// Copyright (c) 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/tools/quic/quic_client_base.h" #include "net/quic/core/crypto/quic_random.h" #include "net/quic/core/quic_server_id.h" #include "net/quic/core/spdy_utils.h" #include "net/quic/platform/api/quic_flags.h" #include "net/quic/platform/api/quic_logging.h" #include "net/quic/platform/api/quic_text_utils.h" using base::StringToInt; using std::string; namespace net { QuicClientBase::NetworkHelper::~NetworkHelper() {} QuicClientBase::QuicClientBase( const QuicServerId& server_id, const QuicTransportVersionVector& supported_versions, const QuicConfig& config, QuicConnectionHelperInterface* helper, QuicAlarmFactory* alarm_factory, std::unique_ptr network_helper, std::unique_ptr proof_verifier) : server_id_(server_id), initialized_(false), local_port_(0), config_(config), crypto_config_(std::move(proof_verifier)), helper_(helper), alarm_factory_(alarm_factory), supported_versions_(supported_versions), initial_max_packet_length_(0), num_stateless_rejects_received_(0), num_sent_client_hellos_(0), connection_error_(QUIC_NO_ERROR), connected_or_attempting_connect_(false), network_helper_(std::move(network_helper)) {} QuicClientBase::~QuicClientBase() {} bool QuicClientBase::Initialize() { num_sent_client_hellos_ = 0; num_stateless_rejects_received_ = 0; connection_error_ = QUIC_NO_ERROR; connected_or_attempting_connect_ = false; // If an initial flow control window has not explicitly been set, then use the // same values that Chrome uses. const uint32_t kSessionMaxRecvWindowSize = 15 * 1024 * 1024; // 15 MB const uint32_t kStreamMaxRecvWindowSize = 6 * 1024 * 1024; // 6 MB if (config()->GetInitialStreamFlowControlWindowToSend() == kMinimumFlowControlSendWindow) { config()->SetInitialStreamFlowControlWindowToSend(kStreamMaxRecvWindowSize); } if (config()->GetInitialSessionFlowControlWindowToSend() == kMinimumFlowControlSendWindow) { config()->SetInitialSessionFlowControlWindowToSend( kSessionMaxRecvWindowSize); } if (!network_helper_->CreateUDPSocketAndBind(server_address_, bind_to_address_, local_port_)) { return false; } initialized_ = true; return true; } bool QuicClientBase::Connect() { // Attempt multiple connects until the maximum number of client hellos have // been sent. while (!connected() && GetNumSentClientHellos() <= QuicCryptoClientStream::kMaxClientHellos) { StartConnect(); while (EncryptionBeingEstablished()) { WaitForEvents(); } if (FLAGS_quic_reloadable_flag_enable_quic_stateless_reject_support && connected()) { // Resend any previously queued data. ResendSavedData(); } if (session() != nullptr && session()->error() != QUIC_CRYPTO_HANDSHAKE_STATELESS_REJECT) { // We've successfully created a session but we're not connected, and there // is no stateless reject to recover from. Give up trying. break; } } if (!connected() && GetNumSentClientHellos() > QuicCryptoClientStream::kMaxClientHellos && session() != nullptr && session()->error() == QUIC_CRYPTO_HANDSHAKE_STATELESS_REJECT) { // The overall connection failed due too many stateless rejects. set_connection_error(QUIC_CRYPTO_TOO_MANY_REJECTS); } return session()->connection()->connected(); } void QuicClientBase::StartConnect() { DCHECK(initialized_); DCHECK(!connected()); QuicPacketWriter* writer = network_helper_->CreateQuicPacketWriter(); if (connected_or_attempting_connect()) { // If the last error was not a stateless reject, then the queued up data // does not need to be resent. if (session()->error() != QUIC_CRYPTO_HANDSHAKE_STATELESS_REJECT) { ClearDataToResend(); } // Before we destroy the last session and create a new one, gather its stats // and update the stats for the overall connection. UpdateStats(); } session_ = CreateQuicClientSession(new QuicConnection( GetNextConnectionId(), server_address(), helper(), alarm_factory(), writer, /* owns_writer= */ false, Perspective::IS_CLIENT, supported_versions())); if (initial_max_packet_length_ != 0) { session()->connection()->SetMaxPacketLength(initial_max_packet_length_); } // Reset |writer()| after |session()| so that the old writer outlives the old // session. set_writer(writer); InitializeSession(); set_connected_or_attempting_connect(true); } void QuicClientBase::InitializeSession() { session()->Initialize(); } void QuicClientBase::Disconnect() { DCHECK(initialized_); if (connected()) { session()->connection()->CloseConnection( QUIC_PEER_GOING_AWAY, "Client disconnecting", ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET); } ClearDataToResend(); network_helper_->CleanUpAllUDPSockets(); initialized_ = false; } ProofVerifier* QuicClientBase::proof_verifier() const { return crypto_config_.proof_verifier(); } bool QuicClientBase::EncryptionBeingEstablished() { return !session_->IsEncryptionEstablished() && session_->connection()->connected(); } bool QuicClientBase::WaitForEvents() { DCHECK(connected()); network_helper_->RunEventLoop(); DCHECK(session() != nullptr); if (!connected() && session()->error() == QUIC_CRYPTO_HANDSHAKE_STATELESS_REJECT) { DCHECK(FLAGS_quic_reloadable_flag_enable_quic_stateless_reject_support); QUIC_DLOG(INFO) << "Detected stateless reject while waiting for events. " << "Attempting to reconnect."; Connect(); } return session()->num_active_requests() != 0; } bool QuicClientBase::MigrateSocket(const QuicIpAddress& new_host) { if (!connected()) { return false; } network_helper_->CleanUpAllUDPSockets(); set_bind_to_address(new_host); if (!network_helper_->CreateUDPSocketAndBind(server_address_, bind_to_address_, local_port_)) { return false; } session()->connection()->SetSelfAddress( network_helper_->GetLatestClientAddress()); QuicPacketWriter* writer = network_helper_->CreateQuicPacketWriter(); set_writer(writer); session()->connection()->SetQuicPacketWriter(writer, false); return true; } QuicSession* QuicClientBase::session() { return session_.get(); } QuicClientBase::NetworkHelper* QuicClientBase::network_helper() { return network_helper_.get(); } const QuicClientBase::NetworkHelper* QuicClientBase::network_helper() const { return network_helper_.get(); } void QuicClientBase::WaitForStreamToClose(QuicStreamId id) { DCHECK(connected()); while (connected() && !session_->IsClosedStream(id)) { WaitForEvents(); } } bool QuicClientBase::WaitForCryptoHandshakeConfirmed() { DCHECK(connected()); while (connected() && !session_->IsCryptoHandshakeConfirmed()) { WaitForEvents(); } // If the handshake fails due to a timeout, the connection will be closed. QUIC_LOG_IF(ERROR, !connected()) << "Handshake with server failed."; return connected(); } bool QuicClientBase::connected() const { return session_.get() && session_->connection() && session_->connection()->connected(); } bool QuicClientBase::goaway_received() const { return session_ != nullptr && session_->goaway_received(); } int QuicClientBase::GetNumSentClientHellos() { // If we are not actively attempting to connect, the session object // corresponds to the previous connection and should not be used. const int current_session_hellos = !connected_or_attempting_connect_ ? 0 : GetNumSentClientHellosFromSession(); return num_sent_client_hellos_ + current_session_hellos; } void QuicClientBase::UpdateStats() { num_sent_client_hellos_ += GetNumSentClientHellosFromSession(); if (session()->error() == QUIC_CRYPTO_HANDSHAKE_STATELESS_REJECT) { ++num_stateless_rejects_received_; } } int QuicClientBase::GetNumReceivedServerConfigUpdates() { // If we are not actively attempting to connect, the session object // corresponds to the previous connection and should not be used. // We do not need to take stateless rejects into account, since we // don't expect any scup messages to be sent during a // statelessly-rejected connection. return !connected_or_attempting_connect_ ? 0 : GetNumReceivedServerConfigUpdatesFromSession(); } QuicErrorCode QuicClientBase::connection_error() const { // Return the high-level error if there was one. Otherwise, return the // connection error from the last session. if (connection_error_ != QUIC_NO_ERROR) { return connection_error_; } if (session_ == nullptr) { return QUIC_NO_ERROR; } return session_->error(); } QuicConnectionId QuicClientBase::GetNextConnectionId() { QuicConnectionId server_designated_id = GetNextServerDesignatedConnectionId(); return server_designated_id ? server_designated_id : GenerateNewConnectionId(); } QuicConnectionId QuicClientBase::GetNextServerDesignatedConnectionId() { QuicCryptoClientConfig::CachedState* cached = crypto_config_.LookupOrCreate(server_id_); // If the cached state indicates that we should use a server-designated // connection ID, then return that connection ID. CHECK(cached != nullptr) << "QuicClientCryptoConfig::LookupOrCreate returned " << "unexpected nullptr."; return cached->has_server_designated_connection_id() ? cached->GetNextServerDesignatedConnectionId() : 0; } QuicConnectionId QuicClientBase::GenerateNewConnectionId() { return QuicRandom::GetInstance()->RandUint64(); } } // namespace net