p2p/base/connection.h - src - Git at Google

 /*
  *  Copyright 2019 The WebRTC Project Authors. All rights reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #ifndef P2P_BASE_CONNECTION_H_
 #define P2P_BASE_CONNECTION_H_

 #include <memory>
 #include <string>
 #include <vector>

 #include "absl/types/optional.h"
 #include "api/candidate.h"
 #include "api/transport/stun.h"
 #include "logging/rtc_event_log/ice_logger.h"
 #include "p2p/base/candidate_pair_interface.h"
 #include "p2p/base/connection_info.h"
 #include "p2p/base/p2p_transport_channel_ice_field_trials.h"
 #include "p2p/base/stun_request.h"
 #include "p2p/base/transport_description.h"
 #include "rtc_base/async_packet_socket.h"
 #include "rtc_base/message_handler.h"
 #include "rtc_base/network.h"
 #include "rtc_base/numerics/event_based_exponential_moving_average.h"
 #include "rtc_base/rate_tracker.h"

 namespace cricket {

 // Version number for GOOG_PING, this is added to have the option of
 // adding other flavors in the future.
 constexpr int kGoogPingVersion = 1;

 // Connection and Port has circular dependencies.
 // So we use forward declaration rather than include.
 class Port;

 // Forward declaration so that a ConnectionRequest can contain a Connection.
 class Connection;

 struct CandidatePair final : public CandidatePairInterface {
   ~CandidatePair() override = default;

   const Candidate& local_candidate() const override { return local; }
   const Candidate& remote_candidate() const override { return remote; }

   Candidate local;
   Candidate remote;
 };

 // A ConnectionRequest is a simple STUN ping used to determine writability.
 class ConnectionRequest : public StunRequest {
  public:
   explicit ConnectionRequest(Connection* connection);
   void Prepare(StunMessage* request) override;
   void OnResponse(StunMessage* response) override;
   void OnErrorResponse(StunMessage* response) override;
   void OnTimeout() override;
   void OnSent() override;
   int resend_delay() override;

  private:
   Connection* const connection_;
 };

 // Represents a communication link between a port on the local client and a
 // port on the remote client.
 class Connection : public CandidatePairInterface,
                    public rtc::MessageHandlerAutoCleanup,
                    public sigslot::has_slots<> {
  public:
   struct SentPing {
     SentPing(const std::string id, int64_t sent_time, uint32_t nomination)
         : id(id), sent_time(sent_time), nomination(nomination) {}

     std::string id;
     int64_t sent_time;
     uint32_t nomination;
   };

   ~Connection() override;

   // A unique ID assigned when the connection is created.
   uint32_t id() const { return id_; }

   // Implementation of virtual methods in CandidatePairInterface.
   // Returns the description of the local port
   const Candidate& local_candidate() const override;
   // Returns the description of the remote port to which we communicate.
   const Candidate& remote_candidate() const override;

   // Return local network for this connection.
   virtual const rtc::Network* network() const;
   // Return generation for this connection.
   virtual int generation() const;

   // Returns the pair priority.
   virtual uint64_t priority() const;

   enum WriteState {
     STATE_WRITABLE = 0,          // we have received ping responses recently
     STATE_WRITE_UNRELIABLE = 1,  // we have had a few ping failures
     STATE_WRITE_INIT = 2,        // we have yet to receive a ping response
     STATE_WRITE_TIMEOUT = 3,     // we have had a large number of ping failures
   };

   WriteState write_state() const { return write_state_; }
   bool writable() const { return write_state_ == STATE_WRITABLE; }
   bool receiving() const { return receiving_; }

   // Determines whether the connection has finished connecting.  This can only
   // be false for TCP connections.
   bool connected() const { return connected_; }
   bool weak() const { return !(writable() && receiving() && connected()); }
   bool active() const { return write_state_ != STATE_WRITE_TIMEOUT; }

   // A connection is dead if it can be safely deleted.
   bool dead(int64_t now) const;

   // Estimate of the round-trip time over this connection.
   int rtt() const { return rtt_; }

   int unwritable_timeout() const;
   void set_unwritable_timeout(const absl::optional<int>& value_ms) {
     unwritable_timeout_ = value_ms;
   }
   int unwritable_min_checks() const;
   void set_unwritable_min_checks(const absl::optional<int>& value) {
     unwritable_min_checks_ = value;
   }
   int inactive_timeout() const;
   void set_inactive_timeout(const absl::optional<int>& value) {
     inactive_timeout_ = value;
   }

   // Gets the |ConnectionInfo| stats, where |best_connection| has not been
   // populated (default value false).
   ConnectionInfo stats();

   sigslot::signal1<Connection*> SignalStateChange;

   // Sent when the connection has decided that it is no longer of value.  It
   // will delete itself immediately after this call.
   sigslot::signal1<Connection*> SignalDestroyed;

   // The connection can send and receive packets asynchronously.  This matches
   // the interface of AsyncPacketSocket, which may use UDP or TCP under the
   // covers.
   virtual int Send(const void* data,
                    size_t size,
                    const rtc::PacketOptions& options) = 0;

   // Error if Send() returns < 0
   virtual int GetError() = 0;

   sigslot::signal4<Connection*, const char*, size_t, int64_t> SignalReadPacket;

   sigslot::signal1<Connection*> SignalReadyToSend;

   // Called when a packet is received on this connection.
   void OnReadPacket(const char* data, size_t size, int64_t packet_time_us);

   // Called when the socket is currently able to send.
   void OnReadyToSend();

   // Called when a connection is determined to be no longer useful to us.  We
   // still keep it around in case the other side wants to use it.  But we can
   // safely stop pinging on it and we can allow it to time out if the other
   // side stops using it as well.
   bool pruned() const { return pruned_; }
   void Prune();

   bool use_candidate_attr() const { return use_candidate_attr_; }
   void set_use_candidate_attr(bool enable);

   void set_nomination(uint32_t value) { nomination_ = value; }

   uint32_t remote_nomination() const { return remote_nomination_; }
   // One or several pairs may be nominated based on if Regular or Aggressive
   // Nomination is used. https://tools.ietf.org/html/rfc5245#section-8
   // |nominated| is defined both for the controlling or controlled agent based
   // on if a nomination has been pinged or acknowledged. The controlled agent
   // gets its |remote_nomination_| set when pinged by the controlling agent with
   // a nomination value. The controlling agent gets its |acked_nomination_| set
   // when receiving a response to a nominating ping.
   bool nominated() const { return acked_nomination_ || remote_nomination_; }
   void set_remote_ice_mode(IceMode mode) { remote_ice_mode_ = mode; }

   int receiving_timeout() const;
   void set_receiving_timeout(absl::optional<int> receiving_timeout_ms) {
     receiving_timeout_ = receiving_timeout_ms;
   }

   // Makes the connection go away.
   void Destroy();

   // Makes the connection go away, in a failed state.
   void FailAndDestroy();

   // Prunes the connection and sets its state to STATE_FAILED,
   // It will not be used or send pings although it can still receive packets.
   void FailAndPrune();

   // Checks that the state of this connection is up-to-date.  The argument is
   // the current time, which is compared against various timeouts.
   void UpdateState(int64_t now);

   // Called when this connection should try checking writability again.
   int64_t last_ping_sent() const { return last_ping_sent_; }
   void Ping(int64_t now);
   void ReceivedPingResponse(
       int rtt,
       const std::string& request_id,
       const absl::optional<uint32_t>& nomination = absl::nullopt);
   int64_t last_ping_response_received() const {
     return last_ping_response_received_;
   }
   const absl::optional<std::string>& last_ping_id_received() const {
     return last_ping_id_received_;
   }
   // Used to check if any STUN ping response has been received.
   int rtt_samples() const { return rtt_samples_; }

   // Called whenever a valid ping is received on this connection.  This is
   // public because the connection intercepts the first ping for us.
   int64_t last_ping_received() const { return last_ping_received_; }
   void ReceivedPing(
       const absl::optional<std::string>& request_id = absl::nullopt);
   // Handles the binding request; sends a response if this is a valid request.
   void HandleStunBindingOrGoogPingRequest(IceMessage* msg);
   // Handles the piggyback acknowledgement of the lastest connectivity check
   // that the remote peer has received, if it is indicated in the incoming
   // connectivity check from the peer.
   void HandlePiggybackCheckAcknowledgementIfAny(StunMessage* msg);
   int64_t last_data_received() const { return last_data_received_; }

   // Debugging description of this connection
   std::string ToDebugId() const;
   std::string ToString() const;
   std::string ToSensitiveString() const;
   // Structured description of this candidate pair.
   const webrtc::IceCandidatePairDescription& ToLogDescription();
   void set_ice_event_log(webrtc::IceEventLog* ice_event_log) {
     ice_event_log_ = ice_event_log;
   }
   // Prints pings_since_last_response_ into a string.
   void PrintPingsSinceLastResponse(std::string* pings, size_t max);

   bool reported() const { return reported_; }
   void set_reported(bool reported) { reported_ = reported; }
   // The following two methods are only used for logging in ToString above, and
   // this flag is set true by P2PTransportChannel for its selected candidate
   // pair.
   bool selected() const { return selected_; }
   void set_selected(bool selected) { selected_ = selected; }

   // This signal will be fired if this connection is nominated by the
   // controlling side.
   sigslot::signal1<Connection*> SignalNominated;

   // Invoked when Connection receives STUN error response with 487 code.
   void HandleRoleConflictFromPeer();

   IceCandidatePairState state() const { return state_; }

   int num_pings_sent() const { return num_pings_sent_; }

   IceMode remote_ice_mode() const { return remote_ice_mode_; }

   uint32_t ComputeNetworkCost() const;

   // Update the ICE password and/or generation of the remote candidate if the
   // ufrag in |params| matches the candidate's ufrag, and the
   // candidate's password and/or ufrag has not been set.
   void MaybeSetRemoteIceParametersAndGeneration(const IceParameters& params,
                                                 int generation);

   // If |remote_candidate_| is peer reflexive and is equivalent to
   // |new_candidate| except the type, update |remote_candidate_| to
   // |new_candidate|.
   void MaybeUpdatePeerReflexiveCandidate(const Candidate& new_candidate);

   // Returns the last received time of any data, stun request, or stun
   // response in milliseconds
   int64_t last_received() const;
   // Returns the last time when the connection changed its receiving state.
   int64_t receiving_unchanged_since() const {
     return receiving_unchanged_since_;
   }

   bool stable(int64_t now) const;

   // Check if we sent |val| pings without receving a response.
   bool TooManyOutstandingPings(const absl::optional<int>& val) const;

   void SetIceFieldTrials(const IceFieldTrials* field_trials);
   const rtc::EventBasedExponentialMovingAverage& GetRttEstimate() const {
     return rtt_estimate_;
   }

   // Reset the connection to a state of a newly connected.
   // - STATE_WRITE_INIT
   // - receving = false
   // - throw away all pending request
   // - reset RttEstimate
   //
   // Keep the following unchanged:
   // - connected
   // - remote_candidate
   // - statistics
   //
   // Does not trigger SignalStateChange
   void ForgetLearnedState();

   void SendStunBindingResponse(const StunMessage* request);
   void SendGoogPingResponse(const StunMessage* request);
   void SendResponseMessage(const StunMessage& response);

   // An accessor for unit tests.
   Port* PortForTest() { return port_; }
   const Port* PortForTest() const { return port_; }

   // Public for unit tests.
   uint32_t acked_nomination() const { return acked_nomination_; }

   // Public for unit tests.
   void set_remote_nomination(uint32_t remote_nomination) {
     remote_nomination_ = remote_nomination;
   }

  protected:
   enum { MSG_DELETE = 0, MSG_FIRST_AVAILABLE };

   // Constructs a new connection to the given remote port.
   Connection(Port* port, size_t index, const Candidate& candidate);

   // Called back when StunRequestManager has a stun packet to send
   void OnSendStunPacket(const void* data, size_t size, StunRequest* req);

   // Callbacks from ConnectionRequest
   virtual void OnConnectionRequestResponse(ConnectionRequest* req,
                                            StunMessage* response);
   void OnConnectionRequestErrorResponse(ConnectionRequest* req,
                                         StunMessage* response);
   void OnConnectionRequestTimeout(ConnectionRequest* req);
   void OnConnectionRequestSent(ConnectionRequest* req);

   bool rtt_converged() const;

   // If the response is not received within 2 * RTT, the response is assumed to
   // be missing.
   bool missing_responses(int64_t now) const;

   // Changes the state and signals if necessary.
   void set_write_state(WriteState value);
   void UpdateReceiving(int64_t now);
   void set_state(IceCandidatePairState state);
   void set_connected(bool value);

   uint32_t nomination() const { return nomination_; }

   void OnMessage(rtc::Message* pmsg) override;

   // The local port where this connection sends and receives packets.
   Port* port() { return port_; }
   const Port* port() const { return port_; }

   uint32_t id_;
   Port* port_;
   size_t local_candidate_index_;
   Candidate remote_candidate_;

   ConnectionInfo stats_;
   rtc::RateTracker recv_rate_tracker_;
   rtc::RateTracker send_rate_tracker_;

  private:
   // Update the local candidate based on the mapped address attribute.
   // If the local candidate changed, fires SignalStateChange.
   void MaybeUpdateLocalCandidate(ConnectionRequest* request,
                                  StunMessage* response);

   void LogCandidatePairConfig(webrtc::IceCandidatePairConfigType type);
   void LogCandidatePairEvent(webrtc::IceCandidatePairEventType type,
                              uint32_t transaction_id);

   // Check if this IceMessage is identical
   // to last message ack:ed STUN_BINDING_REQUEST.
   bool ShouldSendGoogPing(const StunMessage* message);

   WriteState write_state_;
   bool receiving_;
   bool connected_;
   bool pruned_;
   bool selected_ = false;
   // By default |use_candidate_attr_| flag will be true,
   // as we will be using aggressive nomination.
   // But when peer is ice-lite, this flag "must" be initialized to false and
   // turn on when connection becomes "best connection".
   bool use_candidate_attr_;
   // Used by the controlling side to indicate that this connection will be
   // selected for transmission if the peer supports ICE-renomination when this
   // value is positive. A larger-value indicates that a connection is nominated
   // later and should be selected by the controlled side with higher precedence.
   // A zero-value indicates not nominating this connection.
   uint32_t nomination_ = 0;
   // The last nomination that has been acknowledged.
   uint32_t acked_nomination_ = 0;
   // Used by the controlled side to remember the nomination value received from
   // the controlling side. When the peer does not support ICE re-nomination, its
   // value will be 1 if the connection has been nominated.
   uint32_t remote_nomination_ = 0;

   IceMode remote_ice_mode_;
   StunRequestManager requests_;
   int rtt_;
   int rtt_samples_ = 0;
   // https://w3c.github.io/webrtc-stats/#dom-rtcicecandidatepairstats-totalroundtriptime
   uint64_t total_round_trip_time_ms_ = 0;
   // https://w3c.github.io/webrtc-stats/#dom-rtcicecandidatepairstats-currentroundtriptime
   absl::optional<uint32_t> current_round_trip_time_ms_;
   int64_t last_ping_sent_;      // last time we sent a ping to the other side
   int64_t last_ping_received_;  // last time we received a ping from the other
                                 // side
   int64_t last_data_received_;
   int64_t last_ping_response_received_;
   int64_t receiving_unchanged_since_ = 0;
   std::vector<SentPing> pings_since_last_response_;
   // Transaction ID of the last connectivity check received. Null if having not
   // received a ping yet.
   absl::optional<std::string> last_ping_id_received_;

   absl::optional<int> unwritable_timeout_;
   absl::optional<int> unwritable_min_checks_;
   absl::optional<int> inactive_timeout_;

   bool reported_;
   IceCandidatePairState state_;
   // Time duration to switch from receiving to not receiving.
   absl::optional<int> receiving_timeout_;
   int64_t time_created_ms_;
   int num_pings_sent_ = 0;

   absl::optional<webrtc::IceCandidatePairDescription> log_description_;
   webrtc::IceEventLog* ice_event_log_ = nullptr;

   // GOOG_PING_REQUEST is sent in place of STUN_BINDING_REQUEST
   // if configured via field trial, the remote peer supports it (signaled
   // in STUN_BINDING) and if the last STUN BINDING is identical to the one
   // that is about to be sent.
   absl::optional<bool> remote_support_goog_ping_;
   std::unique_ptr<StunMessage> cached_stun_binding_;

   const IceFieldTrials* field_trials_;
   rtc::EventBasedExponentialMovingAverage rtt_estimate_;

   friend class Port;
   friend class ConnectionRequest;
   friend class P2PTransportChannel;
 };

 // ProxyConnection defers all the interesting work to the port.
 class ProxyConnection : public Connection {
  public:
   ProxyConnection(Port* port, size_t index, const Candidate& remote_candidate);

   int Send(const void* data,
            size_t size,
            const rtc::PacketOptions& options) override;
   int GetError() override;

  private:
   int error_ = 0;
 };

 }  // namespace cricket

 #endif  // P2P_BASE_CONNECTION_H_
	/*
	* Copyright 2019 The WebRTC Project Authors. All rights reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#ifndef P2P_BASE_CONNECTION_H_
	#define P2P_BASE_CONNECTION_H_

	#include <memory>
	#include <string>
	#include <vector>

	#include "absl/types/optional.h"
	#include "api/candidate.h"
	#include "api/transport/stun.h"
	#include "logging/rtc_event_log/ice_logger.h"
	#include "p2p/base/candidate_pair_interface.h"
	#include "p2p/base/connection_info.h"
	#include "p2p/base/p2p_transport_channel_ice_field_trials.h"
	#include "p2p/base/stun_request.h"
	#include "p2p/base/transport_description.h"
	#include "rtc_base/async_packet_socket.h"
	#include "rtc_base/message_handler.h"
	#include "rtc_base/network.h"
	#include "rtc_base/numerics/event_based_exponential_moving_average.h"
	#include "rtc_base/rate_tracker.h"

	namespace cricket {

	// Version number for GOOG_PING, this is added to have the option of
	// adding other flavors in the future.
	constexpr int kGoogPingVersion = 1;

	// Connection and Port has circular dependencies.
	// So we use forward declaration rather than include.
	class Port;

	// Forward declaration so that a ConnectionRequest can contain a Connection.
	class Connection;

	struct CandidatePair final : public CandidatePairInterface {
	~CandidatePair() override = default;

	const Candidate& local_candidate() const override { return local; }
	const Candidate& remote_candidate() const override { return remote; }

	Candidate local;
	Candidate remote;
	};

	// A ConnectionRequest is a simple STUN ping used to determine writability.
	class ConnectionRequest : public StunRequest {
	public:
	explicit ConnectionRequest(Connection* connection);
	void Prepare(StunMessage* request) override;
	void OnResponse(StunMessage* response) override;
	void OnErrorResponse(StunMessage* response) override;
	void OnTimeout() override;
	void OnSent() override;
	int resend_delay() override;

	private:
	Connection* const connection_;
	};

	// Represents a communication link between a port on the local client and a
	// port on the remote client.
	class Connection : public CandidatePairInterface,
	public rtc::MessageHandlerAutoCleanup,
	public sigslot::has_slots<> {
	public:
	struct SentPing {
	SentPing(const std::string id, int64_t sent_time, uint32_t nomination)
	: id(id), sent_time(sent_time), nomination(nomination) {}

	std::string id;
	int64_t sent_time;
	uint32_t nomination;
	};

	~Connection() override;

	// A unique ID assigned when the connection is created.
	uint32_t id() const { return id_; }

	// Implementation of virtual methods in CandidatePairInterface.
	// Returns the description of the local port
	const Candidate& local_candidate() const override;
	// Returns the description of the remote port to which we communicate.
	const Candidate& remote_candidate() const override;

	// Return local network for this connection.
	virtual const rtc::Network* network() const;
	// Return generation for this connection.
	virtual int generation() const;

	// Returns the pair priority.
	virtual uint64_t priority() const;

	enum WriteState {
	STATE_WRITABLE = 0, // we have received ping responses recently
	STATE_WRITE_UNRELIABLE = 1, // we have had a few ping failures
	STATE_WRITE_INIT = 2, // we have yet to receive a ping response
	STATE_WRITE_TIMEOUT = 3, // we have had a large number of ping failures
	};

	WriteState write_state() const { return write_state_; }
	bool writable() const { return write_state_ == STATE_WRITABLE; }
	bool receiving() const { return receiving_; }

	// Determines whether the connection has finished connecting. This can only
	// be false for TCP connections.
	bool connected() const { return connected_; }
	bool weak() const { return !(writable() && receiving() && connected()); }
	bool active() const { return write_state_ != STATE_WRITE_TIMEOUT; }

	// A connection is dead if it can be safely deleted.
	bool dead(int64_t now) const;

	// Estimate of the round-trip time over this connection.
	int rtt() const { return rtt_; }

	int unwritable_timeout() const;
	void set_unwritable_timeout(const absl::optional<int>& value_ms) {
	unwritable_timeout_ = value_ms;
	}
	int unwritable_min_checks() const;
	void set_unwritable_min_checks(const absl::optional<int>& value) {
	unwritable_min_checks_ = value;
	}
	int inactive_timeout() const;
	void set_inactive_timeout(const absl::optional<int>& value) {
	inactive_timeout_ = value;
	}

	// Gets the \|ConnectionInfo\| stats, where \|best_connection\| has not been
	// populated (default value false).
	ConnectionInfo stats();

	sigslot::signal1<Connection*> SignalStateChange;

	// Sent when the connection has decided that it is no longer of value. It
	// will delete itself immediately after this call.
	sigslot::signal1<Connection*> SignalDestroyed;

	// The connection can send and receive packets asynchronously. This matches
	// the interface of AsyncPacketSocket, which may use UDP or TCP under the
	// covers.
	virtual int Send(const void* data,
	size_t size,
	const rtc::PacketOptions& options) = 0;

	// Error if Send() returns < 0
	virtual int GetError() = 0;

	sigslot::signal4<Connection, const char, size_t, int64_t> SignalReadPacket;

	sigslot::signal1<Connection*> SignalReadyToSend;

	// Called when a packet is received on this connection.
	void OnReadPacket(const char* data, size_t size, int64_t packet_time_us);

	// Called when the socket is currently able to send.
	void OnReadyToSend();

	// Called when a connection is determined to be no longer useful to us. We
	// still keep it around in case the other side wants to use it. But we can
	// safely stop pinging on it and we can allow it to time out if the other
	// side stops using it as well.
	bool pruned() const { return pruned_; }
	void Prune();

	bool use_candidate_attr() const { return use_candidate_attr_; }
	void set_use_candidate_attr(bool enable);

	void set_nomination(uint32_t value) { nomination_ = value; }

	uint32_t remote_nomination() const { return remote_nomination_; }
	// One or several pairs may be nominated based on if Regular or Aggressive
	// Nomination is used. https://tools.ietf.org/html/rfc5245#section-8
	// \|nominated\| is defined both for the controlling or controlled agent based
	// on if a nomination has been pinged or acknowledged. The controlled agent
	// gets its \|remote_nomination_\| set when pinged by the controlling agent with
	// a nomination value. The controlling agent gets its \|acked_nomination_\| set
	// when receiving a response to a nominating ping.
	bool nominated() const { return acked_nomination_ \|\| remote_nomination_; }
	void set_remote_ice_mode(IceMode mode) { remote_ice_mode_ = mode; }

	int receiving_timeout() const;
	void set_receiving_timeout(absl::optional<int> receiving_timeout_ms) {
	receiving_timeout_ = receiving_timeout_ms;
	}

	// Makes the connection go away.
	void Destroy();

	// Makes the connection go away, in a failed state.
	void FailAndDestroy();

	// Prunes the connection and sets its state to STATE_FAILED,
	// It will not be used or send pings although it can still receive packets.
	void FailAndPrune();

	// Checks that the state of this connection is up-to-date. The argument is
	// the current time, which is compared against various timeouts.
	void UpdateState(int64_t now);

	// Called when this connection should try checking writability again.
	int64_t last_ping_sent() const { return last_ping_sent_; }
	void Ping(int64_t now);
	void ReceivedPingResponse(
	int rtt,
	const std::string& request_id,
	const absl::optional<uint32_t>& nomination = absl::nullopt);
	int64_t last_ping_response_received() const {
	return last_ping_response_received_;
	}
	const absl::optional<std::string>& last_ping_id_received() const {
	return last_ping_id_received_;
	}
	// Used to check if any STUN ping response has been received.
	int rtt_samples() const { return rtt_samples_; }

	// Called whenever a valid ping is received on this connection. This is
	// public because the connection intercepts the first ping for us.
	int64_t last_ping_received() const { return last_ping_received_; }
	void ReceivedPing(
	const absl::optional<std::string>& request_id = absl::nullopt);
	// Handles the binding request; sends a response if this is a valid request.
	void HandleStunBindingOrGoogPingRequest(IceMessage* msg);
	// Handles the piggyback acknowledgement of the lastest connectivity check
	// that the remote peer has received, if it is indicated in the incoming
	// connectivity check from the peer.
	void HandlePiggybackCheckAcknowledgementIfAny(StunMessage* msg);
	int64_t last_data_received() const { return last_data_received_; }

	// Debugging description of this connection
	std::string ToDebugId() const;
	std::string ToString() const;
	std::string ToSensitiveString() const;
	// Structured description of this candidate pair.
	const webrtc::IceCandidatePairDescription& ToLogDescription();
	void set_ice_event_log(webrtc::IceEventLog* ice_event_log) {
	ice_event_log_ = ice_event_log;
	}
	// Prints pings_since_last_response_ into a string.
	void PrintPingsSinceLastResponse(std::string* pings, size_t max);

	bool reported() const { return reported_; }
	void set_reported(bool reported) { reported_ = reported; }
	// The following two methods are only used for logging in ToString above, and
	// this flag is set true by P2PTransportChannel for its selected candidate
	// pair.
	bool selected() const { return selected_; }
	void set_selected(bool selected) { selected_ = selected; }

	// This signal will be fired if this connection is nominated by the
	// controlling side.
	sigslot::signal1<Connection*> SignalNominated;

	// Invoked when Connection receives STUN error response with 487 code.
	void HandleRoleConflictFromPeer();

	IceCandidatePairState state() const { return state_; }

	int num_pings_sent() const { return num_pings_sent_; }

	IceMode remote_ice_mode() const { return remote_ice_mode_; }

	uint32_t ComputeNetworkCost() const;

	// Update the ICE password and/or generation of the remote candidate if the
	// ufrag in \|params\| matches the candidate's ufrag, and the
	// candidate's password and/or ufrag has not been set.
	void MaybeSetRemoteIceParametersAndGeneration(const IceParameters& params,
	int generation);

	// If \|remote_candidate_\| is peer reflexive and is equivalent to
	// \|new_candidate\| except the type, update \|remote_candidate_\| to
	// \|new_candidate\|.
	void MaybeUpdatePeerReflexiveCandidate(const Candidate& new_candidate);

	// Returns the last received time of any data, stun request, or stun
	// response in milliseconds
	int64_t last_received() const;
	// Returns the last time when the connection changed its receiving state.
	int64_t receiving_unchanged_since() const {
	return receiving_unchanged_since_;
	}

	bool stable(int64_t now) const;

	// Check if we sent \|val\| pings without receving a response.
	bool TooManyOutstandingPings(const absl::optional<int>& val) const;

	void SetIceFieldTrials(const IceFieldTrials* field_trials);
	const rtc::EventBasedExponentialMovingAverage& GetRttEstimate() const {
	return rtt_estimate_;
	}

	// Reset the connection to a state of a newly connected.
	// - STATE_WRITE_INIT
	// - receving = false
	// - throw away all pending request
	// - reset RttEstimate
	//
	// Keep the following unchanged:
	// - connected
	// - remote_candidate
	// - statistics
	//
	// Does not trigger SignalStateChange
	void ForgetLearnedState();

	void SendStunBindingResponse(const StunMessage* request);
	void SendGoogPingResponse(const StunMessage* request);
	void SendResponseMessage(const StunMessage& response);

	// An accessor for unit tests.
	Port* PortForTest() { return port_; }
	const Port* PortForTest() const { return port_; }

	// Public for unit tests.
	uint32_t acked_nomination() const { return acked_nomination_; }

	// Public for unit tests.
	void set_remote_nomination(uint32_t remote_nomination) {
	remote_nomination_ = remote_nomination;
	}

	protected:
	enum { MSG_DELETE = 0, MSG_FIRST_AVAILABLE };

	// Constructs a new connection to the given remote port.
	Connection(Port* port, size_t index, const Candidate& candidate);

	// Called back when StunRequestManager has a stun packet to send
	void OnSendStunPacket(const void* data, size_t size, StunRequest* req);

	// Callbacks from ConnectionRequest
	virtual void OnConnectionRequestResponse(ConnectionRequest* req,
	StunMessage* response);
	void OnConnectionRequestErrorResponse(ConnectionRequest* req,
	StunMessage* response);
	void OnConnectionRequestTimeout(ConnectionRequest* req);
	void OnConnectionRequestSent(ConnectionRequest* req);

	bool rtt_converged() const;

	// If the response is not received within 2 * RTT, the response is assumed to
	// be missing.
	bool missing_responses(int64_t now) const;

	// Changes the state and signals if necessary.
	void set_write_state(WriteState value);
	void UpdateReceiving(int64_t now);
	void set_state(IceCandidatePairState state);
	void set_connected(bool value);

	uint32_t nomination() const { return nomination_; }

	void OnMessage(rtc::Message* pmsg) override;

	// The local port where this connection sends and receives packets.
	Port* port() { return port_; }
	const Port* port() const { return port_; }

	uint32_t id_;
	Port* port_;
	size_t local_candidate_index_;
	Candidate remote_candidate_;

	ConnectionInfo stats_;
	rtc::RateTracker recv_rate_tracker_;
	rtc::RateTracker send_rate_tracker_;

	private:
	// Update the local candidate based on the mapped address attribute.
	// If the local candidate changed, fires SignalStateChange.
	void MaybeUpdateLocalCandidate(ConnectionRequest* request,
	StunMessage* response);

	void LogCandidatePairConfig(webrtc::IceCandidatePairConfigType type);
	void LogCandidatePairEvent(webrtc::IceCandidatePairEventType type,
	uint32_t transaction_id);

	// Check if this IceMessage is identical
	// to last message ack:ed STUN_BINDING_REQUEST.
	bool ShouldSendGoogPing(const StunMessage* message);

	WriteState write_state_;
	bool receiving_;
	bool connected_;
	bool pruned_;
	bool selected_ = false;
	// By default \|use_candidate_attr_\| flag will be true,
	// as we will be using aggressive nomination.
	// But when peer is ice-lite, this flag "must" be initialized to false and
	// turn on when connection becomes "best connection".
	bool use_candidate_attr_;
	// Used by the controlling side to indicate that this connection will be
	// selected for transmission if the peer supports ICE-renomination when this
	// value is positive. A larger-value indicates that a connection is nominated
	// later and should be selected by the controlled side with higher precedence.
	// A zero-value indicates not nominating this connection.
	uint32_t nomination_ = 0;
	// The last nomination that has been acknowledged.
	uint32_t acked_nomination_ = 0;
	// Used by the controlled side to remember the nomination value received from
	// the controlling side. When the peer does not support ICE re-nomination, its
	// value will be 1 if the connection has been nominated.
	uint32_t remote_nomination_ = 0;

	IceMode remote_ice_mode_;
	StunRequestManager requests_;
	int rtt_;
	int rtt_samples_ = 0;
	// https://w3c.github.io/webrtc-stats/#dom-rtcicecandidatepairstats-totalroundtriptime
	uint64_t total_round_trip_time_ms_ = 0;
	// https://w3c.github.io/webrtc-stats/#dom-rtcicecandidatepairstats-currentroundtriptime
	absl::optional<uint32_t> current_round_trip_time_ms_;
	int64_t last_ping_sent_; // last time we sent a ping to the other side
	int64_t last_ping_received_; // last time we received a ping from the other
	// side
	int64_t last_data_received_;
	int64_t last_ping_response_received_;
	int64_t receiving_unchanged_since_ = 0;
	std::vector<SentPing> pings_since_last_response_;
	// Transaction ID of the last connectivity check received. Null if having not
	// received a ping yet.
	absl::optional<std::string> last_ping_id_received_;

	absl::optional<int> unwritable_timeout_;
	absl::optional<int> unwritable_min_checks_;
	absl::optional<int> inactive_timeout_;

	bool reported_;
	IceCandidatePairState state_;
	// Time duration to switch from receiving to not receiving.
	absl::optional<int> receiving_timeout_;
	int64_t time_created_ms_;
	int num_pings_sent_ = 0;

	absl::optional<webrtc::IceCandidatePairDescription> log_description_;
	webrtc::IceEventLog* ice_event_log_ = nullptr;

	// GOOG_PING_REQUEST is sent in place of STUN_BINDING_REQUEST
	// if configured via field trial, the remote peer supports it (signaled
	// in STUN_BINDING) and if the last STUN BINDING is identical to the one
	// that is about to be sent.
	absl::optional<bool> remote_support_goog_ping_;
	std::unique_ptr<StunMessage> cached_stun_binding_;

	const IceFieldTrials* field_trials_;
	rtc::EventBasedExponentialMovingAverage rtt_estimate_;

	friend class Port;
	friend class ConnectionRequest;
	friend class P2PTransportChannel;
	};

	// ProxyConnection defers all the interesting work to the port.
	class ProxyConnection : public Connection {
	public:
	ProxyConnection(Port* port, size_t index, const Candidate& remote_candidate);

	int Send(const void* data,
	size_t size,
	const rtc::PacketOptions& options) override;
	int GetError() override;

	private:
	int error_ = 0;
	};

	} // namespace cricket

	#endif // P2P_BASE_CONNECTION_H_