// Copyright 2015 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/http/http_proxy_client_socket_wrapper.h" #include #include "base/bind.h" #include "base/bind_helpers.h" #include "base/callback_helpers.h" #include "base/memory/weak_ptr.h" #include "base/metrics/histogram_macros.h" #include "base/values.h" #include "net/base/proxy_delegate.h" #include "net/http/http_proxy_client_socket.h" #include "net/http/http_response_info.h" #include "net/log/net_log_event_type.h" #include "net/log/net_log_source.h" #include "net/log/net_log_source_type.h" #include "net/socket/client_socket_handle.h" #include "net/spdy/chromium/spdy_proxy_client_socket.h" #include "net/spdy/chromium/spdy_session.h" #include "net/spdy/chromium/spdy_session_pool.h" #include "net/spdy/chromium/spdy_stream.h" #include "net/ssl/ssl_cert_request_info.h" #include "url/gurl.h" namespace net { HttpProxyClientSocketWrapper::HttpProxyClientSocketWrapper( const std::string& group_name, RequestPriority priority, ClientSocketPool::RespectLimits respect_limits, base::TimeDelta connect_timeout_duration, base::TimeDelta proxy_negotiation_timeout_duration, TransportClientSocketPool* transport_pool, SSLClientSocketPool* ssl_pool, const scoped_refptr& transport_params, const scoped_refptr& ssl_params, const std::string& user_agent, const HostPortPair& endpoint, HttpAuthCache* http_auth_cache, HttpAuthHandlerFactory* http_auth_handler_factory, SpdySessionPool* spdy_session_pool, bool tunnel, ProxyDelegate* proxy_delegate, const NetLogWithSource& net_log) : next_state_(STATE_NONE), group_name_(group_name), priority_(priority), respect_limits_(respect_limits), connect_timeout_duration_(connect_timeout_duration), proxy_negotiation_timeout_duration_(proxy_negotiation_timeout_duration), transport_pool_(transport_pool), ssl_pool_(ssl_pool), transport_params_(transport_params), ssl_params_(ssl_params), user_agent_(user_agent), endpoint_(endpoint), spdy_session_pool_(spdy_session_pool), has_restarted_(false), tunnel_(tunnel), proxy_delegate_(proxy_delegate), using_spdy_(false), http_auth_controller_( tunnel ? new HttpAuthController( HttpAuth::AUTH_PROXY, GURL((ssl_params_.get() ? "https://" : "http://") + GetDestination().host_port_pair().ToString()), http_auth_cache, http_auth_handler_factory) : nullptr), net_log_(NetLogWithSource::Make( net_log.net_log(), NetLogSourceType::PROXY_CLIENT_SOCKET_WRAPPER)) { net_log_.BeginEvent(NetLogEventType::SOCKET_ALIVE, net_log.source().ToEventParametersCallback()); DCHECK(transport_params || ssl_params); DCHECK(!transport_params || !ssl_params); } HttpProxyClientSocketWrapper::~HttpProxyClientSocketWrapper() { // Make sure no sockets are returned to the lower level socket pools. Disconnect(); net_log_.EndEvent(NetLogEventType::SOCKET_ALIVE); } LoadState HttpProxyClientSocketWrapper::GetConnectLoadState() const { switch (next_state_) { case STATE_BEGIN_CONNECT: case STATE_TCP_CONNECT: case STATE_TCP_CONNECT_COMPLETE: case STATE_SSL_CONNECT: case STATE_SSL_CONNECT_COMPLETE: return transport_socket_handle_->GetLoadState(); case STATE_HTTP_PROXY_CONNECT: case STATE_HTTP_PROXY_CONNECT_COMPLETE: case STATE_SPDY_PROXY_CREATE_STREAM: case STATE_SPDY_PROXY_CREATE_STREAM_COMPLETE: case STATE_SPDY_PROXY_CONNECT_COMPLETE: case STATE_RESTART_WITH_AUTH: case STATE_RESTART_WITH_AUTH_COMPLETE: return LOAD_STATE_ESTABLISHING_PROXY_TUNNEL; case STATE_NONE: // May be possible for this method to be called after an error, shouldn't // be called after a successful connect. break; } return LOAD_STATE_IDLE; } std::unique_ptr HttpProxyClientSocketWrapper::GetAdditionalErrorState() { return std::move(error_response_info_); } const HttpResponseInfo* HttpProxyClientSocketWrapper::GetConnectResponseInfo() const { if (transport_socket_) return transport_socket_->GetConnectResponseInfo(); return nullptr; } std::unique_ptr HttpProxyClientSocketWrapper::CreateConnectResponseStream() { if (transport_socket_) return transport_socket_->CreateConnectResponseStream(); return nullptr; } int HttpProxyClientSocketWrapper::RestartWithAuth( const CompletionCallback& callback) { DCHECK(!callback.is_null()); DCHECK(connect_callback_.is_null()); DCHECK(transport_socket_); DCHECK_EQ(STATE_NONE, next_state_); connect_callback_ = callback; next_state_ = STATE_RESTART_WITH_AUTH; return DoLoop(OK); } const scoped_refptr& HttpProxyClientSocketWrapper::GetAuthController() const { return http_auth_controller_; } bool HttpProxyClientSocketWrapper::IsUsingSpdy() const { if (transport_socket_) return transport_socket_->IsUsingSpdy(); return false; } NextProto HttpProxyClientSocketWrapper::GetProxyNegotiatedProtocol() const { if (transport_socket_) return transport_socket_->GetProxyNegotiatedProtocol(); return kProtoUnknown; } int HttpProxyClientSocketWrapper::Connect(const CompletionCallback& callback) { DCHECK(!callback.is_null()); DCHECK(connect_callback_.is_null()); // If connecting or previously connected and not disconnected, return OK, to // match TCPClientSocket's behavior. if (next_state_ != STATE_NONE || transport_socket_) return OK; next_state_ = STATE_BEGIN_CONNECT; int rv = DoLoop(OK); if (rv == ERR_IO_PENDING) { connect_callback_ = callback; } else { connect_timer_.Stop(); NotifyProxyDelegateOfCompletion(rv); } return rv; } void HttpProxyClientSocketWrapper::Disconnect() { connect_callback_.Reset(); connect_timer_.Stop(); next_state_ = STATE_NONE; spdy_stream_request_.CancelRequest(); if (transport_socket_handle_) { if (transport_socket_handle_->socket()) transport_socket_handle_->socket()->Disconnect(); transport_socket_handle_->Reset(); transport_socket_handle_.reset(); } if (transport_socket_) transport_socket_->Disconnect(); } bool HttpProxyClientSocketWrapper::IsConnected() const { if (transport_socket_) return transport_socket_->IsConnected(); // Don't return true if still connecting. Shouldn't really matter, either // way. return false; } bool HttpProxyClientSocketWrapper::IsConnectedAndIdle() const { if (transport_socket_) return transport_socket_->IsConnectedAndIdle(); return false; } const NetLogWithSource& HttpProxyClientSocketWrapper::NetLog() const { return net_log_; } void HttpProxyClientSocketWrapper::SetSubresourceSpeculation() { // This flag isn't passed to reconnected sockets, as only the first connection // can be a preconnect. if (transport_socket_) transport_socket_->SetSubresourceSpeculation(); } void HttpProxyClientSocketWrapper::SetOmniboxSpeculation() { // This flag isn't passed to reconnected sockets, as only the first connection // can be a preconnect. if (transport_socket_) transport_socket_->SetOmniboxSpeculation(); } bool HttpProxyClientSocketWrapper::WasEverUsed() const { // TODO(mmenke): This is a little weird. Figure out if something else should // be done. if (transport_socket_) return transport_socket_->WasEverUsed(); return false; } bool HttpProxyClientSocketWrapper::WasAlpnNegotiated() const { if (transport_socket_) return transport_socket_->WasAlpnNegotiated(); return false; } NextProto HttpProxyClientSocketWrapper::GetNegotiatedProtocol() const { if (transport_socket_) return transport_socket_->GetNegotiatedProtocol(); return kProtoUnknown; } bool HttpProxyClientSocketWrapper::GetSSLInfo(SSLInfo* ssl_info) { if (transport_socket_) return transport_socket_->GetSSLInfo(ssl_info); return false; } void HttpProxyClientSocketWrapper::GetConnectionAttempts( ConnectionAttempts* out) const { // TODO(mmenke): Not clear how reconnecting for auth fits into things. if (transport_socket_) { transport_socket_->GetConnectionAttempts(out); } else { out->clear(); } } void HttpProxyClientSocketWrapper::ClearConnectionAttempts() { if (transport_socket_) transport_socket_->ClearConnectionAttempts(); } void HttpProxyClientSocketWrapper::AddConnectionAttempts( const ConnectionAttempts& attempts) { if (transport_socket_) transport_socket_->AddConnectionAttempts(attempts); } int64_t HttpProxyClientSocketWrapper::GetTotalReceivedBytes() const { return transport_socket_->GetTotalReceivedBytes(); } int HttpProxyClientSocketWrapper::Read(IOBuffer* buf, int buf_len, const CompletionCallback& callback) { if (transport_socket_) return transport_socket_->Read(buf, buf_len, callback); return ERR_SOCKET_NOT_CONNECTED; } int HttpProxyClientSocketWrapper::Write(IOBuffer* buf, int buf_len, const CompletionCallback& callback) { if (transport_socket_) return transport_socket_->Write(buf, buf_len, callback); return ERR_SOCKET_NOT_CONNECTED; } int HttpProxyClientSocketWrapper::SetReceiveBufferSize(int32_t size) { // TODO(mmenke): Should this persist across reconnects? Seems a little // weird, and not done for normal reconnects. if (transport_socket_) return transport_socket_->SetReceiveBufferSize(size); return ERR_SOCKET_NOT_CONNECTED; } int HttpProxyClientSocketWrapper::SetSendBufferSize(int32_t size) { if (transport_socket_) return transport_socket_->SetSendBufferSize(size); return ERR_SOCKET_NOT_CONNECTED; } int HttpProxyClientSocketWrapper::GetPeerAddress(IPEndPoint* address) const { if (transport_socket_) return transport_socket_->GetPeerAddress(address); return ERR_SOCKET_NOT_CONNECTED; } int HttpProxyClientSocketWrapper::GetLocalAddress(IPEndPoint* address) const { if (transport_socket_) return transport_socket_->GetLocalAddress(address); return ERR_SOCKET_NOT_CONNECTED; } void HttpProxyClientSocketWrapper::OnIOComplete(int result) { int rv = DoLoop(result); if (rv != ERR_IO_PENDING) { connect_timer_.Stop(); NotifyProxyDelegateOfCompletion(rv); // May delete |this|. base::ResetAndReturn(&connect_callback_).Run(rv); } } int HttpProxyClientSocketWrapper::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_BEGIN_CONNECT: DCHECK_EQ(OK, rv); rv = DoBeginConnect(); break; case STATE_TCP_CONNECT: DCHECK_EQ(OK, rv); rv = DoTransportConnect(); break; case STATE_TCP_CONNECT_COMPLETE: rv = DoTransportConnectComplete(rv); break; case STATE_SSL_CONNECT: DCHECK_EQ(OK, rv); rv = DoSSLConnect(); break; case STATE_SSL_CONNECT_COMPLETE: rv = DoSSLConnectComplete(rv); break; case STATE_HTTP_PROXY_CONNECT: DCHECK_EQ(OK, rv); rv = DoHttpProxyConnect(); break; case STATE_HTTP_PROXY_CONNECT_COMPLETE: rv = DoHttpProxyConnectComplete(rv); break; case STATE_SPDY_PROXY_CREATE_STREAM: DCHECK_EQ(OK, rv); rv = DoSpdyProxyCreateStream(); break; case STATE_SPDY_PROXY_CREATE_STREAM_COMPLETE: rv = DoSpdyProxyCreateStreamComplete(rv); break; case STATE_RESTART_WITH_AUTH: DCHECK_EQ(OK, rv); rv = DoRestartWithAuth(); break; case STATE_RESTART_WITH_AUTH_COMPLETE: rv = DoRestartWithAuthComplete(rv); break; default: NOTREACHED() << "bad state"; rv = ERR_FAILED; break; } } while (rv != ERR_IO_PENDING && next_state_ != STATE_NONE); return rv; } int HttpProxyClientSocketWrapper::DoBeginConnect() { connect_start_time_ = base::TimeTicks::Now(); SetConnectTimer(connect_timeout_duration_); if (transport_params_) { next_state_ = STATE_TCP_CONNECT; } else { next_state_ = STATE_SSL_CONNECT; } return OK; } int HttpProxyClientSocketWrapper::DoTransportConnect() { next_state_ = STATE_TCP_CONNECT_COMPLETE; transport_socket_handle_.reset(new ClientSocketHandle()); return transport_socket_handle_->Init( group_name_, transport_params_, priority_, respect_limits_, base::Bind(&HttpProxyClientSocketWrapper::OnIOComplete, base::Unretained(this)), transport_pool_, net_log_); } int HttpProxyClientSocketWrapper::DoTransportConnectComplete(int result) { if (result != OK) { UMA_HISTOGRAM_MEDIUM_TIMES("Net.HttpProxy.ConnectLatency.Insecure.Error", base::TimeTicks::Now() - connect_start_time_); return ERR_PROXY_CONNECTION_FAILED; } // Reset the timer to just the length of time allowed for HttpProxy handshake // so that a fast TCP connection plus a slow HttpProxy failure doesn't take // longer to timeout than it should. SetConnectTimer(proxy_negotiation_timeout_duration_); next_state_ = STATE_HTTP_PROXY_CONNECT; return result; } int HttpProxyClientSocketWrapper::DoSSLConnect() { if (tunnel_) { SpdySessionKey key(GetDestination().host_port_pair(), ProxyServer::Direct(), PRIVACY_MODE_DISABLED); if (spdy_session_pool_->FindAvailableSession( key, /* enable_ip_based_pooling = */ true, net_log_)) { using_spdy_ = true; next_state_ = STATE_SPDY_PROXY_CREATE_STREAM; return OK; } } next_state_ = STATE_SSL_CONNECT_COMPLETE; transport_socket_handle_.reset(new ClientSocketHandle()); return transport_socket_handle_->Init( group_name_, ssl_params_, priority_, respect_limits_, base::Bind(&HttpProxyClientSocketWrapper::OnIOComplete, base::Unretained(this)), ssl_pool_, net_log_); } int HttpProxyClientSocketWrapper::DoSSLConnectComplete(int result) { if (result == ERR_SSL_CLIENT_AUTH_CERT_NEEDED) { DCHECK( transport_socket_handle_->ssl_error_response_info().cert_request_info); UMA_HISTOGRAM_MEDIUM_TIMES("Net.HttpProxy.ConnectLatency.Secure.Error", base::TimeTicks::Now() - connect_start_time_); error_response_info_.reset(new HttpResponseInfo( transport_socket_handle_->ssl_error_response_info())); error_response_info_->cert_request_info->is_proxy = true; return result; } if (IsCertificateError(result)) { UMA_HISTOGRAM_MEDIUM_TIMES("Net.HttpProxy.ConnectLatency.Secure.Error", base::TimeTicks::Now() - connect_start_time_); if (ssl_params_->load_flags() & LOAD_IGNORE_ALL_CERT_ERRORS) { result = OK; } else { // TODO(rch): allow the user to deal with proxy cert errors in the // same way as server cert errors. transport_socket_handle_->socket()->Disconnect(); return ERR_PROXY_CERTIFICATE_INVALID; } } // A SPDY session to the proxy completed prior to resolving the proxy // hostname. Surface this error, and allow the delegate to retry. // See crbug.com/334413. if (result == ERR_SPDY_SESSION_ALREADY_EXISTS) { DCHECK(!transport_socket_handle_->socket()); return ERR_SPDY_SESSION_ALREADY_EXISTS; } if (result < 0) { UMA_HISTOGRAM_MEDIUM_TIMES("Net.HttpProxy.ConnectLatency.Secure.Error", base::TimeTicks::Now() - connect_start_time_); if (transport_socket_handle_->socket()) transport_socket_handle_->socket()->Disconnect(); return ERR_PROXY_CONNECTION_FAILED; } SSLClientSocket* ssl = static_cast(transport_socket_handle_->socket()); negotiated_protocol_ = ssl->GetNegotiatedProtocol(); using_spdy_ = negotiated_protocol_ == kProtoHTTP2; // Reset the timer to just the length of time allowed for HttpProxy handshake // so that a fast SSL connection plus a slow HttpProxy failure doesn't take // longer to timeout than it should. SetConnectTimer(proxy_negotiation_timeout_duration_); // TODO(rch): If we ever decide to implement a "trusted" SPDY proxy // (one that we speak SPDY over SSL to, but to which we send HTTPS // request directly instead of through CONNECT tunnels, then we // need to add a predicate to this if statement so we fall through // to the else case. (HttpProxyClientSocket currently acts as // a "trusted" SPDY proxy). if (using_spdy_ && tunnel_) { next_state_ = STATE_SPDY_PROXY_CREATE_STREAM; } else { next_state_ = STATE_HTTP_PROXY_CONNECT; } return result; } int HttpProxyClientSocketWrapper::DoHttpProxyConnect() { next_state_ = STATE_HTTP_PROXY_CONNECT_COMPLETE; if (transport_params_) { UMA_HISTOGRAM_MEDIUM_TIMES("Net.HttpProxy.ConnectLatency.Insecure.Success", base::TimeTicks::Now() - connect_start_time_); } else { UMA_HISTOGRAM_MEDIUM_TIMES("Net.HttpProxy.ConnectLatency.Secure.Success", base::TimeTicks::Now() - connect_start_time_); } // Add a HttpProxy connection on top of the tcp socket. transport_socket_.reset(new HttpProxyClientSocket( transport_socket_handle_.release(), user_agent_, endpoint_, GetDestination().host_port_pair(), http_auth_controller_.get(), tunnel_, using_spdy_, negotiated_protocol_, proxy_delegate_, ssl_params_.get() != nullptr)); return transport_socket_->Connect(base::Bind( &HttpProxyClientSocketWrapper::OnIOComplete, base::Unretained(this))); } int HttpProxyClientSocketWrapper::DoHttpProxyConnectComplete(int result) { if (result == ERR_HTTP_1_1_REQUIRED) return ERR_PROXY_HTTP_1_1_REQUIRED; return result; } int HttpProxyClientSocketWrapper::DoSpdyProxyCreateStream() { DCHECK(using_spdy_); DCHECK(tunnel_); SpdySessionKey key(GetDestination().host_port_pair(), ProxyServer::Direct(), PRIVACY_MODE_DISABLED); base::WeakPtr spdy_session = spdy_session_pool_->FindAvailableSession( key, /* enable_ip_based_pooling = */ true, net_log_); // It's possible that a session to the proxy has recently been created if (spdy_session) { if (transport_socket_handle_.get()) { if (transport_socket_handle_->socket()) transport_socket_handle_->socket()->Disconnect(); transport_socket_handle_->Reset(); } } else { // Create a session direct to the proxy itself spdy_session = spdy_session_pool_->CreateAvailableSessionFromSocket( key, std::move(transport_socket_handle_), net_log_); DCHECK(spdy_session); } next_state_ = STATE_SPDY_PROXY_CREATE_STREAM_COMPLETE; return spdy_stream_request_.StartRequest( SPDY_BIDIRECTIONAL_STREAM, spdy_session, GURL("https://" + endpoint_.ToString()), priority_, spdy_session->net_log(), base::Bind(&HttpProxyClientSocketWrapper::OnIOComplete, base::Unretained(this))); } int HttpProxyClientSocketWrapper::DoSpdyProxyCreateStreamComplete(int result) { if (result < 0) return result; next_state_ = STATE_HTTP_PROXY_CONNECT_COMPLETE; base::WeakPtr stream = spdy_stream_request_.ReleaseStream(); DCHECK(stream.get()); // |transport_socket_| will set itself as |stream|'s delegate. transport_socket_.reset(new SpdyProxyClientSocket( stream, user_agent_, endpoint_, net_log_, http_auth_controller_.get())); return transport_socket_->Connect(base::Bind( &HttpProxyClientSocketWrapper::OnIOComplete, base::Unretained(this))); } int HttpProxyClientSocketWrapper::DoRestartWithAuth() { DCHECK(transport_socket_); next_state_ = STATE_RESTART_WITH_AUTH_COMPLETE; return transport_socket_->RestartWithAuth(base::Bind( &HttpProxyClientSocketWrapper::OnIOComplete, base::Unretained(this))); } int HttpProxyClientSocketWrapper::DoRestartWithAuthComplete(int result) { DCHECK_NE(ERR_IO_PENDING, result); // If the connection could not be reused to attempt to send proxy auth // credentials, try reconnecting. Do not reset the HttpAuthController in this // case; the server may, for instance, send "Proxy-Connection: close" and // expect that each leg of the authentication progress on separate // connections. bool reconnect = result == ERR_UNABLE_TO_REUSE_CONNECTION_FOR_PROXY_AUTH; // If auth credentials were sent but the connection was closed, the server may // have timed out while the user was selecting credentials. Retry once. if (!has_restarted_ && (result == ERR_CONNECTION_CLOSED || result == ERR_CONNECTION_RESET || result == ERR_CONNECTION_ABORTED || result == ERR_SOCKET_NOT_CONNECTED)) { reconnect = true; has_restarted_ = true; // Release any auth state bound to the connection. The new connection will // start the current scheme from scratch. if (http_auth_controller_) http_auth_controller_->OnConnectionClosed(); } if (reconnect) { // Attempt to create a new one. transport_socket_.reset(); // Reconnect with HIGHEST priority to get in front of other requests that // don't yet have the information |http_auth_controller_| does. // TODO(mmenke): This may still result in waiting in line, if there are // other HIGHEST priority requests. Consider a workaround for // that. Starting the new request before releasing the old // socket and using RespectLimits::Disabled would work, // without exceding the the socket pool limits (Since the old // socket would free up the extra socket slot when destroyed). priority_ = HIGHEST; next_state_ = STATE_BEGIN_CONNECT; return OK; } return result; } void HttpProxyClientSocketWrapper::NotifyProxyDelegateOfCompletion(int result) { if (!proxy_delegate_) return; const HostPortPair& proxy_server = GetDestination().host_port_pair(); proxy_delegate_->OnTunnelConnectCompleted(endpoint_, proxy_server, result); } void HttpProxyClientSocketWrapper::SetConnectTimer(base::TimeDelta delay) { connect_timer_.Stop(); connect_timer_.Start(FROM_HERE, delay, this, &HttpProxyClientSocketWrapper::ConnectTimeout); } void HttpProxyClientSocketWrapper::ConnectTimeout() { // Timer shouldn't be running if next_state_ is STATE_NONE. DCHECK_NE(STATE_NONE, next_state_); DCHECK(!connect_callback_.is_null()); if (next_state_ == STATE_TCP_CONNECT_COMPLETE || next_state_ == STATE_SSL_CONNECT_COMPLETE) { if (transport_params_) { UMA_HISTOGRAM_MEDIUM_TIMES( "Net.HttpProxy.ConnectLatency.Insecure.TimedOut", base::TimeTicks::Now() - connect_start_time_); } else { UMA_HISTOGRAM_MEDIUM_TIMES("Net.HttpProxy.ConnectLatency.Secure.TimedOut", base::TimeTicks::Now() - connect_start_time_); } } NotifyProxyDelegateOfCompletion(ERR_CONNECTION_TIMED_OUT); CompletionCallback callback = connect_callback_; Disconnect(); callback.Run(ERR_CONNECTION_TIMED_OUT); } const HostResolver::RequestInfo& HttpProxyClientSocketWrapper::GetDestination() { if (transport_params_) { return transport_params_->destination(); } else { return ssl_params_->GetDirectConnectionParams()->destination(); } } } // namespace net