Exemple #1
0
 public async Task InitiateTransfer(CustomConnection connection, EncryptionTypes allowedEncryption)
 {
     EncryptorFactory.EncryptorResult result;
     if (connection.IsIncoming)
     {
         result = await EncryptorFactory.CheckIncomingConnectionAsync(connection, allowedEncryption, rig.Engine.Settings, HandshakeMessage.HandshakeLength, new [] { rig.Manager.InfoHash });
     }
     else
     {
         result = await EncryptorFactory.CheckOutgoingConnectionAsync(connection, allowedEncryption, rig.Engine.Settings, rig.Manager.InfoHash);
     }
     decryptor = result.Decryptor;
     encryptor = result.Encryptor;
     TestHandshake(result.InitialData, connection);
 }
Exemple #2
0
        internal async void ProcessNewOutgoingConnection(TorrentManager manager, PeerId id)
        {
            // If we have too many open connections, close the connection
            if (OpenConnections > MaxOpenConnections)
            {
                CleanupSocket(manager, id);
                return;
            }

            id.ProcessingQueue = true;
            manager.Peers.ActivePeers.Add(id.Peer);
            manager.Peers.HandshakingPeers.Add(id);

            try {
                // Create a handshake message to send to the peer
                var handshake = new HandshakeMessage(manager.InfoHash, LocalPeerId, VersionInfo.ProtocolStringV100);
                var result    = await EncryptorFactory.CheckOutgoingConnectionAsync(id.Connection, id.Peer.AllowedEncryption, Settings, manager.InfoHash, handshake);

                id.Decryptor = result.Decryptor;
                id.Encryptor = result.Encryptor;
            } catch {
                // If an exception is thrown it's because we tried to establish an encrypted connection and something went wrong
                id.Peer.AllowedEncryption &= ~(EncryptionTypes.RC4Full | EncryptionTypes.RC4Header);

                manager.RaiseConnectionAttemptFailed(new ConnectionAttemptFailedEventArgs(id.Peer, ConnectionFailureReason.EncryptionNegiotiationFailed, manager));
                CleanupSocket(manager, id);
                return;
            }

            try {
                // Receive their handshake
                var handshake = await PeerIO.ReceiveHandshakeAsync(id.Connection, id.Decryptor);

                handshake.Handle(manager, id);
            } catch {
                // If we choose plaintext and it resulted in the connection being closed, remove it from the list.
                id.Peer.AllowedEncryption &= ~id.EncryptionType;

                manager.RaiseConnectionAttemptFailed(new ConnectionAttemptFailedEventArgs(id.Peer, ConnectionFailureReason.HandshakeFailed, manager));
                CleanupSocket(manager, id);
                return;
            }

            try {
                manager.Peers.HandshakingPeers.Remove(id);
                manager.HandlePeerConnected(id);

                // If there are any pending messages, send them otherwise set the queue
                // processing as finished.
                if (id.QueueLength > 0)
                {
                    ProcessQueue(manager, id);
                }
                else
                {
                    id.ProcessingQueue = false;
                }

                ReceiveMessagesAsync(id.Connection, id.Decryptor, manager.DownloadLimiters, id.Monitor, manager, id);

                id.WhenConnected.Restart();
                id.LastBlockReceived.Restart();
            } catch {
                manager.RaiseConnectionAttemptFailed(new ConnectionAttemptFailedEventArgs(id.Peer, ConnectionFailureReason.Unknown, manager));
                CleanupSocket(manager, id);
                return;
            }
        }
        internal async void ProcessNewOutgoingConnection(TorrentManager manager, PeerId id)
        {
            // If we have too many open connections, close the connection
            if (OpenConnections > MaxOpenConnections)
            {
                CleanupSocket(manager, id);
                return;
            }

            manager.Peers.ActivePeers.Add(id.Peer);
            manager.Peers.ConnectedPeers.Add(id);
            Interlocked.Increment(ref openConnections);

            try {
                // Create a handshake message to send to the peer
                var handshake           = new HandshakeMessage(manager.InfoHash, LocalPeerId, VersionInfo.ProtocolStringV100);
                var preferredEncryption = EncryptionTypes.GetPreferredEncryption(id.Peer.AllowedEncryption, Settings.AllowedEncryption);
                EncryptorFactory.EncryptorResult result = await EncryptorFactory.CheckOutgoingConnectionAsync(id.Connection, preferredEncryption, manager.InfoHash, handshake);

                id.Decryptor = result.Decryptor;
                id.Encryptor = result.Encryptor;
            } catch {
                // If an exception is thrown it's because we tried to establish an encrypted connection and something went wrong
                if (id.Peer.AllowedEncryption.Contains(EncryptionType.PlainText))
                {
                    id.Peer.AllowedEncryption = EncryptionTypes.PlainText;
                }
                else
                {
                    id.Peer.AllowedEncryption = EncryptionTypes.None;
                }

                manager.RaiseConnectionAttemptFailed(new ConnectionAttemptFailedEventArgs(id.Peer, ConnectionFailureReason.EncryptionNegiotiationFailed, manager));
                CleanupSocket(manager, id);

                // CleanupSocket will contain the peer only if AllowedEncryption is not set to None. If
                // the peer was re-added, then we should try to reconnect to it immediately to try an
                // unencrypted connection.
                if (manager.Peers.AvailablePeers.Remove(id.Peer))
                {
                    ConnectToPeer(manager, id.Peer);
                }
                return;
            }

            try {
                // Receive their handshake
                HandshakeMessage handshake = await PeerIO.ReceiveHandshakeAsync(id.Connection, id.Decryptor);

                manager.Mode.HandleMessage(id, handshake);
            } catch {
                // If we choose plaintext and it resulted in the connection being closed, remove it from the list.
                id.Peer.AllowedEncryption = EncryptionTypes.Remove(id.Peer.AllowedEncryption, id.EncryptionType);

                manager.RaiseConnectionAttemptFailed(new ConnectionAttemptFailedEventArgs(id.Peer, ConnectionFailureReason.HandshakeFailed, manager));
                CleanupSocket(manager, id);

                // CleanupSocket will contain the peer only if AllowedEncryption is not set to None. If
                // the peer was re-added, then we should try to reconnect to it immediately to try an
                // encrypted connection, assuming the previous connection was unencrypted and it failed.
                if (manager.Peers.AvailablePeers.Remove(id.Peer))
                {
                    ConnectToPeer(manager, id.Peer);
                }

                return;
            }

            try {
                if (id.BitField.Length != manager.Bitfield.Length)
                {
                    throw new TorrentException($"The peer's bitfield was of length {id.BitField.Length} but the TorrentManager's bitfield was of length {manager.Bitfield.Length}.");
                }

                manager.HandlePeerConnected(id);
                id.MessageQueue.SetReady();
                TryProcessQueue(manager, id);

                ReceiveMessagesAsync(id.Connection, id.Decryptor, manager.DownloadLimiters, id.Monitor, manager, id);

                id.WhenConnected.Restart();
                id.LastBlockReceived.Restart();
            } catch {
                manager.RaiseConnectionAttemptFailed(new ConnectionAttemptFailedEventArgs(id.Peer, ConnectionFailureReason.Unknown, manager));
                CleanupSocket(manager, id);
                return;
            }
        }