public void processResponse(ResponseEvent responseReceivedEvent) { // Log.info("Registering response...." + sipCallId); Response response = (Response) responseReceivedEvent.getResponse(); int statusCode = response.getStatusCode(); String method = ((CSeqHeader) response.getHeader(CSeqHeader.NAME)).getMethod(); Log.debug("Got response " + response); if (statusCode == Response.OK) { isRegistered = true; Log.info( "Voice bridge successfully registered with " + registrar + " for " + proxyCredentials.getXmppUserName()); PluginImpl.sipRegisterStatus = "Registered ok with " + proxyCredentials.getHost(); sipServerCallback.removeSipListener(sipCallId); } else if (statusCode == Response.UNAUTHORIZED || statusCode == Response.PROXY_AUTHENTICATION_REQUIRED) { if (method.equals(Request.REGISTER)) { CSeqHeader cseq = (CSeqHeader) response.getHeader(CSeqHeader.NAME); if (cseq.getSequenceNumber() < 2) { ClientTransaction regTrans = SipService.handleChallenge( response, responseReceivedEvent.getClientTransaction(), proxyCredentials); if (regTrans != null) { try { regTrans.sendRequest(); } catch (Exception e) { Log.info("Registration failed, cannot send transaction " + e); PluginImpl.sipRegisterStatus = "Registration error " + e.toString(); } } else { Log.info("Registration failed, cannot create transaction"); PluginImpl.sipRegisterStatus = "Registration cannot create transaction"; } } else { Log.info("Registration failed " + responseReceivedEvent); PluginImpl.sipRegisterStatus = "Registration failed"; } } } else { Log.info("Unrecognized response: " + response); } }
/** * Sends a request from the TI, generates a response at the RI side, sends it back and checks * whether it arrives at the TI. */ public void testReceiveResponse() { try { // 1. Create and send the original request Request invite = createTiInviteRequest(null, null, null); RequestEvent receivedRequestEvent = null; try { // Send using TI and collect using RI eventCollector.collectRequestEvent(riSipProvider); tiSipProvider.sendRequest(invite); waitForMessage(); receivedRequestEvent = eventCollector.extractCollectedRequestEvent(); if (receivedRequestEvent == null || receivedRequestEvent.getRequest() == null) throw new TckInternalError("The sent request was not received by the RI!"); } catch (TooManyListenersException ex) { throw new TckInternalError( "A TooManyListenersException was thrown while trying to add " + "a SipListener to an RI SipProvider.", ex); } catch (SipException ex) { throw new TiUnexpectedError("The TI failed to send the request!", ex); } Request receivedRequest = receivedRequestEvent.getRequest(); // 2. Create and send the response Response ok = null; try { ok = riMessageFactory.createResponse(Response.OK, receivedRequest); addStatus(receivedRequest, ok); } catch (ParseException ex) { throw new TckInternalError("Failed to create an OK response!", ex); } // Send the response using the RI and collect using TI try { eventCollector.collectResponseEvent(tiSipProvider); } catch (TooManyListenersException ex) { throw new TiUnexpectedError("Error while trying to add riSipProvider"); } try { riSipProvider.sendResponse(ok); } catch (SipException ex) { throw new TckInternalError("Could not send back the response", ex); } waitForMessage(); ResponseEvent responseEvent = eventCollector.extractCollectedResponseEvent(); // 3. Now ... do we like what we got? assertNotNull("The TI failed to receive the response!", responseEvent); assertNotNull("The TI failed to receive the response!", responseEvent.getResponse()); assertNull( "The TI had implicitly created a client transaction! " + "Transactions should only be created explicitly using " + "the SipProvider.getNewXxxTransaction() method.", responseEvent.getClientTransaction()); } catch (Throwable exc) { exc.printStackTrace(); fail(exc.getClass().getName() + ": " + exc.getMessage()); } assertTrue(new Exception().getStackTrace()[0].toString(), true); }
/** * Dispatches the event received from a JAIN-SIP <tt>SipProvider</tt> to one of our "candidate * recipient" listeners. * * @param event the event received for a <tt>SipProvider</tt>. */ public void processResponse(ResponseEvent event) { try { // we don't have to accept the transaction since we // created the request ClientTransaction transaction = event.getClientTransaction(); if (logger.isTraceEnabled()) logger.trace( "received response: " + event.getResponse().getStatusCode() + " " + event.getResponse().getReasonPhrase()); if (transaction == null) { logger.warn("Transaction is null, probably already expired!"); return; } ProtocolProviderServiceSipImpl service = getServiceData(transaction); if (service != null) { // Mark the dialog for the dispatching of later in-dialog // responses. If there is no dialog then the initial request // sure is marked otherwise we won't have found the service with // getServiceData(). The request has to be marked in case we // receive one more response in an out-of-dialog transaction. if (event.getDialog() != null) { SipApplicationData.setApplicationData( event.getDialog(), SipApplicationData.KEY_SERVICE, service); } service.processResponse(event); } else { logger.error( "We received a response which " + "wasn't marked, please report this to " + "*****@*****.**"); } } catch (Throwable exc) { // any exception thrown within our code should be caught here // so that we could log it rather than interrupt stack activity with // it. this.logApplicationException(DialogTerminatedEvent.class, exc); } }
public void processResponse(ResponseEvent responseReceivedEvent) { System.out.println("Got a response"); Response response = (Response) responseReceivedEvent.getResponse(); Transaction tid = responseReceivedEvent.getClientTransaction(); System.out.println( "Response received with client transaction id " + tid + ":\n" + response.getStatusCode()); if (tid == null) { System.out.println("Stray response -- dropping "); return; } System.out.println("transaction state is " + tid.getState()); System.out.println("Dialog = " + tid.getDialog()); System.out.println("Dialog State is " + tid.getDialog().getState()); try { if (response.getStatusCode() == Response.OK && ((CSeqHeader) response.getHeader(CSeqHeader.NAME)) .getMethod() .equals(Request.INVITE)) { // Request cancel = inviteTid.createCancel(); // ClientTransaction ct = // sipProvider.getNewClientTransaction(cancel); // ct.sendRequest(); Dialog dialog = tid.getDialog(); CSeqHeader cseq = (CSeqHeader) response.getHeader(CSeqHeader.NAME); Request ackRequest = dialog.createAck(cseq.getSeqNumber()); System.out.println("Sending ACK"); dialog.sendAck(ackRequest); // Send a Re INVITE but this time force it // to use UDP as the transport. Else, it will // Use whatever transport was used to create // the dialog. if (reInviteCount == 0) { Request inviteRequest = dialog.createRequest(Request.INVITE); ((SipURI) inviteRequest.getRequestURI()).removeParameter("transport"); ((ViaHeader) inviteRequest.getHeader(ViaHeader.NAME)).setTransport("udp"); inviteRequest.addHeader(contactHeader); try { Thread.sleep(100); } catch (Exception ex) { } ClientTransaction ct = udpProvider.getNewClientTransaction(inviteRequest); dialog.sendRequest(ct); reInviteCount++; } } } catch (Exception ex) { ex.printStackTrace(); System.exit(0); } }
public void processResponse(ResponseEvent responseEvent) { ClientTransaction ct = responseEvent.getClientTransaction(); Response response = responseEvent.getResponse(); ServerTransaction st = (ServerTransaction) ct.getApplicationData(); try { Response otherResponse = messageFactory.createResponse(response.getStatusCode(), st.getRequest()); if (response.getStatusCode() == 200 && ct.getRequest().getMethod().equals("INVITE")) { Address address = addressFactory.createAddress("B2BUA <sip:" + myAddress + ":" + myPort + ">"); ContactHeader contactHeader = headerFactory.createContactHeader(address); response.addHeader(contactHeader); ToHeader toHeader = (ToHeader) otherResponse.getHeader(ToHeader.NAME); if (toHeader.getTag() == null) toHeader.setTag(new Long(counter.getAndIncrement()).toString()); otherResponse.addHeader(contactHeader); } st.sendResponse(otherResponse); } catch (Exception e) { // TODO Auto-generated catch block e.printStackTrace(); } }
public void processResponse(ResponseEvent responseReceivedEvent) { // System.out.println("Got a response"); Response response = (Response) responseReceivedEvent.getResponse(); Transaction tid = responseReceivedEvent.getClientTransaction(); // System.out.println("Response received with client transaction id " // + tid + ":\n" + response); try { if (response.getStatusCode() == Response.OK && ((CSeqHeader) response.getHeader(CSeqHeader.NAME)) .getMethod() .equals(Request.INVITE)) { Dialog dialog = tid.getDialog(); Request request = tid.getRequest(); dialog.sendAck(request); } } catch (Exception ex) { ex.printStackTrace(); System.exit(0); } }
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()); } }
/** Tests creating of ACK requests. */ public void testCreateAck() { try { // 1. Create and send the original request Request invite = createTiInviteRequest(null, null, null); RequestEvent receivedRequestEvent = null; ClientTransaction tran = null; try { tran = tiSipProvider.getNewClientTransaction(invite); eventCollector.collectRequestEvent(riSipProvider); tran.sendRequest(); waitForMessage(); receivedRequestEvent = eventCollector.extractCollectedRequestEvent(); if (receivedRequestEvent == null || receivedRequestEvent.getRequest() == null) throw new TiUnexpectedError("The sent request was not received by the RI!"); } catch (TooManyListenersException ex) { throw new TckInternalError( "A TooManyListenersException was thrown while trying to add " + "a SipListener to an RI SipProvider.", ex); } catch (SipException ex) { throw new TiUnexpectedError("The TI failed to send the request!", ex); } Request receivedRequest = receivedRequestEvent.getRequest(); // 2. Create and send the response Response ok = null; try { ok = riMessageFactory.createResponse(Response.OK, receivedRequest); } catch (ParseException ex) { throw new TckInternalError("Failed to create an OK response!", ex); } // Send the response using the RI and collect using TI try { eventCollector.collectResponseEvent(tiSipProvider); } catch (TooManyListenersException ex) { throw new TiUnexpectedError("Error while trying to add riSipProvider"); } try { riSipProvider.sendResponse(ok); } catch (SipException ex) { throw new TckInternalError("Could not send back the response", ex); } waitForMessage(); ResponseEvent responseEvent = eventCollector.extractCollectedResponseEvent(); // 3. Now let's create the ack if (responseEvent == null || responseEvent.getResponse() == null) throw new TiUnexpectedError("The TI failed to receive the response!"); if (responseEvent.getClientTransaction() != tran) throw new TiUnexpectedError( "The TI has associated a new ClientTransaction to a response " + "instead of using existing one!"); Request ack = null; try { ack = tran.createAck(); } catch (SipException ex) { ex.printStackTrace(); fail("A SipException was thrown while creating an ack request"); } assertNotNull("ClientTransaction.createAck returned null!", ack); assertEquals( "The created request did not have a CANCEL method.", ack.getMethod(), Request.ACK); assertEquals( "Request-URIs of the original and the ack request do not match", ack.getRequestURI(), invite.getRequestURI()); assertEquals( "Call-IDs of the original and the ack request do not match", ack.getHeader(CallIdHeader.NAME), invite.getHeader(CallIdHeader.NAME)); assertEquals( "ToHeaders of the original and the ack request do not match", ack.getHeader(ToHeader.NAME), invite.getHeader(ToHeader.NAME)); assertTrue( "The CSeqHeader's sequence number of the original and " + "the ack request do not match", ((CSeqHeader) ack.getHeader(CSeqHeader.NAME)).getSequenceNumber() == ((CSeqHeader) invite.getHeader(CSeqHeader.NAME)).getSequenceNumber()); assertEquals( "The CSeqHeader's method of the ack request was not ACK", ((CSeqHeader) ack.getHeader(CSeqHeader.NAME)).getMethod(), Request.ACK); } catch (Throwable exc) { exc.printStackTrace(); fail(exc.getClass().getName() + ": " + exc.getMessage()); } assertTrue(new Exception().getStackTrace()[0].toString(), true); }
/** * Sends a request from the RI, generates a response at the TI side, sends it back and checks * whether it arrives at the RI. */ public void testSendResponse() { try { // 1. Create and send the original request Request invite = createRiInviteRequest(null, null, null); RequestEvent receivedRequestEvent = null; try { // Send using RI and collect using TI eventCollector.collectRequestEvent(tiSipProvider); riSipProvider.sendRequest(invite); waitForMessage(); receivedRequestEvent = eventCollector.extractCollectedRequestEvent(); if (receivedRequestEvent == null || receivedRequestEvent.getRequest() == null) throw new TiUnexpectedError("The sent request was not received by the RI!"); } catch (TooManyListenersException ex) { throw new TiUnexpectedError( "A TooManyListenersException was thrown while trying to add " + "a SipListener to a TI SipProvider.", ex); } catch (SipException ex) { throw new TckInternalError("The RI failed to send the request!", ex); } Request receivedRequest = receivedRequestEvent.getRequest(); // 2. Create and send the response // Create an ok response. We are not testing the message factory so let's // not leave it a chance to mess something up and specify the response // as completely as possible. List via = new LinkedList(); via.add(receivedRequest.getHeader(ViaHeader.NAME)); Response ok = null; try { ok = tiMessageFactory.createResponse( Response.OK, (CallIdHeader) receivedRequest.getHeader(CallIdHeader.NAME), (CSeqHeader) receivedRequest.getHeader(CSeqHeader.NAME), (FromHeader) receivedRequest.getHeader(FromHeader.NAME), (ToHeader) receivedRequest.getHeader(ToHeader.NAME), via, (MaxForwardsHeader) receivedRequest.getHeader(MaxForwardsHeader.NAME)); addStatus(receivedRequest, ok); } catch (ParseException ex) { throw new TiUnexpectedError("Failed to create an OK response!", ex); } // Send the response using the TI and collect using RI try { eventCollector.collectResponseEvent(riSipProvider); } catch (TooManyListenersException ex) { throw new TckInternalError("Error while trying to add riSipProvider"); } try { tiSipProvider.sendResponse(ok); } catch (SipException ex) { ex.printStackTrace(); fail("A SipException occurred while trying to send an ok response."); } waitForMessage(); ResponseEvent responseEvent = eventCollector.extractCollectedResponseEvent(); assertNotNull("The sent response was not received by the RI!", responseEvent); assertNotNull("The sent response was not received by the RI!", responseEvent.getResponse()); } catch (Throwable exc) { exc.printStackTrace(); fail(exc.getClass().getName() + ": " + exc.getMessage()); } assertTrue(new Exception().getStackTrace()[0].toString(), true); }
/** * Process a response from a distant contact. * * @param responseEvent the <tt>ResponseEvent</tt> containing the newly received SIP response. * @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 processResponse(ResponseEvent responseEvent) { synchronized (messageProcessors) { for (SipMessageProcessor listener : messageProcessors) if (!listener.processResponse(responseEvent, sentMsg)) return true; } Request req = responseEvent.getClientTransaction().getRequest(); int status = responseEvent.getResponse().getStatusCode(); // content of the response String content = null; try { content = new String(req.getRawContent(), getCharset(req)); } catch (UnsupportedEncodingException exc) { if (logger.isDebugEnabled()) logger.debug("failed to convert the message charset", exc); content = new String(req.getRawContent()); } // to who did we send the original message ? ToHeader toHeader = (ToHeader) req.getHeader(ToHeader.NAME); if (toHeader == null) { // should never happen logger.error("send a request without a to header"); return false; } Contact to = opSetPersPresence.resolveContactID(toHeader.getAddress().getURI().toString()); if (to == null) { logger.error( "Error received a response from an unknown contact : " + toHeader.getAddress().getURI().toString() + " : " + responseEvent.getResponse().getStatusCode() + " " + responseEvent.getResponse().getReasonPhrase()); // error for delivering the message fireMessageDeliveryFailed( // we don't know what message it concerns createMessage(content), to, MessageDeliveryFailedEvent.INTERNAL_ERROR); return false; } // we retrieve the original message String key = ((CallIdHeader) req.getHeader(CallIdHeader.NAME)).getCallId(); Message newMessage = sentMsg.get(key); if (newMessage == null) { // should never happen logger.error("Couldn't find the message sent"); // error for delivering the message fireMessageDeliveryFailed( // we don't know what message it is createMessage(content), to, MessageDeliveryFailedEvent.INTERNAL_ERROR); return true; } // status 401/407 = proxy authentification if (status >= 400 && status != 401 && status != 407) { if (logger.isInfoEnabled()) logger.info( responseEvent.getResponse().getStatusCode() + " " + responseEvent.getResponse().getReasonPhrase()); // error for delivering the message MessageDeliveryFailedEvent evt = new MessageDeliveryFailedEvent( newMessage, to, MessageDeliveryFailedEvent.NETWORK_FAILURE, System.currentTimeMillis(), responseEvent.getResponse().getStatusCode() + " " + responseEvent.getResponse().getReasonPhrase()); fireMessageEvent(evt); sentMsg.remove(key); } else if (status == 401 || status == 407) { // proxy ask for authentification if (logger.isDebugEnabled()) logger.debug( "proxy asks authentication : " + responseEvent.getResponse().getStatusCode() + " " + responseEvent.getResponse().getReasonPhrase()); ClientTransaction clientTransaction = responseEvent.getClientTransaction(); SipProvider sourceProvider = (SipProvider) responseEvent.getSource(); try { processAuthenticationChallenge( clientTransaction, responseEvent.getResponse(), sourceProvider); } catch (OperationFailedException ex) { logger.error("can't solve the challenge", ex); // error for delivering the message MessageDeliveryFailedEvent evt = new MessageDeliveryFailedEvent( newMessage, to, MessageDeliveryFailedEvent.NETWORK_FAILURE, System.currentTimeMillis(), ex.getMessage()); fireMessageEvent(evt); sentMsg.remove(key); } } else if (status >= 200) { if (logger.isDebugEnabled()) logger.debug( "Ack received from the network : " + responseEvent.getResponse().getStatusCode() + " " + responseEvent.getResponse().getReasonPhrase()); // we delivered the message MessageDeliveredEvent msgDeliveredEvt = new MessageDeliveredEvent(newMessage, to, System.currentTimeMillis()); fireMessageEvent(msgDeliveredEvt); // we don't need this message anymore sentMsg.remove(key); } return true; }
/** * Implements {@link MethodProcessor#processResponse(ResponseEvent)}. Handles only responses to * SUBSCRIBE requests because they are the only requests concerning event package subscribers (and * the only requests sent by them, for that matter) and if the processing of a given response * requires event package-specific handling, delivers the response to the matching * <tt>Subscription</tt> instance. Examples of such event package-specific handling include * letting the respective <tt>Subscription</tt> handle the success or failure in the establishment * of a subscription. * * @param responseEvent a <tt>ResponseEvent</tt> specifying the SIP <tt>Response</tt> to be * processed * @return <tt>true</tt> if the SIP <tt>Response</tt> specified by <tt>responseEvent</tt> was * processed; otherwise, <tt>false</tt> */ @Override public boolean processResponse(ResponseEvent responseEvent) { Response response = responseEvent.getResponse(); CSeqHeader cseqHeader = (CSeqHeader) response.getHeader(CSeqHeader.NAME); if (cseqHeader == null) { logger.error("An incoming response did not contain a CSeq header"); return false; } if (!Request.SUBSCRIBE.equals(cseqHeader.getMethod())) return false; ClientTransaction clientTransaction = responseEvent.getClientTransaction(); Request request = clientTransaction.getRequest(); /* * Don't handle responses to requests not coming from this event * package. */ if (request != null) { EventHeader eventHeader = (EventHeader) request.getHeader(EventHeader.NAME); if ((eventHeader == null) || !eventPackage.equalsIgnoreCase(eventHeader.getEventType())) return false; } // Find the subscription. CallIdHeader callIdHeader = (CallIdHeader) response.getHeader(CallIdHeader.NAME); String callId = callIdHeader.getCallId(); Subscription subscription = getSubscription(callId); // if it's the response to an unsubscribe message, we just ignore it // whatever the response is however if we need to handle a // challenge, we do it ExpiresHeader expHeader = response.getExpires(); int statusCode = response.getStatusCode(); SipProvider sourceProvider = (SipProvider) responseEvent.getSource(); if (((expHeader != null) && (expHeader.getExpires() == 0)) || (subscription == null)) // this handle the unsubscription // case where we removed the contact // from subscribedContacts { boolean processed = false; if ((statusCode == Response.UNAUTHORIZED) || (statusCode == Response.PROXY_AUTHENTICATION_REQUIRED)) { try { processAuthenticationChallenge(clientTransaction, response, sourceProvider); processed = true; } catch (OperationFailedException e) { logger.error("can't handle the challenge", e); } } else if ((statusCode != Response.OK) && (statusCode != Response.ACCEPTED)) processed = true; // any other cases (200/202) will imply a NOTIFY, so we will // handle the end of a subscription there return processed; } if ((statusCode >= Response.OK) && (statusCode < Response.MULTIPLE_CHOICES)) { // OK (200/202) if ((statusCode == Response.OK) || (statusCode == Response.ACCEPTED)) { if (expHeader == null) { // not conform to rfc3265 logger.error("no Expires header in this response"); return false; } SubscriptionRefreshTask refreshTask = new SubscriptionRefreshTask(subscription); subscription.setTimerTask(refreshTask); int refreshDelay = expHeader.getExpires(); // try to keep a margin if the refresh delay allows it if (refreshDelay >= (2 * refreshMargin)) refreshDelay -= refreshMargin; timer.schedule(refreshTask, refreshDelay * 1000); // do it to remember the dialog in case of a polling // subscription (which means no call to finalizeSubscription) subscription.setDialog(clientTransaction.getDialog()); subscription.processSuccessResponse(responseEvent, statusCode); } } else if ((statusCode >= Response.MULTIPLE_CHOICES) && (statusCode < Response.BAD_REQUEST)) { if (logger.isInfoEnabled()) logger.info( "Response to subscribe to " + subscription.getAddress() + ": " + response.getReasonPhrase()); } else if (statusCode >= Response.BAD_REQUEST) { // if the response is a 423 response, just re-send the request // with a valid expires value if (statusCode == Response.INTERVAL_TOO_BRIEF) { MinExpiresHeader min = (MinExpiresHeader) response.getHeader(MinExpiresHeader.NAME); if (min == null) { logger.error("no minimal expires value in this 423 " + "response"); return false; } ExpiresHeader exp = request.getExpires(); try { exp.setExpires(min.getExpires()); } catch (InvalidArgumentException e) { logger.error("can't set the new expires value", e); return false; } ClientTransaction transac = null; try { transac = protocolProvider.getDefaultJainSipProvider().getNewClientTransaction(request); } catch (TransactionUnavailableException e) { logger.error("can't create the client transaction", e); return false; } try { transac.sendRequest(); } catch (SipException e) { logger.error("can't send the new request", e); return false; } return true; // UNAUTHORIZED (401/407) } else if ((statusCode == Response.UNAUTHORIZED) || (statusCode == Response.PROXY_AUTHENTICATION_REQUIRED)) { try { processAuthenticationChallenge(clientTransaction, response, sourceProvider); } catch (OperationFailedException e) { logger.error("can't handle the challenge", e); removeSubscription(callId, subscription); subscription.processFailureResponse(responseEvent, statusCode); } // 408 480 486 600 603 : non definitive reject // others: definitive reject (or not implemented) } else { if (logger.isDebugEnabled()) logger.debug("error received from the network:\n" + response); removeSubscription(callId, subscription); subscription.processFailureResponse(responseEvent, statusCode); } } return true; }