/** {@inheritDoc} */ @Override public RawPacket transform(RawPacket pkt) { byte[] buf = pkt.getBuffer(); int off = pkt.getOffset(); int len = pkt.getLength(); // If the specified pkt represents a DTLS record, then it should pass // through this PacketTransformer (e.g. it has been sent through // DatagramTransportImpl). if (isDtlsRecord(buf, off, len)) return pkt; // SRTP if (!transformEngine.isSrtpDisabled()) { // DTLS-SRTP has not been initialized yet or has failed to // initialize. SinglePacketTransformer srtpTransformer = waitInitializeAndGetSRTPTransformer(); if (srtpTransformer != null) pkt = srtpTransformer.transform(pkt); else if (DROP_UNENCRYPTED_PKTS) pkt = null; // XXX Else, it is our explicit policy to let the received packet // pass through and rely on the SrtpListener to notify the user that // the session is not secured. } // Pure/non-SRTP DTLS else { // The specified pkt will pass through this PacketTransformer only // if it gets transformed into a DTLS record. pkt = null; sendApplicationData(buf, off, len); } return pkt; }
@Override public RawPacket transform(RawPacket p) { // Update octets and packets sent in SRs. RTCPCompoundPacket compound; try { compound = (RTCPCompoundPacket) parser.parse(p.getBuffer(), p.getOffset(), p.getLength()); } catch (BadFormatException e) { logger.warn("Failed to terminate an RTCP packet. Dropping it."); return null; } if (srGateway.gateway(compound)) { return generator.apply(compound); } else { // If the RTCP packet hasn't been modified, send the input // without regenerating it (i.e. optimize). return p; } }
private void runOnDtlsTransport(StreamConnector connector) throws IOException { DtlsControlImpl dtlsControl = (DtlsControlImpl) getTransportManager().getDtlsControl(this); DtlsTransformEngine engine = dtlsControl.getTransformEngine(); final DtlsPacketTransformer transformer = (DtlsPacketTransformer) engine.getRTPTransformer(); byte[] receiveBuffer = new byte[SCTP_BUFFER_SIZE]; if (LOG_SCTP_PACKETS) { System.setProperty( ConfigurationService.PNAME_SC_HOME_DIR_LOCATION, System.getProperty("java.io.tmpdir")); System.setProperty( ConfigurationService.PNAME_SC_HOME_DIR_NAME, SctpConnection.class.getName()); } synchronized (this) { // FIXME local SCTP port is hardcoded in bridge offer SDP (Jitsi // Meet) sctpSocket = Sctp.createSocket(5000); assocIsUp = false; acceptedIncomingConnection = false; } // Implement output network link for SCTP stack on DTLS transport sctpSocket.setLink( new NetworkLink() { @Override public void onConnOut(SctpSocket s, byte[] packet) throws IOException { if (LOG_SCTP_PACKETS) { LibJitsi.getPacketLoggingService() .logPacket( PacketLoggingService.ProtocolName.ICE4J, new byte[] {0, 0, 0, (byte) debugId}, 5000, new byte[] {0, 0, 0, (byte) (debugId + 1)}, remoteSctpPort, PacketLoggingService.TransportName.UDP, true, packet); } // Send through DTLS transport transformer.sendApplicationData(packet, 0, packet.length); } }); if (logger.isDebugEnabled()) { logger.debug("Connecting SCTP to port: " + remoteSctpPort + " to " + getEndpoint().getID()); } sctpSocket.setNotificationListener(this); sctpSocket.listen(); // FIXME manage threads threadPool.execute( new Runnable() { @Override public void run() { SctpSocket sctpSocket = null; try { // sctpSocket is set to null on close sctpSocket = SctpConnection.this.sctpSocket; while (sctpSocket != null) { if (sctpSocket.accept()) { acceptedIncomingConnection = true; break; } Thread.sleep(100); sctpSocket = SctpConnection.this.sctpSocket; } if (isReady()) { notifySctpConnectionReady(); } } catch (Exception e) { logger.error("Error accepting SCTP connection", e); } if (sctpSocket == null && logger.isInfoEnabled()) { logger.info( "SctpConnection " + getID() + " closed" + " before SctpSocket accept()-ed."); } } }); // Notify that from now on SCTP connection is considered functional sctpSocket.setDataCallback(this); // Setup iceSocket DatagramSocket datagramSocket = connector.getDataSocket(); if (datagramSocket != null) { this.iceSocket = new IceUdpSocketWrapper(datagramSocket); } else { this.iceSocket = new IceTcpSocketWrapper(connector.getDataTCPSocket()); } DatagramPacket rcvPacket = new DatagramPacket(receiveBuffer, 0, receiveBuffer.length); // Receive loop, breaks when SCTP socket is closed try { do { iceSocket.receive(rcvPacket); RawPacket raw = new RawPacket(rcvPacket.getData(), rcvPacket.getOffset(), rcvPacket.getLength()); raw = transformer.reverseTransform(raw); // Check for app data if (raw == null) continue; if (LOG_SCTP_PACKETS) { LibJitsi.getPacketLoggingService() .logPacket( PacketLoggingService.ProtocolName.ICE4J, new byte[] {0, 0, 0, (byte) (debugId + 1)}, remoteSctpPort, new byte[] {0, 0, 0, (byte) debugId}, 5000, PacketLoggingService.TransportName.UDP, false, raw.getBuffer(), raw.getOffset(), raw.getLength()); } // Pass network packet to SCTP stack sctpSocket.onConnIn(raw.getBuffer(), raw.getOffset(), raw.getLength()); } while (true); } finally { // Eventually, close the socket although it should happen from // expire(). synchronized (this) { assocIsUp = false; acceptedIncomingConnection = false; if (sctpSocket != null) { sctpSocket.close(); sctpSocket = null; } } } }
/** {@inheritDoc} */ @Override public RawPacket reverseTransform(RawPacket pkt) { byte[] buf = pkt.getBuffer(); int off = pkt.getOffset(); int len = pkt.getLength(); if (isDtlsRecord(buf, off, len)) { if (rtcpmux && Component.RTCP == componentID) { // This should never happen. logger.warn( "Dropping a DTLS record, because it was received on the" + " RTCP channel while rtcpmux is in use."); return null; } boolean receive; synchronized (this) { if (datagramTransport == null) { receive = false; } else { datagramTransport.queueReceive(buf, off, len); receive = true; } } if (receive) { DTLSTransport dtlsTransport = this.dtlsTransport; if (dtlsTransport == null) { // The specified pkt looks like a DTLS record and it has // been consumed for the purposes of the secure channel // represented by this PacketTransformer. pkt = null; } else { try { int receiveLimit = dtlsTransport.getReceiveLimit(); int delta = receiveLimit - len; if (delta > 0) { pkt.grow(delta); buf = pkt.getBuffer(); off = pkt.getOffset(); len = pkt.getLength(); } else if (delta < 0) { pkt.shrink(-delta); buf = pkt.getBuffer(); off = pkt.getOffset(); len = pkt.getLength(); } int received = dtlsTransport.receive(buf, off, len, DTLS_TRANSPORT_RECEIVE_WAITMILLIS); if (received <= 0) { // No application data was decoded. pkt = null; } else { delta = len - received; if (delta > 0) pkt.shrink(delta); } } catch (IOException ioe) { pkt = null; // SrtpControl.start(MediaType) starts its associated // TransformEngine. We will use that mediaType to signal // the normal stop then as well i.e. we will ignore // exception after the procedure to stop this // PacketTransformer has begun. if (mediaType != null && !tlsPeerHasRaisedCloseNotifyWarning) { logger.error("Failed to decode a DTLS record!", ioe); } } } } else { // The specified pkt looks like a DTLS record but it is // unexpected in the current state of the secure channel // represented by this PacketTransformer. This PacketTransformer // has not been started (successfully) or has been closed. pkt = null; } } else if (transformEngine.isSrtpDisabled()) { // In pure DTLS mode only DTLS records pass through. pkt = null; } else { // DTLS-SRTP has not been initialized yet or has failed to // initialize. SinglePacketTransformer srtpTransformer = waitInitializeAndGetSRTPTransformer(); if (srtpTransformer != null) pkt = srtpTransformer.reverseTransform(pkt); else if (DROP_UNENCRYPTED_PKTS) pkt = null; // XXX Else, it is our explicit policy to let the received packet // pass through and rely on the SrtpListener to notify the user that // the session is not secured. } return pkt; }