quic/core/quic_time_wait_list_manager.h - quiche - Git at Google

 // Copyright (c) 2012 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.

 // Handles packets for connection_ids in time wait state by discarding the
 // packet and sending the peers termination packets with exponential backoff.

 #ifndef QUICHE_QUIC_CORE_QUIC_TIME_WAIT_LIST_MANAGER_H_
 #define QUICHE_QUIC_CORE_QUIC_TIME_WAIT_LIST_MANAGER_H_

 #include <cstddef>
 #include <memory>

 #include "absl/container/flat_hash_map.h"
 #include "quic/core/quic_blocked_writer_interface.h"
 #include "quic/core/quic_connection_id.h"
 #include "quic/core/quic_framer.h"
 #include "quic/core/quic_packet_writer.h"
 #include "quic/core/quic_packets.h"
 #include "quic/core/quic_session.h"
 #include "quic/core/quic_types.h"
 #include "quic/platform/api/quic_flags.h"
 #include "common/quiche_linked_hash_map.h"

 namespace quic {

 namespace test {
 class QuicDispatcherPeer;
 class QuicTimeWaitListManagerPeer;
 }  // namespace test

 // TimeWaitConnectionInfo comprises information of a connection which is in the
 // time wait list.
 struct QUIC_NO_EXPORT TimeWaitConnectionInfo {
   TimeWaitConnectionInfo(
       bool ietf_quic,
       std::vector<std::unique_ptr<QuicEncryptedPacket>>* termination_packets,
       std::vector<QuicConnectionId> active_connection_ids);
   TimeWaitConnectionInfo(
       bool ietf_quic,
       std::vector<std::unique_ptr<QuicEncryptedPacket>>* termination_packets,
       std::vector<QuicConnectionId> active_connection_ids,
       QuicTime::Delta srtt);

   TimeWaitConnectionInfo(const TimeWaitConnectionInfo& other) = delete;
   TimeWaitConnectionInfo(TimeWaitConnectionInfo&& other) = default;

   ~TimeWaitConnectionInfo() = default;

   bool ietf_quic;
   std::vector<std::unique_ptr<QuicEncryptedPacket>> termination_packets;
   std::vector<QuicConnectionId> active_connection_ids;
   QuicTime::Delta srtt;
 };

 // Maintains a list of all connection_ids that have been recently closed. A
 // connection_id lives in this state for time_wait_period_. All packets received
 // for connection_ids in this state are handed over to the
 // QuicTimeWaitListManager by the QuicDispatcher.  Decides whether to send a
 // public reset packet, a copy of the previously sent connection close packet,
 // or nothing to the peer which sent a packet with the connection_id in time
 // wait state.  After the connection_id expires its time wait period, a new
 // connection/session will be created if a packet is received for this
 // connection_id.
 class QUIC_NO_EXPORT QuicTimeWaitListManager
     : public QuicBlockedWriterInterface {
  public:
   // Specifies what the time wait list manager should do when processing packets
   // of a time wait connection.
   enum TimeWaitAction : uint8_t {
     // Send specified termination packets, error if termination packet is
     // unavailable.
     SEND_TERMINATION_PACKETS,
     // The same as SEND_TERMINATION_PACKETS except that the corresponding
     // termination packets are provided by the connection.
     SEND_CONNECTION_CLOSE_PACKETS,
     // Send stateless reset (public reset for GQUIC).
     SEND_STATELESS_RESET,

     DO_NOTHING,
   };

   class QUIC_NO_EXPORT Visitor : public QuicSession::Visitor {
    public:
     // Called after the given connection is added to the time-wait list.
     virtual void OnConnectionAddedToTimeWaitList(
         QuicConnectionId connection_id) = 0;
   };

   // writer - the entity that writes to the socket. (Owned by the caller)
   // visitor - the entity that manages blocked writers. (Owned by the caller)
   // clock - provide a clock (Owned by the caller)
   // alarm_factory - used to run clean up alarms. (Owned by the caller)
   QuicTimeWaitListManager(QuicPacketWriter* writer,
                           Visitor* visitor,
                           const QuicClock* clock,
                           QuicAlarmFactory* alarm_factory);
   QuicTimeWaitListManager(const QuicTimeWaitListManager&) = delete;
   QuicTimeWaitListManager& operator=(const QuicTimeWaitListManager&) = delete;
   ~QuicTimeWaitListManager() override;

   // Adds the connection IDs in info to time wait state for time_wait_period_.
   // If |info|.termination_packets are provided, copies of these packets will be
   // sent when a packet with one of these connection IDs is processed. Any
   // termination packets will be move from |info|.termination_packets and will
   // become owned by the manager. |action| specifies what the time wait list
   // manager should do when processing packets of the connection.
   virtual void AddConnectionIdToTimeWait(TimeWaitAction action,
                                          TimeWaitConnectionInfo info);

   // Returns true if the connection_id is in time wait state, false otherwise.
   // Packets received for this connection_id should not lead to creation of new
   // QuicSessions.
   bool IsConnectionIdInTimeWait(QuicConnectionId connection_id) const;

   // Called when a packet is received for a connection_id that is in time wait
   // state. Sends a public reset packet to the peer which sent this
   // connection_id. Sending of the public reset packet is throttled by using
   // exponential back off. QUICHE_DCHECKs for the connection_id to be in time
   // wait state. virtual to override in tests.
   // TODO(fayang): change ProcessPacket and SendPublicReset to take
   // ReceivedPacketInfo.
   virtual void ProcessPacket(
       const QuicSocketAddress& self_address,
       const QuicSocketAddress& peer_address,
       QuicConnectionId connection_id,
       PacketHeaderFormat header_format,
       size_t received_packet_length,
       std::unique_ptr<QuicPerPacketContext> packet_context);

   // Called by the dispatcher when the underlying socket becomes writable again,
   // since we might need to send pending public reset packets which we didn't
   // send because the underlying socket was write blocked.
   void OnBlockedWriterCanWrite() override;

   bool IsWriterBlocked() const override {
     return writer_ != nullptr && writer_->IsWriteBlocked();
   }

   // Used to delete connection_id entries that have outlived their time wait
   // period.
   void CleanUpOldConnectionIds();

   // If necessary, trims the oldest connections from the time-wait list until
   // the size is under the configured maximum.
   void TrimTimeWaitListIfNeeded();

   // The number of connections on the time-wait list.
   size_t num_connections() const { return connection_id_map_.size(); }

   // Sends a version negotiation packet for |server_connection_id| and
   // |client_connection_id| announcing support for |supported_versions| to
   // |peer_address| from |self_address|.
   virtual void SendVersionNegotiationPacket(
       QuicConnectionId server_connection_id,
       QuicConnectionId client_connection_id,
       bool ietf_quic,
       bool use_length_prefix,
       const ParsedQuicVersionVector& supported_versions,
       const QuicSocketAddress& self_address,
       const QuicSocketAddress& peer_address,
       std::unique_ptr<QuicPerPacketContext> packet_context);

   // Creates a public reset packet and sends it or queues it to be sent later.
   virtual void SendPublicReset(
       const QuicSocketAddress& self_address,
       const QuicSocketAddress& peer_address,
       QuicConnectionId connection_id,
       bool ietf_quic,
       size_t received_packet_length,
       std::unique_ptr<QuicPerPacketContext> packet_context);

   // Called to send |packet|.
   virtual void SendPacket(const QuicSocketAddress& self_address,
                           const QuicSocketAddress& peer_address,
                           const QuicEncryptedPacket& packet);

   // Return a non-owning pointer to the packet writer.
   QuicPacketWriter* writer() { return writer_; }

  protected:
   virtual std::unique_ptr<QuicEncryptedPacket> BuildPublicReset(
       const QuicPublicResetPacket& packet);

   virtual void GetEndpointId(std::string* /*endpoint_id*/) {}

   // Returns a stateless reset token which will be included in the public reset
   // packet.
   virtual StatelessResetToken GetStatelessResetToken(
       QuicConnectionId connection_id) const;

   // Internal structure to store pending termination packets.
   class QUIC_NO_EXPORT QueuedPacket {
    public:
     QueuedPacket(const QuicSocketAddress& self_address,
                  const QuicSocketAddress& peer_address,
                  std::unique_ptr<QuicEncryptedPacket> packet)
         : self_address_(self_address),
           peer_address_(peer_address),
           packet_(std::move(packet)) {}
     QueuedPacket(const QueuedPacket&) = delete;
     QueuedPacket& operator=(const QueuedPacket&) = delete;

     const QuicSocketAddress& self_address() const { return self_address_; }
     const QuicSocketAddress& peer_address() const { return peer_address_; }
     QuicEncryptedPacket* packet() { return packet_.get(); }

    private:
     // Server address on which a packet was received for a connection_id in
     // time wait state.
     const QuicSocketAddress self_address_;
     // Address of the peer to send this packet to.
     const QuicSocketAddress peer_address_;
     // The pending termination packet that is to be sent to the peer.
     std::unique_ptr<QuicEncryptedPacket> packet_;
   };

   // Called right after |packet| is serialized. Either sends the packet and
   // deletes it or makes pending_packets_queue_ the owner of the packet.
   // Subclasses overriding this method should call this class's base
   // implementation at the end of the override.
   // Return true if |packet| is sent, false if it is queued.
   virtual bool SendOrQueuePacket(std::unique_ptr<QueuedPacket> packet,
                                  const QuicPerPacketContext* packet_context);

   const quiche::QuicheCircularDeque<std::unique_ptr<QueuedPacket>>&
   pending_packets_queue() const {
     return pending_packets_queue_;
   }

  private:
   friend class test::QuicDispatcherPeer;
   friend class test::QuicTimeWaitListManagerPeer;

   // Decides if a packet should be sent for this connection_id based on the
   // number of received packets.
   bool ShouldSendResponse(int received_packet_count);

   // Sends the packet out. Returns true if the packet was successfully consumed.
   // If the writer got blocked and did not buffer the packet, we'll need to keep
   // the packet and retry sending. In case of all other errors we drop the
   // packet.
   bool WriteToWire(QueuedPacket* packet);

   // Register the alarm server to wake up at appropriate time.
   void SetConnectionIdCleanUpAlarm();

   // Removes the oldest connection from the time-wait list if it was added prior
   // to "expiration_time".  To unconditionally remove the oldest connection, use
   // a QuicTime::Delta:Infinity().  This function modifies the
   // connection_id_map_.  If you plan to call this function in a loop, any
   // iterators that you hold before the call to this function may be invalid
   // afterward.  Returns true if the oldest connection was expired.  Returns
   // false if the map is empty or the oldest connection has not expired.
   bool MaybeExpireOldestConnection(QuicTime expiration_time);

   // Called when a packet is received for a connection in this time wait list.
   virtual void OnPacketReceivedForKnownConnection(
       int /*num_packets*/,
       QuicTime::Delta /*delta*/,
       QuicTime::Delta /*srtt*/) const {}

   std::unique_ptr<QuicEncryptedPacket> BuildIetfStatelessResetPacket(
       QuicConnectionId connection_id,
       size_t received_packet_length);

   // A map from a recently closed connection_id to the number of packets
   // received after the termination of the connection bound to the
   // connection_id.
   struct QUIC_NO_EXPORT ConnectionIdData {
     ConnectionIdData(int num_packets,
                      QuicTime time_added,
                      TimeWaitAction action,
                      TimeWaitConnectionInfo info);

     ConnectionIdData(const ConnectionIdData& other) = delete;
     ConnectionIdData(ConnectionIdData&& other);

     ~ConnectionIdData();

     int num_packets;
     QuicTime time_added;
     TimeWaitAction action;
     TimeWaitConnectionInfo info;
   };

   // QuicheLinkedHashMap allows lookup by ConnectionId
   // and traversal in add order.
   using ConnectionIdMap = quiche::QuicheLinkedHashMap<QuicConnectionId,
                                                       ConnectionIdData,
                                                       QuicConnectionIdHash>;
   // Do not use find/emplace/erase on this map directly. Use
   // FindConnectionIdDataInMap, AddConnectionIdDateToMap,
   // RemoveConnectionDataFromMap instead.
   ConnectionIdMap connection_id_map_;

   // TODO(haoyuewang) Consider making connection_id_map_ a map of shared pointer
   // and remove the indirect map.
   // A connection can have multiple unretired ConnectionIds when it is closed.
   // These Ids have the same ConnectionIdData entry in connection_id_map_. To
   // find the entry, look up the cannoical ConnectionId in
   // indirect_connection_id_map_ first, and look up connection_id_map_ with the
   // cannoical ConnectionId.
   absl::flat_hash_map<QuicConnectionId, QuicConnectionId, QuicConnectionIdHash>
       indirect_connection_id_map_;

   // Find an iterator for the given connection_id. Returns
   // connection_id_map_.end() if none found.
   ConnectionIdMap::iterator FindConnectionIdDataInMap(
       const QuicConnectionId& connection_id);
   // Inserts a ConnectionIdData entry to connection_id_map_.
   void AddConnectionIdDataToMap(const QuicConnectionId& canonical_connection_id,
                                 int num_packets,
                                 TimeWaitAction action,
                                 TimeWaitConnectionInfo info);
   // Removes a ConnectionIdData entry in connection_id_map_.
   void RemoveConnectionDataFromMap(ConnectionIdMap::iterator it);

   // Pending termination packets that need to be sent out to the peer when we
   // are given a chance to write by the dispatcher.
   quiche::QuicheCircularDeque<std::unique_ptr<QueuedPacket>>
       pending_packets_queue_;

   // Time period for which connection_ids should remain in time wait state.
   const QuicTime::Delta time_wait_period_;

   // Alarm to clean up connection_ids that have out lived their duration in
   // time wait state.
   std::unique_ptr<QuicAlarm> connection_id_clean_up_alarm_;

   // Clock to efficiently measure approximate time.
   const QuicClock* clock_;

   // Interface that writes given buffer to the socket.
   QuicPacketWriter* writer_;

   // Interface that manages blocked writers.
   Visitor* visitor_;
 };

 }  // namespace quic

 #endif  // QUICHE_QUIC_CORE_QUIC_TIME_WAIT_LIST_MANAGER_H_
	// Copyright (c) 2012 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.

	// Handles packets for connection_ids in time wait state by discarding the
	// packet and sending the peers termination packets with exponential backoff.

	#ifndef QUICHE_QUIC_CORE_QUIC_TIME_WAIT_LIST_MANAGER_H_
	#define QUICHE_QUIC_CORE_QUIC_TIME_WAIT_LIST_MANAGER_H_

	#include <cstddef>
	#include <memory>

	#include "absl/container/flat_hash_map.h"
	#include "quic/core/quic_blocked_writer_interface.h"
	#include "quic/core/quic_connection_id.h"
	#include "quic/core/quic_framer.h"
	#include "quic/core/quic_packet_writer.h"
	#include "quic/core/quic_packets.h"
	#include "quic/core/quic_session.h"
	#include "quic/core/quic_types.h"
	#include "quic/platform/api/quic_flags.h"
	#include "common/quiche_linked_hash_map.h"

	namespace quic {

	namespace test {
	class QuicDispatcherPeer;
	class QuicTimeWaitListManagerPeer;
	} // namespace test

	// TimeWaitConnectionInfo comprises information of a connection which is in the
	// time wait list.
	struct QUIC_NO_EXPORT TimeWaitConnectionInfo {
	TimeWaitConnectionInfo(
	bool ietf_quic,
	std::vector<std::unique_ptr<QuicEncryptedPacket>>* termination_packets,
	std::vector<QuicConnectionId> active_connection_ids);
	TimeWaitConnectionInfo(
	bool ietf_quic,
	std::vector<std::unique_ptr<QuicEncryptedPacket>>* termination_packets,
	std::vector<QuicConnectionId> active_connection_ids,
	QuicTime::Delta srtt);

	TimeWaitConnectionInfo(const TimeWaitConnectionInfo& other) = delete;
	TimeWaitConnectionInfo(TimeWaitConnectionInfo&& other) = default;

	~TimeWaitConnectionInfo() = default;

	bool ietf_quic;
	std::vector<std::unique_ptr<QuicEncryptedPacket>> termination_packets;
	std::vector<QuicConnectionId> active_connection_ids;
	QuicTime::Delta srtt;
	};

	// Maintains a list of all connection_ids that have been recently closed. A
	// connection_id lives in this state for time_wait_period_. All packets received
	// for connection_ids in this state are handed over to the
	// QuicTimeWaitListManager by the QuicDispatcher. Decides whether to send a
	// public reset packet, a copy of the previously sent connection close packet,
	// or nothing to the peer which sent a packet with the connection_id in time
	// wait state. After the connection_id expires its time wait period, a new
	// connection/session will be created if a packet is received for this
	// connection_id.
	class QUIC_NO_EXPORT QuicTimeWaitListManager
	: public QuicBlockedWriterInterface {
	public:
	// Specifies what the time wait list manager should do when processing packets
	// of a time wait connection.
	enum TimeWaitAction : uint8_t {
	// Send specified termination packets, error if termination packet is
	// unavailable.
	SEND_TERMINATION_PACKETS,
	// The same as SEND_TERMINATION_PACKETS except that the corresponding
	// termination packets are provided by the connection.
	SEND_CONNECTION_CLOSE_PACKETS,
	// Send stateless reset (public reset for GQUIC).
	SEND_STATELESS_RESET,

	DO_NOTHING,
	};

	class QUIC_NO_EXPORT Visitor : public QuicSession::Visitor {
	public:
	// Called after the given connection is added to the time-wait list.
	virtual void OnConnectionAddedToTimeWaitList(
	QuicConnectionId connection_id) = 0;
	};

	// writer - the entity that writes to the socket. (Owned by the caller)
	// visitor - the entity that manages blocked writers. (Owned by the caller)
	// clock - provide a clock (Owned by the caller)
	// alarm_factory - used to run clean up alarms. (Owned by the caller)
	QuicTimeWaitListManager(QuicPacketWriter* writer,
	Visitor* visitor,
	const QuicClock* clock,
	QuicAlarmFactory* alarm_factory);
	QuicTimeWaitListManager(const QuicTimeWaitListManager&) = delete;
	QuicTimeWaitListManager& operator=(const QuicTimeWaitListManager&) = delete;
	~QuicTimeWaitListManager() override;

	// Adds the connection IDs in info to time wait state for time_wait_period_.
	// If \|info\|.termination_packets are provided, copies of these packets will be
	// sent when a packet with one of these connection IDs is processed. Any
	// termination packets will be move from \|info\|.termination_packets and will
	// become owned by the manager. \|action\| specifies what the time wait list
	// manager should do when processing packets of the connection.
	virtual void AddConnectionIdToTimeWait(TimeWaitAction action,
	TimeWaitConnectionInfo info);

	// Returns true if the connection_id is in time wait state, false otherwise.
	// Packets received for this connection_id should not lead to creation of new
	// QuicSessions.
	bool IsConnectionIdInTimeWait(QuicConnectionId connection_id) const;

	// Called when a packet is received for a connection_id that is in time wait
	// state. Sends a public reset packet to the peer which sent this
	// connection_id. Sending of the public reset packet is throttled by using
	// exponential back off. QUICHE_DCHECKs for the connection_id to be in time
	// wait state. virtual to override in tests.
	// TODO(fayang): change ProcessPacket and SendPublicReset to take
	// ReceivedPacketInfo.
	virtual void ProcessPacket(
	const QuicSocketAddress& self_address,
	const QuicSocketAddress& peer_address,
	QuicConnectionId connection_id,
	PacketHeaderFormat header_format,
	size_t received_packet_length,
	std::unique_ptr<QuicPerPacketContext> packet_context);

	// Called by the dispatcher when the underlying socket becomes writable again,
	// since we might need to send pending public reset packets which we didn't
	// send because the underlying socket was write blocked.
	void OnBlockedWriterCanWrite() override;

	bool IsWriterBlocked() const override {
	return writer_ != nullptr && writer_->IsWriteBlocked();
	}

	// Used to delete connection_id entries that have outlived their time wait
	// period.
	void CleanUpOldConnectionIds();

	// If necessary, trims the oldest connections from the time-wait list until
	// the size is under the configured maximum.
	void TrimTimeWaitListIfNeeded();

	// The number of connections on the time-wait list.
	size_t num_connections() const { return connection_id_map_.size(); }

	// Sends a version negotiation packet for \|server_connection_id\| and
	// \|client_connection_id\| announcing support for \|supported_versions\| to
	// \|peer_address\| from \|self_address\|.
	virtual void SendVersionNegotiationPacket(
	QuicConnectionId server_connection_id,
	QuicConnectionId client_connection_id,
	bool ietf_quic,
	bool use_length_prefix,
	const ParsedQuicVersionVector& supported_versions,
	const QuicSocketAddress& self_address,
	const QuicSocketAddress& peer_address,
	std::unique_ptr<QuicPerPacketContext> packet_context);

	// Creates a public reset packet and sends it or queues it to be sent later.
	virtual void SendPublicReset(
	const QuicSocketAddress& self_address,
	const QuicSocketAddress& peer_address,
	QuicConnectionId connection_id,
	bool ietf_quic,
	size_t received_packet_length,
	std::unique_ptr<QuicPerPacketContext> packet_context);

	// Called to send \|packet\|.
	virtual void SendPacket(const QuicSocketAddress& self_address,
	const QuicSocketAddress& peer_address,
	const QuicEncryptedPacket& packet);

	// Return a non-owning pointer to the packet writer.
	QuicPacketWriter* writer() { return writer_; }

	protected:
	virtual std::unique_ptr<QuicEncryptedPacket> BuildPublicReset(
	const QuicPublicResetPacket& packet);

	virtual void GetEndpointId(std::string* /endpoint_id/) {}

	// Returns a stateless reset token which will be included in the public reset
	// packet.
	virtual StatelessResetToken GetStatelessResetToken(
	QuicConnectionId connection_id) const;

	// Internal structure to store pending termination packets.
	class QUIC_NO_EXPORT QueuedPacket {
	public:
	QueuedPacket(const QuicSocketAddress& self_address,
	const QuicSocketAddress& peer_address,
	std::unique_ptr<QuicEncryptedPacket> packet)
	: self_address_(self_address),
	peer_address_(peer_address),
	packet_(std::move(packet)) {}
	QueuedPacket(const QueuedPacket&) = delete;
	QueuedPacket& operator=(const QueuedPacket&) = delete;

	const QuicSocketAddress& self_address() const { return self_address_; }
	const QuicSocketAddress& peer_address() const { return peer_address_; }
	QuicEncryptedPacket* packet() { return packet_.get(); }

	private:
	// Server address on which a packet was received for a connection_id in
	// time wait state.
	const QuicSocketAddress self_address_;
	// Address of the peer to send this packet to.
	const QuicSocketAddress peer_address_;
	// The pending termination packet that is to be sent to the peer.
	std::unique_ptr<QuicEncryptedPacket> packet_;
	};

	// Called right after \|packet\| is serialized. Either sends the packet and
	// deletes it or makes pending_packets_queue_ the owner of the packet.
	// Subclasses overriding this method should call this class's base
	// implementation at the end of the override.
	// Return true if \|packet\| is sent, false if it is queued.
	virtual bool SendOrQueuePacket(std::unique_ptr<QueuedPacket> packet,
	const QuicPerPacketContext* packet_context);

	const quiche::QuicheCircularDeque<std::unique_ptr<QueuedPacket>>&
	pending_packets_queue() const {
	return pending_packets_queue_;
	}

	private:
	friend class test::QuicDispatcherPeer;
	friend class test::QuicTimeWaitListManagerPeer;

	// Decides if a packet should be sent for this connection_id based on the
	// number of received packets.
	bool ShouldSendResponse(int received_packet_count);

	// Sends the packet out. Returns true if the packet was successfully consumed.
	// If the writer got blocked and did not buffer the packet, we'll need to keep
	// the packet and retry sending. In case of all other errors we drop the
	// packet.
	bool WriteToWire(QueuedPacket* packet);

	// Register the alarm server to wake up at appropriate time.
	void SetConnectionIdCleanUpAlarm();

	// Removes the oldest connection from the time-wait list if it was added prior
	// to "expiration_time". To unconditionally remove the oldest connection, use
	// a QuicTime::Delta:Infinity(). This function modifies the
	// connection_id_map_. If you plan to call this function in a loop, any
	// iterators that you hold before the call to this function may be invalid
	// afterward. Returns true if the oldest connection was expired. Returns
	// false if the map is empty or the oldest connection has not expired.
	bool MaybeExpireOldestConnection(QuicTime expiration_time);

	// Called when a packet is received for a connection in this time wait list.
	virtual void OnPacketReceivedForKnownConnection(
	int /num_packets/,
	QuicTime::Delta /delta/,
	QuicTime::Delta /srtt/) const {}

	std::unique_ptr<QuicEncryptedPacket> BuildIetfStatelessResetPacket(
	QuicConnectionId connection_id,
	size_t received_packet_length);

	// A map from a recently closed connection_id to the number of packets
	// received after the termination of the connection bound to the
	// connection_id.
	struct QUIC_NO_EXPORT ConnectionIdData {
	ConnectionIdData(int num_packets,
	QuicTime time_added,
	TimeWaitAction action,
	TimeWaitConnectionInfo info);

	ConnectionIdData(const ConnectionIdData& other) = delete;
	ConnectionIdData(ConnectionIdData&& other);

	~ConnectionIdData();

	int num_packets;
	QuicTime time_added;
	TimeWaitAction action;
	TimeWaitConnectionInfo info;
	};

	// QuicheLinkedHashMap allows lookup by ConnectionId
	// and traversal in add order.
	using ConnectionIdMap = quiche::QuicheLinkedHashMap<QuicConnectionId,
	ConnectionIdData,
	QuicConnectionIdHash>;
	// Do not use find/emplace/erase on this map directly. Use
	// FindConnectionIdDataInMap, AddConnectionIdDateToMap,
	// RemoveConnectionDataFromMap instead.
	ConnectionIdMap connection_id_map_;

	// TODO(haoyuewang) Consider making connection_id_map_ a map of shared pointer
	// and remove the indirect map.
	// A connection can have multiple unretired ConnectionIds when it is closed.
	// These Ids have the same ConnectionIdData entry in connection_id_map_. To
	// find the entry, look up the cannoical ConnectionId in
	// indirect_connection_id_map_ first, and look up connection_id_map_ with the
	// cannoical ConnectionId.
	absl::flat_hash_map<QuicConnectionId, QuicConnectionId, QuicConnectionIdHash>
	indirect_connection_id_map_;

	// Find an iterator for the given connection_id. Returns
	// connection_id_map_.end() if none found.
	ConnectionIdMap::iterator FindConnectionIdDataInMap(
	const QuicConnectionId& connection_id);
	// Inserts a ConnectionIdData entry to connection_id_map_.
	void AddConnectionIdDataToMap(const QuicConnectionId& canonical_connection_id,
	int num_packets,
	TimeWaitAction action,
	TimeWaitConnectionInfo info);
	// Removes a ConnectionIdData entry in connection_id_map_.
	void RemoveConnectionDataFromMap(ConnectionIdMap::iterator it);

	// Pending termination packets that need to be sent out to the peer when we
	// are given a chance to write by the dispatcher.
	quiche::QuicheCircularDeque<std::unique_ptr<QueuedPacket>>
	pending_packets_queue_;

	// Time period for which connection_ids should remain in time wait state.
	const QuicTime::Delta time_wait_period_;

	// Alarm to clean up connection_ids that have out lived their duration in
	// time wait state.
	std::unique_ptr<QuicAlarm> connection_id_clean_up_alarm_;

	// Clock to efficiently measure approximate time.
	const QuicClock* clock_;

	// Interface that writes given buffer to the socket.
	QuicPacketWriter* writer_;

	// Interface that manages blocked writers.
	Visitor* visitor_;
	};

	} // namespace quic

	#endif // QUICHE_QUIC_CORE_QUIC_TIME_WAIT_LIST_MANAGER_H_