacheRead();

   // Called to begin validating the cache entry.  Returns network error code.
   int BeginCacheValidation();

   // Called to begin validating an entry that stores partial content.  Returns
   // a network error code.
   int BeginPartialCacheValidation();

   // Validates the entry headers against the requested range and continues with
   // the validation of the rest of the entry.  Returns a network error code.
   int ValidateEntryHeadersAndContinue();

   // Called to start requests which were given an "if-modified-since" or
   // "if-none-match" validation header by the caller (NOT when the request was
   // conditionalized internally in response to LOAD_VALIDATE_CACHE).
   // Returns a network error code.
   int BeginExternallyConditionalizedRequest();

   // Called to restart a network transaction after an error.  Returns network
   // error code.
   int RestartNetworkRequest();

   // Called to restart a network transaction with a client certificate.
   // Returns network error code.
   int RestartNetworkRequestWithCertificate(X509Certificate* client_cert);

   // Called to restart a network transaction with authentication credentials.
   // Returns network error code.
   int RestartNetworkRequestWithAuth(const AuthCredentials& credentials);

   // Called to determine if we need to validate the cache entry before using it.
   bool RequiresValidation();

   // Called to make the request conditional (to ask the server if the cached
   // copy is valid).  Returns true if able to make the request conditional.
   bool ConditionalizeRequest();

   // Makes sure that a 206 response is expected.  Returns true on success.
   // On success, handling_206_ will be set to true if we are processing a
   // partial entry.
   bool ValidatePartialResponse();

   // Handles a response validation error by bypassing the cache.
   void IgnoreRangeRequest();

   // Changes the response code of a range request to be 416 (Requested range not
   // satisfiable).
   void FailRangeRequest();

   // Reads data from the network.
   int ReadFromNetwork(IOBuffer* data, int data_len);

   // Reads data from the cache entry.
   int ReadFromEntry(IOBuffer* data, int data_len);

   // Called to write data to the cache entry.  If the write fails, then the
   // cache entry is destroyed.  Future calls to this function will just do
   // nothing without side-effect.  Returns a network error code.
   int WriteToEntry(int index, int offset, IOBuffer* data, int data_len,
                    const CompletionCallback& callback);

   // Called to write response_ to the cache entry. |truncated| indicates if the
   // entry should be marked as incomplete.
   int WriteResponseInfoToEntry(bool truncated);

   // Called to append response data to the cache entry.  Returns a network error
   // code.
   int AppendResponseDataToEntry(IOBuffer* data, int data_len,
                                 const CompletionCallback& callback);

   // Called when we are done writing to the cache entry.
   void DoneWritingToEntry(bool success);

   // Returns an error to signal the caller that the current read failed. The
   // current operation |result| is also logged. If |restart| is true, the
   // transaction should be restarted.
   int OnCacheReadError(int result, bool restart);

   // Deletes the current partial cache entry (sparse), and optionally removes
   // the control object (partial_).
   void DoomPartialEntry(bool delete_object);

   // Performs the needed work after receiving data from the network, when
   // working with range requests.
   int DoPartialNetworkReadCompleted(int result);

   // Performs the needed work after receiving data from the cache, when
   // working with range requests.
   int DoPartialCacheReadCompleted(int result);

   // Restarts this transaction after deleting the cached data. It is meant to
   // be used when the current request cannot be fulfilled due to conflicts
   // between the byte range request and the cached entry.
   int DoRestartPartialRequest();

   // Returns true if we should bother attempting to resume this request if it
   // is aborted while in progress. If |has_data| is true, the size of the stored
   // data is considered for the result.
   bool CanResume(bool has_data);

   // Called to signal completion of asynchronous IO.
   void OnIOComplete(int result);

   void ReportCacheActionStart();
   void ReportCacheActionFinish();
   void ReportNetworkActionStart();
   void ReportNetworkActionFinish();
   void UpdateTransactionPattern(TransactionPattern new_transaction_pattern);
   void RecordHistograms();

   // Resets cache_io_start_ to the current time, if |return_value| is
   // ERR_IO_PENDING.
   // Returns |return_value|.
   int ResetCacheIOStart(int return_value);

   void ScheduleDelayedLoop(base::TimeDelta delay, int result);
   void RunDelayedLoop(base::TimeTicks delay_start_time,
                       base::TimeDelta intended_delay, int result);

   State next_state_;
   const HttpRequestInfo* request_;
   BoundNetLog net_log_;
   scoped_ptr<HttpRequestInfo> custom_request_;
   HttpRequestHeaders request_headers_copy_;
   // If extra_headers specified a "if-modified-since" or "if-none-match",
   // |external_validation_| contains the value of those headers.
   ValidationHeaders external_validation_;
   base::WeakPtr<HttpCache> cache_;
   HttpCache::ActiveEntry* entry_;
   HttpCache::ActiveEntry* new_entry_;
   scoped_ptr<HttpTransaction> network_trans_;
   scoped_ptr<InfiniteCacheTransaction> infinite_cache_transaction_;
   CompletionCallback callback_;  // Consumer's callback.
   HttpResponseInfo response_;
   HttpResponseInfo auth_response_;
   const HttpResponseInfo* new_response_;
   std::string cache_key_;
   Mode mode_;
   State target_state_;
   bool reading_;  // We are already reading.
   bool invalid_range_;  // We may bypass the cache for this request.
   bool truncated_;  // We don't have all the response data.
   bool is_sparse_;  // The data is stored in sparse byte ranges.
   bool range_requested_;  // The user requested a byte range.
   bool handling_206_;  // We must deal with this 206 response.
   bool cache_pending_;  // We are waiting for the HttpCache.
   bool done_reading_;
   scoped_refptr<IOBuffer> read_buf_;
   int io_buf_len_;
   int read_offset_;
   int effective_load_flags_;
   int write_len_;
   scoped_ptr<PartialData> partial_;  // We are dealing with range requests.
   UploadProgress final_upload_progress_;
   base::WeakPtrFactory<Transaction> weak_factory_;
   CompletionCallback io_callback_;

   // Members used to track data for histograms.
   TransactionPattern transaction_pattern_;
   int bytes_read_from_cache_;
   int bytes_read_from_network_;
   base::TimeTicks entry_lock_waiting_since_;
   base::TimeTicks first_cache_access_since_;
   base::TimeTicks send_request_since_;

   // For sensitivity analysis (field trials emulating longer cache IO times),
   // the time at which a cache IO action has started, or base::TimeTicks()
   // if no cache IO action is currently in progress.
   base::TimeTicks cache_io_start_;

   // For OpenEntry and CreateEntry, if sensitivity analysis would mandate
   // a delay on return, we must defer that delay until AddToEntry has been
   // called, to avoid a race condition on the address returned.
   base::TimeDelta deferred_cache_sensitivity_delay_;
   bool defer_cache_sensitivity_delay_;

   // For sensitivity analysis, the simulated increase in cache service times,
   // in percent.
   int sensitivity_analysis_percent_increase_;

   HttpTransactionDelegate* transaction_delegate_;
 };

 }  // namespace net

 #endif  // NET_HTTP_HTTP_CACHE_TRANSACTION_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 HttpCache::Transaction, a private class of HttpCache so
	// it should only be included by http_cache.cc

	#ifndef NET_HTTP_HTTP_CACHE_TRANSACTION_H_
	#define NET_HTTP_HTTP_CACHE_TRANSACTION_H_

	#include <string>

	#include "base/time.h"
	#include "net/base/completion_callback.h"
	#include "net/base/net_log.h"
	#include "net/http/http_cache.h"
	#include "net/http/http_response_info.h"
	#include "net/http/http_request_headers.h"
	#include "net/http/http_transaction.h"

	namespace net {

	class PartialData;
	struct HttpRequestInfo;
	class HttpTransactionDelegate;

	// This is the transaction that is returned by the HttpCache transaction
	// factory.
	class HttpCache::Transaction : public HttpTransaction {
	public:
	// The transaction has the following modes, which apply to how it may access
	// its cache entry.
	//
	// o If the mode of the transaction is NONE, then it is in "pass through"
	// mode and all methods just forward to the inner network transaction.
	//
	// o If the mode of the transaction is only READ, then it may only read from
	// the cache entry.
	//
	// o If the mode of the transaction is only WRITE, then it may only write to
	// the cache entry.
	//
	// o If the mode of the transaction is READ_WRITE, then the transaction may
	// optionally modify the cache entry (e.g., possibly corresponding to
	// cache validation).
	//
	// o If the mode of the transaction is UPDATE, then the transaction may
	// update existing cache entries, but will never create a new entry or
	// respond using the entry read from the cache.
	enum Mode {
	NONE = 0,
	READ_META = 1 << 0,
	READ_DATA = 1 << 1,
	READ = READ_META \| READ_DATA,
	WRITE = 1 << 2,
	READ_WRITE = READ \| WRITE,
	UPDATE = READ_META \| WRITE, // READ_WRITE & ~READ_DATA
	};

	Transaction(HttpCache* cache,
	HttpTransactionDelegate* transaction_delegate,
	InfiniteCacheTransaction* infinite_cache_transaction);
	virtual ~Transaction();

	Mode mode() const { return mode_; }

	const std::string& key() const { return cache_key_; }

	// Writes \|buf_len\| bytes of meta-data from the provided buffer \|buf\|. to the
	// HTTP cache entry that backs this transaction (if any).
	// Returns the number of bytes actually written, or a net error code. If the
	// operation cannot complete immediately, returns ERR_IO_PENDING, grabs a
	// reference to the buffer (until completion), and notifies the caller using
	// the provided \|callback\| when the operation finishes.
	//
	// The first time this method is called for a given transaction, previous
	// meta-data will be overwritten with the provided data, and subsequent
	// invocations will keep appending to the cached entry.
	//
	// In order to guarantee that the metadata is set to the correct entry, the
	// response (or response info) must be evaluated by the caller, for instance
	// to make sure that the response_time is as expected, before calling this
	// method.
	int WriteMetadata(IOBuffer* buf,
	int buf_len,
	const CompletionCallback& callback);

	// This transaction is being deleted and we are not done writing to the cache.
	// We need to indicate that the response data was truncated. Returns true on
	// success. Keep in mind that this operation may have side effects, such as
	// deleting the active entry.
	bool AddTruncatedFlag();

	HttpCache::ActiveEntry* entry() { return entry_; }

	// Returns the LoadState of the writer transaction of a given ActiveEntry. In
	// other words, returns the LoadState of this transaction without asking the
	// http cache, because this transaction should be the one currently writing
	// to the cache entry.
	LoadState GetWriterLoadState() const;

	const CompletionCallback& io_callback() { return io_callback_; }

	const BoundNetLog& net_log() const;

	// HttpTransaction methods:
	virtual int Start(const HttpRequestInfo*, const CompletionCallback&,
	const BoundNetLog&) override;
	virtual int RestartIgnoringLastError(
	const CompletionCallback& callback) override;
	virtual int RestartWithCertificate(
	X509Certificate* client_cert,
	const CompletionCallback& callback) override;
	virtual int RestartWithAuth(const AuthCredentials& credentials,
	const CompletionCallback& callback) override;
	virtual bool IsReadyToRestartForAuth() override;
	virtual int Read(IOBuffer* buf,
	int buf_len,
	const CompletionCallback& callback) override;
	virtual void StopCaching() override;
	virtual void DoneReading() override;
	virtual const HttpResponseInfo* GetResponseInfo() const override;
	virtual LoadState GetLoadState() const override;
	virtual UploadProgress GetUploadProgress(void) const override;

	private:
	static const size_t kNumValidationHeaders = 2;
	// Helper struct to pair a header name with its value, for
	// headers used to validate cache entries.
	struct ValidationHeaders {
	ValidationHeaders() : initialized(false) {}

	std::string values[kNumValidationHeaders];
	bool initialized;
	};

	enum State {
	STATE_NONE,
	STATE_GET_BACKEND,
	STATE_GET_BACKEND_COMPLETE,
	STATE_SEND_REQUEST,
	STATE_SEND_REQUEST_COMPLETE,
	STATE_SUCCESSFUL_SEND_REQUEST,
	STATE_NETWORK_READ,
	STATE_NETWORK_READ_COMPLETE,
	STATE_INIT_ENTRY,
	STATE_OPEN_ENTRY,
	STATE_OPEN_ENTRY_COMPLETE,
	STATE_CREATE_ENTRY,
	STATE_CREATE_ENTRY_COMPLETE,
	STATE_DOOM_ENTRY,
	STATE_DOOM_ENTRY_COMPLETE,
	STATE_ADD_TO_ENTRY,
	STATE_ADD_TO_ENTRY_COMPLETE,
	STATE_ADD_TO_ENTRY_COMPLETE_AFTER_DELAY,
	STATE_START_PARTIAL_CACHE_VALIDATION,
	STATE_COMPLETE_PARTIAL_CACHE_VALIDATION,
	STATE_UPDATE_CACHED_RESPONSE,
	STATE_UPDATE_CACHED_RESPONSE_COMPLETE,
	STATE_OVERWRITE_CACHED_RESPONSE,
	STATE_TRUNCATE_CACHED_DATA,
	STATE_TRUNCATE_CACHED_DATA_COMPLETE,
	STATE_TRUNCATE_CACHED_METADATA,
	STATE_TRUNCATE_CACHED_METADATA_COMPLETE,
	STATE_PARTIAL_HEADERS_RECEIVED,
	STATE_CACHE_READ_RESPONSE,
	STATE_CACHE_READ_RESPONSE_COMPLETE,
	STATE_CACHE_WRITE_RESPONSE,
	STATE_CACHE_WRITE_TRUNCATED_RESPONSE,
	STATE_CACHE_WRITE_RESPONSE_COMPLETE,
	STATE_CACHE_READ_METADATA,
	STATE_CACHE_READ_METADATA_COMPLETE,
	STATE_CACHE_QUERY_DATA,
	STATE_CACHE_QUERY_DATA_COMPLETE,
	STATE_CACHE_READ_DATA,
	STATE_CACHE_READ_DATA_COMPLETE,
	STATE_CACHE_WRITE_DATA,
	STATE_CACHE_WRITE_DATA_COMPLETE
	};

	// Used for categorizing transactions for reporting in histograms. Patterns
	// cover relatively common use cases being measured and considered for
	// optimization. Many use cases that are more complex or uncommon are binned
	// as PATTERN_NOT_COVERED, and details are not reported.
	// NOTE: This enumeration is used in histograms, so please do not add entries
	// in the middle.
	enum TransactionPattern {
	PATTERN_UNDEFINED,
	PATTERN_NOT_COVERED,
	PATTERN_ENTRY_NOT_CACHED,
	PATTERN_ENTRY_USED,
	PATTERN_ENTRY_VALIDATED,
	PATTERN_ENTRY_UPDATED,
	PATTERN_ENTRY_CANT_CONDITIONALIZE,
	PATTERN_MAX,
	};

	// This is a helper function used to trigger a completion callback. It may
	// only be called if callback_ is non-null.
	void DoCallback(int rv);

	// This will trigger the completion callback if appropriate.
	int HandleResult(int rv);

	// Runs the state transition loop.
	int DoLoop(int result);

	// Each of these methods corresponds to a State value. If there is an
	// argument, the value corresponds to the return of the previous state or
	// corresponding callback.
	int DoGetBackend();
	int DoGetBackendComplete(int result);
	int DoSendRequest();
	int DoSendRequestComplete(int result);
	int DoSuccessfulSendRequest();
	int DoNetworkRead();
	int DoNetworkReadComplete(int result);
	int DoInitEntry();
	int DoOpenEntry();
	int DoOpenEntryComplete(int result);
	int DoCreateEntry();
	int DoCreateEntryComplete(int result);
	int DoDoomEntry();
	int DoDoomEntryComplete(int result);
	int DoAddToEntry();
	int DoAddToEntryComplete(int result);
	int DoAddToEntryCompleteAfterDelay(int result);
	int DoStartPartialCacheValidation();
	int DoCompletePartialCacheValidation(int result);
	int DoUpdateCachedResponse();
	int DoUpdateCachedResponseComplete(int result);
	int DoOverwriteCachedResponse();
	int DoTruncateCachedData();
	int DoTruncateCachedDataComplete(int result);
	int DoTruncateCachedMetadata();
	int DoTruncateCachedMetadataComplete(int result);
	int DoPartialHeadersReceived();
	int DoCacheReadResponse();
	int DoCacheReadResponseComplete(int result);
	int DoCacheWriteResponse();
	int DoCacheWriteTruncatedResponse();
	int DoCacheWriteResponseComplete(int result);
	int DoCacheReadMetadata();
	int DoCacheReadMetadataComplete(int result);
	int DoCacheQueryData();
	int DoCacheQueryDataComplete(int result);
	int DoCacheReadData();
	int DoCacheReadDataComplete(int result);
	int DoCacheWriteData(int num_bytes);
	int DoCacheWriteDataComplete(int result);

	// Sets request_ and fields derived from it.
	void SetRequest(const BoundNetLog& net_log, const HttpRequestInfo* request);

	// Returns true if the request should be handled exclusively by the network
	// layer (skipping the cache entirely).
	bool ShouldPassThrough();

	// Called to begin reading from the cache. Returns network error code.
	int BeginCacheRead();

	// Called to begin validating the cache entry. Returns network error code.
	int BeginCacheValidation();

	// Called to begin validating an entry that stores partial content. Returns
	// a network error code.
	int BeginPartialCacheValidation();

	// Validates the entry headers against the requested range and continues with
	// the validation of the rest of the entry. Returns a network error code.
	int ValidateEntryHeadersAndContinue();

	// Called to start requests which were given an "if-modified-since" or
	// "if-none-match" validation header by the caller (NOT when the request was
	// conditionalized internally in response to LOAD_VALIDATE_CACHE).
	// Returns a network error code.
	int BeginExternallyConditionalizedRequest();

	// Called to restart a network transaction after an error. Returns network
	// error code.
	int RestartNetworkRequest();

	// Called to restart a network transaction with a client certificate.
	// Returns network error code.
	int RestartNetworkRequestWithCertificate(X509Certificate* client_cert);

	// Called to restart a network transaction with authentication credentials.
	// Returns network error code.
	int RestartNetworkRequestWithAuth(const AuthCredentials& credentials);

	// Called to determine if we need to validate the cache entry before using it.
	bool RequiresValidation();

	// Called to make the request conditional (to ask the server if the cached
	// copy is valid). Returns true if able to make the request conditional.
	bool ConditionalizeRequest();

	// Makes sure that a 206 response is expected. Returns true on success.
	// On success, handling_206_ will be set to true if we are processing a
	// partial entry.
	bool ValidatePartialResponse();

	// Handles a response validation error by bypassing the cache.
	void IgnoreRangeRequest();

	// Changes the response code of a range request to be 416 (Requested range not
	// satisfiable).
	void FailRangeRequest();

	// Reads data from the network.
	int ReadFromNetwork(IOBuffer* data, int data_len);

	// Reads data from the cache entry.
	int ReadFromEntry(IOBuffer* data, int data_len);

	// Called to write data to the cache entry. If the write fails, then the
	// cache entry is destroyed. Future calls to this function will just do
	// nothing without side-effect. Returns a network error code.
	int WriteToEntry(int index, int offset, IOBuffer* data, int data_len,
	const CompletionCallback& callback);

	// Called to write response_ to the cache entry. \|truncated\| indicates if the
	// entry should be marked as incomplete.
	int WriteResponseInfoToEntry(bool truncated);

	// Called to append response data to the cache entry. Returns a network error
	// code.
	int AppendResponseDataToEntry(IOBuffer* data, int data_len,
	const CompletionCallback& callback);

	// Called when we are done writing to the cache entry.
	void DoneWritingToEntry(bool success);

	// Returns an error to signal the caller that the current read failed. The
	// current operation \|result\| is also logged. If \|restart\| is true, the
	// transaction should be restarted.
	int OnCacheReadError(int result, bool restart);

	// Deletes the current partial cache entry (sparse), and optionally removes
	// the control object (partial_).
	void DoomPartialEntry(bool delete_object);

	// Performs the needed work after receiving data from the network, when
	// working with range requests.
	int DoPartialNetworkReadCompleted(int result);

	// Performs the needed work after receiving data from the cache, when
	// working with range requests.
	int DoPartialCacheReadCompleted(int result);

	// Restarts this transaction after deleting the cached data. It is meant to
	// be used when the current request cannot be fulfilled due to conflicts
	// between the byte range request and the cached entry.
	int DoRestartPartialRequest();

	// Returns true if we should bother attempting to resume this request if it
	// is aborted while in progress. If \|has_data\| is true, the size of the stored
	// data is considered for the result.
	bool CanResume(bool has_data);

	// Called to signal completion of asynchronous IO.
	void OnIOComplete(int result);

	void ReportCacheActionStart();
	void ReportCacheActionFinish();
	void ReportNetworkActionStart();
	void ReportNetworkActionFinish();
	void UpdateTransactionPattern(TransactionPattern new_transaction_pattern);
	void RecordHistograms();

	// Resets cache_io_start_ to the current time, if \|return_value\| is
	// ERR_IO_PENDING.
	// Returns \|return_value\|.
	int ResetCacheIOStart(int return_value);

	void ScheduleDelayedLoop(base::TimeDelta delay, int result);
	void RunDelayedLoop(base::TimeTicks delay_start_time,
	base::TimeDelta intended_delay, int result);

	State next_state_;
	const HttpRequestInfo* request_;
	BoundNetLog net_log_;
	scoped_ptr<HttpRequestInfo> custom_request_;
	HttpRequestHeaders request_headers_copy_;
	// If extra_headers specified a "if-modified-since" or "if-none-match",
	// \|external_validation_\| contains the value of those headers.
	ValidationHeaders external_validation_;
	base::WeakPtr<HttpCache> cache_;
	HttpCache::ActiveEntry* entry_;
	HttpCache::ActiveEntry* new_entry_;
	scoped_ptr<HttpTransaction> network_trans_;
	scoped_ptr<InfiniteCacheTransaction> infinite_cache_transaction_;
	CompletionCallback callback_; // Consumer's callback.
	HttpResponseInfo response_;
	HttpResponseInfo auth_response_;
	const HttpResponseInfo* new_response_;
	std::string cache_key_;
	Mode mode_;
	State target_state_;
	bool reading_; // We are already reading.
	bool invalid_range_; // We may bypass the cache for this request.
	bool truncated_; // We don't have all the response data.
	bool is_sparse_; // The data is stored in sparse byte ranges.
	bool range_requested_; // The user requested a byte range.
	bool handling_206_; // We must deal with this 206 response.
	bool cache_pending_; // We are waiting for the HttpCache.
	bool done_reading_;
	scoped_refptr<IOBuffer> read_buf_;
	int io_buf_len_;
	int read_offset_;
	int effective_load_flags_;
	int write_len_;
	scoped_ptr<PartialData> partial_; // We are dealing with range requests.
	UploadProgress final_upload_progress_;
	base::WeakPtrFactory<Transaction> weak_factory_;
	CompletionCallback io_callback_;

	// Members used to track data for histograms.
	TransactionPattern transaction_pattern_;
	int bytes_read_from_cache_;
	int bytes_read_from_network_;
	base::TimeTicks entry_lock_waiting_since_;
	base::TimeTicks first_cache_access_since_;
	base::TimeTicks send_request_since_;

	// For sensitivity analysis (field trials emulating longer cache IO times),
	// the time at which a cache IO action has started, or base::TimeTicks()
	// if no cache IO action is currently in progress.
	base::TimeTicks cache_io_start_;

	// For OpenEntry and CreateEntry, if sensitivity analysis would mandate
	// a delay on return, we must defer that delay until AddToEntry has been
	// called, to avoid a race condition on the address returned.
	base::TimeDelta deferred_cache_sensitivity_delay_;
	bool defer_cache_sensitivity_delay_;

	// For sensitivity analysis, the simulated increase in cache service times,
	// in percent.
	int sensitivity_analysis_percent_increase_;

	HttpTransactionDelegate* transaction_delegate_;
	};

	} // namespace net

	#endif // NET_HTTP_HTTP_CACHE_TRANSACTION_H_