public void processRegister(RequestEvent requestEvent, ServerTransaction serverTransactionId) { Request request = requestEvent.getRequest(); ContactHeader contact = (ContactHeader) request.getHeader(ContactHeader.NAME); SipURI contactUri = (SipURI) contact.getAddress().getURI(); FromHeader from = (FromHeader) request.getHeader(FromHeader.NAME); SipURI fromUri = (SipURI) from.getAddress().getURI(); registrar.put(fromUri.getUser(), contactUri); try { Response response = this.messageFactory.createResponse(200, request); ServerTransaction serverTransaction = sipProvider.getNewServerTransaction(request); serverTransaction.sendResponse(response); } catch (Exception e) { e.printStackTrace(); } }
/** * handles the INVITED state. * * @param response the response * @param clientTransaction the client transaction * @throws SipException SIP stack related error */ private void handleCallParticipantInvited(Response response, ClientTransaction clientTransaction) throws ParseException, SipException, InvalidArgumentException { FromHeader fromHeader = (FromHeader) response.getHeader(FromHeader.NAME); String displayName = fromHeader.getAddress().getDisplayName(); int statusCode = response.getStatusCode(); Logger.println( "handleCallParticipantInvited " + cp + " status " + statusCode + " " + response.getReasonPhrase()); Logger.println("handleCallParticipantInvited , displayname " + displayName); CallIdHeader callIdHeader = (CallIdHeader) response.getHeader(CallIdHeader.NAME); if (sipCallId.equals(callIdHeader.getCallId()) && displayName.equals(cp.getDisplayName()) && (statusCode == Response.OK || statusCode == Response.SESSION_PROGRESS) && ((CSeqHeader) response.getHeader(CSeqHeader.NAME)).getMethod().equals(Request.INVITE)) { if (statusCode == Response.SESSION_PROGRESS) { /* * For some calls, we never get an OK. Instead we just get * SESSION_PROGRESS. In order to handle these calls, we treat * SESSION_PROGRESS as OK. If an OK arrives later, we'll * send an ACK. This flag allows us to enable or * disable this workaround for each call. * * The problem with always treating SESSION_PROGRESS as OK * is that in a conference everybody will hear the ringing sound * which the remote call sends until the call is actually answered. * This can be avoided if joinConfirmation is specified. * The other problem is that if we treat SESSION_PROGRESS * as though the call has been answered, then we'll start * playing the treatment before a person really answers to * hear the treatment. */ if (cp.getHandleSessionProgress() == false) { Logger.writeFile("Call " + cp + " Ignoring SESSION_PROGRESS"); return; } Logger.writeFile("Call " + cp + " Treating SESSION_PROGRESS as OK"); } if (response.getRawContent() == null) { Logger.error("Call " + cp + " no SDP in OK Response!"); cancelRequest("SIP error! no SDP in OK Response!"); return; } this.clientTransaction = clientTransaction; if (statusCode == Response.OK) { gotOk = true; Logger.writeFile("Call " + cp + " Got OK, call answered\n" + response); } ToHeader toHeader = (ToHeader) response.getHeader(ToHeader.NAME); /* * We got an OK response. * * send an ACK back to the CallParticipant */ if (statusCode == Response.OK) { sipUtil.sendAck(clientTransaction); ackSent = true; } if (callAnswered) { Logger.writeFile("Call " + cp + " done processing OK"); return; } /* * Remember the IP and port of where to send data to * the CallParticipant. */ sdpBody = new String(response.getRawContent()); SdpInfo sdpInfo; try { sdpInfo = sipUtil.getSdpInfo(sdpBody, false); } catch (ParseException e) { Logger.error("Call " + cp + " Invalid SDP in OK Response! " + e.getMessage()); cancelRequest("SIP error! Invalid SDP in OK Response!"); return; } MediaInfo mediaInfo = sdpInfo.getMediaInfo(); InetSocketAddress isa = new InetSocketAddress(sdpInfo.getRemoteHost(), sdpInfo.getRemotePort()); InetSocketAddress rtcpAddress = sdpInfo.getRtcpAddress(); setEndpointAddress( isa, mediaInfo.getPayload(), sdpInfo.getTransmitMediaInfo().getPayload(), sdpInfo.getTelephoneEventPayload(), rtcpAddress); /* * The CallParticipant has answered. * If join confirmation is required, we remain in the * INVITED state. We set the callAnswered flag so that * if the join confirmation times out we know to * send a BYE rather than a CANCEL. */ callAnswered = true; if (cp.getJoinConfirmationTimeout() == 0) { setState(CallState.ANSWERED); } /* * Start treatment if any and wait for it to finish. * When the treatment finishes, notification will * be delivered to our parent which will indicate * we're ready for the conference. * * If there's no treatment to be played, we're ready now * unless we're waiting for join confirmation.. */ initializeCallAnsweredTreatment(); if (callAnsweredTreatment != null) { startCallAnsweredTreatment(); } else { if (cp.getJoinConfirmationTimeout() == 0) { setState(CallState.ESTABLISHED); } } } else { Logger.writeFile("Call " + cp + " Ignoring response: " + response.getReasonPhrase()); if (Logger.logLevel >= Logger.LOG_SIP) { Logger.println("Call " + cp + " Response: " + response); } } }
public synchronized void processResponse(ResponseEvent responseReceivedEvent) { try { Response response = (Response) responseReceivedEvent.getResponse(); ClientTransaction clientTransaction = responseReceivedEvent.getClientTransaction(); int statusCode = response.getStatusCode(); FromHeader fromHeader = (FromHeader) response.getHeader(FromHeader.NAME); String displayName = fromHeader.getAddress().getDisplayName(); if (Logger.logLevel >= Logger.LOG_SIP) { Logger.println( "Response: statusCode " + statusCode + " state " + getCallState() + " fromHeader " + displayName + " call participant " + cp.getName()); } if (reasonCallTerminated != null) { /* * Ignore OK and Request Terminated. * XXX what's the symbol for 487? */ if (statusCode != Response.OK && statusCode != 487) { if (Logger.logLevel >= Logger.LOG_SIP) { Logger.println("Call " + cp + ": request cancelled, ignoring response"); } } CallIdHeader callIdHeader = (CallIdHeader) response.getHeader("Call-Id"); String sipCallId = callIdHeader.getCallId(); sipServerCallback.removeSipListener(sipCallId); return; } /* * Some type of global failure that prevents the * CallParticipant from being contacted, report failure. */ if (forceGatewayError) { statusCode = 500; forceGatewayError = false; } if (statusCode >= 500 && getState() == CallState.INVITED) { Logger.error( "Call " + cp + " gateway error: " + statusCode + " " + response.getReasonPhrase()); cancelRequest("gateway error: " + statusCode + " " + response.getReasonPhrase()); return; } else if (statusCode == Response.PROXY_AUTHENTICATION_REQUIRED || statusCode == Response.UNAUTHORIZED) { if (cp.getProxyCredentials() != null) { try { SipServer.handleChallenge(response, clientTransaction, cp.getProxyCredentials()) .sendRequest(); } catch (Exception e) { Logger.println("Proxy authentification failed " + e); } } return; } else if (statusCode >= 400) { // if we get a busy or an unknown error, play busy. Logger.println("Call " + cp + " got status code :" + statusCode); cp.setCallEndTreatment(null); cp.setConferenceJoinTreatment(null); cp.setConferenceLeaveTreatment(null); /* * play busy treatment, but deallocate any resources * held up by ringBack first, if any. */ // stopCallAnsweredTreatment(); if (statusCode == Response.BUSY_HERE) { try { if (busyTreatment != null) { addTreatment(busyTreatment); // busyTreatment.waitForTreatment(); } else { Logger.println("Unable to play busy treatment!!!"); } } catch (Exception e) { Logger.error("can't start busy treatment!" + sdpBody); } CallEvent callEvent = new CallEvent(CallEvent.BUSY_HERE); callEvent.setInfo(response.getReasonPhrase()); sendCallEventNotification(callEvent); } // sipUtil.sendBye(clientTransaction); cancelRequest(response.getReasonPhrase()); return; } /* state machine */ switch (getState()) { /* * CallParticipant picked up, send treatment if any, * and wait for it to finish. */ case CallState.INVITED: if (rejectCall) { Logger.error( "Call " + cp + " gateway error: " + statusCode + " " + response.getReasonPhrase()); cancelRequest("gateway error: " + statusCode + " " + response.getReasonPhrase()); return; } handleCallParticipantInvited(response, clientTransaction); break; /* * Call established, the ACK needs to be resent. * According to Ranga, this is done by the NIST SIP Stack. */ case CallState.ESTABLISHED: if (statusCode == Response.OK) { gotOk = true; Logger.writeFile("Call " + cp + " Got OK, ESTABLISHED"); if (ackSent == false) { sipUtil.sendAck(clientTransaction); ackSent = true; } } break; case CallState.ENDED: break; // ignore the response default: Logger.error("Process Response bad state " + getState() + "\n" + response); } } catch (SipException e) { Logger.exception("Call " + cp + " SIP Stack error ", e); cancelRequest("processResponse: SIP Stack error " + e.getMessage()); } catch (Exception e) { Logger.exception("processResponse: " + cp, e); cancelRequest("processResponse: SIP Stack error " + e.getMessage()); } }
private void register() throws IOException { Log.info("Registering with " + registrar); FromHeader fromHeader = getFromHeader(); Address fromAddress = fromHeader.getAddress(); // Request URI SipURI requestURI = null; try { requestURI = addressFactory.createSipURI(null, registrar); } catch (ParseException e) { throw new IOException("Bad registrar address:" + registrar + " " + e.getMessage()); } // requestURI.setPort(registrarPort); try { requestURI.setTransportParam(sipProvider.getListeningPoint().getTransport()); } catch (ParseException e) { throw new IOException( sipProvider.getListeningPoint().getTransport() + " is not a valid transport! " + e.getMessage()); } CallIdHeader callIdHeader = sipProvider.getNewCallId(); CSeqHeader cSeqHeader = null; try { cSeqHeader = headerFactory.createCSeqHeader(1, Request.REGISTER); } catch (ParseException e) { // Should never happen throw new IOException("Corrupt Sip Stack " + e.getMessage()); } catch (InvalidArgumentException e) { // Should never happen throw new IOException("The application is corrupt "); } ToHeader toHeader = null; try { String proxyWorkAround = System.getProperty("com.sun.mc.softphone.REGISTRAR_WORKAROUND"); if (proxyWorkAround != null && proxyWorkAround.toUpperCase().equals("TRUE")) { SipURI toURI = (SipURI) (requestURI.clone()); toURI.setUser(System.getProperty("user.name")); toHeader = headerFactory.createToHeader(addressFactory.createAddress(toURI), null); } else { toHeader = headerFactory.createToHeader(fromAddress, null); } } catch (ParseException e) { throw new IOException( "Could not create a To header for address:" + fromHeader.getAddress() + " " + e.getMessage()); } ArrayList viaHeaders = getLocalViaHeaders(); MaxForwardsHeader maxForwardsHeader = getMaxForwardsHeader(); Request request = null; try { request = messageFactory.createRequest( requestURI, Request.REGISTER, callIdHeader, cSeqHeader, fromHeader, toHeader, viaHeaders, maxForwardsHeader); } catch (ParseException e) { throw new IOException("Could not create the register request! " + e.getMessage()); } ExpiresHeader expHeader = null; for (int retry = 0; retry < 2; retry++) { try { expHeader = headerFactory.createExpiresHeader(expires); } catch (InvalidArgumentException e) { if (retry == 0) { continue; } throw new IOException( "Invalid registrations expiration parameter - " + expires + " " + e.getMessage()); } } request.addHeader(expHeader); ContactHeader contactHeader = getRegistrationContactHeader(); request.addHeader(contactHeader); try { SipURI routeURI = (SipURI) addressFactory.createURI("sip:" + proxyCredentials.getProxy() + ";lr"); RouteHeader routeHeader = headerFactory.createRouteHeader(addressFactory.createAddress(routeURI)); request.addHeader(routeHeader); } catch (Exception e) { Log.error("Creating registration route error ", e); } ClientTransaction regTrans = null; try { regTrans = sipProvider.getNewClientTransaction(request); } catch (TransactionUnavailableException e) { throw new IOException( "Could not create a register transaction!\n" + "Check that the Registrar address is correct! " + e.getMessage()); } try { sipCallId = callIdHeader.getCallId(); sipServerCallback.addSipListener(sipCallId, this); registerRequest = request; regTrans.sendRequest(); Log.debug("Sent register request " + registerRequest); if (expires > 0) { scheduleReRegistration(); } } catch (Exception e) { throw new IOException("Could not send out the register request! " + e.getMessage()); } this.registerRequest = request; }
@Override public void run() { try { logger.logEntry(); // From FromHeader fromHeader = null; try { // this keep alive task only makes sense in case we have // a registrar so we deliberately use our AOR and do not // use the getOurSipAddress() method. fromHeader = provider .getHeaderFactory() .createFromHeader( provider.getRegistrarConnection().getAddressOfRecord(), SipMessageFactory.generateLocalTag()); } catch (ParseException ex) { // this should never happen so let's just log and bail. logger.error("Failed to generate a from header for " + "our register request.", ex); return; } // Call ID Header CallIdHeader callIdHeader = provider.getDefaultJainSipProvider().getNewCallId(); // CSeq Header CSeqHeader cSeqHeader = null; try { cSeqHeader = provider.getHeaderFactory().createCSeqHeader(getNextCSeqValue(), Request.OPTIONS); } catch (ParseException ex) { // Should never happen logger.error("Corrupt Sip Stack", ex); return; } catch (InvalidArgumentException ex) { // Should never happen logger.error("The application is corrupt", ex); return; } // To Header ToHeader toHeader = null; try { // this request isn't really going anywhere so we put our // own address in the To Header. toHeader = provider.getHeaderFactory().createToHeader(fromHeader.getAddress(), null); } catch (ParseException ex) { logger.error("Could not create a To header for address:" + fromHeader.getAddress(), ex); return; } // MaxForwardsHeader MaxForwardsHeader maxForwardsHeader = provider.getMaxForwardsHeader(); // Request Request request = null; try { // create a host-only uri for the request uri header. String domain = ((SipURI) toHeader.getAddress().getURI()).getHost(); // request URI SipURI requestURI = provider.getAddressFactory().createSipURI(null, domain); // Via Headers ArrayList<ViaHeader> viaHeaders = provider.getLocalViaHeaders(requestURI); request = provider .getMessageFactory() .createRequest( requestURI, Request.OPTIONS, callIdHeader, cSeqHeader, fromHeader, toHeader, viaHeaders, maxForwardsHeader); if (logger.isDebugEnabled()) logger.debug("Created OPTIONS request " + request); } catch (ParseException ex) { logger.error("Could not create an OPTIONS request!", ex); return; } Iterator<String> supportedMethods = provider.getSupportedMethods().iterator(); // add to the allows header all methods that we support while (supportedMethods.hasNext()) { String method = supportedMethods.next(); // don't support REGISTERs if (method.equals(Request.REGISTER)) continue; request.addHeader(provider.getHeaderFactory().createAllowHeader(method)); } Iterator<String> events = provider.getKnownEventsList().iterator(); synchronized (provider.getKnownEventsList()) { while (events.hasNext()) { String event = events.next(); request.addHeader(provider.getHeaderFactory().createAllowEventsHeader(event)); } } // Transaction ClientTransaction optionsTrans = null; try { optionsTrans = provider.getDefaultJainSipProvider().getNewClientTransaction(request); } catch (TransactionUnavailableException ex) { logger.error("Could not create options transaction!\n", ex); return; } try { optionsTrans.sendRequest(); if (logger.isDebugEnabled()) logger.debug("sent request= " + request); } catch (SipException ex) { logger.error("Could not send out the options request!", ex); if (ex.getCause() instanceof IOException) { // IOException problem with network disconnect(); } return; } } catch (Exception ex) { logger.error("Cannot send OPTIONS keep alive", ex); } }
/** * Process a request from a distant contact * * @param requestEvent the <tt>RequestEvent</tt> containing the newly received request. * @return <tt>true</tt> if the specified event has been handled by this processor and shouldn't * be offered to other processors registered for the same method; <tt>false</tt>, otherwise */ @Override public boolean processRequest(RequestEvent requestEvent) { synchronized (messageProcessors) { for (SipMessageProcessor listener : messageProcessors) if (!listener.processMessage(requestEvent)) return true; } // get the content String content = null; Request req = requestEvent.getRequest(); try { content = new String(req.getRawContent(), getCharset(req)); } catch (UnsupportedEncodingException ex) { if (logger.isDebugEnabled()) logger.debug("failed to convert the message charset"); content = new String(requestEvent.getRequest().getRawContent()); } // who sent this request ? FromHeader fromHeader = (FromHeader) requestEvent.getRequest().getHeader(FromHeader.NAME); if (fromHeader == null) { logger.error("received a request without a from header"); return false; } Contact from = opSetPersPresence.resolveContactID(fromHeader.getAddress().getURI().toString()); ContentTypeHeader ctheader = (ContentTypeHeader) req.getHeader(ContentTypeHeader.NAME); String ctype = null; String cencoding = null; if (ctheader == null) { ctype = DEFAULT_MIME_TYPE; } else { ctype = ctheader.getContentType() + "/" + ctheader.getContentSubType(); cencoding = ctheader.getParameter("charset"); } if (cencoding == null) cencoding = DEFAULT_MIME_ENCODING; Message newMessage = createMessage(content, ctype, cencoding, null); if (from == null) { if (logger.isDebugEnabled()) logger.debug( "received a message from an unknown contact: " + fromHeader.getAddress().getURI().toString()); // create the volatile contact from = opSetPersPresence.createVolatileContact(fromHeader.getAddress().getURI().toString()); } // answer ok try { Response ok = sipProvider.getMessageFactory().createResponse(Response.OK, requestEvent.getRequest()); SipStackSharing.getOrCreateServerTransaction(requestEvent).sendResponse(ok); } catch (ParseException exc) { logger.error("failed to build the response", exc); } catch (SipException exc) { logger.error("failed to send the response : " + exc.getMessage(), exc); } catch (InvalidArgumentException exc) { if (logger.isDebugEnabled()) logger.debug("Invalid argument for createResponse : " + exc.getMessage(), exc); } // fire an event MessageReceivedEvent msgReceivedEvt = new MessageReceivedEvent(newMessage, from, System.currentTimeMillis()); fireMessageEvent(msgReceivedEvt); return true; }