quic/tools/quic_client_base.cc - quiche - Git at Google

 // 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/third_party/quiche/src/quic/tools/quic_client_base.h"

 #include "net/third_party/quiche/src/quic/core/crypto/quic_random.h"
 #include "net/third_party/quiche/src/quic/core/http/spdy_utils.h"
 #include "net/third_party/quiche/src/quic/core/quic_server_id.h"
 #include "net/third_party/quiche/src/quic/core/quic_utils.h"
 #include "net/third_party/quiche/src/quic/core/tls_client_handshaker.h"
 #include "net/third_party/quiche/src/quic/platform/api/quic_flags.h"
 #include "net/third_party/quiche/src/quic/platform/api/quic_logging.h"
 #include "net/third_party/quiche/src/quic/platform/api/quic_text_utils.h"

 namespace quic {

 QuicClientBase::NetworkHelper::~NetworkHelper() = default;

 QuicClientBase::QuicClientBase(
     const QuicServerId& server_id,
     const ParsedQuicVersionVector& supported_versions,
     const QuicConfig& config,
     QuicConnectionHelperInterface* helper,
     QuicAlarmFactory* alarm_factory,
     std::unique_ptr<NetworkHelper> network_helper,
     std::unique_ptr<ProofVerifier> proof_verifier)
     : server_id_(server_id),
       initialized_(false),
       local_port_(0),
       config_(config),
       crypto_config_(std::move(proof_verifier),
                      TlsClientHandshaker::CreateSslCtx()),
       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() = default;

 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 (GetQuicReloadableFlag(enable_quic_stateless_reject_support) &&
         connected()) {
       // Resend any previously queued data.
       ResendSavedData();
     }
     ParsedQuicVersion version = UnsupportedQuicVersion();
     if (session() != nullptr &&
         session()->error() != QUIC_CRYPTO_HANDSHAKE_STATELESS_REJECT &&
         !CanReconnectWithDifferentVersion(&version)) {
       // We've successfully created a session but we're not connected, and there
       // is no stateless reject to recover from and cannot try to reconnect with
       // different version.  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();
   ParsedQuicVersion mutual_version = UnsupportedQuicVersion();
   const bool can_reconnect_with_different_version =
       CanReconnectWithDifferentVersion(&mutual_version);
   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.
     // Keep queued up data if client can try to connect with a different
     // version.
     if (session()->error() != QUIC_CRYPTO_HANDSHAKE_STATELESS_REJECT &&
         !can_reconnect_with_different_version) {
       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(
       supported_versions(),
       new QuicConnection(GetNextConnectionId(), server_address(), helper(),
                          alarm_factory(), writer,
                          /* owns_writer= */ false, Perspective::IS_CLIENT,
                          can_reconnect_with_different_version
                              ? ParsedQuicVersionVector{mutual_version}
                              : 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_);

   initialized_ = false;
   if (connected()) {
     session()->connection()->CloseConnection(
         QUIC_PEER_GOING_AWAY, "Client disconnecting",
         ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
   }

   ClearDataToResend();

   network_helper_->CleanUpAllUDPSockets();
 }

 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);
   ParsedQuicVersion version = UnsupportedQuicVersion();
   if (!connected() &&
       (session()->error() == QUIC_CRYPTO_HANDSHAKE_STATELESS_REJECT ||
        CanReconnectWithDifferentVersion(&version))) {
     if (session()->error() == QUIC_CRYPTO_HANDSHAKE_STATELESS_REJECT) {
       DCHECK(GetQuicReloadableFlag(enable_quic_stateless_reject_support));
       QUIC_DLOG(INFO) << "Detected stateless reject while waiting for events.  "
                       << "Attempting to reconnect.";
     } else {
       QUIC_DLOG(INFO) << "Can reconnect with version: " << version
                       << ", attempting to reconnect.";
     }
     Connect();
   }

   return session()->num_active_requests() != 0;
 }

 bool QuicClientBase::MigrateSocket(const QuicIpAddress& new_host) {
   return MigrateSocketWithSpecifiedPort(new_host, local_port_);
 }

 bool QuicClientBase::MigrateSocketWithSpecifiedPort(
     const QuicIpAddress& new_host,
     int port) {
   if (!connected()) {
     return false;
   }

   network_helper_->CleanUpAllUDPSockets();

   set_bind_to_address(new_host);
   if (!network_helper_->CreateUDPSocketAndBind(server_address_,
                                                bind_to_address_, port)) {
     return false;
   }

   session()->connection()->SetSelfAddress(
       network_helper_->GetLatestClientAddress());

   QuicPacketWriter* writer = network_helper_->CreateQuicPacketWriter();
   set_writer(writer);
   session()->connection()->SetQuicPacketWriter(writer, false);

   return true;
 }

 bool QuicClientBase::ChangeEphemeralPort() {
   auto current_host = network_helper_->GetLatestClientAddress().host();
   return MigrateSocketWithSpecifiedPort(current_host, 0 /*any ephemeral port*/);
 }

 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.IsEmpty() ? 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()
              : EmptyQuicConnectionId();
 }

 QuicConnectionId QuicClientBase::GenerateNewConnectionId() {
   return QuicUtils::CreateRandomConnectionId();
 }

 bool QuicClientBase::CanReconnectWithDifferentVersion(
     ParsedQuicVersion* version) const {
   if (session_ == nullptr || session_->connection() == nullptr ||
       session_->error() != QUIC_INVALID_VERSION ||
       session_->connection()->server_supported_versions().empty()) {
     return false;
   }
   for (const auto& client_version : supported_versions_) {
     if (QuicContainsValue(session_->connection()->server_supported_versions(),
                           client_version)) {
       *version = client_version;
       return true;
     }
   }
   return false;
 }

 }  // namespace quic
	// 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/third_party/quiche/src/quic/tools/quic_client_base.h"

	#include "net/third_party/quiche/src/quic/core/crypto/quic_random.h"
	#include "net/third_party/quiche/src/quic/core/http/spdy_utils.h"
	#include "net/third_party/quiche/src/quic/core/quic_server_id.h"
	#include "net/third_party/quiche/src/quic/core/quic_utils.h"
	#include "net/third_party/quiche/src/quic/core/tls_client_handshaker.h"
	#include "net/third_party/quiche/src/quic/platform/api/quic_flags.h"
	#include "net/third_party/quiche/src/quic/platform/api/quic_logging.h"
	#include "net/third_party/quiche/src/quic/platform/api/quic_text_utils.h"

	namespace quic {

	QuicClientBase::NetworkHelper::~NetworkHelper() = default;

	QuicClientBase::QuicClientBase(
	const QuicServerId& server_id,
	const ParsedQuicVersionVector& supported_versions,
	const QuicConfig& config,
	QuicConnectionHelperInterface* helper,
	QuicAlarmFactory* alarm_factory,
	std::unique_ptr<NetworkHelper> network_helper,
	std::unique_ptr<ProofVerifier> proof_verifier)
	: server_id_(server_id),
	initialized_(false),
	local_port_(0),
	config_(config),
	crypto_config_(std::move(proof_verifier),
	TlsClientHandshaker::CreateSslCtx()),
	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() = default;

	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 (GetQuicReloadableFlag(enable_quic_stateless_reject_support) &&
	connected()) {
	// Resend any previously queued data.
	ResendSavedData();
	}
	ParsedQuicVersion version = UnsupportedQuicVersion();
	if (session() != nullptr &&
	session()->error() != QUIC_CRYPTO_HANDSHAKE_STATELESS_REJECT &&
	!CanReconnectWithDifferentVersion(&version)) {
	// We've successfully created a session but we're not connected, and there
	// is no stateless reject to recover from and cannot try to reconnect with
	// different version. 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();
	ParsedQuicVersion mutual_version = UnsupportedQuicVersion();
	const bool can_reconnect_with_different_version =
	CanReconnectWithDifferentVersion(&mutual_version);
	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.
	// Keep queued up data if client can try to connect with a different
	// version.
	if (session()->error() != QUIC_CRYPTO_HANDSHAKE_STATELESS_REJECT &&
	!can_reconnect_with_different_version) {
	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(
	supported_versions(),
	new QuicConnection(GetNextConnectionId(), server_address(), helper(),
	alarm_factory(), writer,
	/* owns_writer= */ false, Perspective::IS_CLIENT,
	can_reconnect_with_different_version
	? ParsedQuicVersionVector{mutual_version}
	: 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_);

	initialized_ = false;
	if (connected()) {
	session()->connection()->CloseConnection(
	QUIC_PEER_GOING_AWAY, "Client disconnecting",
	ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
	}

	ClearDataToResend();

	network_helper_->CleanUpAllUDPSockets();
	}

	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);
	ParsedQuicVersion version = UnsupportedQuicVersion();
	if (!connected() &&
	(session()->error() == QUIC_CRYPTO_HANDSHAKE_STATELESS_REJECT \|\|
	CanReconnectWithDifferentVersion(&version))) {
	if (session()->error() == QUIC_CRYPTO_HANDSHAKE_STATELESS_REJECT) {
	DCHECK(GetQuicReloadableFlag(enable_quic_stateless_reject_support));
	QUIC_DLOG(INFO) << "Detected stateless reject while waiting for events. "
	<< "Attempting to reconnect.";
	} else {
	QUIC_DLOG(INFO) << "Can reconnect with version: " << version
	<< ", attempting to reconnect.";
	}
	Connect();
	}

	return session()->num_active_requests() != 0;
	}

	bool QuicClientBase::MigrateSocket(const QuicIpAddress& new_host) {
	return MigrateSocketWithSpecifiedPort(new_host, local_port_);
	}

	bool QuicClientBase::MigrateSocketWithSpecifiedPort(
	const QuicIpAddress& new_host,
	int port) {
	if (!connected()) {
	return false;
	}

	network_helper_->CleanUpAllUDPSockets();

	set_bind_to_address(new_host);
	if (!network_helper_->CreateUDPSocketAndBind(server_address_,
	bind_to_address_, port)) {
	return false;
	}

	session()->connection()->SetSelfAddress(
	network_helper_->GetLatestClientAddress());

	QuicPacketWriter* writer = network_helper_->CreateQuicPacketWriter();
	set_writer(writer);
	session()->connection()->SetQuicPacketWriter(writer, false);

	return true;
	}

	bool QuicClientBase::ChangeEphemeralPort() {
	auto current_host = network_helper_->GetLatestClientAddress().host();
	return MigrateSocketWithSpecifiedPort(current_host, 0 /any ephemeral port/);
	}

	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.IsEmpty() ? 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()
	: EmptyQuicConnectionId();
	}

	QuicConnectionId QuicClientBase::GenerateNewConnectionId() {
	return QuicUtils::CreateRandomConnectionId();
	}

	bool QuicClientBase::CanReconnectWithDifferentVersion(
	ParsedQuicVersion* version) const {
	if (session_ == nullptr \|\| session_->connection() == nullptr \|\|
	session_->error() != QUIC_INVALID_VERSION \|\|
	session_->connection()->server_supported_versions().empty()) {
	return false;
	}
	for (const auto& client_version : supported_versions_) {
	if (QuicContainsValue(session_->connection()->server_supported_versions(),
	client_version)) {
	*version = client_version;
	return true;
	}
	}
	return false;
	}

	} // namespace quic