net/proxy/proxy_service.h - platform/external/chromium - Git at Google

 // Copyright (c) 2011 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 NET_PROXY_PROXY_SERVICE_H_
 #define NET_PROXY_PROXY_SERVICE_H_
 #pragma once

 #include <vector>

 #include "base/gtest_prod_util.h"
 #include "base/memory/ref_counted.h"
 #include "base/memory/scoped_ptr.h"
 #include "base/synchronization/waitable_event.h"
 #include "base/threading/non_thread_safe.h"
 #include "net/base/completion_callback.h"
 #include "net/base/net_export.h"
 #include "net/base/net_log.h"
 #include "net/base/network_change_notifier.h"
 #include "net/proxy/proxy_config_service.h"
 #include "net/proxy/proxy_info.h"
 #include "net/proxy/proxy_server.h"

 class GURL;
 class MessageLoop;

 namespace net {

 class HostResolver;
 class InitProxyResolver;
 class ProxyResolver;
 class ProxyScriptFetcher;
 class URLRequestContext;

 // This class can be used to resolve the proxy server to use when loading a
 // HTTP(S) URL.  It uses the given ProxyResolver to handle the actual proxy
 // resolution.  See ProxyResolverV8 for example.
 class NET_EXPORT ProxyService : public base::RefCounted<ProxyService>,
                      public NetworkChangeNotifier::IPAddressObserver,
                      public ProxyConfigService::Observer,
                      public base::NonThreadSafe {
  public:
   // The instance takes ownership of |config_service| and |resolver|.
   // |net_log| is a possibly NULL destination to send log events to. It must
   // remain alive for the lifetime of this ProxyService.
   ProxyService(ProxyConfigService* config_service,
                ProxyResolver* resolver,
                NetLog* net_log);

   // Used internally to handle PAC queries.
   // TODO(eroman): consider naming this simply "Request".
   class PacRequest;

   // Returns ERR_IO_PENDING if the proxy information could not be provided
   // synchronously, to indicate that the result will be available when the
   // callback is run.  The callback is run on the thread that calls
   // ResolveProxy.
   //
   // The caller is responsible for ensuring that |results| and |callback|
   // remain valid until the callback is run or until |pac_request| is cancelled
   // via CancelPacRequest.  |pac_request| is only valid while the completion
   // callback is still pending. NULL can be passed for |pac_request| if
   // the caller will not need to cancel the request.
   //
   // We use the three possible proxy access types in the following order,
   // doing fallback if one doesn't work.  See "init_proxy_resolver.h"
   // for the specifics.
   //   1.  WPAD auto-detection
   //   2.  PAC URL
   //   3.  named proxy
   //
   // Profiling information for the request is saved to |net_log| if non-NULL.
   int ResolveProxy(const GURL& url,
                    ProxyInfo* results,
                    CompletionCallback* callback,
                    PacRequest** pac_request,
                    const BoundNetLog& net_log);

   // This method is called after a failure to connect or resolve a host name.
   // It gives the proxy service an opportunity to reconsider the proxy to use.
   // The |results| parameter contains the results returned by an earlier call
   // to ResolveProxy.  The semantics of this call are otherwise similar to
   // ResolveProxy.
   //
   // NULL can be passed for |pac_request| if the caller will not need to
   // cancel the request.
   //
   // Returns ERR_FAILED if there is not another proxy config to try.
   //
   // Profiling information for the request is saved to |net_log| if non-NULL.
   int ReconsiderProxyAfterError(const GURL& url,
                                 ProxyInfo* results,
                                 CompletionCallback* callback,
                                 PacRequest** pac_request,
                                 const BoundNetLog& net_log);

   // Call this method with a non-null |pac_request| to cancel the PAC request.
   void CancelPacRequest(PacRequest* pac_request);

   // Sets the ProxyScriptFetcher dependency. This is needed if the ProxyResolver
   // is of type ProxyResolverWithoutFetch. ProxyService takes ownership of
   // |proxy_script_fetcher|.
   void SetProxyScriptFetcher(ProxyScriptFetcher* proxy_script_fetcher);
   ProxyScriptFetcher* GetProxyScriptFetcher() const;

   // Tells this ProxyService to start using a new ProxyConfigService to
   // retrieve its ProxyConfig from. The new ProxyConfigService will immediately
   // be queried for new config info which will be used for all subsequent
   // ResolveProxy calls. ProxyService takes ownership of
   // |new_proxy_config_service|.
   void ResetConfigService(ProxyConfigService* new_proxy_config_service);

   // Tells the resolver to purge any memory it does not need.
   void PurgeMemory();


   // Returns the last configuration fetched from ProxyConfigService.
   const ProxyConfig& fetched_config() {
     return fetched_config_;
   }

   // Returns the current configuration being used by ProxyConfigService.
   const ProxyConfig& config() {
     return config_;
   }

   // Returns the map of proxies which have been marked as "bad".
   const ProxyRetryInfoMap& proxy_retry_info() const {
     return proxy_retry_info_;
   }

   // Clears the list of bad proxy servers that has been cached.
   void ClearBadProxiesCache() {
     proxy_retry_info_.clear();
   }

   // Forces refetching the proxy configuration, and applying it.
   // This re-does everything from fetching the system configuration,
   // to downloading and testing the PAC files.
   void ForceReloadProxyConfig();

   // Creates a proxy service that polls |proxy_config_service| to notice when
   // the proxy settings change. We take ownership of |proxy_config_service|.
   //
   // |num_pac_threads| specifies the maximum number of threads to use for
   // executing PAC scripts. Threads are created lazily on demand.
   // If |0| is specified, then a default number of threads will be selected.
   //
   // Having more threads avoids stalling proxy resolve requests when the
   // PAC script takes a while to run. This is particularly a problem when PAC
   // scripts do synchronous DNS resolutions, since that can take on the order
   // of seconds.
   //
   // However, the disadvantages of using more than 1 thread are:
   //   (a) can cause compatibility issues for scripts that rely on side effects
   //       between runs (such scripts should not be common though).
   //   (b) increases the memory used by proxy resolving, as each thread will
   //       duplicate its own script context.

   // |proxy_script_fetcher| specifies the dependency to use for downloading
   // any PAC scripts. The resulting ProxyService will take ownership of it.
   //
   // |host_resolver| points to the host resolving dependency the PAC script
   // should use for any DNS queries. It must remain valid throughout the
   // lifetime of the ProxyService.
   //
   // ##########################################################################
   // # See the warnings in net/proxy/proxy_resolver_v8.h describing the
   // # multi-threading model. In order for this to be safe to use, *ALL* the
   // # other V8's running in the process must use v8::Locker.
   // ##########################################################################
   static ProxyService* CreateUsingV8ProxyResolver(
       ProxyConfigService* proxy_config_service,
       size_t num_pac_threads,
       ProxyScriptFetcher* proxy_script_fetcher,
       HostResolver* host_resolver,
       NetLog* net_log);

   // Same as CreateUsingV8ProxyResolver, except it uses system libraries
   // for evaluating the PAC script if available, otherwise skips
   // proxy autoconfig.
   static ProxyService* CreateUsingSystemProxyResolver(
       ProxyConfigService* proxy_config_service,
       size_t num_pac_threads,
       NetLog* net_log);

   // Creates a ProxyService without support for proxy autoconfig.
   static ProxyService* CreateWithoutProxyResolver(
       ProxyConfigService* proxy_config_service,
       NetLog* net_log);

   // Convenience methods that creates a proxy service using the
   // specified fixed settings.
   static ProxyService* CreateFixed(const ProxyConfig& pc);
   static ProxyService* CreateFixed(const std::string& proxy);

   // Creates a proxy service that uses a DIRECT connection for all requests.
   static ProxyService* CreateDirect();
   // |net_log|'s lifetime must exceed ProxyService.
   static ProxyService* CreateDirectWithNetLog(NetLog* net_log);

   // This method is used by tests to create a ProxyService that returns a
   // hardcoded proxy fallback list (|pac_string|) for every URL.
   //
   // |pac_string| is a list of proxy servers, in the format that a PAC script
   // would return it. For example, "PROXY foobar:99; SOCKS fml:2; DIRECT"
   static ProxyService* CreateFixedFromPacResult(const std::string& pac_string);

   // Creates a config service appropriate for this platform that fetches the
   // system proxy settings.
   static ProxyConfigService* CreateSystemProxyConfigService(
       MessageLoop* io_loop, MessageLoop* file_loop);

 #if UNIT_TEST
   void set_stall_proxy_auto_config_delay(base::TimeDelta delay) {
     stall_proxy_auto_config_delay_ = delay;
   }
 #endif

  private:
   friend class base::RefCounted<ProxyService>;
   FRIEND_TEST_ALL_PREFIXES(ProxyServiceTest, UpdateConfigAfterFailedAutodetect);
   FRIEND_TEST_ALL_PREFIXES(ProxyServiceTest, UpdateConfigFromPACToDirect);
   friend class PacRequest;

   // TODO(eroman): change this to a std::set. Note that this requires updating
   // some tests in proxy_service_unittest.cc such as:
   //   ProxyServiceTest.InitialPACScriptDownload
   // which expects requests to finish in the order they were added.
   typedef std::vector<scoped_refptr<PacRequest> > PendingRequests;

   enum State {
     STATE_NONE,
     STATE_WAITING_FOR_PROXY_CONFIG,
     STATE_WAITING_FOR_INIT_PROXY_RESOLVER,
     STATE_READY,
   };

   virtual ~ProxyService();

   // Resets all the variables associated with the current proxy configuration,
   // and rewinds the current state to |STATE_NONE|. Returns the previous value
   // of |current_state_|.  If |reset_fetched_config| is true then
   // |fetched_config_| will also be reset, otherwise it will be left as-is.
   // Resetting it means that we will have to re-fetch the configuration from
   // the ProxyConfigService later.
   State ResetProxyConfig(bool reset_fetched_config);

   // Retrieves the current proxy configuration from the ProxyConfigService, and
   // starts initializing for it.
   void ApplyProxyConfigIfAvailable();

   // Callback for when the proxy resolver has been initialized with a
   // PAC script.
   void OnInitProxyResolverComplete(int result);

   // Returns ERR_IO_PENDING if the request cannot be completed synchronously.
   // Otherwise it fills |result| with the proxy information for |url|.
   // Completing synchronously means we don't need to query ProxyResolver.
   int TryToCompleteSynchronously(const GURL& url, ProxyInfo* result);

   // Cancels all of the requests sent to the ProxyResolver. These will be
   // restarted when calling ResumeAllPendingRequests().
   void SuspendAllPendingRequests();

   // Advances the current state to |STATE_READY|, and resumes any pending
   // requests which had been stalled waiting for initialization to complete.
   void SetReady();

   // Returns true if |pending_requests_| contains |req|.
   bool ContainsPendingRequest(PacRequest* req);

   // Removes |req| from the list of pending requests.
   void RemovePendingRequest(PacRequest* req);

   // Called when proxy resolution has completed (either synchronously or
   // asynchronously). Handles logging the result, and cleaning out
   // bad entries from the results list.
   int DidFinishResolvingProxy(ProxyInfo* result,
                               int result_code,
                               const BoundNetLog& net_log);

   // Start initialization using |fetched_config_|.
   void InitializeUsingLastFetchedConfig();

   // NetworkChangeNotifier::IPAddressObserver
   // When this is called, we re-fetch PAC scripts and re-run WPAD.
   virtual void OnIPAddressChanged();

   // ProxyConfigService::Observer
   virtual void OnProxyConfigChanged(
       const ProxyConfig& config,
       ProxyConfigService::ConfigAvailability availability);

   scoped_ptr<ProxyConfigService> config_service_;
   scoped_ptr<ProxyResolver> resolver_;

   // We store the proxy configuration that was last fetched from the
   // ProxyConfigService, as well as the resulting "effective" configuration.
   // The effective configuration is what we condense the original fetched
   // settings to after testing the various automatic settings (auto-detect
   // and custom PAC url).
   ProxyConfig fetched_config_;
   ProxyConfig config_;

   // Increasing ID to give to the next ProxyConfig that we set.
   int next_config_id_;

   // The time when the proxy configuration was last read from the system.
   base::TimeTicks config_last_update_time_;

   // Map of the known bad proxies and the information about the retry time.
   ProxyRetryInfoMap proxy_retry_info_;

   // Set of pending/inprogress requests.
   PendingRequests pending_requests_;

   // The fetcher to use when downloading PAC scripts for the ProxyResolver.
   // This dependency can be NULL if our ProxyResolver has no need for
   // external PAC script fetching.
   scoped_ptr<ProxyScriptFetcher> proxy_script_fetcher_;

   // Callback for when |init_proxy_resolver_| is done.
   CompletionCallbackImpl<ProxyService> init_proxy_resolver_callback_;

   // Helper to download the PAC script (wpad + custom) and apply fallback rules.
   //
   // Note that the declaration is important here: |proxy_script_fetcher_| and
   // |proxy_resolver_| must outlive |init_proxy_resolver_|.
   scoped_ptr<InitProxyResolver> init_proxy_resolver_;

   State current_state_;

   // This is the log where any events generated by |init_proxy_resolver_| are
   // sent to.
   NetLog* net_log_;

   // The earliest time at which we should run any proxy auto-config. (Used to
   // stall re-configuration following an IP address change).
   base::TimeTicks stall_proxy_autoconfig_until_;

   // The amount of time to stall requests following IP address changes.
   base::TimeDelta stall_proxy_auto_config_delay_;

   DISALLOW_COPY_AND_ASSIGN(ProxyService);
 };

 // Wrapper for invoking methods on a ProxyService synchronously.
 class SyncProxyServiceHelper
     : public base::RefCountedThreadSafe<SyncProxyServiceHelper> {
  public:
   SyncProxyServiceHelper(MessageLoop* io_message_loop,
                          ProxyService* proxy_service);

   int ResolveProxy(const GURL& url,
                    ProxyInfo* proxy_info,
                    const BoundNetLog& net_log);
   int ReconsiderProxyAfterError(const GURL& url,
                                 ProxyInfo* proxy_info,
                                 const BoundNetLog& net_log);

  private:
   friend class base::RefCountedThreadSafe<SyncProxyServiceHelper>;

   virtual ~SyncProxyServiceHelper();

   void StartAsyncResolve(const GURL& url, const BoundNetLog& net_log);
   void StartAsyncReconsider(const GURL& url, const BoundNetLog& net_log);

   void OnCompletion(int result);

   MessageLoop* io_message_loop_;
   ProxyService* proxy_service_;

   base::WaitableEvent event_;
   CompletionCallbackImpl<SyncProxyServiceHelper> callback_;
   ProxyInfo proxy_info_;
   int result_;
 };

 }  // namespace net

 #endif  // NET_PROXY_PROXY_SERVICE_H_
	// Copyright (c) 2011 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 NET_PROXY_PROXY_SERVICE_H_
	#define NET_PROXY_PROXY_SERVICE_H_
	#pragma once

	#include <vector>

	#include "base/gtest_prod_util.h"
	#include "base/memory/ref_counted.h"
	#include "base/memory/scoped_ptr.h"
	#include "base/synchronization/waitable_event.h"
	#include "base/threading/non_thread_safe.h"
	#include "net/base/completion_callback.h"
	#include "net/base/net_export.h"
	#include "net/base/net_log.h"
	#include "net/base/network_change_notifier.h"
	#include "net/proxy/proxy_config_service.h"
	#include "net/proxy/proxy_info.h"
	#include "net/proxy/proxy_server.h"

	class GURL;
	class MessageLoop;

	namespace net {

	class HostResolver;
	class InitProxyResolver;
	class ProxyResolver;
	class ProxyScriptFetcher;
	class URLRequestContext;

	// This class can be used to resolve the proxy server to use when loading a
	// HTTP(S) URL. It uses the given ProxyResolver to handle the actual proxy
	// resolution. See ProxyResolverV8 for example.
	class NET_EXPORT ProxyService : public base::RefCounted<ProxyService>,
	public NetworkChangeNotifier::IPAddressObserver,
	public ProxyConfigService::Observer,
	public base::NonThreadSafe {
	public:
	// The instance takes ownership of \|config_service\| and \|resolver\|.
	// \|net_log\| is a possibly NULL destination to send log events to. It must
	// remain alive for the lifetime of this ProxyService.
	ProxyService(ProxyConfigService* config_service,
	ProxyResolver* resolver,
	NetLog* net_log);

	// Used internally to handle PAC queries.
	// TODO(eroman): consider naming this simply "Request".
	class PacRequest;

	// Returns ERR_IO_PENDING if the proxy information could not be provided
	// synchronously, to indicate that the result will be available when the
	// callback is run. The callback is run on the thread that calls
	// ResolveProxy.
	//
	// The caller is responsible for ensuring that \|results\| and \|callback\|
	// remain valid until the callback is run or until \|pac_request\| is cancelled
	// via CancelPacRequest. \|pac_request\| is only valid while the completion
	// callback is still pending. NULL can be passed for \|pac_request\| if
	// the caller will not need to cancel the request.
	//
	// We use the three possible proxy access types in the following order,
	// doing fallback if one doesn't work. See "init_proxy_resolver.h"
	// for the specifics.
	// 1. WPAD auto-detection
	// 2. PAC URL
	// 3. named proxy
	//
	// Profiling information for the request is saved to \|net_log\| if non-NULL.
	int ResolveProxy(const GURL& url,
	ProxyInfo* results,
	CompletionCallback* callback,
	PacRequest** pac_request,
	const BoundNetLog& net_log);

	// This method is called after a failure to connect or resolve a host name.
	// It gives the proxy service an opportunity to reconsider the proxy to use.
	// The \|results\| parameter contains the results returned by an earlier call
	// to ResolveProxy. The semantics of this call are otherwise similar to
	// ResolveProxy.
	//
	// NULL can be passed for \|pac_request\| if the caller will not need to
	// cancel the request.
	//
	// Returns ERR_FAILED if there is not another proxy config to try.
	//
	// Profiling information for the request is saved to \|net_log\| if non-NULL.
	int ReconsiderProxyAfterError(const GURL& url,
	ProxyInfo* results,
	CompletionCallback* callback,
	PacRequest** pac_request,
	const BoundNetLog& net_log);

	// Call this method with a non-null \|pac_request\| to cancel the PAC request.
	void CancelPacRequest(PacRequest* pac_request);

	// Sets the ProxyScriptFetcher dependency. This is needed if the ProxyResolver
	// is of type ProxyResolverWithoutFetch. ProxyService takes ownership of
	// \|proxy_script_fetcher\|.
	void SetProxyScriptFetcher(ProxyScriptFetcher* proxy_script_fetcher);
	ProxyScriptFetcher* GetProxyScriptFetcher() const;

	// Tells this ProxyService to start using a new ProxyConfigService to
	// retrieve its ProxyConfig from. The new ProxyConfigService will immediately
	// be queried for new config info which will be used for all subsequent
	// ResolveProxy calls. ProxyService takes ownership of
	// \|new_proxy_config_service\|.
	void ResetConfigService(ProxyConfigService* new_proxy_config_service);

	// Tells the resolver to purge any memory it does not need.
	void PurgeMemory();


	// Returns the last configuration fetched from ProxyConfigService.
	const ProxyConfig& fetched_config() {
	return fetched_config_;
	}

	// Returns the current configuration being used by ProxyConfigService.
	const ProxyConfig& config() {
	return config_;
	}

	// Returns the map of proxies which have been marked as "bad".
	const ProxyRetryInfoMap& proxy_retry_info() const {
	return proxy_retry_info_;
	}

	// Clears the list of bad proxy servers that has been cached.
	void ClearBadProxiesCache() {
	proxy_retry_info_.clear();
	}

	// Forces refetching the proxy configuration, and applying it.
	// This re-does everything from fetching the system configuration,
	// to downloading and testing the PAC files.
	void ForceReloadProxyConfig();

	// Creates a proxy service that polls \|proxy_config_service\| to notice when
	// the proxy settings change. We take ownership of \|proxy_config_service\|.
	//
	// \|num_pac_threads\| specifies the maximum number of threads to use for
	// executing PAC scripts. Threads are created lazily on demand.
	// If \|0\| is specified, then a default number of threads will be selected.
	//
	// Having more threads avoids stalling proxy resolve requests when the
	// PAC script takes a while to run. This is particularly a problem when PAC
	// scripts do synchronous DNS resolutions, since that can take on the order
	// of seconds.
	//
	// However, the disadvantages of using more than 1 thread are:
	// (a) can cause compatibility issues for scripts that rely on side effects
	// between runs (such scripts should not be common though).
	// (b) increases the memory used by proxy resolving, as each thread will
	// duplicate its own script context.

	// \|proxy_script_fetcher\| specifies the dependency to use for downloading
	// any PAC scripts. The resulting ProxyService will take ownership of it.
	//
	// \|host_resolver\| points to the host resolving dependency the PAC script
	// should use for any DNS queries. It must remain valid throughout the
	// lifetime of the ProxyService.
	//
	// ##########################################################################
	// # See the warnings in net/proxy/proxy_resolver_v8.h describing the
	// # multi-threading model. In order for this to be safe to use, ALL the
	// # other V8's running in the process must use v8::Locker.
	// ##########################################################################
	static ProxyService* CreateUsingV8ProxyResolver(
	ProxyConfigService* proxy_config_service,
	size_t num_pac_threads,
	ProxyScriptFetcher* proxy_script_fetcher,
	HostResolver* host_resolver,
	NetLog* net_log);

	// Same as CreateUsingV8ProxyResolver, except it uses system libraries
	// for evaluating the PAC script if available, otherwise skips
	// proxy autoconfig.
	static ProxyService* CreateUsingSystemProxyResolver(
	ProxyConfigService* proxy_config_service,
	size_t num_pac_threads,
	NetLog* net_log);

	// Creates a ProxyService without support for proxy autoconfig.
	static ProxyService* CreateWithoutProxyResolver(
	ProxyConfigService* proxy_config_service,
	NetLog* net_log);

	// Convenience methods that creates a proxy service using the
	// specified fixed settings.
	static ProxyService* CreateFixed(const ProxyConfig& pc);
	static ProxyService* CreateFixed(const std::string& proxy);

	// Creates a proxy service that uses a DIRECT connection for all requests.
	static ProxyService* CreateDirect();
	// \|net_log\|'s lifetime must exceed ProxyService.
	static ProxyService* CreateDirectWithNetLog(NetLog* net_log);

	// This method is used by tests to create a ProxyService that returns a
	// hardcoded proxy fallback list (\|pac_string\|) for every URL.
	//
	// \|pac_string\| is a list of proxy servers, in the format that a PAC script
	// would return it. For example, "PROXY foobar:99; SOCKS fml:2; DIRECT"
	static ProxyService* CreateFixedFromPacResult(const std::string& pac_string);

	// Creates a config service appropriate for this platform that fetches the
	// system proxy settings.
	static ProxyConfigService* CreateSystemProxyConfigService(
	MessageLoop* io_loop, MessageLoop* file_loop);

	#if UNIT_TEST
	void set_stall_proxy_auto_config_delay(base::TimeDelta delay) {
	stall_proxy_auto_config_delay_ = delay;
	}
	#endif

	private:
	friend class base::RefCounted<ProxyService>;
	FRIEND_TEST_ALL_PREFIXES(ProxyServiceTest, UpdateConfigAfterFailedAutodetect);
	FRIEND_TEST_ALL_PREFIXES(ProxyServiceTest, UpdateConfigFromPACToDirect);
	friend class PacRequest;

	// TODO(eroman): change this to a std::set. Note that this requires updating
	// some tests in proxy_service_unittest.cc such as:
	// ProxyServiceTest.InitialPACScriptDownload
	// which expects requests to finish in the order they were added.
	typedef std::vector<scoped_refptr<PacRequest> > PendingRequests;

	enum State {
	STATE_NONE,
	STATE_WAITING_FOR_PROXY_CONFIG,
	STATE_WAITING_FOR_INIT_PROXY_RESOLVER,
	STATE_READY,
	};

	virtual ~ProxyService();

	// Resets all the variables associated with the current proxy configuration,
	// and rewinds the current state to \|STATE_NONE\|. Returns the previous value
	// of \|current_state_\|. If \|reset_fetched_config\| is true then
	// \|fetched_config_\| will also be reset, otherwise it will be left as-is.
	// Resetting it means that we will have to re-fetch the configuration from
	// the ProxyConfigService later.
	State ResetProxyConfig(bool reset_fetched_config);

	// Retrieves the current proxy configuration from the ProxyConfigService, and
	// starts initializing for it.
	void ApplyProxyConfigIfAvailable();

	// Callback for when the proxy resolver has been initialized with a
	// PAC script.
	void OnInitProxyResolverComplete(int result);

	// Returns ERR_IO_PENDING if the request cannot be completed synchronously.
	// Otherwise it fills \|result\| with the proxy information for \|url\|.
	// Completing synchronously means we don't need to query ProxyResolver.
	int TryToCompleteSynchronously(const GURL& url, ProxyInfo* result);

	// Cancels all of the requests sent to the ProxyResolver. These will be
	// restarted when calling ResumeAllPendingRequests().
	void SuspendAllPendingRequests();

	// Advances the current state to \|STATE_READY\|, and resumes any pending
	// requests which had been stalled waiting for initialization to complete.
	void SetReady();

	// Returns true if \|pending_requests_\| contains \|req\|.
	bool ContainsPendingRequest(PacRequest* req);

	// Removes \|req\| from the list of pending requests.
	void RemovePendingRequest(PacRequest* req);

	// Called when proxy resolution has completed (either synchronously or
	// asynchronously). Handles logging the result, and cleaning out
	// bad entries from the results list.
	int DidFinishResolvingProxy(ProxyInfo* result,
	int result_code,
	const BoundNetLog& net_log);

	// Start initialization using \|fetched_config_\|.
	void InitializeUsingLastFetchedConfig();

	// NetworkChangeNotifier::IPAddressObserver
	// When this is called, we re-fetch PAC scripts and re-run WPAD.
	virtual void OnIPAddressChanged();

	// ProxyConfigService::Observer
	virtual void OnProxyConfigChanged(
	const ProxyConfig& config,
	ProxyConfigService::ConfigAvailability availability);

	scoped_ptr<ProxyConfigService> config_service_;
	scoped_ptr<ProxyResolver> resolver_;

	// We store the proxy configuration that was last fetched from the
	// ProxyConfigService, as well as the resulting "effective" configuration.
	// The effective configuration is what we condense the original fetched
	// settings to after testing the various automatic settings (auto-detect
	// and custom PAC url).
	ProxyConfig fetched_config_;
	ProxyConfig config_;

	// Increasing ID to give to the next ProxyConfig that we set.
	int next_config_id_;

	// The time when the proxy configuration was last read from the system.
	base::TimeTicks config_last_update_time_;

	// Map of the known bad proxies and the information about the retry time.
	ProxyRetryInfoMap proxy_retry_info_;

	// Set of pending/inprogress requests.
	PendingRequests pending_requests_;

	// The fetcher to use when downloading PAC scripts for the ProxyResolver.
	// This dependency can be NULL if our ProxyResolver has no need for
	// external PAC script fetching.
	scoped_ptr<ProxyScriptFetcher> proxy_script_fetcher_;

	// Callback for when \|init_proxy_resolver_\| is done.
	CompletionCallbackImpl<ProxyService> init_proxy_resolver_callback_;

	// Helper to download the PAC script (wpad + custom) and apply fallback rules.
	//
	// Note that the declaration is important here: \|proxy_script_fetcher_\| and
	// \|proxy_resolver_\| must outlive \|init_proxy_resolver_\|.
	scoped_ptr<InitProxyResolver> init_proxy_resolver_;

	State current_state_;

	// This is the log where any events generated by \|init_proxy_resolver_\| are
	// sent to.
	NetLog* net_log_;

	// The earliest time at which we should run any proxy auto-config. (Used to
	// stall re-configuration following an IP address change).
	base::TimeTicks stall_proxy_autoconfig_until_;

	// The amount of time to stall requests following IP address changes.
	base::TimeDelta stall_proxy_auto_config_delay_;

	DISALLOW_COPY_AND_ASSIGN(ProxyService);
	};

	// Wrapper for invoking methods on a ProxyService synchronously.
	class SyncProxyServiceHelper
	: public base::RefCountedThreadSafe<SyncProxyServiceHelper> {
	public:
	SyncProxyServiceHelper(MessageLoop* io_message_loop,
	ProxyService* proxy_service);

	int ResolveProxy(const GURL& url,
	ProxyInfo* proxy_info,
	const BoundNetLog& net_log);
	int ReconsiderProxyAfterError(const GURL& url,
	ProxyInfo* proxy_info,
	const BoundNetLog& net_log);

	private:
	friend class base::RefCountedThreadSafe<SyncProxyServiceHelper>;

	virtual ~SyncProxyServiceHelper();

	void StartAsyncResolve(const GURL& url, const BoundNetLog& net_log);
	void StartAsyncReconsider(const GURL& url, const BoundNetLog& net_log);

	void OnCompletion(int result);

	MessageLoop* io_message_loop_;
	ProxyService* proxy_service_;

	base::WaitableEvent event_;
	CompletionCallbackImpl<SyncProxyServiceHelper> callback_;
	ProxyInfo proxy_info_;
	int result_;
	};

	} // namespace net

	#endif // NET_PROXY_PROXY_SERVICE_H_