net/quic/quic_config.h - chromium/src - Git at Google

 // Copyright (c) 2013 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.

 #ifndef NET_QUIC_QUIC_CONFIG_H_
 #define NET_QUIC_QUIC_CONFIG_H_

 #include <stddef.h>
 #include <stdint.h>

 #include <string>

 #include "net/quic/quic_protocol.h"
 #include "net/quic/quic_time.h"

 namespace net {

 namespace test {
 class QuicConfigPeer;
 }  // namespace test

 class CryptoHandshakeMessage;

 // Describes whether or not a given QuicTag is required or optional in the
 // handshake message.
 enum QuicConfigPresence {
   // This negotiable value can be absent from the handshake message. Default
   // value is selected as the negotiated value in such a case.
   PRESENCE_OPTIONAL,
   // This negotiable value is required in the handshake message otherwise the
   // Process*Hello function returns an error.
   PRESENCE_REQUIRED,
 };

 // Whether the CryptoHandshakeMessage is from the client or server.
 enum HelloType {
   CLIENT,
   SERVER,
 };

 // An abstract base class that stores a value that can be sent in CHLO/SHLO
 // message. These values can be OPTIONAL or REQUIRED, depending on |presence_|.
 class NET_EXPORT_PRIVATE QuicConfigValue {
  public:
   QuicConfigValue(QuicTag tag, QuicConfigPresence presence);
   virtual ~QuicConfigValue();

   // Serialises tag name and value(s) to |out|.
   virtual void ToHandshakeMessage(CryptoHandshakeMessage* out) const = 0;

   // Selects a mutually acceptable value from those offered in |peer_hello|
   // and those defined in the subclass.
   virtual QuicErrorCode ProcessPeerHello(
       const CryptoHandshakeMessage& peer_hello,
       HelloType hello_type,
       std::string* error_details) = 0;

  protected:
   const QuicTag tag_;
   const QuicConfigPresence presence_;
 };

 class NET_EXPORT_PRIVATE QuicNegotiableValue : public QuicConfigValue {
  public:
   QuicNegotiableValue(QuicTag tag, QuicConfigPresence presence);
   ~QuicNegotiableValue() override;

   bool negotiated() const { return negotiated_; }

  protected:
   void set_negotiated(bool negotiated) { negotiated_ = negotiated; }

  private:
   bool negotiated_;
 };

 class NET_EXPORT_PRIVATE QuicNegotiableUint32 : public QuicNegotiableValue {
   // TODO(fayang): some negotiated values use uint32 as bool (e.g., silent
   // close). Consider adding a QuicNegotiableBool type.
  public:
   // Default and max values default to 0.
   QuicNegotiableUint32(QuicTag name, QuicConfigPresence presence);
   ~QuicNegotiableUint32() override;

   // Sets the maximum possible value that can be achieved after negotiation and
   // also the default values to be assumed if PRESENCE_OPTIONAL and the *HLO msg
   // doesn't contain a value corresponding to |name_|. |max| is serialised via
   // ToHandshakeMessage call if |negotiated_| is false.
   void set(uint32_t max, uint32_t default_value);

   // Returns the value negotiated if |negotiated_| is true, otherwise returns
   // default_value_ (used to set default values before negotiation finishes).
   uint32_t GetUint32() const;

   // Serialises |name_| and value to |out|. If |negotiated_| is true then
   // |negotiated_value_| is serialised, otherwise |max_value_| is serialised.
   void ToHandshakeMessage(CryptoHandshakeMessage* out) const override;

   // Sets |negotiated_value_| to the minimum of |max_value_| and the
   // corresponding value from |peer_hello|. If the corresponding value is
   // missing and PRESENCE_OPTIONAL then |negotiated_value_| is set to
   // |default_value_|.
   QuicErrorCode ProcessPeerHello(const CryptoHandshakeMessage& peer_hello,
                                  HelloType hello_type,
                                  std::string* error_details) override;

  private:
   uint32_t max_value_;
   uint32_t default_value_;
   uint32_t negotiated_value_;
 };

 class NET_EXPORT_PRIVATE QuicNegotiableTag : public QuicNegotiableValue {
  public:
   QuicNegotiableTag(QuicTag name, QuicConfigPresence presence);
   ~QuicNegotiableTag() override;

   // Sets the possible values that |negotiated_tag_| can take after negotiation
   // and the default value that |negotiated_tag_| takes if OPTIONAL and *HLO
   // msg doesn't contain tag |name_|.
   void set(const QuicTagVector& possible_values, QuicTag default_value);

   // Serialises |name_| and vector (either possible or negotiated) to |out|. If
   // |negotiated_| is true then |negotiated_tag_| is serialised, otherwise
   // |possible_values_| is serialised.
   void ToHandshakeMessage(CryptoHandshakeMessage* out) const override;

   // Selects the tag common to both tags in |client_hello| for |name_| and
   // |possible_values_| with preference to tag in |possible_values_|. The
   // selected tag is set as |negotiated_tag_|.
   QuicErrorCode ProcessPeerHello(const CryptoHandshakeMessage& peer_hello,
                                  HelloType hello_type,
                                  std::string* error_details) override;

  private:
   // Reads the vector corresponding to |name_| from |msg| into |out|. If the
   // |name_| is absent in |msg| and |presence_| is set to OPTIONAL |out| is set
   // to |possible_values_|.
   QuicErrorCode ReadVector(const CryptoHandshakeMessage& msg,
                            const QuicTag** out,
                            size_t* out_length,
                            std::string* error_details) const;

   QuicTag negotiated_tag_;
   QuicTagVector possible_values_;
   QuicTag default_value_;
 };

 // Stores uint32_t from CHLO or SHLO messages that are not negotiated.
 class NET_EXPORT_PRIVATE QuicFixedUint32 : public QuicConfigValue {
  public:
   QuicFixedUint32(QuicTag name, QuicConfigPresence presence);
   ~QuicFixedUint32() override;

   bool HasSendValue() const;

   uint32_t GetSendValue() const;

   void SetSendValue(uint32_t value);

   bool HasReceivedValue() const;

   uint32_t GetReceivedValue() const;

   void SetReceivedValue(uint32_t value);

   // If has_send_value is true, serialises |tag_| and |send_value_| to |out|.
   void ToHandshakeMessage(CryptoHandshakeMessage* out) const override;

   // Sets |value_| to the corresponding value from |peer_hello_| if it exists.
   QuicErrorCode ProcessPeerHello(const CryptoHandshakeMessage& peer_hello,
                                  HelloType hello_type,
                                  std::string* error_details) override;

  private:
   uint32_t send_value_;
   bool has_send_value_;
   uint32_t receive_value_;
   bool has_receive_value_;
 };

 // Stores tag from CHLO or SHLO messages that are not negotiated.
 class NET_EXPORT_PRIVATE QuicFixedTagVector : public QuicConfigValue {
  public:
   QuicFixedTagVector(QuicTag name, QuicConfigPresence presence);
   QuicFixedTagVector(const QuicFixedTagVector& other);
   ~QuicFixedTagVector() override;

   bool HasSendValues() const;

   QuicTagVector GetSendValues() const;

   void SetSendValues(const QuicTagVector& values);

   bool HasReceivedValues() const;

   QuicTagVector GetReceivedValues() const;

   void SetReceivedValues(const QuicTagVector& values);

   // If has_send_value is true, serialises |tag_vector_| and |send_value_| to
   // |out|.
   void ToHandshakeMessage(CryptoHandshakeMessage* out) const override;

   // Sets |receive_values_| to the corresponding value from |client_hello_| if
   // it exists.
   QuicErrorCode ProcessPeerHello(const CryptoHandshakeMessage& peer_hello,
                                  HelloType hello_type,
                                  std::string* error_details) override;

  private:
   QuicTagVector send_values_;
   bool has_send_values_;
   QuicTagVector receive_values_;
   bool has_receive_values_;
 };

 // Stores IPEndPoint from CHLO or SHLO messages that are not negotiated.
 class QuicFixedIPEndPoint : public QuicConfigValue {
  public:
   QuicFixedIPEndPoint(QuicTag tag, QuicConfigPresence presence);
   ~QuicFixedIPEndPoint() override;

   bool HasSendValue() const;

   const IPEndPoint& GetSendValue() const;

   void SetSendValue(const IPEndPoint& value);

   bool HasReceivedValue() const;

   const IPEndPoint& GetReceivedValue() const;

   void SetReceivedValue(const IPEndPoint& value);

   void ToHandshakeMessage(CryptoHandshakeMessage* out) const override;

   QuicErrorCode ProcessPeerHello(const CryptoHandshakeMessage& peer_hello,
                                  HelloType hello_type,
                                  std::string* error_details) override;

  private:
   IPEndPoint send_value_;
   bool has_send_value_;
   IPEndPoint receive_value_;
   bool has_receive_value_;
 };

 // QuicConfig contains non-crypto configuration options that are negotiated in
 // the crypto handshake.
 class NET_EXPORT_PRIVATE QuicConfig {
  public:
   QuicConfig();
   QuicConfig(const QuicConfig& other);
   ~QuicConfig();

   void SetConnectionOptionsToSend(const QuicTagVector& connection_options);

   bool HasReceivedConnectionOptions() const;

   // Sets initial received connection options.  All received connection options
   // will be initialized with these fields. Initial received options may only be
   // set once per config, prior to the setting of any other options.  If options
   // have already been set (either by previous calls or via handshake), this
   // function does nothing and returns false.
   bool SetInitialReceivedConnectionOptions(const QuicTagVector& tags);

   QuicTagVector ReceivedConnectionOptions() const;

   bool HasSendConnectionOptions() const;

   QuicTagVector SendConnectionOptions() const;

   // Returns true if the client is sending or the server has received a
   // connection option.
   bool HasClientSentConnectionOption(QuicTag tag,
                                      Perspective perspective) const;

   void SetIdleConnectionStateLifetime(
       QuicTime::Delta max_idle_connection_state_lifetime,
       QuicTime::Delta default_idle_conection_state_lifetime);

   QuicTime::Delta IdleConnectionStateLifetime() const;

   void SetSilentClose(bool silent_close);

   bool SilentClose() const;

   void SetMaxStreamsPerConnection(size_t max_streams, size_t default_streams);

   uint32_t MaxStreamsPerConnection() const;

   void set_max_time_before_crypto_handshake(
       QuicTime::Delta max_time_before_crypto_handshake) {
     max_time_before_crypto_handshake_ = max_time_before_crypto_handshake;
   }

   QuicTime::Delta max_time_before_crypto_handshake() const {
     return max_time_before_crypto_handshake_;
   }

   void set_max_idle_time_before_crypto_handshake(
       QuicTime::Delta max_idle_time_before_crypto_handshake) {
     max_idle_time_before_crypto_handshake_ =
         max_idle_time_before_crypto_handshake;
   }

   QuicTime::Delta max_idle_time_before_crypto_handshake() const {
     return max_idle_time_before_crypto_handshake_;
   }

   void set_max_undecryptable_packets(size_t max_undecryptable_packets) {
     max_undecryptable_packets_ = max_undecryptable_packets;
   }

   size_t max_undecryptable_packets() const {
     return max_undecryptable_packets_;
   }

   bool HasSetBytesForConnectionIdToSend() const;

   // Sets the peer's connection id length, in bytes.
   void SetBytesForConnectionIdToSend(uint32_t bytes);

   bool HasReceivedBytesForConnectionId() const;

   uint32_t ReceivedBytesForConnectionId() const;

   // Sets an estimated initial round trip time in us.
   void SetInitialRoundTripTimeUsToSend(uint32_t rtt_us);

   bool HasReceivedInitialRoundTripTimeUs() const;

   uint32_t ReceivedInitialRoundTripTimeUs() const;

   bool HasInitialRoundTripTimeUsToSend() const;

   uint32_t GetInitialRoundTripTimeUsToSend() const;

   // Sets an initial stream flow control window size to transmit to the peer.
   void SetInitialStreamFlowControlWindowToSend(uint32_t window_bytes);

   uint32_t GetInitialStreamFlowControlWindowToSend() const;

   bool HasReceivedInitialStreamFlowControlWindowBytes() const;

   uint32_t ReceivedInitialStreamFlowControlWindowBytes() const;

   // Sets an initial session flow control window size to transmit to the peer.
   void SetInitialSessionFlowControlWindowToSend(uint32_t window_bytes);

   uint32_t GetInitialSessionFlowControlWindowToSend() const;

   bool HasReceivedInitialSessionFlowControlWindowBytes() const;

   uint32_t ReceivedInitialSessionFlowControlWindowBytes() const;

   // Sets socket receive buffer to transmit to the peer.
   void SetSocketReceiveBufferToSend(uint32_t window_bytes);

   bool HasReceivedSocketReceiveBuffer() const;

   uint32_t ReceivedSocketReceiveBuffer() const;

   void SetMultipathEnabled(bool multipath_enabled);

   bool MultipathEnabled() const;

   void SetDisableConnectionMigration();

   bool DisableConnectionMigration() const;

   void SetAlternateServerAddressToSend(
       const IPEndPoint& alternate_server_address);

   bool HasReceivedAlternateServerAddress() const;

   const IPEndPoint& ReceivedAlternateServerAddress() const;

   bool negotiated() const;

   // ToHandshakeMessage serialises the settings in this object as a series of
   // tags /value pairs and adds them to |out|.
   void ToHandshakeMessage(CryptoHandshakeMessage* out) const;

   // Calls ProcessPeerHello on each negotiable parameter. On failure returns
   // the corresponding QuicErrorCode and sets detailed error in |error_details|.
   QuicErrorCode ProcessPeerHello(const CryptoHandshakeMessage& peer_hello,
                                  HelloType hello_type,
                                  std::string* error_details);

  private:
   friend class test::QuicConfigPeer;

   // SetDefaults sets the members to sensible, default values.
   void SetDefaults();

   // Configurations options that are not negotiated.
   // Maximum time the session can be alive before crypto handshake is finished.
   QuicTime::Delta max_time_before_crypto_handshake_;
   // Maximum idle time before the crypto handshake has completed.
   QuicTime::Delta max_idle_time_before_crypto_handshake_;
   // Maximum number of undecryptable packets stored before CHLO/SHLO.
   size_t max_undecryptable_packets_;

   // Connection options.
   QuicFixedTagVector connection_options_;
   // Idle connection state lifetime
   QuicNegotiableUint32 idle_connection_state_lifetime_seconds_;
   // Whether to use silent close.  Defaults to 0 (false) and is otherwise true.
   QuicNegotiableUint32 silent_close_;
   // Maximum number of streams that the connection can support.
   QuicNegotiableUint32 max_streams_per_connection_;
   // The number of bytes required for the connection ID.
   QuicFixedUint32 bytes_for_connection_id_;
   // Initial round trip time estimate in microseconds.
   QuicFixedUint32 initial_round_trip_time_us_;

   // Initial stream flow control receive window in bytes.
   QuicFixedUint32 initial_stream_flow_control_window_bytes_;
   // Initial session flow control receive window in bytes.
   QuicFixedUint32 initial_session_flow_control_window_bytes_;

   // Socket receive buffer in bytes.
   // TODO(ianswett): Deprecate once QUIC_VERSION_34 is deprecated.
   QuicFixedUint32 socket_receive_buffer_;

   // Whether to support multipath for this connection.
   QuicNegotiableUint32 multipath_enabled_;

   // Whether tell peer not to attempt connection migration.
   QuicFixedUint32 connection_migration_disabled_;

   // An alternate server address the client could connect to.
   QuicFixedIPEndPoint alternate_server_address_;
 };

 }  // namespace net

 #endif  // NET_QUIC_QUIC_CONFIG_H_
	// Copyright (c) 2013 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.

	#ifndef NET_QUIC_QUIC_CONFIG_H_
	#define NET_QUIC_QUIC_CONFIG_H_

	#include <stddef.h>
	#include <stdint.h>

	#include <string>

	#include "net/quic/quic_protocol.h"
	#include "net/quic/quic_time.h"

	namespace net {

	namespace test {
	class QuicConfigPeer;
	} // namespace test

	class CryptoHandshakeMessage;

	// Describes whether or not a given QuicTag is required or optional in the
	// handshake message.
	enum QuicConfigPresence {
	// This negotiable value can be absent from the handshake message. Default
	// value is selected as the negotiated value in such a case.
	PRESENCE_OPTIONAL,
	// This negotiable value is required in the handshake message otherwise the
	// Process*Hello function returns an error.
	PRESENCE_REQUIRED,
	};

	// Whether the CryptoHandshakeMessage is from the client or server.
	enum HelloType {
	CLIENT,
	SERVER,
	};

	// An abstract base class that stores a value that can be sent in CHLO/SHLO
	// message. These values can be OPTIONAL or REQUIRED, depending on \|presence_\|.
	class NET_EXPORT_PRIVATE QuicConfigValue {
	public:
	QuicConfigValue(QuicTag tag, QuicConfigPresence presence);
	virtual ~QuicConfigValue();

	// Serialises tag name and value(s) to \|out\|.
	virtual void ToHandshakeMessage(CryptoHandshakeMessage* out) const = 0;

	// Selects a mutually acceptable value from those offered in \|peer_hello\|
	// and those defined in the subclass.
	virtual QuicErrorCode ProcessPeerHello(
	const CryptoHandshakeMessage& peer_hello,
	HelloType hello_type,
	std::string* error_details) = 0;

	protected:
	const QuicTag tag_;
	const QuicConfigPresence presence_;
	};

	class NET_EXPORT_PRIVATE QuicNegotiableValue : public QuicConfigValue {
	public:
	QuicNegotiableValue(QuicTag tag, QuicConfigPresence presence);
	~QuicNegotiableValue() override;

	bool negotiated() const { return negotiated_; }

	protected:
	void set_negotiated(bool negotiated) { negotiated_ = negotiated; }

	private:
	bool negotiated_;
	};

	class NET_EXPORT_PRIVATE QuicNegotiableUint32 : public QuicNegotiableValue {
	// TODO(fayang): some negotiated values use uint32 as bool (e.g., silent
	// close). Consider adding a QuicNegotiableBool type.
	public:
	// Default and max values default to 0.
	QuicNegotiableUint32(QuicTag name, QuicConfigPresence presence);
	~QuicNegotiableUint32() override;

	// Sets the maximum possible value that can be achieved after negotiation and
	// also the default values to be assumed if PRESENCE_OPTIONAL and the *HLO msg
	// doesn't contain a value corresponding to \|name_\|. \|max\| is serialised via
	// ToHandshakeMessage call if \|negotiated_\| is false.
	void set(uint32_t max, uint32_t default_value);

	// Returns the value negotiated if \|negotiated_\| is true, otherwise returns
	// default_value_ (used to set default values before negotiation finishes).
	uint32_t GetUint32() const;

	// Serialises \|name_\| and value to \|out\|. If \|negotiated_\| is true then
	// \|negotiated_value_\| is serialised, otherwise \|max_value_\| is serialised.
	void ToHandshakeMessage(CryptoHandshakeMessage* out) const override;

	// Sets \|negotiated_value_\| to the minimum of \|max_value_\| and the
	// corresponding value from \|peer_hello\|. If the corresponding value is
	// missing and PRESENCE_OPTIONAL then \|negotiated_value_\| is set to
	// \|default_value_\|.
	QuicErrorCode ProcessPeerHello(const CryptoHandshakeMessage& peer_hello,
	HelloType hello_type,
	std::string* error_details) override;

	private:
	uint32_t max_value_;
	uint32_t default_value_;
	uint32_t negotiated_value_;
	};

	class NET_EXPORT_PRIVATE QuicNegotiableTag : public QuicNegotiableValue {
	public:
	QuicNegotiableTag(QuicTag name, QuicConfigPresence presence);
	~QuicNegotiableTag() override;

	// Sets the possible values that \|negotiated_tag_\| can take after negotiation
	// and the default value that \|negotiated_tag_\| takes if OPTIONAL and *HLO
	// msg doesn't contain tag \|name_\|.
	void set(const QuicTagVector& possible_values, QuicTag default_value);

	// Serialises \|name_\| and vector (either possible or negotiated) to \|out\|. If
	// \|negotiated_\| is true then \|negotiated_tag_\| is serialised, otherwise
	// \|possible_values_\| is serialised.
	void ToHandshakeMessage(CryptoHandshakeMessage* out) const override;

	// Selects the tag common to both tags in \|client_hello\| for \|name_\| and
	// \|possible_values_\| with preference to tag in \|possible_values_\|. The
	// selected tag is set as \|negotiated_tag_\|.
	QuicErrorCode ProcessPeerHello(const CryptoHandshakeMessage& peer_hello,
	HelloType hello_type,
	std::string* error_details) override;

	private:
	// Reads the vector corresponding to \|name_\| from \|msg\| into \|out\|. If the
	// \|name_\| is absent in \|msg\| and \|presence_\| is set to OPTIONAL \|out\| is set
	// to \|possible_values_\|.
	QuicErrorCode ReadVector(const CryptoHandshakeMessage& msg,
	const QuicTag** out,
	size_t* out_length,
	std::string* error_details) const;

	QuicTag negotiated_tag_;
	QuicTagVector possible_values_;
	QuicTag default_value_;
	};

	// Stores uint32_t from CHLO or SHLO messages that are not negotiated.
	class NET_EXPORT_PRIVATE QuicFixedUint32 : public QuicConfigValue {
	public:
	QuicFixedUint32(QuicTag name, QuicConfigPresence presence);
	~QuicFixedUint32() override;

	bool HasSendValue() const;

	uint32_t GetSendValue() const;

	void SetSendValue(uint32_t value);

	bool HasReceivedValue() const;

	uint32_t GetReceivedValue() const;

	void SetReceivedValue(uint32_t value);

	// If has_send_value is true, serialises \|tag_\| and \|send_value_\| to \|out\|.
	void ToHandshakeMessage(CryptoHandshakeMessage* out) const override;

	// Sets \|value_\| to the corresponding value from \|peer_hello_\| if it exists.
	QuicErrorCode ProcessPeerHello(const CryptoHandshakeMessage& peer_hello,
	HelloType hello_type,
	std::string* error_details) override;

	private:
	uint32_t send_value_;
	bool has_send_value_;
	uint32_t receive_value_;
	bool has_receive_value_;
	};

	// Stores tag from CHLO or SHLO messages that are not negotiated.
	class NET_EXPORT_PRIVATE QuicFixedTagVector : public QuicConfigValue {
	public:
	QuicFixedTagVector(QuicTag name, QuicConfigPresence presence);
	QuicFixedTagVector(const QuicFixedTagVector& other);
	~QuicFixedTagVector() override;

	bool HasSendValues() const;

	QuicTagVector GetSendValues() const;

	void SetSendValues(const QuicTagVector& values);

	bool HasReceivedValues() const;

	QuicTagVector GetReceivedValues() const;

	void SetReceivedValues(const QuicTagVector& values);

	// If has_send_value is true, serialises \|tag_vector_\| and \|send_value_\| to
	// \|out\|.
	void ToHandshakeMessage(CryptoHandshakeMessage* out) const override;

	// Sets \|receive_values_\| to the corresponding value from \|client_hello_\| if
	// it exists.
	QuicErrorCode ProcessPeerHello(const CryptoHandshakeMessage& peer_hello,
	HelloType hello_type,
	std::string* error_details) override;

	private:
	QuicTagVector send_values_;
	bool has_send_values_;
	QuicTagVector receive_values_;
	bool has_receive_values_;
	};

	// Stores IPEndPoint from CHLO or SHLO messages that are not negotiated.
	class QuicFixedIPEndPoint : public QuicConfigValue {
	public:
	QuicFixedIPEndPoint(QuicTag tag, QuicConfigPresence presence);
	~QuicFixedIPEndPoint() override;

	bool HasSendValue() const;

	const IPEndPoint& GetSendValue() const;

	void SetSendValue(const IPEndPoint& value);

	bool HasReceivedValue() const;

	const IPEndPoint& GetReceivedValue() const;

	void SetReceivedValue(const IPEndPoint& value);

	void ToHandshakeMessage(CryptoHandshakeMessage* out) const override;

	QuicErrorCode ProcessPeerHello(const CryptoHandshakeMessage& peer_hello,
	HelloType hello_type,
	std::string* error_details) override;

	private:
	IPEndPoint send_value_;
	bool has_send_value_;
	IPEndPoint receive_value_;
	bool has_receive_value_;
	};

	// QuicConfig contains non-crypto configuration options that are negotiated in
	// the crypto handshake.
	class NET_EXPORT_PRIVATE QuicConfig {
	public:
	QuicConfig();
	QuicConfig(const QuicConfig& other);
	~QuicConfig();

	void SetConnectionOptionsToSend(const QuicTagVector& connection_options);

	bool HasReceivedConnectionOptions() const;

	// Sets initial received connection options. All received connection options
	// will be initialized with these fields. Initial received options may only be
	// set once per config, prior to the setting of any other options. If options
	// have already been set (either by previous calls or via handshake), this
	// function does nothing and returns false.
	bool SetInitialReceivedConnectionOptions(const QuicTagVector& tags);

	QuicTagVector ReceivedConnectionOptions() const;

	bool HasSendConnectionOptions() const;

	QuicTagVector SendConnectionOptions() const;

	// Returns true if the client is sending or the server has received a
	// connection option.
	bool HasClientSentConnectionOption(QuicTag tag,
	Perspective perspective) const;

	void SetIdleConnectionStateLifetime(
	QuicTime::Delta max_idle_connection_state_lifetime,
	QuicTime::Delta default_idle_conection_state_lifetime);

	QuicTime::Delta IdleConnectionStateLifetime() const;

	void SetSilentClose(bool silent_close);

	bool SilentClose() const;

	void SetMaxStreamsPerConnection(size_t max_streams, size_t default_streams);

	uint32_t MaxStreamsPerConnection() const;

	void set_max_time_before_crypto_handshake(
	QuicTime::Delta max_time_before_crypto_handshake) {
	max_time_before_crypto_handshake_ = max_time_before_crypto_handshake;
	}

	QuicTime::Delta max_time_before_crypto_handshake() const {
	return max_time_before_crypto_handshake_;
	}

	void set_max_idle_time_before_crypto_handshake(
	QuicTime::Delta max_idle_time_before_crypto_handshake) {
	max_idle_time_before_crypto_handshake_ =
	max_idle_time_before_crypto_handshake;
	}

	QuicTime::Delta max_idle_time_before_crypto_handshake() const {
	return max_idle_time_before_crypto_handshake_;
	}

	void set_max_undecryptable_packets(size_t max_undecryptable_packets) {
	max_undecryptable_packets_ = max_undecryptable_packets;
	}

	size_t max_undecryptable_packets() const {
	return max_undecryptable_packets_;
	}

	bool HasSetBytesForConnectionIdToSend() const;

	// Sets the peer's connection id length, in bytes.
	void SetBytesForConnectionIdToSend(uint32_t bytes);

	bool HasReceivedBytesForConnectionId() const;

	uint32_t ReceivedBytesForConnectionId() const;

	// Sets an estimated initial round trip time in us.
	void SetInitialRoundTripTimeUsToSend(uint32_t rtt_us);

	bool HasReceivedInitialRoundTripTimeUs() const;

	uint32_t ReceivedInitialRoundTripTimeUs() const;

	bool HasInitialRoundTripTimeUsToSend() const;

	uint32_t GetInitialRoundTripTimeUsToSend() const;

	// Sets an initial stream flow control window size to transmit to the peer.
	void SetInitialStreamFlowControlWindowToSend(uint32_t window_bytes);

	uint32_t GetInitialStreamFlowControlWindowToSend() const;

	bool HasReceivedInitialStreamFlowControlWindowBytes() const;

	uint32_t ReceivedInitialStreamFlowControlWindowBytes() const;

	// Sets an initial session flow control window size to transmit to the peer.
	void SetInitialSessionFlowControlWindowToSend(uint32_t window_bytes);

	uint32_t GetInitialSessionFlowControlWindowToSend() const;

	bool HasReceivedInitialSessionFlowControlWindowBytes() const;

	uint32_t ReceivedInitialSessionFlowControlWindowBytes() const;

	// Sets socket receive buffer to transmit to the peer.
	void SetSocketReceiveBufferToSend(uint32_t window_bytes);

	bool HasReceivedSocketReceiveBuffer() const;

	uint32_t ReceivedSocketReceiveBuffer() const;

	void SetMultipathEnabled(bool multipath_enabled);

	bool MultipathEnabled() const;

	void SetDisableConnectionMigration();

	bool DisableConnectionMigration() const;

	void SetAlternateServerAddressToSend(
	const IPEndPoint& alternate_server_address);

	bool HasReceivedAlternateServerAddress() const;

	const IPEndPoint& ReceivedAlternateServerAddress() const;

	bool negotiated() const;

	// ToHandshakeMessage serialises the settings in this object as a series of
	// tags /value pairs and adds them to \|out\|.
	void ToHandshakeMessage(CryptoHandshakeMessage* out) const;

	// Calls ProcessPeerHello on each negotiable parameter. On failure returns
	// the corresponding QuicErrorCode and sets detailed error in \|error_details\|.
	QuicErrorCode ProcessPeerHello(const CryptoHandshakeMessage& peer_hello,
	HelloType hello_type,
	std::string* error_details);

	private:
	friend class test::QuicConfigPeer;

	// SetDefaults sets the members to sensible, default values.
	void SetDefaults();

	// Configurations options that are not negotiated.
	// Maximum time the session can be alive before crypto handshake is finished.
	QuicTime::Delta max_time_before_crypto_handshake_;
	// Maximum idle time before the crypto handshake has completed.
	QuicTime::Delta max_idle_time_before_crypto_handshake_;
	// Maximum number of undecryptable packets stored before CHLO/SHLO.
	size_t max_undecryptable_packets_;

	// Connection options.
	QuicFixedTagVector connection_options_;
	// Idle connection state lifetime
	QuicNegotiableUint32 idle_connection_state_lifetime_seconds_;
	// Whether to use silent close. Defaults to 0 (false) and is otherwise true.
	QuicNegotiableUint32 silent_close_;
	// Maximum number of streams that the connection can support.
	QuicNegotiableUint32 max_streams_per_connection_;
	// The number of bytes required for the connection ID.
	QuicFixedUint32 bytes_for_connection_id_;
	// Initial round trip time estimate in microseconds.
	QuicFixedUint32 initial_round_trip_time_us_;

	// Initial stream flow control receive window in bytes.
	QuicFixedUint32 initial_stream_flow_control_window_bytes_;
	// Initial session flow control receive window in bytes.
	QuicFixedUint32 initial_session_flow_control_window_bytes_;

	// Socket receive buffer in bytes.
	// TODO(ianswett): Deprecate once QUIC_VERSION_34 is deprecated.
	QuicFixedUint32 socket_receive_buffer_;

	// Whether to support multipath for this connection.
	QuicNegotiableUint32 multipath_enabled_;

	// Whether tell peer not to attempt connection migration.
	QuicFixedUint32 connection_migration_disabled_;

	// An alternate server address the client could connect to.
	QuicFixedIPEndPoint alternate_server_address_;
	};

	} // namespace net

	#endif // NET_QUIC_QUIC_CONFIG_H_