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

 /*
  *  Copyright 2004 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_PORT_H_
 #define P2P_BASE_PORT_H_

 #include <map>
 #include <memory>
 #include <set>
 #include <string>
 #include <utility>
 #include <vector>

 #include "absl/types/optional.h"
 #include "api/candidate.h"
 #include "api/packet_socket_factory.h"
 #include "api/rtc_error.h"
 #include "api/transport/stun.h"
 #include "logging/rtc_event_log/events/rtc_event_ice_candidate_pair.h"
 #include "logging/rtc_event_log/events/rtc_event_ice_candidate_pair_config.h"
 #include "logging/rtc_event_log/ice_logger.h"
 #include "p2p/base/candidate_pair_interface.h"
 #include "p2p/base/connection.h"
 #include "p2p/base/connection_info.h"
 #include "p2p/base/p2p_constants.h"
 #include "p2p/base/port_interface.h"
 #include "p2p/base/stun_request.h"
 #include "rtc_base/async_packet_socket.h"
 #include "rtc_base/checks.h"
 #include "rtc_base/net_helper.h"
 #include "rtc_base/network.h"
 #include "rtc_base/proxy_info.h"
 #include "rtc_base/rate_tracker.h"
 #include "rtc_base/socket_address.h"
 #include "rtc_base/system/rtc_export.h"
 #include "rtc_base/third_party/sigslot/sigslot.h"
 #include "rtc_base/thread.h"
 #include "rtc_base/weak_ptr.h"

 namespace cricket {

 RTC_EXPORT extern const char LOCAL_PORT_TYPE[];
 RTC_EXPORT extern const char STUN_PORT_TYPE[];
 RTC_EXPORT extern const char PRFLX_PORT_TYPE[];
 RTC_EXPORT extern const char RELAY_PORT_TYPE[];

 // RFC 6544, TCP candidate encoding rules.
 extern const int DISCARD_PORT;
 extern const char TCPTYPE_ACTIVE_STR[];
 extern const char TCPTYPE_PASSIVE_STR[];
 extern const char TCPTYPE_SIMOPEN_STR[];

 enum IcePriorityValue {
   ICE_TYPE_PREFERENCE_RELAY_TLS = 0,
   ICE_TYPE_PREFERENCE_RELAY_TCP = 1,
   ICE_TYPE_PREFERENCE_RELAY_UDP = 2,
   ICE_TYPE_PREFERENCE_PRFLX_TCP = 80,
   ICE_TYPE_PREFERENCE_HOST_TCP = 90,
   ICE_TYPE_PREFERENCE_SRFLX = 100,
   ICE_TYPE_PREFERENCE_PRFLX = 110,
   ICE_TYPE_PREFERENCE_HOST = 126
 };

 enum class MdnsNameRegistrationStatus {
   // IP concealment with mDNS is not enabled or the name registration process is
   // not started yet.
   kNotStarted,
   // A request to create and register an mDNS name for a local IP address of a
   // host candidate is sent to the mDNS responder.
   kInProgress,
   // The name registration is complete and the created name is returned by the
   // mDNS responder.
   kCompleted,
 };

 // Stats that we can return about the port of a STUN candidate.
 class StunStats {
  public:
   StunStats() = default;
   StunStats(const StunStats&) = default;
   ~StunStats() = default;

   StunStats& operator=(const StunStats& other) = default;

   int stun_binding_requests_sent = 0;
   int stun_binding_responses_received = 0;
   double stun_binding_rtt_ms_total = 0;
   double stun_binding_rtt_ms_squared_total = 0;
 };

 // Stats that we can return about a candidate.
 class CandidateStats {
  public:
   CandidateStats();
   explicit CandidateStats(Candidate candidate);
   CandidateStats(const CandidateStats&);
   ~CandidateStats();

   Candidate candidate;
   // STUN port stats if this candidate is a STUN candidate.
   absl::optional<StunStats> stun_stats;
 };

 typedef std::vector<CandidateStats> CandidateStatsList;

 const char* ProtoToString(ProtocolType proto);
 bool StringToProto(const char* value, ProtocolType* proto);

 struct ProtocolAddress {
   rtc::SocketAddress address;
   ProtocolType proto;

   ProtocolAddress(const rtc::SocketAddress& a, ProtocolType p)
       : address(a), proto(p) {}

   bool operator==(const ProtocolAddress& o) const {
     return address == o.address && proto == o.proto;
   }
   bool operator!=(const ProtocolAddress& o) const { return !(*this == o); }
 };

 struct IceCandidateErrorEvent {
   IceCandidateErrorEvent() = default;
   IceCandidateErrorEvent(std::string address,
                          int port,
                          std::string url,
                          int error_code,
                          std::string error_text)
       : address(std::move(address)),
         port(port),
         url(std::move(url)),
         error_code(error_code),
         error_text(std::move(error_text)) {}

   std::string address;
   int port = 0;
   std::string url;
   int error_code = 0;
   std::string error_text;
 };

 struct CandidatePairChangeEvent {
   CandidatePair selected_candidate_pair;
   int64_t last_data_received_ms;
   std::string reason;
   // How long do we estimate that we've been disconnected.
   int64_t estimated_disconnected_time_ms;
 };

 typedef std::set<rtc::SocketAddress> ServerAddresses;

 // Represents a local communication mechanism that can be used to create
 // connections to similar mechanisms of the other client.  Subclasses of this
 // one add support for specific mechanisms like local UDP ports.
 class Port : public PortInterface,
              public rtc::MessageHandler,
              public sigslot::has_slots<> {
  public:
   // INIT: The state when a port is just created.
   // KEEP_ALIVE_UNTIL_PRUNED: A port should not be destroyed even if no
   // connection is using it.
   // PRUNED: It will be destroyed if no connection is using it for a period of
   // 30 seconds.
   enum class State { INIT, KEEP_ALIVE_UNTIL_PRUNED, PRUNED };
   Port(rtc::Thread* thread,
        const std::string& type,
        rtc::PacketSocketFactory* factory,
        rtc::Network* network,
        const std::string& username_fragment,
        const std::string& password);
   Port(rtc::Thread* thread,
        const std::string& type,
        rtc::PacketSocketFactory* factory,
        rtc::Network* network,
        uint16_t min_port,
        uint16_t max_port,
        const std::string& username_fragment,
        const std::string& password);
   ~Port() override;

   // Note that the port type does NOT uniquely identify different subclasses of
   // Port. Use the 2-tuple of the port type AND the protocol (GetProtocol()) to
   // uniquely identify subclasses. Whenever a new subclass of Port introduces a
   // conflit in the value of the 2-tuple, make sure that the implementation that
   // relies on this 2-tuple for RTTI is properly changed.
   const std::string& Type() const override;
   rtc::Network* Network() const override;

   // Methods to set/get ICE role and tiebreaker values.
   IceRole GetIceRole() const override;
   void SetIceRole(IceRole role) override;

   void SetIceTiebreaker(uint64_t tiebreaker) override;
   uint64_t IceTiebreaker() const override;

   bool SharedSocket() const override;
   void ResetSharedSocket() { shared_socket_ = false; }

   // Should not destroy the port even if no connection is using it. Called when
   // a port is ready to use.
   void KeepAliveUntilPruned();
   // Allows a port to be destroyed if no connection is using it.
   void Prune();

   // Call to stop any currently pending operations from running.
   void CancelPendingTasks();

   // The thread on which this port performs its I/O.
   rtc::Thread* thread() { return thread_; }

   // The factory used to create the sockets of this port.
   rtc::PacketSocketFactory* socket_factory() const { return factory_; }
   void set_socket_factory(rtc::PacketSocketFactory* factory) {
     factory_ = factory;
   }

   // For debugging purposes.
   const std::string& content_name() const { return content_name_; }
   void set_content_name(const std::string& content_name) {
     content_name_ = content_name;
   }

   int component() const { return component_; }
   void set_component(int component) { component_ = component; }

   bool send_retransmit_count_attribute() const {
     return send_retransmit_count_attribute_;
   }
   void set_send_retransmit_count_attribute(bool enable) {
     send_retransmit_count_attribute_ = enable;
   }

   // Identifies the generation that this port was created in.
   uint32_t generation() const { return generation_; }
   void set_generation(uint32_t generation) { generation_ = generation; }

   const std::string username_fragment() const;
   const std::string& password() const { return password_; }

   // May be called when this port was initially created by a pooled
   // PortAllocatorSession, and is now being assigned to an ICE transport.
   // Updates the information for candidates as well.
   void SetIceParameters(int component,
                         const std::string& username_fragment,
                         const std::string& password);

   // Fired when candidates are discovered by the port. When all candidates
   // are discovered that belong to port SignalAddressReady is fired.
   sigslot::signal2<Port*, const Candidate&> SignalCandidateReady;
   // Provides all of the above information in one handy object.
   const std::vector<Candidate>& Candidates() const override;
   // Fired when candidate discovery failed using certain server.
   sigslot::signal2<Port*, const IceCandidateErrorEvent&> SignalCandidateError;

   // SignalPortComplete is sent when port completes the task of candidates
   // allocation.
   sigslot::signal1<Port*> SignalPortComplete;
   // This signal sent when port fails to allocate candidates and this port
   // can't be used in establishing the connections. When port is in shared mode
   // and port fails to allocate one of the candidates, port shouldn't send
   // this signal as other candidates might be usefull in establishing the
   // connection.
   sigslot::signal1<Port*> SignalPortError;

   // Returns a map containing all of the connections of this port, keyed by the
   // remote address.
   typedef std::map<rtc::SocketAddress, Connection*> AddressMap;
   const AddressMap& connections() { return connections_; }

   // Returns the connection to the given address or NULL if none exists.
   Connection* GetConnection(const rtc::SocketAddress& remote_addr) override;

   // Called each time a connection is created.
   sigslot::signal2<Port*, Connection*> SignalConnectionCreated;

   // In a shared socket mode each port which shares the socket will decide
   // to accept the packet based on the |remote_addr|. Currently only UDP
   // port implemented this method.
   // TODO(mallinath) - Make it pure virtual.
   virtual bool HandleIncomingPacket(rtc::AsyncPacketSocket* socket,
                                     const char* data,
                                     size_t size,
                                     const rtc::SocketAddress& remote_addr,
                                     int64_t packet_time_us);

   // Shall the port handle packet from this |remote_addr|.
   // This method is overridden by TurnPort.
   virtual bool CanHandleIncomingPacketsFrom(
       const rtc::SocketAddress& remote_addr) const;

   // Sends a response error to the given request.
   void SendBindingErrorResponse(StunMessage* request,
                                 const rtc::SocketAddress& addr,
                                 int error_code,
                                 const std::string& reason) override;
   void SendUnknownAttributesErrorResponse(
       StunMessage* request,
       const rtc::SocketAddress& addr,
       const std::vector<uint16_t>& unknown_types);

   void set_proxy(const std::string& user_agent, const rtc::ProxyInfo& proxy) {
     user_agent_ = user_agent;
     proxy_ = proxy;
   }
   const std::string& user_agent() { return user_agent_; }
   const rtc::ProxyInfo& proxy() { return proxy_; }

   void EnablePortPackets() override;

   // Called if the port has no connections and is no longer useful.
   void Destroy();

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

   // Debugging description of this port
   std::string ToString() const override;
   uint16_t min_port() { return min_port_; }
   uint16_t max_port() { return max_port_; }

   // Timeout shortening function to speed up unit tests.
   void set_timeout_delay(int delay);

   // This method will return local and remote username fragements from the
   // stun username attribute if present.
   bool ParseStunUsername(const StunMessage* stun_msg,
                          std::string* local_username,
                          std::string* remote_username) const;
   void CreateStunUsername(const std::string& remote_username,
                           std::string* stun_username_attr_str) const;

   bool MaybeIceRoleConflict(const rtc::SocketAddress& addr,
                             IceMessage* stun_msg,
                             const std::string& remote_ufrag);

   // Called when a packet has been sent to the socket.
   // This is made pure virtual to notify subclasses of Port that they MUST
   // listen to AsyncPacketSocket::SignalSentPacket and then call
   // PortInterface::OnSentPacket.
   virtual void OnSentPacket(rtc::AsyncPacketSocket* socket,
                             const rtc::SentPacket& sent_packet) = 0;

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

   // Called when the Connection discovers a local peer reflexive candidate.
   // Returns the index of the new local candidate.
   size_t AddPrflxCandidate(const Candidate& local);

   int16_t network_cost() const { return network_cost_; }

   void GetStunStats(absl::optional<StunStats>* stats) override {}

   // Foundation:  An arbitrary string that is the same for two candidates
   //   that have the same type, base IP address, protocol (UDP, TCP,
   //   etc.), and STUN or TURN server.  If any of these are different,
   //   then the foundation will be different.  Two candidate pairs with
   //   the same foundation pairs are likely to have similar network
   //   characteristics. Foundations are used in the frozen algorithm.
   static std::string ComputeFoundation(const std::string& type,
                                        const std::string& protocol,
                                        const std::string& relay_protocol,
                                        const rtc::SocketAddress& base_address);

  protected:
   enum { MSG_DESTROY_IF_DEAD = 0, MSG_FIRST_AVAILABLE };

   virtual void UpdateNetworkCost();

   void set_type(const std::string& type) { type_ = type; }

   void AddAddress(const rtc::SocketAddress& address,
                   const rtc::SocketAddress& base_address,
                   const rtc::SocketAddress& related_address,
                   const std::string& protocol,
                   const std::string& relay_protocol,
                   const std::string& tcptype,
                   const std::string& type,
                   uint32_t type_preference,
                   uint32_t relay_preference,
                   const std::string& url,
                   bool is_final);

   void FinishAddingAddress(const Candidate& c, bool is_final);

   virtual void PostAddAddress(bool is_final);

   // Adds the given connection to the map keyed by the remote candidate address.
   // If an existing connection has the same address, the existing one will be
   // replaced and destroyed.
   void AddOrReplaceConnection(Connection* conn);

   // Called when a packet is received from an unknown address that is not
   // currently a connection.  If this is an authenticated STUN binding request,
   // then we will signal the client.
   void OnReadPacket(const char* data,
                     size_t size,
                     const rtc::SocketAddress& addr,
                     ProtocolType proto);

   // If the given data comprises a complete and correct STUN message then the
   // return value is true, otherwise false. If the message username corresponds
   // with this port's username fragment, msg will contain the parsed STUN
   // message.  Otherwise, the function may send a STUN response internally.
   // remote_username contains the remote fragment of the STUN username.
   bool GetStunMessage(const char* data,
                       size_t size,
                       const rtc::SocketAddress& addr,
                       std::unique_ptr<IceMessage>* out_msg,
                       std::string* out_username);

   // Checks if the address in addr is compatible with the port's ip.
   bool IsCompatibleAddress(const rtc::SocketAddress& addr);

   // Returns DSCP value packets generated by the port itself should use.
   virtual rtc::DiffServCodePoint StunDscpValue() const;

   // Extra work to be done in subclasses when a connection is destroyed.
   virtual void HandleConnectionDestroyed(Connection* conn) {}

   void CopyPortInformationToPacketInfo(rtc::PacketInfo* info) const;

   MdnsNameRegistrationStatus mdns_name_registration_status() const {
     return mdns_name_registration_status_;
   }
   void set_mdns_name_registration_status(MdnsNameRegistrationStatus status) {
     mdns_name_registration_status_ = status;
   }

  private:
   void Construct();
   // Called when one of our connections deletes itself.
   void OnConnectionDestroyed(Connection* conn);

   void OnNetworkTypeChanged(const rtc::Network* network);

   rtc::Thread* const thread_;
   rtc::PacketSocketFactory* factory_;
   std::string type_;
   bool send_retransmit_count_attribute_;
   rtc::Network* network_;
   uint16_t min_port_;
   uint16_t max_port_;
   std::string content_name_;
   int component_;
   uint32_t generation_;
   // In order to establish a connection to this Port (so that real data can be
   // sent through), the other side must send us a STUN binding request that is
   // authenticated with this username_fragment and password.
   // PortAllocatorSession will provide these username_fragment and password.
   //
   // Note: we should always use username_fragment() instead of using
   // |ice_username_fragment_| directly. For the details see the comment on
   // username_fragment().
   std::string ice_username_fragment_;
   std::string password_;
   std::vector<Candidate> candidates_;
   AddressMap connections_;
   int timeout_delay_;
   bool enable_port_packets_;
   IceRole ice_role_;
   uint64_t tiebreaker_;
   bool shared_socket_;
   // Information to use when going through a proxy.
   std::string user_agent_;
   rtc::ProxyInfo proxy_;

   // A virtual cost perceived by the user, usually based on the network type
   // (WiFi. vs. Cellular). It takes precedence over the priority when
   // comparing two connections.
   int16_t network_cost_;
   State state_ = State::INIT;
   int64_t last_time_all_connections_removed_ = 0;
   MdnsNameRegistrationStatus mdns_name_registration_status_ =
       MdnsNameRegistrationStatus::kNotStarted;

   rtc::WeakPtrFactory<Port> weak_factory_;

   bool MaybeObfuscateAddress(Candidate* c,
                              const std::string& type,
                              bool is_final);

   friend class Connection;
 };

 }  // namespace cricket

 #endif  // P2P_BASE_PORT_H_
	/*
	* Copyright 2004 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_PORT_H_
	#define P2P_BASE_PORT_H_

	#include <map>
	#include <memory>
	#include <set>
	#include <string>
	#include <utility>
	#include <vector>

	#include "absl/types/optional.h"
	#include "api/candidate.h"
	#include "api/packet_socket_factory.h"
	#include "api/rtc_error.h"
	#include "api/transport/stun.h"
	#include "logging/rtc_event_log/events/rtc_event_ice_candidate_pair.h"
	#include "logging/rtc_event_log/events/rtc_event_ice_candidate_pair_config.h"
	#include "logging/rtc_event_log/ice_logger.h"
	#include "p2p/base/candidate_pair_interface.h"
	#include "p2p/base/connection.h"
	#include "p2p/base/connection_info.h"
	#include "p2p/base/p2p_constants.h"
	#include "p2p/base/port_interface.h"
	#include "p2p/base/stun_request.h"
	#include "rtc_base/async_packet_socket.h"
	#include "rtc_base/checks.h"
	#include "rtc_base/net_helper.h"
	#include "rtc_base/network.h"
	#include "rtc_base/proxy_info.h"
	#include "rtc_base/rate_tracker.h"
	#include "rtc_base/socket_address.h"
	#include "rtc_base/system/rtc_export.h"
	#include "rtc_base/third_party/sigslot/sigslot.h"
	#include "rtc_base/thread.h"
	#include "rtc_base/weak_ptr.h"

	namespace cricket {

	RTC_EXPORT extern const char LOCAL_PORT_TYPE[];
	RTC_EXPORT extern const char STUN_PORT_TYPE[];
	RTC_EXPORT extern const char PRFLX_PORT_TYPE[];
	RTC_EXPORT extern const char RELAY_PORT_TYPE[];

	// RFC 6544, TCP candidate encoding rules.
	extern const int DISCARD_PORT;
	extern const char TCPTYPE_ACTIVE_STR[];
	extern const char TCPTYPE_PASSIVE_STR[];
	extern const char TCPTYPE_SIMOPEN_STR[];

	enum IcePriorityValue {
	ICE_TYPE_PREFERENCE_RELAY_TLS = 0,
	ICE_TYPE_PREFERENCE_RELAY_TCP = 1,
	ICE_TYPE_PREFERENCE_RELAY_UDP = 2,
	ICE_TYPE_PREFERENCE_PRFLX_TCP = 80,
	ICE_TYPE_PREFERENCE_HOST_TCP = 90,
	ICE_TYPE_PREFERENCE_SRFLX = 100,
	ICE_TYPE_PREFERENCE_PRFLX = 110,
	ICE_TYPE_PREFERENCE_HOST = 126
	};

	enum class MdnsNameRegistrationStatus {
	// IP concealment with mDNS is not enabled or the name registration process is
	// not started yet.
	kNotStarted,
	// A request to create and register an mDNS name for a local IP address of a
	// host candidate is sent to the mDNS responder.
	kInProgress,
	// The name registration is complete and the created name is returned by the
	// mDNS responder.
	kCompleted,
	};

	// Stats that we can return about the port of a STUN candidate.
	class StunStats {
	public:
	StunStats() = default;
	StunStats(const StunStats&) = default;
	~StunStats() = default;

	StunStats& operator=(const StunStats& other) = default;

	int stun_binding_requests_sent = 0;
	int stun_binding_responses_received = 0;
	double stun_binding_rtt_ms_total = 0;
	double stun_binding_rtt_ms_squared_total = 0;
	};

	// Stats that we can return about a candidate.
	class CandidateStats {
	public:
	CandidateStats();
	explicit CandidateStats(Candidate candidate);
	CandidateStats(const CandidateStats&);
	~CandidateStats();

	Candidate candidate;
	// STUN port stats if this candidate is a STUN candidate.
	absl::optional<StunStats> stun_stats;
	};

	typedef std::vector<CandidateStats> CandidateStatsList;

	const char* ProtoToString(ProtocolType proto);
	bool StringToProto(const char* value, ProtocolType* proto);

	struct ProtocolAddress {
	rtc::SocketAddress address;
	ProtocolType proto;

	ProtocolAddress(const rtc::SocketAddress& a, ProtocolType p)
	: address(a), proto(p) {}

	bool operator==(const ProtocolAddress& o) const {
	return address == o.address && proto == o.proto;
	}
	bool operator!=(const ProtocolAddress& o) const { return !(*this == o); }
	};

	struct IceCandidateErrorEvent {
	IceCandidateErrorEvent() = default;
	IceCandidateErrorEvent(std::string address,
	int port,
	std::string url,
	int error_code,
	std::string error_text)
	: address(std::move(address)),
	port(port),
	url(std::move(url)),
	error_code(error_code),
	error_text(std::move(error_text)) {}

	std::string address;
	int port = 0;
	std::string url;
	int error_code = 0;
	std::string error_text;
	};

	struct CandidatePairChangeEvent {
	CandidatePair selected_candidate_pair;
	int64_t last_data_received_ms;
	std::string reason;
	// How long do we estimate that we've been disconnected.
	int64_t estimated_disconnected_time_ms;
	};

	typedef std::set<rtc::SocketAddress> ServerAddresses;

	// Represents a local communication mechanism that can be used to create
	// connections to similar mechanisms of the other client. Subclasses of this
	// one add support for specific mechanisms like local UDP ports.
	class Port : public PortInterface,
	public rtc::MessageHandler,
	public sigslot::has_slots<> {
	public:
	// INIT: The state when a port is just created.
	// KEEP_ALIVE_UNTIL_PRUNED: A port should not be destroyed even if no
	// connection is using it.
	// PRUNED: It will be destroyed if no connection is using it for a period of
	// 30 seconds.
	enum class State { INIT, KEEP_ALIVE_UNTIL_PRUNED, PRUNED };
	Port(rtc::Thread* thread,
	const std::string& type,
	rtc::PacketSocketFactory* factory,
	rtc::Network* network,
	const std::string& username_fragment,
	const std::string& password);
	Port(rtc::Thread* thread,
	const std::string& type,
	rtc::PacketSocketFactory* factory,
	rtc::Network* network,
	uint16_t min_port,
	uint16_t max_port,
	const std::string& username_fragment,
	const std::string& password);
	~Port() override;

	// Note that the port type does NOT uniquely identify different subclasses of
	// Port. Use the 2-tuple of the port type AND the protocol (GetProtocol()) to
	// uniquely identify subclasses. Whenever a new subclass of Port introduces a
	// conflit in the value of the 2-tuple, make sure that the implementation that
	// relies on this 2-tuple for RTTI is properly changed.
	const std::string& Type() const override;
	rtc::Network* Network() const override;

	// Methods to set/get ICE role and tiebreaker values.
	IceRole GetIceRole() const override;
	void SetIceRole(IceRole role) override;

	void SetIceTiebreaker(uint64_t tiebreaker) override;
	uint64_t IceTiebreaker() const override;

	bool SharedSocket() const override;
	void ResetSharedSocket() { shared_socket_ = false; }

	// Should not destroy the port even if no connection is using it. Called when
	// a port is ready to use.
	void KeepAliveUntilPruned();
	// Allows a port to be destroyed if no connection is using it.
	void Prune();

	// Call to stop any currently pending operations from running.
	void CancelPendingTasks();

	// The thread on which this port performs its I/O.
	rtc::Thread* thread() { return thread_; }

	// The factory used to create the sockets of this port.
	rtc::PacketSocketFactory* socket_factory() const { return factory_; }
	void set_socket_factory(rtc::PacketSocketFactory* factory) {
	factory_ = factory;
	}

	// For debugging purposes.
	const std::string& content_name() const { return content_name_; }
	void set_content_name(const std::string& content_name) {
	content_name_ = content_name;
	}

	int component() const { return component_; }
	void set_component(int component) { component_ = component; }

	bool send_retransmit_count_attribute() const {
	return send_retransmit_count_attribute_;
	}
	void set_send_retransmit_count_attribute(bool enable) {
	send_retransmit_count_attribute_ = enable;
	}

	// Identifies the generation that this port was created in.
	uint32_t generation() const { return generation_; }
	void set_generation(uint32_t generation) { generation_ = generation; }

	const std::string username_fragment() const;
	const std::string& password() const { return password_; }

	// May be called when this port was initially created by a pooled
	// PortAllocatorSession, and is now being assigned to an ICE transport.
	// Updates the information for candidates as well.
	void SetIceParameters(int component,
	const std::string& username_fragment,
	const std::string& password);

	// Fired when candidates are discovered by the port. When all candidates
	// are discovered that belong to port SignalAddressReady is fired.
	sigslot::signal2<Port*, const Candidate&> SignalCandidateReady;
	// Provides all of the above information in one handy object.
	const std::vector<Candidate>& Candidates() const override;
	// Fired when candidate discovery failed using certain server.
	sigslot::signal2<Port*, const IceCandidateErrorEvent&> SignalCandidateError;

	// SignalPortComplete is sent when port completes the task of candidates
	// allocation.
	sigslot::signal1<Port*> SignalPortComplete;
	// This signal sent when port fails to allocate candidates and this port
	// can't be used in establishing the connections. When port is in shared mode
	// and port fails to allocate one of the candidates, port shouldn't send
	// this signal as other candidates might be usefull in establishing the
	// connection.
	sigslot::signal1<Port*> SignalPortError;

	// Returns a map containing all of the connections of this port, keyed by the
	// remote address.
	typedef std::map<rtc::SocketAddress, Connection*> AddressMap;
	const AddressMap& connections() { return connections_; }

	// Returns the connection to the given address or NULL if none exists.
	Connection* GetConnection(const rtc::SocketAddress& remote_addr) override;

	// Called each time a connection is created.
	sigslot::signal2<Port, Connection> SignalConnectionCreated;

	// In a shared socket mode each port which shares the socket will decide
	// to accept the packet based on the \|remote_addr\|. Currently only UDP
	// port implemented this method.
	// TODO(mallinath) - Make it pure virtual.
	virtual bool HandleIncomingPacket(rtc::AsyncPacketSocket* socket,
	const char* data,
	size_t size,
	const rtc::SocketAddress& remote_addr,
	int64_t packet_time_us);

	// Shall the port handle packet from this \|remote_addr\|.
	// This method is overridden by TurnPort.
	virtual bool CanHandleIncomingPacketsFrom(
	const rtc::SocketAddress& remote_addr) const;

	// Sends a response error to the given request.
	void SendBindingErrorResponse(StunMessage* request,
	const rtc::SocketAddress& addr,
	int error_code,
	const std::string& reason) override;
	void SendUnknownAttributesErrorResponse(
	StunMessage* request,
	const rtc::SocketAddress& addr,
	const std::vector<uint16_t>& unknown_types);

	void set_proxy(const std::string& user_agent, const rtc::ProxyInfo& proxy) {
	user_agent_ = user_agent;
	proxy_ = proxy;
	}
	const std::string& user_agent() { return user_agent_; }
	const rtc::ProxyInfo& proxy() { return proxy_; }

	void EnablePortPackets() override;

	// Called if the port has no connections and is no longer useful.
	void Destroy();

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

	// Debugging description of this port
	std::string ToString() const override;
	uint16_t min_port() { return min_port_; }
	uint16_t max_port() { return max_port_; }

	// Timeout shortening function to speed up unit tests.
	void set_timeout_delay(int delay);

	// This method will return local and remote username fragements from the
	// stun username attribute if present.
	bool ParseStunUsername(const StunMessage* stun_msg,
	std::string* local_username,
	std::string* remote_username) const;
	void CreateStunUsername(const std::string& remote_username,
	std::string* stun_username_attr_str) const;

	bool MaybeIceRoleConflict(const rtc::SocketAddress& addr,
	IceMessage* stun_msg,
	const std::string& remote_ufrag);

	// Called when a packet has been sent to the socket.
	// This is made pure virtual to notify subclasses of Port that they MUST
	// listen to AsyncPacketSocket::SignalSentPacket and then call
	// PortInterface::OnSentPacket.
	virtual void OnSentPacket(rtc::AsyncPacketSocket* socket,
	const rtc::SentPacket& sent_packet) = 0;

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

	// Called when the Connection discovers a local peer reflexive candidate.
	// Returns the index of the new local candidate.
	size_t AddPrflxCandidate(const Candidate& local);

	int16_t network_cost() const { return network_cost_; }

	void GetStunStats(absl::optional<StunStats>* stats) override {}

	// Foundation: An arbitrary string that is the same for two candidates
	// that have the same type, base IP address, protocol (UDP, TCP,
	// etc.), and STUN or TURN server. If any of these are different,
	// then the foundation will be different. Two candidate pairs with
	// the same foundation pairs are likely to have similar network
	// characteristics. Foundations are used in the frozen algorithm.
	static std::string ComputeFoundation(const std::string& type,
	const std::string& protocol,
	const std::string& relay_protocol,
	const rtc::SocketAddress& base_address);

	protected:
	enum { MSG_DESTROY_IF_DEAD = 0, MSG_FIRST_AVAILABLE };

	virtual void UpdateNetworkCost();

	void set_type(const std::string& type) { type_ = type; }

	void AddAddress(const rtc::SocketAddress& address,
	const rtc::SocketAddress& base_address,
	const rtc::SocketAddress& related_address,
	const std::string& protocol,
	const std::string& relay_protocol,
	const std::string& tcptype,
	const std::string& type,
	uint32_t type_preference,
	uint32_t relay_preference,
	const std::string& url,
	bool is_final);

	void FinishAddingAddress(const Candidate& c, bool is_final);

	virtual void PostAddAddress(bool is_final);

	// Adds the given connection to the map keyed by the remote candidate address.
	// If an existing connection has the same address, the existing one will be
	// replaced and destroyed.
	void AddOrReplaceConnection(Connection* conn);

	// Called when a packet is received from an unknown address that is not
	// currently a connection. If this is an authenticated STUN binding request,
	// then we will signal the client.
	void OnReadPacket(const char* data,
	size_t size,
	const rtc::SocketAddress& addr,
	ProtocolType proto);

	// If the given data comprises a complete and correct STUN message then the
	// return value is true, otherwise false. If the message username corresponds
	// with this port's username fragment, msg will contain the parsed STUN
	// message. Otherwise, the function may send a STUN response internally.
	// remote_username contains the remote fragment of the STUN username.
	bool GetStunMessage(const char* data,
	size_t size,
	const rtc::SocketAddress& addr,
	std::unique_ptr<IceMessage>* out_msg,
	std::string* out_username);

	// Checks if the address in addr is compatible with the port's ip.
	bool IsCompatibleAddress(const rtc::SocketAddress& addr);

	// Returns DSCP value packets generated by the port itself should use.
	virtual rtc::DiffServCodePoint StunDscpValue() const;

	// Extra work to be done in subclasses when a connection is destroyed.
	virtual void HandleConnectionDestroyed(Connection* conn) {}

	void CopyPortInformationToPacketInfo(rtc::PacketInfo* info) const;

	MdnsNameRegistrationStatus mdns_name_registration_status() const {
	return mdns_name_registration_status_;
	}
	void set_mdns_name_registration_status(MdnsNameRegistrationStatus status) {
	mdns_name_registration_status_ = status;
	}

	private:
	void Construct();
	// Called when one of our connections deletes itself.
	void OnConnectionDestroyed(Connection* conn);

	void OnNetworkTypeChanged(const rtc::Network* network);

	rtc::Thread* const thread_;
	rtc::PacketSocketFactory* factory_;
	std::string type_;
	bool send_retransmit_count_attribute_;
	rtc::Network* network_;
	uint16_t min_port_;
	uint16_t max_port_;
	std::string content_name_;
	int component_;
	uint32_t generation_;
	// In order to establish a connection to this Port (so that real data can be
	// sent through), the other side must send us a STUN binding request that is
	// authenticated with this username_fragment and password.
	// PortAllocatorSession will provide these username_fragment and password.
	//
	// Note: we should always use username_fragment() instead of using
	// \|ice_username_fragment_\| directly. For the details see the comment on
	// username_fragment().
	std::string ice_username_fragment_;
	std::string password_;
	std::vector<Candidate> candidates_;
	AddressMap connections_;
	int timeout_delay_;
	bool enable_port_packets_;
	IceRole ice_role_;
	uint64_t tiebreaker_;
	bool shared_socket_;
	// Information to use when going through a proxy.
	std::string user_agent_;
	rtc::ProxyInfo proxy_;

	// A virtual cost perceived by the user, usually based on the network type
	// (WiFi. vs. Cellular). It takes precedence over the priority when
	// comparing two connections.
	int16_t network_cost_;
	State state_ = State::INIT;
	int64_t last_time_all_connections_removed_ = 0;
	MdnsNameRegistrationStatus mdns_name_registration_status_ =
	MdnsNameRegistrationStatus::kNotStarted;

	rtc::WeakPtrFactory<Port> weak_factory_;

	bool MaybeObfuscateAddress(Candidate* c,
	const std::string& type,
	bool is_final);

	friend class Connection;
	};

	} // namespace cricket

	#endif // P2P_BASE_PORT_H_