// Copyright (c) 2010 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. #include "net/socket/tcp_client_socket_pool.h" #include "base/compiler_specific.h" #include "base/logging.h" #include "base/message_loop.h" #include "base/metrics/histogram.h" #include "base/string_util.h" #include "base/time.h" #include "net/base/net_log.h" #include "net/base/net_errors.h" #include "net/socket/client_socket_factory.h" #include "net/socket/client_socket_handle.h" #include "net/socket/client_socket_pool_base.h" #include "net/socket/tcp_client_socket.h" using base::TimeDelta; namespace net { TCPSocketParams::TCPSocketParams(const HostPortPair& host_port_pair, RequestPriority priority, const GURL& referrer, bool disable_resolver_cache, bool ignore_limits) : destination_(host_port_pair) #ifdef ANDROID , ignore_limits_(ignore_limits), valid_uid_(false), calling_uid_(0) #endif { Initialize(priority, referrer, disable_resolver_cache); } // TODO(willchan): Update all unittests so we don't need this. TCPSocketParams::TCPSocketParams(const std::string& host, int port, RequestPriority priority, const GURL& referrer, bool disable_resolver_cache) : destination_(HostPortPair(host, port)) #ifdef ANDROID , ignore_limits_(false), valid_uid_(false), calling_uid_(0) #endif { Initialize(priority, referrer, disable_resolver_cache); } TCPSocketParams::~TCPSocketParams() {} void TCPSocketParams::Initialize(RequestPriority priority, const GURL& referrer, bool disable_resolver_cache) { // The referrer is used by the DNS prefetch system to correlate resolutions // with the page that triggered them. It doesn't impact the actual addresses // that we resolve to. destination_.set_referrer(referrer); destination_.set_priority(priority); if (disable_resolver_cache) destination_.set_allow_cached_response(false); } #ifdef ANDROID bool TCPSocketParams::getUID(uid_t *uid) const { if (!valid_uid_) { return false; } *uid = calling_uid_; return true; } void TCPSocketParams::setUID(uid_t uid) { valid_uid_ = true; calling_uid_ = uid; } #endif // TCPConnectJobs will time out after this many seconds. Note this is the total // time, including both host resolution and TCP connect() times. // // TODO(eroman): The use of this constant needs to be re-evaluated. The time // needed for TCPClientSocketXXX::Connect() can be arbitrarily long, since // the address list may contain many alternatives, and most of those may // timeout. Even worse, the per-connect timeout threshold varies greatly // between systems (anywhere from 20 seconds to 190 seconds). // See comment #12 at http://crbug.com/23364 for specifics. static const int kTCPConnectJobTimeoutInSeconds = 240; // 4 minutes. TCPConnectJob::TCPConnectJob( const std::string& group_name, const scoped_refptr& params, base::TimeDelta timeout_duration, ClientSocketFactory* client_socket_factory, HostResolver* host_resolver, Delegate* delegate, NetLog* net_log) : ConnectJob(group_name, timeout_duration, delegate, BoundNetLog::Make(net_log, NetLog::SOURCE_CONNECT_JOB)), params_(params), client_socket_factory_(client_socket_factory), ALLOW_THIS_IN_INITIALIZER_LIST( callback_(this, &TCPConnectJob::OnIOComplete)), resolver_(host_resolver) {} TCPConnectJob::~TCPConnectJob() { // We don't worry about cancelling the host resolution and TCP connect, since // ~SingleRequestHostResolver and ~ClientSocket will take care of it. } LoadState TCPConnectJob::GetLoadState() const { switch (next_state_) { case STATE_RESOLVE_HOST: case STATE_RESOLVE_HOST_COMPLETE: return LOAD_STATE_RESOLVING_HOST; case STATE_TCP_CONNECT: case STATE_TCP_CONNECT_COMPLETE: return LOAD_STATE_CONNECTING; default: NOTREACHED(); return LOAD_STATE_IDLE; } } void TCPConnectJob::OnIOComplete(int result) { int rv = DoLoop(result); if (rv != ERR_IO_PENDING) NotifyDelegateOfCompletion(rv); // Deletes |this| } int TCPConnectJob::DoLoop(int result) { DCHECK_NE(next_state_, STATE_NONE); int rv = result; do { State state = next_state_; next_state_ = STATE_NONE; switch (state) { case STATE_RESOLVE_HOST: DCHECK_EQ(OK, rv); rv = DoResolveHost(); break; case STATE_RESOLVE_HOST_COMPLETE: rv = DoResolveHostComplete(rv); break; case STATE_TCP_CONNECT: DCHECK_EQ(OK, rv); rv = DoTCPConnect(); break; case STATE_TCP_CONNECT_COMPLETE: rv = DoTCPConnectComplete(rv); break; default: NOTREACHED(); rv = ERR_FAILED; break; } } while (rv != ERR_IO_PENDING && next_state_ != STATE_NONE); return rv; } int TCPConnectJob::DoResolveHost() { next_state_ = STATE_RESOLVE_HOST_COMPLETE; return resolver_.Resolve(params_->destination(), &addresses_, &callback_, net_log()); } int TCPConnectJob::DoResolveHostComplete(int result) { if (result == OK) next_state_ = STATE_TCP_CONNECT; return result; } int TCPConnectJob::DoTCPConnect() { next_state_ = STATE_TCP_CONNECT_COMPLETE; set_socket(client_socket_factory_->CreateTCPClientSocket( addresses_, net_log().net_log(), net_log().source())); connect_start_time_ = base::TimeTicks::Now(); #ifdef ANDROID uid_t calling_uid = 0; bool valid_uid = params_->getUID(&calling_uid); #endif return socket()->Connect(&callback_, #ifdef ANDROID params_->ignore_limits(), valid_uid, calling_uid #endif ); } int TCPConnectJob::DoTCPConnectComplete(int result) { if (result == OK) { DCHECK(connect_start_time_ != base::TimeTicks()); DCHECK(start_time_ != base::TimeTicks()); base::TimeTicks now = base::TimeTicks::Now(); base::TimeDelta total_duration = now - start_time_; UMA_HISTOGRAM_CUSTOM_TIMES( "Net.DNS_Resolution_And_TCP_Connection_Latency2", total_duration, base::TimeDelta::FromMilliseconds(1), base::TimeDelta::FromMinutes(10), 100); base::TimeDelta connect_duration = now - connect_start_time_; UMA_HISTOGRAM_CUSTOM_TIMES("Net.TCP_Connection_Latency", connect_duration, base::TimeDelta::FromMilliseconds(1), base::TimeDelta::FromMinutes(10), 100); } else { // Delete the socket on error. set_socket(NULL); } return result; } int TCPConnectJob::ConnectInternal() { next_state_ = STATE_RESOLVE_HOST; start_time_ = base::TimeTicks::Now(); return DoLoop(OK); } ConnectJob* TCPClientSocketPool::TCPConnectJobFactory::NewConnectJob( const std::string& group_name, const PoolBase::Request& request, ConnectJob::Delegate* delegate) const { return new TCPConnectJob(group_name, request.params(), ConnectionTimeout(), client_socket_factory_, host_resolver_, delegate, net_log_); } base::TimeDelta TCPClientSocketPool::TCPConnectJobFactory::ConnectionTimeout() const { return base::TimeDelta::FromSeconds(kTCPConnectJobTimeoutInSeconds); } TCPClientSocketPool::TCPClientSocketPool( int max_sockets, int max_sockets_per_group, ClientSocketPoolHistograms* histograms, HostResolver* host_resolver, ClientSocketFactory* client_socket_factory, NetLog* net_log) : base_(max_sockets, max_sockets_per_group, histograms, base::TimeDelta::FromSeconds( ClientSocketPool::unused_idle_socket_timeout()), base::TimeDelta::FromSeconds(kUsedIdleSocketTimeout), new TCPConnectJobFactory(client_socket_factory, host_resolver, net_log)) { base_.EnableConnectBackupJobs(); } TCPClientSocketPool::~TCPClientSocketPool() {} int TCPClientSocketPool::RequestSocket( const std::string& group_name, const void* params, RequestPriority priority, ClientSocketHandle* handle, CompletionCallback* callback, const BoundNetLog& net_log) { const scoped_refptr* casted_params = static_cast*>(params); if (net_log.IsLoggingAllEvents()) { // TODO(eroman): Split out the host and port parameters. net_log.AddEvent( NetLog::TYPE_TCP_CLIENT_SOCKET_POOL_REQUESTED_SOCKET, make_scoped_refptr(new NetLogStringParameter( "host_and_port", casted_params->get()->destination().host_port_pair().ToString()))); } return base_.RequestSocket(group_name, *casted_params, priority, handle, callback, net_log); } void TCPClientSocketPool::RequestSockets( const std::string& group_name, const void* params, int num_sockets, const BoundNetLog& net_log) { const scoped_refptr* casted_params = static_cast*>(params); if (net_log.IsLoggingAllEvents()) { // TODO(eroman): Split out the host and port parameters. net_log.AddEvent( NetLog::TYPE_TCP_CLIENT_SOCKET_POOL_REQUESTED_SOCKETS, make_scoped_refptr(new NetLogStringParameter( "host_and_port", casted_params->get()->destination().host_port_pair().ToString()))); } base_.RequestSockets(group_name, *casted_params, num_sockets, net_log); } void TCPClientSocketPool::CancelRequest( const std::string& group_name, ClientSocketHandle* handle) { base_.CancelRequest(group_name, handle); } void TCPClientSocketPool::ReleaseSocket( const std::string& group_name, ClientSocket* socket, int id) { base_.ReleaseSocket(group_name, socket, id); } void TCPClientSocketPool::Flush() { base_.Flush(); } void TCPClientSocketPool::CloseIdleSockets() { base_.CloseIdleSockets(); } int TCPClientSocketPool::IdleSocketCount() const { return base_.idle_socket_count(); } int TCPClientSocketPool::IdleSocketCountInGroup( const std::string& group_name) const { return base_.IdleSocketCountInGroup(group_name); } LoadState TCPClientSocketPool::GetLoadState( const std::string& group_name, const ClientSocketHandle* handle) const { return base_.GetLoadState(group_name, handle); } DictionaryValue* TCPClientSocketPool::GetInfoAsValue( const std::string& name, const std::string& type, bool include_nested_pools) const { return base_.GetInfoAsValue(name, type); } base::TimeDelta TCPClientSocketPool::ConnectionTimeout() const { return base_.ConnectionTimeout(); } ClientSocketPoolHistograms* TCPClientSocketPool::histograms() const { return base_.histograms(); } } // namespace net