// 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. // // A ClientSocketPoolBase is used to restrict the number of sockets open at // a time. It also maintains a list of idle persistent sockets for reuse. // Subclasses of ClientSocketPool should compose ClientSocketPoolBase to handle // the core logic of (1) restricting the number of active (connected or // connecting) sockets per "group" (generally speaking, the hostname), (2) // maintaining a per-group list of idle, persistent sockets for reuse, and (3) // limiting the total number of active sockets in the system. // // ClientSocketPoolBase abstracts socket connection details behind ConnectJob, // ConnectJobFactory, and SocketParams. When a socket "slot" becomes available, // the ClientSocketPoolBase will ask the ConnectJobFactory to create a // ConnectJob with a SocketParams. Subclasses of ClientSocketPool should // implement their socket specific connection by subclassing ConnectJob and // implementing ConnectJob::ConnectInternal(). They can control the parameters // passed to each new ConnectJob instance via their ConnectJobFactory subclass // and templated SocketParams parameter. // #ifndef NET_SOCKET_CLIENT_SOCKET_POOL_BASE_H_ #define NET_SOCKET_CLIENT_SOCKET_POOL_BASE_H_ #pragma once #include #include #include #include #include #include "base/basictypes.h" #include "base/memory/ref_counted.h" #include "base/memory/scoped_ptr.h" #include "base/task.h" #include "base/time.h" #include "base/timer.h" #include "net/base/address_list.h" #include "net/base/completion_callback.h" #include "net/base/load_states.h" #include "net/base/net_errors.h" #include "net/base/net_log.h" #include "net/base/network_change_notifier.h" #include "net/base/request_priority.h" #include "net/socket/client_socket.h" #include "net/socket/client_socket_pool.h" namespace net { class ClientSocketHandle; // ConnectJob provides an abstract interface for "connecting" a socket. // The connection may involve host resolution, tcp connection, ssl connection, // etc. class ConnectJob { public: class Delegate { public: Delegate() {} virtual ~Delegate() {} // Alerts the delegate that the connection completed. virtual void OnConnectJobComplete(int result, ConnectJob* job) = 0; private: DISALLOW_COPY_AND_ASSIGN(Delegate); }; // A |timeout_duration| of 0 corresponds to no timeout. ConnectJob(const std::string& group_name, base::TimeDelta timeout_duration, Delegate* delegate, const BoundNetLog& net_log); virtual ~ConnectJob(); // Accessors const std::string& group_name() const { return group_name_; } const BoundNetLog& net_log() { return net_log_; } bool is_preconnect() const { return preconnect_state_ != NOT_PRECONNECT; } bool is_unused_preconnect() const { return preconnect_state_ == UNUSED_PRECONNECT; } // Initialized by the ClientSocketPoolBaseHelper. // TODO(willchan): Move most of the constructor arguments over here. We // shouldn't give the ConnectJobFactory (subclasses) the ability to screw up // the initialization. void Initialize(bool is_preconnect); // Releases |socket_| to the client. On connection error, this should return // NULL. ClientSocket* ReleaseSocket() { return socket_.release(); } // Begins connecting the socket. Returns OK on success, ERR_IO_PENDING if it // cannot complete synchronously without blocking, or another net error code // on error. In asynchronous completion, the ConnectJob will notify // |delegate_| via OnConnectJobComplete. In both asynchronous and synchronous // completion, ReleaseSocket() can be called to acquire the connected socket // if it succeeded. int Connect(); // Precondition: is_unused_preconnect() must be true. Marks the job as a // used preconnect job. void UseForNormalRequest(); virtual LoadState GetLoadState() const = 0; // If Connect returns an error (or OnConnectJobComplete reports an error // result) this method will be called, allowing the pool to add // additional error state to the ClientSocketHandle (post late-binding). virtual void GetAdditionalErrorState(ClientSocketHandle* handle) {} const BoundNetLog& net_log() const { return net_log_; } protected: void set_socket(ClientSocket* socket); ClientSocket* socket() { return socket_.get(); } void NotifyDelegateOfCompletion(int rv); void ResetTimer(base::TimeDelta remainingTime); private: enum PreconnectState { NOT_PRECONNECT, UNUSED_PRECONNECT, USED_PRECONNECT, }; virtual int ConnectInternal() = 0; void LogConnectStart(); void LogConnectCompletion(int net_error); // Alerts the delegate that the ConnectJob has timed out. void OnTimeout(); const std::string group_name_; const base::TimeDelta timeout_duration_; // Timer to abort jobs that take too long. base::OneShotTimer timer_; Delegate* delegate_; scoped_ptr socket_; BoundNetLog net_log_; // A ConnectJob is idle until Connect() has been called. bool idle_; PreconnectState preconnect_state_; DISALLOW_COPY_AND_ASSIGN(ConnectJob); }; namespace internal { // ClientSocketPoolBaseHelper is an internal class that implements almost all // the functionality from ClientSocketPoolBase without using templates. // ClientSocketPoolBase adds templated definitions built on top of // ClientSocketPoolBaseHelper. This class is not for external use, please use // ClientSocketPoolBase instead. class ClientSocketPoolBaseHelper : public ConnectJob::Delegate, public NetworkChangeNotifier::IPAddressObserver { public: typedef uint32 Flags; // Used to specify specific behavior for the ClientSocketPool. enum Flag { NORMAL = 0, // Normal behavior. NO_IDLE_SOCKETS = 0x1, // Do not return an idle socket. Create a new one. }; class Request { public: Request(ClientSocketHandle* handle, CompletionCallback* callback, RequestPriority priority, bool ignore_limits, Flags flags, const BoundNetLog& net_log #ifdef ANDROID , bool valid_uid, uid_t calling_uid #endif ); virtual ~Request(); ClientSocketHandle* handle() const { return handle_; } CompletionCallback* callback() const { return callback_; } RequestPriority priority() const { return priority_; } bool ignore_limits() const { return ignore_limits_; } Flags flags() const { return flags_; } const BoundNetLog& net_log() const { return net_log_; } private: ClientSocketHandle* const handle_; CompletionCallback* const callback_; const RequestPriority priority_; bool ignore_limits_; const Flags flags_; BoundNetLog net_log_; #ifdef ANDROID bool valid_uid_; uid_t calling_uid_; #endif DISALLOW_COPY_AND_ASSIGN(Request); }; class ConnectJobFactory { public: ConnectJobFactory() {} virtual ~ConnectJobFactory() {} virtual ConnectJob* NewConnectJob( const std::string& group_name, const Request& request, ConnectJob::Delegate* delegate) const = 0; virtual base::TimeDelta ConnectionTimeout() const = 0; private: DISALLOW_COPY_AND_ASSIGN(ConnectJobFactory); }; ClientSocketPoolBaseHelper( int max_sockets, int max_sockets_per_group, base::TimeDelta unused_idle_socket_timeout, base::TimeDelta used_idle_socket_timeout, ConnectJobFactory* connect_job_factory); ~ClientSocketPoolBaseHelper(); // See ClientSocketPool::RequestSocket for documentation on this function. // ClientSocketPoolBaseHelper takes ownership of |request|, which must be // heap allocated. int RequestSocket(const std::string& group_name, const Request* request); // See ClientSocketPool::RequestSocket for documentation on this function. void RequestSockets(const std::string& group_name, const Request& request, int num_sockets); // See ClientSocketPool::CancelRequest for documentation on this function. void CancelRequest(const std::string& group_name, ClientSocketHandle* handle); // See ClientSocketPool::ReleaseSocket for documentation on this function. void ReleaseSocket(const std::string& group_name, ClientSocket* socket, int id); // See ClientSocketPool::Flush for documentation on this function. void Flush(); // See ClientSocketPool::CloseIdleSockets for documentation on this function. void CloseIdleSockets(); // See ClientSocketPool::IdleSocketCount() for documentation on this function. int idle_socket_count() const { return idle_socket_count_; } // See ClientSocketPool::IdleSocketCountInGroup() for documentation on this // function. int IdleSocketCountInGroup(const std::string& group_name) const; // See ClientSocketPool::GetLoadState() for documentation on this function. LoadState GetLoadState(const std::string& group_name, const ClientSocketHandle* handle) const; int ConnectRetryIntervalMs() const { // TODO(mbelshe): Make this tuned dynamically based on measured RTT. // For now, just use the max retry interval. return ClientSocketPool::kMaxConnectRetryIntervalMs; } int NumConnectJobsInGroup(const std::string& group_name) const { return group_map_.find(group_name)->second->jobs().size(); } int NumActiveSocketsInGroup(const std::string& group_name) const { return group_map_.find(group_name)->second->active_socket_count(); } bool HasGroup(const std::string& group_name) const; // Called to enable/disable cleaning up idle sockets. When enabled, // idle sockets that have been around for longer than a period defined // by kCleanupInterval are cleaned up using a timer. Otherwise they are // closed next time client makes a request. This may reduce network // activity and power consumption. static bool cleanup_timer_enabled(); static bool set_cleanup_timer_enabled(bool enabled); // Closes all idle sockets if |force| is true. Else, only closes idle // sockets that timed out or can't be reused. Made public for testing. void CleanupIdleSockets(bool force); // See ClientSocketPool::GetInfoAsValue for documentation on this function. DictionaryValue* GetInfoAsValue(const std::string& name, const std::string& type) const; base::TimeDelta ConnectionTimeout() const { return connect_job_factory_->ConnectionTimeout(); } static bool connect_backup_jobs_enabled(); static bool set_connect_backup_jobs_enabled(bool enabled); void EnableConnectBackupJobs(); // ConnectJob::Delegate methods: virtual void OnConnectJobComplete(int result, ConnectJob* job); // NetworkChangeNotifier::IPAddressObserver methods: virtual void OnIPAddressChanged(); private: friend class base::RefCounted; // Entry for a persistent socket which became idle at time |start_time|. struct IdleSocket { IdleSocket() : socket(NULL) {} // An idle socket should be removed if it can't be reused, or has been idle // for too long. |now| is the current time value (TimeTicks::Now()). // |timeout| is the length of time to wait before timing out an idle socket. // // An idle socket can't be reused if it is disconnected or has received // data unexpectedly (hence no longer idle). The unread data would be // mistaken for the beginning of the next response if we were to reuse the // socket for a new request. bool ShouldCleanup(base::TimeTicks now, base::TimeDelta timeout) const; ClientSocket* socket; base::TimeTicks start_time; }; typedef std::deque RequestQueue; typedef std::map RequestMap; // A Group is allocated per group_name when there are idle sockets or pending // requests. Otherwise, the Group object is removed from the map. // |active_socket_count| tracks the number of sockets held by clients. class Group { public: Group(); ~Group(); bool IsEmpty() const { return active_socket_count_ == 0 && idle_sockets_.empty() && jobs_.empty() && pending_requests_.empty(); } bool HasAvailableSocketSlot(int max_sockets_per_group) const { return NumActiveSocketSlots() < max_sockets_per_group; } int NumActiveSocketSlots() const { return active_socket_count_ + static_cast(jobs_.size()) + static_cast(idle_sockets_.size()); } bool IsStalled(int max_sockets_per_group) const { return HasAvailableSocketSlot(max_sockets_per_group) && pending_requests_.size() > jobs_.size(); } RequestPriority TopPendingPriority() const { return pending_requests_.front()->priority(); } bool HasBackupJob() const { return !method_factory_.empty(); } void CleanupBackupJob() { method_factory_.RevokeAll(); } // Set a timer to create a backup socket if it takes too long to create one. void StartBackupSocketTimer(const std::string& group_name, ClientSocketPoolBaseHelper* pool); // Searches |jobs_| to see if there's a preconnect ConnectJob, and if so, // uses it. Returns true on success. Otherwise, returns false. bool TryToUsePreconnectConnectJob(); void AddJob(ConnectJob* job) { jobs_.insert(job); } void RemoveJob(ConnectJob* job) { jobs_.erase(job); } void RemoveAllJobs(); void IncrementActiveSocketCount() { active_socket_count_++; } void DecrementActiveSocketCount() { active_socket_count_--; } const std::set& jobs() const { return jobs_; } const std::list& idle_sockets() const { return idle_sockets_; } const RequestQueue& pending_requests() const { return pending_requests_; } int active_socket_count() const { return active_socket_count_; } RequestQueue* mutable_pending_requests() { return &pending_requests_; } std::list* mutable_idle_sockets() { return &idle_sockets_; } private: // Called when the backup socket timer fires. void OnBackupSocketTimerFired( std::string group_name, ClientSocketPoolBaseHelper* pool); std::list idle_sockets_; std::set jobs_; RequestQueue pending_requests_; int active_socket_count_; // number of active sockets used by clients // A factory to pin the backup_job tasks. ScopedRunnableMethodFactory method_factory_; }; typedef std::map GroupMap; typedef std::set ConnectJobSet; struct CallbackResultPair { CallbackResultPair() : callback(NULL), result(OK) {} CallbackResultPair(CompletionCallback* callback_in, int result_in) : callback(callback_in), result(result_in) {} CompletionCallback* callback; int result; }; typedef std::map PendingCallbackMap; static void InsertRequestIntoQueue(const Request* r, RequestQueue* pending_requests); static const Request* RemoveRequestFromQueue(const RequestQueue::iterator& it, Group* group); Group* GetOrCreateGroup(const std::string& group_name); void RemoveGroup(const std::string& group_name); void RemoveGroup(GroupMap::iterator it); // Called when the number of idle sockets changes. void IncrementIdleCount(); void DecrementIdleCount(); // Start cleanup timer for idle sockets. void StartIdleSocketTimer(); // Scans the group map for groups which have an available socket slot and // at least one pending request. Returns true if any groups are stalled, and // if so, fills |group| and |group_name| with data of the stalled group // having highest priority. bool FindTopStalledGroup(Group** group, std::string* group_name); // Called when timer_ fires. This method scans the idle sockets removing // sockets that timed out or can't be reused. void OnCleanupTimerFired() { CleanupIdleSockets(false); } // Removes |job| from |connect_job_set_|. Also updates |group| if non-NULL. void RemoveConnectJob(ConnectJob* job, Group* group); // Tries to see if we can handle any more requests for |group|. void OnAvailableSocketSlot(const std::string& group_name, Group* group); // Process a pending socket request for a group. void ProcessPendingRequest(const std::string& group_name, Group* group); // Assigns |socket| to |handle| and updates |group|'s counters appropriately. void HandOutSocket(ClientSocket* socket, bool reused, ClientSocketHandle* handle, base::TimeDelta time_idle, Group* group, const BoundNetLog& net_log); // Adds |socket| to the list of idle sockets for |group|. void AddIdleSocket(ClientSocket* socket, Group* group); // Iterates through |group_map_|, canceling all ConnectJobs and deleting // groups if they are no longer needed. void CancelAllConnectJobs(); // Iterates through |group_map_|, posting ERR_ABORTED callbacks for all // requests, and then deleting groups if they are no longer needed. void AbortAllRequests(); // Returns true if we can't create any more sockets due to the total limit. bool ReachedMaxSocketsLimit() const; // This is the internal implementation of RequestSocket(). It differs in that // it does not handle logging into NetLog of the queueing status of // |request|. int RequestSocketInternal(const std::string& group_name, const Request* request); // Assigns an idle socket for the group to the request. // Returns |true| if an idle socket is available, false otherwise. bool AssignIdleSocketToGroup(const Request* request, Group* group); static void LogBoundConnectJobToRequest( const NetLog::Source& connect_job_source, const Request* request); // Closes one idle socket. Picks the first one encountered. // TODO(willchan): Consider a better algorithm for doing this. Perhaps we // should keep an ordered list of idle sockets, and close them in order. // Requires maintaining more state. It's not clear if it's worth it since // I'm not sure if we hit this situation often. void CloseOneIdleSocket(); // Same as CloseOneIdleSocket() except it won't close an idle socket in // |group|. If |group| is NULL, it is ignored. Returns true if it closed a // socket. bool CloseOneIdleSocketExceptInGroup(const Group* group); // Checks if there are stalled socket groups that should be notified // for possible wakeup. void CheckForStalledSocketGroups(); // Posts a task to call InvokeUserCallback() on the next iteration through the // current message loop. Inserts |callback| into |pending_callback_map_|, // keyed by |handle|. void InvokeUserCallbackLater( ClientSocketHandle* handle, CompletionCallback* callback, int rv); // Invokes the user callback for |handle|. By the time this task has run, // it's possible that the request has been cancelled, so |handle| may not // exist in |pending_callback_map_|. We look up the callback and result code // in |pending_callback_map_|. void InvokeUserCallback(ClientSocketHandle* handle); GroupMap group_map_; // Map of the ClientSocketHandles for which we have a pending Task to invoke a // callback. This is necessary since, before we invoke said callback, it's // possible that the request is cancelled. PendingCallbackMap pending_callback_map_; // Timer used to periodically prune idle sockets that timed out or can't be // reused. base::RepeatingTimer timer_; // The total number of idle sockets in the system. int idle_socket_count_; // Number of connecting sockets across all groups. int connecting_socket_count_; // Number of connected sockets we handed out across all groups. int handed_out_socket_count_; // The maximum total number of sockets. See ReachedMaxSocketsLimit. const int max_sockets_; // The maximum number of sockets kept per group. const int max_sockets_per_group_; // Whether to use timer to cleanup idle sockets. bool use_cleanup_timer_; // The time to wait until closing idle sockets. const base::TimeDelta unused_idle_socket_timeout_; const base::TimeDelta used_idle_socket_timeout_; const scoped_ptr connect_job_factory_; // TODO(vandebo) Remove when backup jobs move to TransportClientSocketPool bool connect_backup_jobs_enabled_; // A unique id for the pool. It gets incremented every time we Flush() the // pool. This is so that when sockets get released back to the pool, we can // make sure that they are discarded rather than reused. int pool_generation_number_; ScopedRunnableMethodFactory method_factory_; DISALLOW_COPY_AND_ASSIGN(ClientSocketPoolBaseHelper); }; } // namespace internal // The maximum duration, in seconds, to keep used idle persistent sockets alive. static const int kUsedIdleSocketTimeout = 300; // 5 minutes template class ClientSocketPoolBase { public: class Request : public internal::ClientSocketPoolBaseHelper::Request { public: Request(ClientSocketHandle* handle, CompletionCallback* callback, RequestPriority priority, internal::ClientSocketPoolBaseHelper::Flags flags, bool ignore_limits, const scoped_refptr& params, const BoundNetLog& net_log #ifdef ANDROID , bool valid_uid, int calling_uid #endif ) : internal::ClientSocketPoolBaseHelper::Request( handle, callback, priority, ignore_limits, flags, net_log #ifdef ANDROID , valid_uid, calling_uid #endif ), params_(params) {} const scoped_refptr& params() const { return params_; } private: const scoped_refptr params_; }; class ConnectJobFactory { public: ConnectJobFactory() {} virtual ~ConnectJobFactory() {} virtual ConnectJob* NewConnectJob( const std::string& group_name, const Request& request, ConnectJob::Delegate* delegate) const = 0; virtual base::TimeDelta ConnectionTimeout() const = 0; private: DISALLOW_COPY_AND_ASSIGN(ConnectJobFactory); }; // |max_sockets| is the maximum number of sockets to be maintained by this // ClientSocketPool. |max_sockets_per_group| specifies the maximum number of // sockets a "group" can have. |unused_idle_socket_timeout| specifies how // long to leave an unused idle socket open before closing it. // |used_idle_socket_timeout| specifies how long to leave a previously used // idle socket open before closing it. ClientSocketPoolBase( int max_sockets, int max_sockets_per_group, ClientSocketPoolHistograms* histograms, base::TimeDelta unused_idle_socket_timeout, base::TimeDelta used_idle_socket_timeout, ConnectJobFactory* connect_job_factory) : histograms_(histograms), helper_(max_sockets, max_sockets_per_group, unused_idle_socket_timeout, used_idle_socket_timeout, new ConnectJobFactoryAdaptor(connect_job_factory)) {} virtual ~ClientSocketPoolBase() {} // These member functions simply forward to ClientSocketPoolBaseHelper. // RequestSocket bundles up the parameters into a Request and then forwards to // ClientSocketPoolBaseHelper::RequestSocket(). int RequestSocket(const std::string& group_name, const scoped_refptr& params, RequestPriority priority, ClientSocketHandle* handle, CompletionCallback* callback, const BoundNetLog& net_log) { #ifdef ANDROID uid_t calling_uid = 0; bool valid_uid = params->getUID(&calling_uid); #endif Request* request = new Request(handle, callback, priority, internal::ClientSocketPoolBaseHelper::NORMAL, params->ignore_limits(), params, net_log #ifdef ANDROID , valid_uid, calling_uid #endif ); return helper_.RequestSocket(group_name, request); } // RequestSockets bundles up the parameters into a Request and then forwards // to ClientSocketPoolBaseHelper::RequestSockets(). Note that it assigns the // priority to LOWEST and specifies the NO_IDLE_SOCKETS flag. void RequestSockets(const std::string& group_name, const scoped_refptr& params, int num_sockets, const BoundNetLog& net_log) { #ifdef ANDROID uid_t calling_uid = 0; bool valid_uid = params->getUID(&calling_uid); #endif const Request request(NULL /* no handle */, NULL /* no callback */, LOWEST, internal::ClientSocketPoolBaseHelper::NO_IDLE_SOCKETS, params->ignore_limits(), params, net_log #ifdef ANDROID , valid_uid, calling_uid #endif ); helper_.RequestSockets(group_name, request, num_sockets); } void CancelRequest(const std::string& group_name, ClientSocketHandle* handle) { return helper_.CancelRequest(group_name, handle); } void ReleaseSocket(const std::string& group_name, ClientSocket* socket, int id) { return helper_.ReleaseSocket(group_name, socket, id); } void CloseIdleSockets() { return helper_.CloseIdleSockets(); } int idle_socket_count() const { return helper_.idle_socket_count(); } int IdleSocketCountInGroup(const std::string& group_name) const { return helper_.IdleSocketCountInGroup(group_name); } LoadState GetLoadState(const std::string& group_name, const ClientSocketHandle* handle) const { return helper_.GetLoadState(group_name, handle); } virtual void OnConnectJobComplete(int result, ConnectJob* job) { return helper_.OnConnectJobComplete(result, job); } int NumConnectJobsInGroup(const std::string& group_name) const { return helper_.NumConnectJobsInGroup(group_name); } int NumActiveSocketsInGroup(const std::string& group_name) const { return helper_.NumActiveSocketsInGroup(group_name); } bool HasGroup(const std::string& group_name) const { return helper_.HasGroup(group_name); } void CleanupIdleSockets(bool force) { return helper_.CleanupIdleSockets(force); } DictionaryValue* GetInfoAsValue(const std::string& name, const std::string& type) const { return helper_.GetInfoAsValue(name, type); } base::TimeDelta ConnectionTimeout() const { return helper_.ConnectionTimeout(); } ClientSocketPoolHistograms* histograms() const { return histograms_; } void EnableConnectBackupJobs() { helper_.EnableConnectBackupJobs(); } void Flush() { helper_.Flush(); } private: // This adaptor class exists to bridge the // internal::ClientSocketPoolBaseHelper::ConnectJobFactory and // ClientSocketPoolBase::ConnectJobFactory types, allowing clients to use the // typesafe ClientSocketPoolBase::ConnectJobFactory, rather than having to // static_cast themselves. class ConnectJobFactoryAdaptor : public internal::ClientSocketPoolBaseHelper::ConnectJobFactory { public: typedef typename ClientSocketPoolBase::ConnectJobFactory ConnectJobFactory; explicit ConnectJobFactoryAdaptor(ConnectJobFactory* connect_job_factory) : connect_job_factory_(connect_job_factory) {} virtual ~ConnectJobFactoryAdaptor() {} virtual ConnectJob* NewConnectJob( const std::string& group_name, const internal::ClientSocketPoolBaseHelper::Request& request, ConnectJob::Delegate* delegate) const { const Request* casted_request = static_cast(&request); return connect_job_factory_->NewConnectJob( group_name, *casted_request, delegate); } virtual base::TimeDelta ConnectionTimeout() const { return connect_job_factory_->ConnectionTimeout(); } const scoped_ptr connect_job_factory_; }; // Histograms for the pool ClientSocketPoolHistograms* const histograms_; internal::ClientSocketPoolBaseHelper helper_; DISALLOW_COPY_AND_ASSIGN(ClientSocketPoolBase); }; } // namespace net #endif // NET_SOCKET_CLIENT_SOCKET_POOL_BASE_H_