quic/tools/quic_client_base.h - 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.

 // A base class for the toy client, which connects to a specified port and sends
 // QUIC request to that endpoint.

 #ifndef QUICHE_QUIC_TOOLS_QUIC_CLIENT_BASE_H_
 #define QUICHE_QUIC_TOOLS_QUIC_CLIENT_BASE_H_

 #include <memory>
 #include <string>

 #include "absl/base/attributes.h"
 #include "absl/strings/string_view.h"
 #include "quic/core/crypto/crypto_handshake.h"
 #include "quic/core/http/quic_client_push_promise_index.h"
 #include "quic/core/http/quic_spdy_client_session.h"
 #include "quic/core/http/quic_spdy_client_stream.h"
 #include "quic/core/quic_config.h"
 #include "quic/platform/api/quic_socket_address.h"

 namespace quic {

 class ProofVerifier;
 class QuicServerId;
 class SessionCache;

 // QuicClientBase handles establishing a connection to the passed in
 // server id, including ensuring that it supports the passed in versions
 // and config.
 // Subclasses derived from this class are responsible for creating the
 // actual QuicSession instance, as well as defining functions that
 // create and run the underlying network transport.
 class QuicClientBase {
  public:
   // An interface to various network events that the QuicClient will need to
   // interact with.
   class NetworkHelper {
    public:
     virtual ~NetworkHelper();

     // Runs one iteration of the event loop.
     virtual void RunEventLoop() = 0;

     // Used during initialization: creates the UDP socket FD, sets socket
     // options, and binds the socket to our address.
     virtual bool CreateUDPSocketAndBind(QuicSocketAddress server_address,
                                         QuicIpAddress bind_to_address,
                                         int bind_to_port) = 0;

     // Unregister and close all open UDP sockets.
     virtual void CleanUpAllUDPSockets() = 0;

     // If the client has at least one UDP socket, return address of the latest
     // created one. Otherwise, return an empty socket address.
     virtual QuicSocketAddress GetLatestClientAddress() const = 0;

     // Creates a packet writer to be used for the next connection.
     virtual QuicPacketWriter* CreateQuicPacketWriter() = 0;
   };

   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,
                  std::unique_ptr<SessionCache> session_cache);
   QuicClientBase(const QuicClientBase&) = delete;
   QuicClientBase& operator=(const QuicClientBase&) = delete;

   virtual ~QuicClientBase();

   // Initializes the client to create a connection. Should be called exactly
   // once before calling StartConnect or Connect. Returns true if the
   // initialization succeeds, false otherwise.
   virtual bool Initialize();

   // "Connect" to the QUIC server, including performing synchronous crypto
   // handshake.
   bool Connect();

   // Start the crypto handshake.  This can be done in place of the synchronous
   // Connect(), but callers are responsible for making sure the crypto handshake
   // completes.
   void StartConnect();

   // Calls session()->Initialize(). Subclasses may override this if any extra
   // initialization needs to be done. Subclasses should expect that session()
   // is non-null and valid.
   virtual void InitializeSession();

   // Disconnects from the QUIC server.
   void Disconnect();

   // Returns true if the crypto handshake has yet to establish encryption.
   // Returns false if encryption is active (even if the server hasn't confirmed
   // the handshake) or if the connection has been closed.
   bool EncryptionBeingEstablished();

   // Wait for events until the stream with the given ID is closed.
   void WaitForStreamToClose(QuicStreamId id);

   // Wait for 1-RTT keys become available.
   // Returns true once 1-RTT keys are available, false otherwise.
   ABSL_MUST_USE_RESULT bool WaitForOneRttKeysAvailable();

   // Wait for handshake state proceeds to HANDSHAKE_CONFIRMED.
   // In QUIC crypto, this does the same as WaitForOneRttKeysAvailable, while in
   // TLS, this waits for HANDSHAKE_DONE frame is received.
   ABSL_MUST_USE_RESULT bool WaitForHandshakeConfirmed();

   // Wait up to 50ms, and handle any events which occur.
   // Returns true if there are any outstanding requests.
   bool WaitForEvents();

   // Migrate to a new socket (new_host) during an active connection.
   bool MigrateSocket(const QuicIpAddress& new_host);

   // Migrate to a new socket (new_host, port) during an active connection.
   bool MigrateSocketWithSpecifiedPort(const QuicIpAddress& new_host, int port);

   // Validate the new socket and migrate to it if the validation succeeds.
   // Otherwise stay on the current socket. Return true if the validation has
   // started.
   bool ValidateAndMigrateSocket(const QuicIpAddress& new_host);

   // Open a new socket to change to a new ephemeral port.
   bool ChangeEphemeralPort();

   QuicSession* session();
   const QuicSession* session() const;

   bool connected() const;
   virtual bool goaway_received() const;

   const QuicServerId& server_id() const { return server_id_; }

   // This should only be set before the initial Connect()
   void set_server_id(const QuicServerId& server_id) { server_id_ = server_id; }

   void SetUserAgentID(const std::string& user_agent_id) {
     crypto_config_.set_user_agent_id(user_agent_id);
   }

   const ParsedQuicVersionVector& supported_versions() const {
     return supported_versions_;
   }

   void SetSupportedVersions(const ParsedQuicVersionVector& versions) {
     supported_versions_ = versions;
   }

   QuicConfig* config() { return &config_; }

   QuicCryptoClientConfig* crypto_config() { return &crypto_config_; }

   // Change the initial maximum packet size of the connection.  Has to be called
   // before Connect()/StartConnect() in order to have any effect.
   void set_initial_max_packet_length(QuicByteCount initial_max_packet_length) {
     initial_max_packet_length_ = initial_max_packet_length;
   }

   // The number of client hellos sent.
   int GetNumSentClientHellos();

   // Returns true if early data (0-RTT data) was sent and the server accepted
   // it.
   virtual bool EarlyDataAccepted() = 0;

   // Returns true if the handshake was delayed one round trip by the server
   // because the server wanted proof the client controls its source address
   // before progressing further. In Google QUIC, this would be due to an
   // inchoate REJ in the QUIC Crypto handshake; in IETF QUIC this would be due
   // to a Retry packet.
   // TODO(nharper): Consider a better name for this method.
   virtual bool ReceivedInchoateReject() = 0;

   // Gather the stats for the last session and update the stats for the overall
   // connection.
   void UpdateStats();

   // The number of server config updates received.
   int GetNumReceivedServerConfigUpdates();

   // Returns any errors that occurred at the connection-level.
   QuicErrorCode connection_error() const;
   void set_connection_error(QuicErrorCode connection_error) {
     connection_error_ = connection_error;
   }

   bool connected_or_attempting_connect() const {
     return connected_or_attempting_connect_;
   }
   void set_connected_or_attempting_connect(
       bool connected_or_attempting_connect) {
     connected_or_attempting_connect_ = connected_or_attempting_connect;
   }

   QuicPacketWriter* writer() { return writer_.get(); }
   void set_writer(QuicPacketWriter* writer) {
     if (writer_.get() != writer) {
       writer_.reset(writer);
     }
   }

   void reset_writer() { writer_.reset(); }

   ProofVerifier* proof_verifier() const;

   void set_bind_to_address(QuicIpAddress address) {
     bind_to_address_ = address;
   }

   QuicIpAddress bind_to_address() const { return bind_to_address_; }

   void set_local_port(int local_port) { local_port_ = local_port; }

   int local_port() const { return local_port_; }

   const QuicSocketAddress& server_address() const { return server_address_; }

   void set_server_address(const QuicSocketAddress& server_address) {
     server_address_ = server_address;
   }

   QuicConnectionHelperInterface* helper() { return helper_.get(); }

   NetworkHelper* network_helper();
   const NetworkHelper* network_helper() const;

   bool initialized() const { return initialized_; }

   void SetPreSharedKey(absl::string_view key) {
     crypto_config_.set_pre_shared_key(key);
   }

   void set_connection_debug_visitor(
       QuicConnectionDebugVisitor* connection_debug_visitor) {
     connection_debug_visitor_ = connection_debug_visitor;
   }

   void set_server_connection_id_length(uint8_t server_connection_id_length) {
     server_connection_id_length_ = server_connection_id_length;
   }

   void set_client_connection_id_length(uint8_t client_connection_id_length) {
     client_connection_id_length_ = client_connection_id_length;
   }

   bool HasPendingPathValidation();

   void ValidateNewNetwork(const QuicIpAddress& host);

   void AddValidatedPath(std::unique_ptr<QuicPathValidationContext> context) {
     validated_paths_.push_back(std::move(context));
   }

   const std::vector<std::unique_ptr<QuicPathValidationContext>>&
   validated_paths() const {
     return validated_paths_;
   }

  protected:
   // TODO(rch): Move GetNumSentClientHellosFromSession and
   // GetNumReceivedServerConfigUpdatesFromSession into a new/better
   // QuicSpdyClientSession class. The current inherits dependencies from
   // Spdy. When that happens this class and all its subclasses should
   // work with QuicSpdyClientSession instead of QuicSession.
   // That will obviate the need for the pure virtual functions below.

   // Extract the number of sent client hellos from the session.
   virtual int GetNumSentClientHellosFromSession() = 0;

   // The number of server config updates received.
   virtual int GetNumReceivedServerConfigUpdatesFromSession() = 0;

   // If this client supports buffering data, resend it.
   virtual void ResendSavedData() = 0;

   // If this client supports buffering data, clear it.
   virtual void ClearDataToResend() = 0;

   // Takes ownership of |connection|. If you override this function,
   // you probably want to call ResetSession() in your destructor.
   // TODO(rch): Change the connection parameter to take in a
   // std::unique_ptr<QuicConnection> instead.
   virtual std::unique_ptr<QuicSession> CreateQuicClientSession(
       const ParsedQuicVersionVector& supported_versions,
       QuicConnection* connection) = 0;

   // Generates the next ConnectionId for |server_id_|.  By default, if the
   // cached server config contains a server-designated ID, that ID will be
   // returned.  Otherwise, the next random ID will be returned.
   QuicConnectionId GetNextConnectionId();

   // Generates a new, random connection ID (as opposed to a server-designated
   // connection ID).
   virtual QuicConnectionId GenerateNewConnectionId();

   // Returns the client connection ID to use.
   virtual QuicConnectionId GetClientConnectionId();

   QuicAlarmFactory* alarm_factory() { return alarm_factory_.get(); }

   // Subclasses may need to explicitly clear the session on destruction
   // if they create it with objects that will be destroyed before this is.
   // You probably want to call this if you override CreateQuicSpdyClientSession.
   void ResetSession() { session_.reset(); }

   // Returns true if the corresponding of this client has active requests.
   virtual bool HasActiveRequests() = 0;

  private:
   // Returns true and set |version| if client can reconnect with a different
   // version.
   bool CanReconnectWithDifferentVersion(ParsedQuicVersion* version) const;

   std::unique_ptr<QuicPacketWriter> CreateWriterForNewNetwork(
       const QuicIpAddress& new_host,
       int port);

   // |server_id_| is a tuple (hostname, port, is_https) of the server.
   QuicServerId server_id_;

   // Tracks if the client is initialized to connect.
   bool initialized_;

   // Address of the server.
   QuicSocketAddress server_address_;

   // If initialized, the address to bind to.
   QuicIpAddress bind_to_address_;

   // Local port to bind to. Initialize to 0.
   int local_port_;

   // config_ and crypto_config_ contain configuration and cached state about
   // servers.
   QuicConfig config_;
   QuicCryptoClientConfig crypto_config_;

   // Helper to be used by created connections. Must outlive |session_|.
   std::unique_ptr<QuicConnectionHelperInterface> helper_;

   // Alarm factory to be used by created connections. Must outlive |session_|.
   std::unique_ptr<QuicAlarmFactory> alarm_factory_;

   // Writer used to actually send packets to the wire. Must outlive |session_|.
   std::unique_ptr<QuicPacketWriter> writer_;

   // Session which manages streams.
   std::unique_ptr<QuicSession> session_;

   // This vector contains QUIC versions which we currently support.
   // This should be ordered such that the highest supported version is the first
   // element, with subsequent elements in descending order (versions can be
   // skipped as necessary). We will always pick supported_versions_[0] as the
   // initial version to use.
   ParsedQuicVersionVector supported_versions_;

   // The initial value of maximum packet size of the connection.  If set to
   // zero, the default is used.
   QuicByteCount initial_max_packet_length_;

   // The number of hellos sent during the current/latest connection.
   int num_sent_client_hellos_;

   // Used to store any errors that occurred with the overall connection (as
   // opposed to that associated with the last session object).
   QuicErrorCode connection_error_;

   // True when the client is attempting to connect.  Set to false between a call
   // to Disconnect() and the subsequent call to StartConnect().  When
   // connected_or_attempting_connect_ is false, the session object corresponds
   // to the previous client-level connection.
   bool connected_or_attempting_connect_;

   // The network helper used to create sockets and manage the event loop.
   // Not owned by this class.
   std::unique_ptr<NetworkHelper> network_helper_;

   // The debug visitor set on the connection right after it is constructed.
   // Not owned, must be valid for the lifetime of the QuicClientBase instance.
   QuicConnectionDebugVisitor* connection_debug_visitor_;

   // GenerateNewConnectionId creates a random connection ID of this length.
   // Defaults to 8.
   uint8_t server_connection_id_length_;

   // GetClientConnectionId creates a random connection ID of this length.
   // Defaults to 0.
   uint8_t client_connection_id_length_;

   // Stores validated paths.
   std::vector<std::unique_ptr<QuicPathValidationContext>> validated_paths_;
 };

 }  // namespace quic

 #endif  // QUICHE_QUIC_TOOLS_QUIC_CLIENT_BASE_H_
	// 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.

	// A base class for the toy client, which connects to a specified port and sends
	// QUIC request to that endpoint.

	#ifndef QUICHE_QUIC_TOOLS_QUIC_CLIENT_BASE_H_
	#define QUICHE_QUIC_TOOLS_QUIC_CLIENT_BASE_H_

	#include <memory>
	#include <string>

	#include "absl/base/attributes.h"
	#include "absl/strings/string_view.h"
	#include "quic/core/crypto/crypto_handshake.h"
	#include "quic/core/http/quic_client_push_promise_index.h"
	#include "quic/core/http/quic_spdy_client_session.h"
	#include "quic/core/http/quic_spdy_client_stream.h"
	#include "quic/core/quic_config.h"
	#include "quic/platform/api/quic_socket_address.h"

	namespace quic {

	class ProofVerifier;
	class QuicServerId;
	class SessionCache;

	// QuicClientBase handles establishing a connection to the passed in
	// server id, including ensuring that it supports the passed in versions
	// and config.
	// Subclasses derived from this class are responsible for creating the
	// actual QuicSession instance, as well as defining functions that
	// create and run the underlying network transport.
	class QuicClientBase {
	public:
	// An interface to various network events that the QuicClient will need to
	// interact with.
	class NetworkHelper {
	public:
	virtual ~NetworkHelper();

	// Runs one iteration of the event loop.
	virtual void RunEventLoop() = 0;

	// Used during initialization: creates the UDP socket FD, sets socket
	// options, and binds the socket to our address.
	virtual bool CreateUDPSocketAndBind(QuicSocketAddress server_address,
	QuicIpAddress bind_to_address,
	int bind_to_port) = 0;

	// Unregister and close all open UDP sockets.
	virtual void CleanUpAllUDPSockets() = 0;

	// If the client has at least one UDP socket, return address of the latest
	// created one. Otherwise, return an empty socket address.
	virtual QuicSocketAddress GetLatestClientAddress() const = 0;

	// Creates a packet writer to be used for the next connection.
	virtual QuicPacketWriter* CreateQuicPacketWriter() = 0;
	};

	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,
	std::unique_ptr<SessionCache> session_cache);
	QuicClientBase(const QuicClientBase&) = delete;
	QuicClientBase& operator=(const QuicClientBase&) = delete;

	virtual ~QuicClientBase();

	// Initializes the client to create a connection. Should be called exactly
	// once before calling StartConnect or Connect. Returns true if the
	// initialization succeeds, false otherwise.
	virtual bool Initialize();

	// "Connect" to the QUIC server, including performing synchronous crypto
	// handshake.
	bool Connect();

	// Start the crypto handshake. This can be done in place of the synchronous
	// Connect(), but callers are responsible for making sure the crypto handshake
	// completes.
	void StartConnect();

	// Calls session()->Initialize(). Subclasses may override this if any extra
	// initialization needs to be done. Subclasses should expect that session()
	// is non-null and valid.
	virtual void InitializeSession();

	// Disconnects from the QUIC server.
	void Disconnect();

	// Returns true if the crypto handshake has yet to establish encryption.
	// Returns false if encryption is active (even if the server hasn't confirmed
	// the handshake) or if the connection has been closed.
	bool EncryptionBeingEstablished();

	// Wait for events until the stream with the given ID is closed.
	void WaitForStreamToClose(QuicStreamId id);

	// Wait for 1-RTT keys become available.
	// Returns true once 1-RTT keys are available, false otherwise.
	ABSL_MUST_USE_RESULT bool WaitForOneRttKeysAvailable();

	// Wait for handshake state proceeds to HANDSHAKE_CONFIRMED.
	// In QUIC crypto, this does the same as WaitForOneRttKeysAvailable, while in
	// TLS, this waits for HANDSHAKE_DONE frame is received.
	ABSL_MUST_USE_RESULT bool WaitForHandshakeConfirmed();

	// Wait up to 50ms, and handle any events which occur.
	// Returns true if there are any outstanding requests.
	bool WaitForEvents();

	// Migrate to a new socket (new_host) during an active connection.
	bool MigrateSocket(const QuicIpAddress& new_host);

	// Migrate to a new socket (new_host, port) during an active connection.
	bool MigrateSocketWithSpecifiedPort(const QuicIpAddress& new_host, int port);

	// Validate the new socket and migrate to it if the validation succeeds.
	// Otherwise stay on the current socket. Return true if the validation has
	// started.
	bool ValidateAndMigrateSocket(const QuicIpAddress& new_host);

	// Open a new socket to change to a new ephemeral port.
	bool ChangeEphemeralPort();

	QuicSession* session();
	const QuicSession* session() const;

	bool connected() const;
	virtual bool goaway_received() const;

	const QuicServerId& server_id() const { return server_id_; }

	// This should only be set before the initial Connect()
	void set_server_id(const QuicServerId& server_id) { server_id_ = server_id; }

	void SetUserAgentID(const std::string& user_agent_id) {
	crypto_config_.set_user_agent_id(user_agent_id);
	}

	const ParsedQuicVersionVector& supported_versions() const {
	return supported_versions_;
	}

	void SetSupportedVersions(const ParsedQuicVersionVector& versions) {
	supported_versions_ = versions;
	}

	QuicConfig* config() { return &config_; }

	QuicCryptoClientConfig* crypto_config() { return &crypto_config_; }

	// Change the initial maximum packet size of the connection. Has to be called
	// before Connect()/StartConnect() in order to have any effect.
	void set_initial_max_packet_length(QuicByteCount initial_max_packet_length) {
	initial_max_packet_length_ = initial_max_packet_length;
	}

	// The number of client hellos sent.
	int GetNumSentClientHellos();

	// Returns true if early data (0-RTT data) was sent and the server accepted
	// it.
	virtual bool EarlyDataAccepted() = 0;

	// Returns true if the handshake was delayed one round trip by the server
	// because the server wanted proof the client controls its source address
	// before progressing further. In Google QUIC, this would be due to an
	// inchoate REJ in the QUIC Crypto handshake; in IETF QUIC this would be due
	// to a Retry packet.
	// TODO(nharper): Consider a better name for this method.
	virtual bool ReceivedInchoateReject() = 0;

	// Gather the stats for the last session and update the stats for the overall
	// connection.
	void UpdateStats();

	// The number of server config updates received.
	int GetNumReceivedServerConfigUpdates();

	// Returns any errors that occurred at the connection-level.
	QuicErrorCode connection_error() const;
	void set_connection_error(QuicErrorCode connection_error) {
	connection_error_ = connection_error;
	}

	bool connected_or_attempting_connect() const {
	return connected_or_attempting_connect_;
	}
	void set_connected_or_attempting_connect(
	bool connected_or_attempting_connect) {
	connected_or_attempting_connect_ = connected_or_attempting_connect;
	}

	QuicPacketWriter* writer() { return writer_.get(); }
	void set_writer(QuicPacketWriter* writer) {
	if (writer_.get() != writer) {
	writer_.reset(writer);
	}
	}

	void reset_writer() { writer_.reset(); }

	ProofVerifier* proof_verifier() const;

	void set_bind_to_address(QuicIpAddress address) {
	bind_to_address_ = address;
	}

	QuicIpAddress bind_to_address() const { return bind_to_address_; }

	void set_local_port(int local_port) { local_port_ = local_port; }

	int local_port() const { return local_port_; }

	const QuicSocketAddress& server_address() const { return server_address_; }

	void set_server_address(const QuicSocketAddress& server_address) {
	server_address_ = server_address;
	}

	QuicConnectionHelperInterface* helper() { return helper_.get(); }

	NetworkHelper* network_helper();
	const NetworkHelper* network_helper() const;

	bool initialized() const { return initialized_; }

	void SetPreSharedKey(absl::string_view key) {
	crypto_config_.set_pre_shared_key(key);
	}

	void set_connection_debug_visitor(
	QuicConnectionDebugVisitor* connection_debug_visitor) {
	connection_debug_visitor_ = connection_debug_visitor;
	}

	void set_server_connection_id_length(uint8_t server_connection_id_length) {
	server_connection_id_length_ = server_connection_id_length;
	}

	void set_client_connection_id_length(uint8_t client_connection_id_length) {
	client_connection_id_length_ = client_connection_id_length;
	}

	bool HasPendingPathValidation();

	void ValidateNewNetwork(const QuicIpAddress& host);

	void AddValidatedPath(std::unique_ptr<QuicPathValidationContext> context) {
	validated_paths_.push_back(std::move(context));
	}

	const std::vector<std::unique_ptr<QuicPathValidationContext>>&
	validated_paths() const {
	return validated_paths_;
	}

	protected:
	// TODO(rch): Move GetNumSentClientHellosFromSession and
	// GetNumReceivedServerConfigUpdatesFromSession into a new/better
	// QuicSpdyClientSession class. The current inherits dependencies from
	// Spdy. When that happens this class and all its subclasses should
	// work with QuicSpdyClientSession instead of QuicSession.
	// That will obviate the need for the pure virtual functions below.

	// Extract the number of sent client hellos from the session.
	virtual int GetNumSentClientHellosFromSession() = 0;

	// The number of server config updates received.
	virtual int GetNumReceivedServerConfigUpdatesFromSession() = 0;

	// If this client supports buffering data, resend it.
	virtual void ResendSavedData() = 0;

	// If this client supports buffering data, clear it.
	virtual void ClearDataToResend() = 0;

	// Takes ownership of \|connection\|. If you override this function,
	// you probably want to call ResetSession() in your destructor.
	// TODO(rch): Change the connection parameter to take in a
	// std::unique_ptr<QuicConnection> instead.
	virtual std::unique_ptr<QuicSession> CreateQuicClientSession(
	const ParsedQuicVersionVector& supported_versions,
	QuicConnection* connection) = 0;

	// Generates the next ConnectionId for \|server_id_\|. By default, if the
	// cached server config contains a server-designated ID, that ID will be
	// returned. Otherwise, the next random ID will be returned.
	QuicConnectionId GetNextConnectionId();

	// Generates a new, random connection ID (as opposed to a server-designated
	// connection ID).
	virtual QuicConnectionId GenerateNewConnectionId();

	// Returns the client connection ID to use.
	virtual QuicConnectionId GetClientConnectionId();

	QuicAlarmFactory* alarm_factory() { return alarm_factory_.get(); }

	// Subclasses may need to explicitly clear the session on destruction
	// if they create it with objects that will be destroyed before this is.
	// You probably want to call this if you override CreateQuicSpdyClientSession.
	void ResetSession() { session_.reset(); }

	// Returns true if the corresponding of this client has active requests.
	virtual bool HasActiveRequests() = 0;

	private:
	// Returns true and set \|version\| if client can reconnect with a different
	// version.
	bool CanReconnectWithDifferentVersion(ParsedQuicVersion* version) const;

	std::unique_ptr<QuicPacketWriter> CreateWriterForNewNetwork(
	const QuicIpAddress& new_host,
	int port);

	// \|server_id_\| is a tuple (hostname, port, is_https) of the server.
	QuicServerId server_id_;

	// Tracks if the client is initialized to connect.
	bool initialized_;

	// Address of the server.
	QuicSocketAddress server_address_;

	// If initialized, the address to bind to.
	QuicIpAddress bind_to_address_;

	// Local port to bind to. Initialize to 0.
	int local_port_;

	// config_ and crypto_config_ contain configuration and cached state about
	// servers.
	QuicConfig config_;
	QuicCryptoClientConfig crypto_config_;

	// Helper to be used by created connections. Must outlive \|session_\|.
	std::unique_ptr<QuicConnectionHelperInterface> helper_;

	// Alarm factory to be used by created connections. Must outlive \|session_\|.
	std::unique_ptr<QuicAlarmFactory> alarm_factory_;

	// Writer used to actually send packets to the wire. Must outlive \|session_\|.
	std::unique_ptr<QuicPacketWriter> writer_;

	// Session which manages streams.
	std::unique_ptr<QuicSession> session_;

	// This vector contains QUIC versions which we currently support.
	// This should be ordered such that the highest supported version is the first
	// element, with subsequent elements in descending order (versions can be
	// skipped as necessary). We will always pick supported_versions_[0] as the
	// initial version to use.
	ParsedQuicVersionVector supported_versions_;

	// The initial value of maximum packet size of the connection. If set to
	// zero, the default is used.
	QuicByteCount initial_max_packet_length_;

	// The number of hellos sent during the current/latest connection.
	int num_sent_client_hellos_;

	// Used to store any errors that occurred with the overall connection (as
	// opposed to that associated with the last session object).
	QuicErrorCode connection_error_;

	// True when the client is attempting to connect. Set to false between a call
	// to Disconnect() and the subsequent call to StartConnect(). When
	// connected_or_attempting_connect_ is false, the session object corresponds
	// to the previous client-level connection.
	bool connected_or_attempting_connect_;

	// The network helper used to create sockets and manage the event loop.
	// Not owned by this class.
	std::unique_ptr<NetworkHelper> network_helper_;

	// The debug visitor set on the connection right after it is constructed.
	// Not owned, must be valid for the lifetime of the QuicClientBase instance.
	QuicConnectionDebugVisitor* connection_debug_visitor_;

	// GenerateNewConnectionId creates a random connection ID of this length.
	// Defaults to 8.
	uint8_t server_connection_id_length_;

	// GetClientConnectionId creates a random connection ID of this length.
	// Defaults to 0.
	uint8_t client_connection_id_length_;

	// Stores validated paths.
	std::vector<std::unique_ptr<QuicPathValidationContext>> validated_paths_;
	};

	} // namespace quic

	#endif // QUICHE_QUIC_TOOLS_QUIC_CLIENT_BASE_H_