/** * {@inheritDoc} * * @param format unused, since this implementation records multiple streams using potentially * different formats. * @param dirname the path to the directory into which this <tt>Recorder</tt> will store the * recorded media files. */ @Override public void start(String format, String dirname) throws IOException, MediaException { if (logger.isInfoEnabled()) logger.info("Starting, format=" + format + " " + hashCode()); path = dirname; MediaService mediaService = LibJitsi.getMediaService(); /* * Note that we use only one RTPConnector for both the RTPTranslator * and the RTPManager instances. The this.translator will write to its * output streams, and this.rtpManager will read from its input streams. */ rtpConnector = new RTPConnectorImpl(redPayloadType, ulpfecPayloadType); rtpManager = RTPManager.newInstance(); /* * Add the formats that we know about. */ rtpManager.addFormat(vp8RtpFormat, vp8PayloadType); rtpManager.addFormat(opusFormat, opusPayloadType); rtpManager.addReceiveStreamListener(this); /* * Note: When this.rtpManager sends RTCP sender/receiver reports, they * will end up being written to its own input stream. This is not * expected to cause problems, but might be something to keep an eye on. */ rtpManager.initialize(rtpConnector); /* * Register a fake call participant. * TODO: can we use a more generic MediaStream here? */ streamRTPManager = new StreamRTPManager( mediaService.createMediaStream( new MediaDeviceImpl(new CaptureDeviceInfo(), MediaType.VIDEO)), translator); streamRTPManager.initialize(rtpConnector); rtcpFeedbackSender = translator.getRtcpFeedbackMessageSender(); translator.addFormat(streamRTPManager, opusFormat, opusPayloadType); // ((RTPTranslatorImpl)videoRTPTranslator).addFormat(streamRTPManager, redFormat, // redPayloadType); // ((RTPTranslatorImpl)videoRTPTranslator).addFormat(streamRTPManager, ulpfecFormat, // ulpfecPayloadType); // ((RTPTranslatorImpl)videoRTPTranslator).addFormat(streamRTPManager, // mediaFormatImpl.getFormat(), vp8PayloadType); started = true; }
/** * Starts the configuration service * * @param bundleContext the <tt>BundleContext</tt> as provided by the OSGi framework. * @throws Exception if anything goes wrong */ public void start(BundleContext bundleContext) throws Exception { FileAccessService fas = ServiceUtils.getService(bundleContext, FileAccessService.class); if (fas != null) { File usePropFileConfig; try { usePropFileConfig = fas.getPrivatePersistentFile(".usepropfileconfig", FileCategory.PROFILE); } catch (Exception ise) { // There is somewhat of a chicken-and-egg dependency between // FileConfigurationServiceImpl and ConfigurationServiceImpl: // FileConfigurationServiceImpl throws IllegalStateException if // certain System properties are not set, // ConfigurationServiceImpl will make sure that these properties // are set but it will do that later. // A SecurityException is thrown when the destination // is not writable or we do not have access to that folder usePropFileConfig = null; } if (usePropFileConfig != null && usePropFileConfig.exists()) { logger.info("Using properties file configuration store."); this.cs = LibJitsi.getConfigurationService(); } } if (this.cs == null) { this.cs = new JdbcConfigService(fas); } bundleContext.registerService(ConfigurationService.class.getName(), this.cs, null); fixPermissions(this.cs); }
/** * Returns a <tt>MediaService</tt> implementation (if any). * * @return a <tt>MediaService</tt> implementation (if any) */ MediaService getMediaService() { MediaService mediaService = ServiceUtils.getService(getBundleContext(), MediaService.class); // TODO For an unknown reason, ServiceUtils2.getService fails to // retrieve the MediaService implementation. In the form of a temporary // workaround, get it through LibJitsi. if (mediaService == null) mediaService = LibJitsi.getMediaService(); return mediaService; }
static { ConfigurationService cfg = LibJitsi.getConfigurationService(); boolean dropUnencryptedPkts = false; if (cfg == null) { String s = System.getProperty(DROP_UNENCRYPTED_PKTS_PNAME); if (s != null) dropUnencryptedPkts = Boolean.parseBoolean(s); } else { dropUnencryptedPkts = cfg.getBoolean(DROP_UNENCRYPTED_PKTS_PNAME, dropUnencryptedPkts); } DROP_UNENCRYPTED_PKTS = dropUnencryptedPkts; }
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; } } } }