/// <summary>
        /// Tries to resolve a set of IP addresses with ports.
        /// </summary>
        /// <param name="ipOrHostInclPort">The array of IPs and ports separated with : as usual.</param>
        /// <param name="defaultPort">The default port if the port can not be resolved.</param>
        /// <returns>An array in length of the provided argument array.
        /// Each element should be checked for validity.</returns>
        public static NetworkEndPoint[] ResolveEndPoint(string[] ipOrHostInclPort, int defaultPort)
        {
            var retval = new NetworkEndPoint[ipOrHostInclPort.Length];

            for (int i = 0; i < ipOrHostInclPort.Length; i++)
            {
                retval[i] = ResolveEndPoint(ipOrHostInclPort[i], defaultPort);
            }

            return(retval);
        }
        public HostData PollKnownHostData(NetworkEndPoint target)
        {
            HostData data;

            if (!_knownHosts.TryGetValue(target, out data))
            {
                return(null);
            }

            return(data);
        }
        public static NetworkEndPoint[] Resolve(string[] hosts, int port)
        {
            var endpoints = new NetworkEndPoint[hosts.Length];

            for (int i = 0; i < hosts.Length; i++)
            {
                endpoints[i] = Resolve(hosts[i], port);
            }

            return(endpoints);
        }
        /// <summary>
        /// Tries to resolve a set of IP addresses and ports.
        /// Works just like <see cref="ResolveEndPoint(string[],int)"/>
        /// just uses different kinds of arguments.
        /// </summary>
        /// <param name="ipOrHostInclOrDefaultPort">The pairs of string addresses and default ports for each address.</param>
        /// <returns></returns>
        public static NetworkEndPoint[] ResolveEndPoint(KeyValuePair <string, int>[] ipOrHostInclOrDefaultPort)
        {
            var retval = new NetworkEndPoint[ipOrHostInclOrDefaultPort.Length];

            for (int i = 0; i < ipOrHostInclOrDefaultPort.Length; i++)
            {
                var pair = ipOrHostInclOrDefaultPort[i];
                retval[i] = ResolveEndPoint(pair.Key, pair.Value);
            }

            return(retval);
        }
 public static bool TryResolve(string ipPortString, int defaultPort, out NetworkEndPoint endpoint)
 {
     try
     {
         endpoint = Resolve(ipPortString, defaultPort);
         return(true);
     }
     catch
     {
         endpoint = unassigned;
         return(false);
     }
 }
        public void RequestKnownHostData(NetworkEndPoint target)
        {
            if (!_knownHosts.ContainsKey(target))
            {
                _knownHosts.Add(target, new HostData(target));
            }

            var msg = new UnconnectedMessage(UnconnectedMessage.InternalCode.KnownHostRequest);

            msg.stream.WriteDouble(NetworkTime.localTime);
            msg.stream.WriteBoolean(false);
            _SendUnconnectedRPC(msg, target);
        }
        internal override LocalHostData _MasterGetLocalHostData(bool errorCheck, bool notifyOnError)
        {
            if (errorCheck)
            {
                if (_gameTypeOrNameIsDirty)
                {
                    _gameTypeOrNameIsDirty = false;
                    notifyOnError          = true;
                }

                if (!isServer || _status != NetworkStatus.Connected)
                {
                    if (notifyOnError)
                    {
                        _MasterNotifyEvent(MasterServerEvent.RegistrationFailedNoServer);
                    }
                    return(null);
                }

                if (String.IsNullOrEmpty(_gameType))
                {
                    if (notifyOnError)
                    {
                        _MasterNotifyEvent(MasterServerEvent.RegistrationFailedGameType);
                    }
                    return(null);
                }

                if (String.IsNullOrEmpty(_gameName))
                {
                    if (notifyOnError)
                    {
                        _MasterNotifyEvent(MasterServerEvent.RegistrationFailedGameName);
                    }
                    return(null);
                }
            }

            if (localIpAddress == null)
            {
                localIpAddress = Utility.TryGetLocalIP();
            }
            var localEndPoint = new NetworkEndPoint(localIpAddress, listenPort);

            int countServerAsPlayer = (dedicatedServer ? 0 : 1);

            var data = new LocalHostData(_gameType, _gameName, gameMode, gameLevel, connectionCount + countServerAsPlayer, _ServerGetPlayerLimit() + countServerAsPlayer, !String.IsNullOrEmpty(incomingPassword), dedicatedServer, useNat, useProxy, comment, OnGetPlatform(), DateTime.UtcNow, localEndPoint);

            return(data);
        }
Beispiel #8
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            public override int ReceivePacket(byte[] buffer, int offset, int size, out NetworkEndPoint sourceEndPoint, out double localTimeRecv)
            {
                EndPoint tempEndPoint = _anyEndPoint;

#if (UNITY_IOS || UNITY_TVOS) && !UNITY_EDITOR
                if (NetworkUtility.IsSupportIPv6())
                {
                    tempEndPoint = _anyEndPointIPv6;
                }
#endif

                int read = _socket.ReceiveFrom(buffer, offset, size, SocketFlags.None, ref tempEndPoint);

                sourceEndPoint = tempEndPoint;
                localTimeRecv  = NetworkTime.localTime;
                return(read);
            }
Beispiel #9
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 public void CopyFrom(LocalHostData data)
 {
     gameType          = data.gameType;
     gameName          = data.gameName;
     gameMode          = data.gameMode;
     gameLevel         = data.gameLevel;
     connectedPlayers  = data.connectedPlayers;
     playerLimit       = data.playerLimit;
     passwordProtected = data.passwordProtected;
     dedicatedServer   = data.dedicatedServer;
     useNat            = data.useNat;
     useProxy          = data.useProxy;
     comment           = data.comment;
     platform          = data.platform;
     internalEndpoint  = data.internalEndpoint;
     timestamp         = data.timestamp;
 }
Beispiel #10
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 public LocalHostData(string gameType, string gameName, string gameMode, string gameLevel, int connectedPlayers, int playerLimit, bool passwordProtected, bool dedicatedServer, bool useNat, bool useProxy, string comment, string platform, DateTime timestamp, NetworkEndPoint internalEndpoint)
 {
     this.gameType          = gameType;
     this.gameName          = gameName;
     this.gameMode          = gameMode;
     this.gameLevel         = gameLevel;
     this.connectedPlayers  = connectedPlayers;
     this.playerLimit       = playerLimit;
     this.passwordProtected = passwordProtected;
     this.dedicatedServer   = dedicatedServer;
     this.useNat            = useNat;
     this.useProxy          = useProxy;
     this.comment           = comment;
     this.platform          = platform;
     this.internalEndpoint  = internalEndpoint;
     this.timestamp         = timestamp;
 }
Beispiel #11
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 internal LocalHostData(NetBuffer buffer)
 {
     gameType          = buffer.ReadString();
     gameName          = buffer.ReadString();
     gameMode          = buffer.ReadString();
     gameLevel         = buffer.ReadString();
     connectedPlayers  = buffer.ReadInt32();
     playerLimit       = buffer.ReadInt32();
     passwordProtected = (buffer.ReadByte() == 1);
     dedicatedServer   = (buffer.ReadByte() == 1);
     useNat            = (buffer.ReadByte() == 1);
     useProxy          = (buffer.ReadByte() == 1);
     comment           = buffer.ReadString();
     platform          = buffer.ReadString();
     timestamp         = DateTime.FromBinary(buffer.ReadInt64());
     internalEndpoint  = buffer.ReadEndPoint();
 }
        public void DiscoverLocalHosts(HostDataFilter filter, int remoteStartPort, int remoteEndPort)
        {
            if (remoteEndPort - remoteStartPort >= 20)
            {
                Log.Warning(NetworkLogFlags.MasterServer, "Sending broadcast packets on more than 20 ports (with frequent interval) to discover local hosts, may cause some routers to block UDP traffic or behave undesirably.");
            }

            _timeOfDiscoveryRequest = NetworkTime.localTime;

            for (int port = remoteStartPort; port <= remoteEndPort; port++)
            {
                var msg = new UnconnectedMessage(UnconnectedMessage.InternalCode.DiscoverHostRequest);
                msg.stream.WriteHostDataFilter(filter);
                msg.stream.WriteDouble(NetworkTime.localTime);

                var broadcast = new NetworkEndPoint(IPAddress.Broadcast, port);
                _SendUnconnectedRPC(msg, broadcast);
            }
        }
        internal override void _MasterSendProxyRequest(NetworkEndPoint host, string password)
        {
            _MasterConnect();

            Log.Info(NetworkLogFlags.MasterServer | NetworkLogFlags.Client, "Sending proxy request for host ", host, String.IsNullOrEmpty(password) ? " without password" : " with password");

            var msg = new NetworkMasterMessage(NetworkMasterMessage.InternalCode.ProxyRequest);

            msg.stream.WriteEndPoint(host);
            msg.stream.WritePassword(new Password(password));

            if (_master.Status == NetConnectionStatus.Connected)
            {
                _master.SendMessage(msg.stream._buffer, NetChannel.ReliableInOrder1);
            }
            else
            {
                _pendingMessages[(int)NetworkMasterMessage.InternalCode.ProxyRequest] = msg;
            }
        }
Beispiel #14
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            public override void Bind(NetworkEndPoint listenEndPoint)
            {
#if CHECK_ALREADYINUSE
                var ipListenEndPoint = (IPEndPoint)listenEndPoint;

                lock (_checkingAlreadyInUseLock)
                {
                    foreach (var endpoint in IPGlobalProperties.GetIPGlobalProperties().GetActiveUdpListeners())
                    {
                        if (endpoint.Port == ipListenEndPoint.Port && (endpoint.Address.Equals(IPAddress.Any) || endpoint.Address.Equals(ipListenEndPoint.Address)))
                        {
                            return;                             // already in use
                        }
                    }
#endif

                _socket.Bind(listenEndPoint);

#if CHECK_ALREADYINUSE
            }
#endif

                // TODO: assert(_socket.IsBound)
            }
Beispiel #15
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 public LocalPeerData(string peerType, string peerName, bool passwordProtected, string comment, string platform, DateTime timestamp, NetworkEndPoint internalEndpoint)
 {
     this.peerType          = peerType;
     this.peerName          = peerName;
     this.passwordProtected = passwordProtected;
     this.comment           = comment;
     this.platform          = platform;
     this.internalEndpoint  = internalEndpoint;
     this.timestamp         = timestamp;
 }
Beispiel #16
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 public abstract int ReceivePacket(byte[] buffer, int offset, int size, out NetworkEndPoint sourceEndPoint, out double localTimeRecv);
Beispiel #17
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 public abstract int SendPacket(byte[] buffer, int offset, int size, NetworkEndPoint targetEndPoint);
Beispiel #18
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 public abstract void Bind(NetworkEndPoint listenEndPoint);
Beispiel #19
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 // TODO: should probably be moved to a new Reliability Abstraction Layer.
 public virtual void Disconnect(NetworkEndPoint targetEndPoint)
 {
 }
Beispiel #20
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 /// <summary>
 /// Store location info for a favorite server (Known Host) in the client.
 /// </summary>
 /// <param name="endpoint">The <see cref="System.Net.NetworkEndPoint"/> of favorite server</param>
 /// <remarks>
 /// It is possible to store a separate list of known hosts (favorite servers) in the local uLink client.
 /// Use the API for Known Host Data in this class to build a feature for your users to
 /// store their favorite servers and access them easily
 /// when they try to reconnect to play the game again on the same server as before.
 /// </remarks>
 /// <seealso cref="PollKnownHostData"/>
 /// <seealso cref="RequestKnownHostData"/>
 /// <seealso cref="RemoveKnownHostData"/>
 /// <seealso cref="ClearKnownHosts"/>
 public static void AddKnownHostData(NetworkEndPoint endpoint)
 {
     Network._singleton.AddKnownHostData(endpoint);
 }
Beispiel #21
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 /// <summary>
 /// Remove location info for a favorite server (Known Host) in the client using server's <see cref="System.Net.NetworkEndPoint"/>.
 /// </summary>
 /// <param name="endpoint">The <see cref="System.Net.NetworkEndPoint"/> of favorite server.</param>
 /// <seealso cref="PollKnownHostData"/>
 /// <seealso cref="RequestKnownHostData"/>
 /// <seealso cref="AddKnownHostData"/>
 /// <seealso cref="ClearKnownHosts"/>
 public static void RemoveKnownHostData(NetworkEndPoint endpoint)
 {
     Network._singleton.RemoveKnownHostData(endpoint);
 }
Beispiel #22
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 internal NetworkPeer(NetBuffer buffer)
 {
     endpoint = buffer.ReadEndPoint();
 }
Beispiel #23
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 /// <summary>
 /// Gets the HostData info for one favorite servers (Known Hosts) stored in the client.
 /// </summary>
 /// <param name="endpoint">The <see cref="System.Net.NetworkEndPoint"/> of the favorite server</param>
 /// <returns>
 /// <see cref="uLink.HostData"/> of polled favorite hosts.
 /// </returns>
 public static HostData PollKnownHostData(NetworkEndPoint endpoint)
 {
     return(Network._singleton.PollKnownHostData(endpoint));
 }
Beispiel #24
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 /// <summary>
 /// Initializes a peer.
 /// </summary>
 /// <param name="hostnameOrIP">Host name or IP address of the peer.</param>
 /// <param name="port">The port that peer should listen to.</param>
 public NetworkPeer(string hostnameOrIP, int port)
 {
     endpoint = Utility.Resolve(hostnameOrIP, port);
 }
Beispiel #25
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 /// <summary>
 /// Initializes a peer.
 /// </summary>
 /// <param name="ip">IP address of the peer.</param>
 /// <param name="port">The port that the peer should listen to.</param>
 public NetworkPeer(IPAddress ip, int port)
 {
     endpoint = new NetworkEndPoint(ip, port);
 }
Beispiel #26
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 /// <summary>
 /// Initializes a peer.
 /// </summary>
 /// <param name="localPort">The port that we should listen to.</param>
 public NetworkPeer(int localPort)
 {
     endpoint = Utility.Resolve(localPort);
 }
Beispiel #27
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 public NetworkPeer(NetworkEndPoint endpoint)
 {
     this.endpoint = endpoint;
 }
 internal HostData(NetworkEndPoint externalEndpoint)
 {
     this.externalEndpoint = externalEndpoint;
 }
 internal HostData(NetBuffer buffer)
     : base(buffer)
 {
     externalEndpoint = buffer.ReadEndPoint();
     ping             = buffer.ReadInt32();
 }
 public HostData(HostData data)
     : base(data)
 {
     externalEndpoint = data.externalEndpoint;
     ping             = data.ping;
 }