logger.logDebug(
"Dropping message: No listening point registered!");
return;
}
SIPTransactionStack sipStack = (SIPTransactionStack) transactionChannel
.getSIPStack();
SipProviderImpl sipProvider = listeningPoint.getProvider();
if (sipProvider == null) {
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG))
logger.logDebug("No provider - dropping !!");
return;
}
if (sipStack == null)
InternalErrorHandler.handleException("Egads! no sip stack!");
// Look for the registered SIPListener for the message channel.
SIPServerTransaction transaction = (SIPServerTransaction) this.transactionChannel;
if (transaction != null) {
if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG))
logger.logDebug(
"transaction state = " + transaction.getState());
}
final String dialogId = sipRequest.getDialogId(true);
SIPDialog dialog = sipStack.getDialog(dialogId);
/*
* Check if we got this request on the contact address of the dialog If
* not the dialog does not belong to this request. We check this
* condition if a contact address has been assigned to the dialog.
* Forgive the sins of B2BUA's that like to record route ACK's
*/
if (dialog != null && sipProvider != dialog.getSipProvider()) {
final Contact contact = dialog.getMyContactHeader();
if (contact != null) {
SipUri contactUri = (SipUri) (contact.getAddress().getURI());
String ipAddress = contactUri.getHost();
int contactPort = contactUri.getPort();
String contactTransport = contactUri.getTransportParam();
if (contactTransport == null)
contactTransport = "udp";
if (contactPort == -1) {
if (contactTransport.equals("udp")
|| contactTransport.equals("tcp"))
contactPort = 5060;
else
contactPort = 5061;
}
// Check if the dialog contact is the same as the provider on
// which we got the request. Otherwise, dont assign this
// dialog to the request.
if (ipAddress != null
&& (!ipAddress.equals(listeningPoint.getIPAddress()) || contactPort != listeningPoint
.getPort())) {
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) {
logger.logDebug(
"nulling dialog -- listening point mismatch! "
+ contactPort + " lp port = "
+ listeningPoint.getPort());
}
dialog = null;
}
}
}
/*
* RFC 3261 8.2.2.2 Merged requests: If the request has no tag in the To
* header field, the UAS core MUST check the request against ongoing
* transactions. If the From tag, Call-ID, and CSeq exactly match those
* associated with an ongoing transaction, but the request does not
* match that transaction (based on the matching rules in Section
* 17.2.3), the UAS core SHOULD generate a 482 (Loop Detected) response
* and pass it to the server transaction. This support is only enabled
* when the stack has been instructed to function with Automatic Dialog
* Support.
*/
if (sipProvider.isDialogErrorsAutomaticallyHandled()
&& sipRequest.getToTag() == null) {
if (sipStack.findMergedTransaction(sipRequest)) {
this.sendLoopDetectedResponse(sipRequest, transaction);
return;
}
}
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) {
logger.logDebug("dialogId = " + dialogId);
logger.logDebug("dialog = " + dialog);
}
/*
* RFC 3261 Section 16.4 If the first value in the Route header field
* indicates this proxy,the proxy MUST remove that value from the
* request .
*/
// If the message is being processed
// by a Proxy, then the proxy will take care of stripping the
// Route header. If the request is being processed by an
// endpoint, then the stack strips off the route header.
if (sipRequest.getHeader(Route.NAME) != null
&& transaction.getDialog() != null) {
final RouteList routes = sipRequest.getRouteHeaders();
final Route route = (Route) routes.getFirst();
final SipUri uri = (SipUri) route.getAddress().getURI();
final HostPort hostPort = uri.getHostPort();
int port;
if (hostPort.hasPort()) {
port = hostPort.getPort();
} else {
if (listeningPoint.getTransport().equalsIgnoreCase(
ListeningPoint.TLS))
port = 5061;
else
port = 5060;
}
String host = hostPort.getHost().encode();
if ((host.equals(listeningPoint.getIPAddress()) || host
.equalsIgnoreCase(listeningPoint.getSentBy()))
&& port == listeningPoint.getPort()) {
if (routes.size() == 1)
sipRequest.removeHeader(Route.NAME);
else
routes.removeFirst();
}
}
final String sipRequestMethod = sipRequest.getMethod();
if (sipRequestMethod.equals(Request.REFER) && dialog != null
&& sipProvider.isDialogErrorsAutomaticallyHandled()) {
/*
* An agent responding to a REFER method MUST return a 400 (Bad
* Request) if the request contained zero or more than one Refer-To
* header field values.
*/
ReferToHeader sipHeader = (ReferToHeader) sipRequest
.getHeader(ReferTo.NAME);
if (sipHeader == null) {
this.sendBadRequestResponse(sipRequest, transaction,
"Refer-To header is missing");
return;
}
/*
* A refer cannot be processed until previous transaction has been
* completed.
*/
SIPTransaction lastTransaction = ((SIPDialog) dialog)
.getLastTransaction();
if (lastTransaction != null
&& sipProvider.isDialogErrorsAutomaticallyHandled()) {
final String lastTransactionMethod = lastTransaction.getMethod();
if (lastTransaction instanceof SIPServerTransaction) {
// Handle Pseudo State Trying on Server Transaction
if ((lastTransaction.getInternalState() == TransactionState._PROCEEDING
|| lastTransaction.getInternalState() == TransactionState._TRYING)
&& lastTransactionMethod.equals(Request.INVITE)) {
this
.sendRequestPendingResponse(sipRequest,
transaction);
return;
}
} else if (lastTransaction instanceof SIPClientTransaction) {
if (lastTransactionMethod.equals(Request.INVITE)
&& lastTransaction.getInternalState() != TransactionState._TERMINATED
&& lastTransaction.getInternalState() != TransactionState._COMPLETED) {
this
.sendRequestPendingResponse(sipRequest,
transaction);
return;
}
}
}
} else if (sipRequestMethod.equals(Request.UPDATE)) {
/*
* Got an UPDATE method and the user dialog does not exist and the
* user wants to be a User agent.
*/
if (sipProvider.isAutomaticDialogSupportEnabled() && dialog == null) {
this.sendCallOrTransactionDoesNotExistResponse(sipRequest,
transaction);
return;
}
} else if (sipRequestMethod.equals(Request.ACK)) {
if (transaction != null && transaction.isInviteTransaction()) {
// This is an ack for a 3xx-6xx response. Just let the tx laer
// take care of it.
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG))
logger.logDebug(
"Processing ACK for INVITE Tx ");
} else {
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG))
logger.logDebug(
"Processing ACK for dialog " + dialog);
if (dialog == null) {
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) {
logger.logDebug(
"Dialog does not exist "
+ sipRequest.getFirstLine()
+ " isServerTransaction = " + true);
}
SIPServerTransaction st = sipStack
.getRetransmissionAlertTransaction(dialogId);
if (st != null && st.isRetransmissionAlertEnabled()) {
st.disableRetransmissionAlerts();
}
/*
* JvB: must never drop ACKs that dont match a transaction!
* One cannot be sure if it isn't an ACK for a 2xx response
*/
SIPServerTransaction ackTransaction = sipStack
.findTransactionPendingAck(sipRequest);
/*
* Found a transaction ( that we generated ) which is
* waiting for ACK. So ACK it and return.
*/
if (ackTransaction != null) {
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG))
logger.logDebug(
"Found Tx pending ACK");
try {
ackTransaction.setAckSeen();
sipStack.removeTransaction(ackTransaction);
sipStack
.removeTransactionPendingAck(ackTransaction);
} catch (Exception ex) {
if (logger.isLoggingEnabled()) {
logger.logError(
"Problem terminating transaction", ex);
}
}
return;
}
} else {
if (!dialog.handleAck(transaction)) {
if (!dialog.isSequnceNumberValidation()) {
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) {
logger.logDebug(
"Dialog exists with loose dialog validation "
+ sipRequest.getFirstLine()
+ " isServerTransaction = "
+ true + " dialog = "
+ dialog.getDialogId());
}
SIPServerTransaction st = sipStack
.getRetransmissionAlertTransaction(dialogId);
if (st != null && st.isRetransmissionAlertEnabled()) {
st.disableRetransmissionAlerts();
}
// Issue 319 : https://jain-sip.dev.java.net/issues/show_bug.cgi?id=319
// remove the pending ack to stop the transaction timer for transaction
// where the stack replied with a final error response.
SIPServerTransaction ackTransaction = sipStack
.findTransactionPendingAck(sipRequest);
/*
* Found a transaction ( that we generated ) which is
* waiting for ACK. So ACK it and return.
*/
if (ackTransaction != null) {
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG))
logger.logDebug(
"Found Tx pending ACK");
try {
ackTransaction.setAckSeen();
sipStack.removeTransaction(ackTransaction);
sipStack
.removeTransactionPendingAck(ackTransaction);
} catch (Exception ex) {
if (logger.isLoggingEnabled()) {
logger.logError(
"Problem terminating transaction", ex);
}
}
}
} else {
if (logger
.isLoggingEnabled(LogLevels.TRACE_DEBUG)) {
logger
.logDebug(
"Dropping ACK - cannot find a transaction or dialog");
}
SIPServerTransaction ackTransaction = sipStack
.findTransactionPendingAck(sipRequest);
if (ackTransaction != null) {
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG))
logger.logDebug(
"Found Tx pending ACK");
try {
ackTransaction.setAckSeen();
sipStack.removeTransaction(ackTransaction);
sipStack
.removeTransactionPendingAck(ackTransaction);
} catch (Exception ex) {
if (logger.isLoggingEnabled()) {
logger
.logError(
"Problem terminating transaction",
ex);
}
}
}
/*
* For test only we support a flag that will deliver
* retransmitted ACK for 200 OK responses to the
* listener.
*/
if ((!sipStack
.isDeliverRetransmittedAckToListener())
|| (ackTransaction != null && !sipStack
.isNon2XXAckPassedToListener())) {
return;
}
}
} else {
dialog.addTransaction(transaction);
transaction.passToListener();
dialog.addRoute(sipRequest);
transaction.setDialog(dialog, dialogId);
if (sipRequest.getMethod().equals(Request.INVITE)
&& sipProvider
.isDialogErrorsAutomaticallyHandled()) {
sipStack.putInMergeTable(transaction, sipRequest);
}
/*
* Note that ACK is a pseudo transaction. It is never
* added to the stack and you do not get transaction
* terminated events on ACK.
*/
if (sipStack.isDeliverTerminatedEventForAck()) {
try {
sipStack.addTransaction(transaction);
transaction.scheduleAckRemoval();
} catch (IOException ex) {
}
} else {
transaction.setMapped(true);
}
}
}
}
} else if (sipRequestMethod.equals(Request.PRACK)) {
/*
* RFC 3262: A matching PRACK is defined as one within the same
* dialog as the response, and whose method, CSeq-num, and
* response-num in the RAck header field match, respectively, the
* method from the CSeq, the sequence number from the CSeq, and the
* sequence number from the RSeq of the reliable provisional
* response.
*/
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG))
logger.logDebug(
"Processing PRACK for dialog " + dialog);
if (dialog == null && sipProvider.isAutomaticDialogSupportEnabled()) {
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) {
logger.logDebug(
"Dialog does not exist "
+ sipRequest.getFirstLine()
+ " isServerTransaction = " + true);
}
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) {
logger
.logDebug(
"Sending 481 for PRACK - automatic dialog support is enabled -- cant find dialog!");
}
SIPResponse notExist = sipRequest
.createResponse(Response.CALL_OR_TRANSACTION_DOES_NOT_EXIST);
try {
sipProvider.sendResponse(notExist);
} catch (SipException e) {
logger.logError(
"error sending response", e);
}
if (transaction != null) {
sipStack.removeTransaction(transaction);
transaction.releaseSem();
}
return;
} else if (dialog != null) {
if (!dialog.handlePrack(sipRequest)) {
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG))
logger.logDebug(
"Dropping out of sequence PRACK ");
if (transaction != null) {
sipStack.removeTransaction(transaction);
transaction.releaseSem();
}
return;
} else {
try {
sipStack.addTransaction(transaction);
dialog.addTransaction(transaction);
dialog.addRoute(sipRequest);
transaction.setDialog(dialog, dialogId);
} catch (Exception ex) {
InternalErrorHandler.handleException(ex);
}
}
} else {
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG))
logger
.logDebug(
"Processing PRACK without a DIALOG -- this must be a proxy element");
}
} else if (sipRequestMethod.equals(Request.BYE)) {
// Check for correct sequence numbering of the BYE
if (dialog != null && !dialog.isRequestConsumable(sipRequest)) {
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG))
logger.logDebug(
"Dropping out of sequence BYE "
+ dialog.getRemoteSeqNumber() + " "
+ sipRequest.getCSeq().getSeqNumber());
if (dialog.getRemoteSeqNumber() >= sipRequest.getCSeq()
.getSeqNumber()
&& transaction.getInternalState() == TransactionState._TRYING) {
this.sendServerInternalErrorResponse(sipRequest,
transaction);
}
// If the stack knows about the tx, then remove it.
if (transaction != null)
sipStack.removeTransaction(transaction);
return;
} else if (dialog == null
&& sipProvider.isAutomaticDialogSupportEnabled()) {
// Drop bye's with 481 if dialog does not exist.
// If dialog support is enabled then
// there must be a dialog associated with the bye
// No dialog could be found and requests on this
// provider. Must act like a user agent -- so drop the request.
// NOTE: if Automatic dialog support is not enabled,
// then it is the application's responsibility to
// take care of this error condition possibly.
SIPResponse response = sipRequest
.createResponse(Response.CALL_OR_TRANSACTION_DOES_NOT_EXIST);
response.setReasonPhrase("Dialog Not Found");
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG))
logger
.logDebug(
"dropping request -- automatic dialog "
+ "support enabled and dialog does not exist!");
try {
transaction.sendResponse(response);
} catch (SipException ex) {
logger.logError(
"Error in sending response", ex);
}
// If the stack knows about the tx, then remove it.
if (transaction != null) {
sipStack.removeTransaction(transaction);
transaction.releaseSem();
transaction = null;
}
return;
}
// note that the transaction may be null (which
// happens when no dialog for the bye was found.
// and automatic dialog support is disabled (i.e. the app wants
// to manage its own dialog layer.
if (transaction != null && dialog != null) {
try {
if (sipProvider == dialog.getSipProvider()) {
sipStack.addTransaction(transaction);
dialog.addTransaction(transaction);
transaction.setDialog(dialog, dialogId);
}
} catch (IOException ex) {
InternalErrorHandler.handleException(ex);
}
}
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) {
logger.logDebug(
"BYE Tx = " + transaction + " isMapped ="
+ transaction.isTransactionMapped());
}
} else if (sipRequestMethod.equals(Request.CANCEL)) {
SIPServerTransaction st = (SIPServerTransaction) sipStack
.findCancelTransaction(sipRequest, true);
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) {
logger.logDebug(
"Got a CANCEL, InviteServerTx = " + st
+ " cancel Server Tx ID = " + transaction
+ " isMapped = "
+ transaction.isTransactionMapped());
}
// Processing incoming CANCEL.
// Check if we can process the CANCEL request.
if (sipRequest.getMethod().equals(Request.CANCEL)) {
// If the CANCEL comes in too late, there's not
// much that the Listener can do so just do the
// default action and avoid bothering the listener.
if (st != null
&& st.getInternalState() == TransactionState._TERMINATED) {
// If transaction already exists but it is
// too late to cancel the transaction then
// just respond OK to the CANCEL and bail.
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG))
logger.logDebug(
"Too late to cancel Transaction");
// send OK and just ignore the CANCEL.
try {
transaction.sendResponse(sipRequest
.createResponse(Response.OK));
} catch (Exception ex) {
if (ex.getCause() != null
&& ex.getCause() instanceof IOException) {
st.raiseIOExceptionEvent();
}
}
return;
}
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG))
logger.logDebug(
"Cancel transaction = " + st);
}
if (transaction != null && st != null && st.getDialog() != null) {
// Found an invite tx corresponding to the CANCEL.
// Set up the client tx and pass up to listener.
transaction.setDialog((SIPDialog) st.getDialog(), dialogId);
dialog = (SIPDialog) st.getDialog();
} else if (st == null
&& sipProvider.isAutomaticDialogSupportEnabled()
&& transaction != null) {
// Could not find a invite tx corresponding to the CANCEL.
// Automatic dialog support is enabled so I must behave like
// an endpoint on this provider.
// Send the error response for the cancel.
SIPResponse response = sipRequest
.createResponse(Response.CALL_OR_TRANSACTION_DOES_NOT_EXIST);
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) {
logger.logDebug(
"dropping request -- automatic dialog support "
+ "enabled and INVITE ST does not exist!");
}
try {
sipProvider.sendResponse(response);
} catch (SipException ex) {
InternalErrorHandler.handleException(ex);
}
if (transaction != null) {
sipStack.removeTransaction(transaction);
transaction.releaseSem();
}
return;
}
// INVITE was handled statefully so the CANCEL must also be
// statefully handled.
if (st != null) {
try {
if (transaction != null) {
sipStack.addTransaction(transaction);
transaction.setPassToListener();
transaction.setInviteTransaction(st);
// Dont let the INVITE and CANCEL be concurrently
// processed.
st.acquireSem();
}
} catch (Exception ex) {
InternalErrorHandler.handleException(ex);
}
}
} else if (sipRequestMethod.equals(Request.INVITE)) {
SIPTransaction lastTransaction = dialog == null ? null : dialog
.getInviteTransaction();
/*
* RFC 3261 Chapter 14. A UAS that receives a second INVITE before
* it sends the final response to a first INVITE with a lower CSeq
* sequence number on the same dialog MUST return a 500 (Server
* Internal Error) response to the second INVITE and MUST include a
* Retry-After header field with a randomly chosen value of between
* 0 and 10 seconds.
*/
if (dialog != null
&& transaction != null
&& lastTransaction != null
&& sipRequest.getCSeq().getSeqNumber() > lastTransaction.getCSeq()
&& lastTransaction instanceof SIPServerTransaction
&& sipProvider.isDialogErrorsAutomaticallyHandled()
&& dialog.isSequnceNumberValidation()
&& lastTransaction.isInviteTransaction()
&& lastTransaction.getInternalState() != TransactionState._COMPLETED
&& lastTransaction.getInternalState() != TransactionState._TERMINATED
&& lastTransaction.getInternalState() != TransactionState._CONFIRMED) {
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) {
logger.logDebug(
"Sending 500 response for out of sequence message");
}
this.sendServerInternalErrorResponse(sipRequest, transaction);
return;
}
/*
* Saw an interleaved invite before ACK was sent. RFC 3261 Chapter
* 14. A UAS that receives an INVITE on a dialog while an INVITE it
* had sent on that dialog is in progress MUST return a 491 (Request
* Pending) response to the received INVITE.
*/
lastTransaction = (dialog == null ? null : dialog
.getLastTransaction());
if (dialog != null
&& sipProvider.isDialogErrorsAutomaticallyHandled()
&& lastTransaction != null
&& lastTransaction.isInviteTransaction()
&& lastTransaction instanceof ClientTransaction
&& lastTransaction.getState() != TransactionState.COMPLETED
&& lastTransaction.getState() != TransactionState.TERMINATED)
{
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) {
logger.logDebug("DialogFilter::processRequest:lastTransaction.getState(): " + lastTransaction.getState() +
" Sending 491 response for clientTx.");
}
this.sendRequestPendingResponse(sipRequest, transaction);
return;
}
if ( dialog != null
&& lastTransaction != null
&& sipProvider.isDialogErrorsAutomaticallyHandled()
&& lastTransaction.isInviteTransaction()
&& lastTransaction instanceof ServerTransaction
&& sipRequest.getCSeq().getSeqNumber() > lastTransaction.getCSeq()
// Handle Pseudo State Trying on Server Transaction
&& (lastTransaction.getInternalState() == TransactionState._PROCEEDING
|| lastTransaction.getInternalState() == TransactionState._TRYING)) {
// Note that the completed state will be reached when we have
// sent an error response and the terminated state will be reached when we
// have sent an OK response. We do not need to wait till the ACK to be seen.
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) {
logger
.logDebug(
"Sending 491 response. Last transaction is in PROCEEDING state.");
logger.logDebug(
"last Transaction state = " + lastTransaction
+ " state " + lastTransaction.getState());
}
this.sendRequestPendingResponse(sipRequest, transaction);
return;
}
}
// Sequence numbers are supposed to be incremented
// sequentially within a dialog for RFC 3261
// Note BYE, CANCEL and ACK is handled above - so no check here.
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) {
logger.logDebug(
"CHECK FOR OUT OF SEQ MESSAGE " + dialog + " transaction "
+ transaction);
}
if (dialog != null && transaction != null
&& !sipRequestMethod.equals(Request.BYE)
&& !sipRequestMethod.equals(Request.CANCEL)
&& !sipRequestMethod.equals(Request.ACK)
&& !sipRequestMethod.equals(Request.PRACK)) {
if (!dialog.isRequestConsumable(sipRequest)) {
/*
* RFC 3261: "UAS Behavior" section (12.2.2): If the remote
* sequence number was not empty, but the sequence number of the
* request is lower than the remote sequence number, the request
* is out of order and MUST be rejected with a 500 (Server
* Internal Error) response.
*/
// Drop the request
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) {
logger.logDebug(
"Dropping out of sequence message "
+ dialog.getRemoteSeqNumber() + " "
+ sipRequest.getCSeq());
}
// send error when stricly higher, ignore when ==
// (likely still processing, error would interrupt that)
/*
* && (transaction.getState() == TransactionState.TRYING ||
* transaction .getState() == TransactionState.PROCEEDING)
*/
if (dialog.getRemoteSeqNumber() > sipRequest.getCSeq()
.getSeqNumber()
&& sipProvider.isDialogErrorsAutomaticallyHandled()) {
this.sendServerInternalErrorResponse(sipRequest,
transaction);
} else {
try {
transaction.terminate();
} catch (ObjectInUseException e) {
if (logger.isLoggingEnabled()) {
logger.logError(
"Unexpected exception", e);
}
}
}
return;
}
try {
if (sipProvider == dialog.getSipProvider()) {
sipStack.addTransaction(transaction);
// This will set the remote sequence number.
if (!dialog.addTransaction(transaction)) {
return;
}
dialog.addRoute(sipRequest);
transaction.setDialog(dialog, dialogId);
}
} catch (IOException ex) {
transaction.raiseIOExceptionEvent();
sipStack.removeTransaction(transaction);
return;
}
}
RequestEvent sipEvent;
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) {
logger.logDebug(
sipRequest.getMethod() + " transaction.isMapped = "
+ transaction.isTransactionMapped());
}
/*
* RFC 3265: Each event package MUST specify whether forked SUBSCRIBE
* requests are allowed to install multiple subscriptions. If such
* behavior is not allowed, the first potential dialog- establishing
* message will create a dialog. All subsequent NOTIFY messages which
* correspond to the SUBSCRIBE message (i.e., match "To", "From", "From"
* header "tag" parameter, "Call-ID", "CSeq", "Event", and "Event"
* header "id" parameter) but which do not match the dialog would be
* rejected with a 481 response. Note that the 200-class response to the
* SUBSCRIBE can arrive after a matching NOTIFY has been received; such
* responses might not correlate to the same dialog established by the
* NOTIFY. Except as required to complete the SUBSCRIBE transaction,
* such non-matching 200-class responses are ignored.
*/
if (dialog == null && sipRequestMethod.equals(Request.NOTIFY)) {
SIPClientTransaction pendingSubscribeClientTx = sipStack
.findSubscribeTransaction(sipRequest, listeningPoint);
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) {
logger.logDebug(
"PROCESSING NOTIFY DIALOG == null "
+ pendingSubscribeClientTx);
}
/*
* RFC 3265: Upon receiving a NOTIFY request, the subscriber should
* check that it matches at least one of its outstanding
* subscriptions; if not, it MUST return a
* "481 Subscription does not exist" response unless another 400- or
* -class response is more appropriate.
*/
if (sipProvider.isAutomaticDialogSupportEnabled()
&& pendingSubscribeClientTx == null
&& !sipStack.isDeliverUnsolicitedNotify()) {
/*
* This is the case of the UAC receiving a Stray NOTIFY for
* which it has not previously sent out a SUBSCRIBE and for
* which it does not have an established dialog.
*/
try {
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) {
logger.logDebug(
"Could not find Subscription for Notify Tx.");
}
Response errorResponse = sipRequest
.createResponse(Response.CALL_OR_TRANSACTION_DOES_NOT_EXIST);
errorResponse
.setReasonPhrase("Subscription does not exist");
sipProvider.sendResponse(errorResponse);
return;
} catch (Exception ex) {
logger
.logError(
"Exception while sending error response statelessly",
ex);
return;
}
}
// If the server transaction cannot be found or if it
// aleady has a dialog attached to it then just assign the
// notify to this dialog and pass it up.
if (pendingSubscribeClientTx != null) {
// The response to the pending subscribe tx can try to create
// a dialog at the same time that the notify is trying to
// create a dialog. Thus we cannot process both at the
// same time.
transaction.setPendingSubscribe(pendingSubscribeClientTx);
// The transaction gets assigned to the dialog from the
// outgoing subscribe. First see if anybody claimed the
// default Dialog for the outgoing Subscribe request.
SIPDialog subscriptionDialog = (SIPDialog) pendingSubscribeClientTx
.getDefaultDialog();
// TODO -- refactor this. Can probably be written far cleaner.
if (subscriptionDialog == null
|| subscriptionDialog.getDialogId() == null
|| !subscriptionDialog.getDialogId().equals(dialogId)) {
// Notify came in before you could assign a response to
// the subscribe.
// grab the default dialog and assign it to the tags in
// the notify.
if (subscriptionDialog != null
&& subscriptionDialog.getDialogId() == null) {
subscriptionDialog.setDialogId(dialogId);
} else {
subscriptionDialog = pendingSubscribeClientTx
.getDialog(dialogId);
}
if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) {
logger.logDebug(
"PROCESSING NOTIFY Subscribe DIALOG "
+ subscriptionDialog);
}
// The user could have createed a dialog before sending out
// the SUBSCRIBE on the subscribe tx.
if (subscriptionDialog == null
&& (sipProvider.isAutomaticDialogSupportEnabled() || pendingSubscribeClientTx
.getDefaultDialog() != null)) {
Event event = (Event) sipRequest
.getHeader(EventHeader.NAME);
if (sipStack.isEventForked(event.getEventType())) {
subscriptionDialog = SIPDialog.createFromNOTIFY(
pendingSubscribeClientTx, transaction);
}
}
if (subscriptionDialog != null) {
transaction.setDialog(subscriptionDialog, dialogId);
if (subscriptionDialog.getState() != DialogState.CONFIRMED) {
subscriptionDialog
.setPendingRouteUpdateOn202Response(sipRequest);
}
subscriptionDialog.setState(DialogState.CONFIRMED
.getValue());
sipStack.putDialog(subscriptionDialog);
pendingSubscribeClientTx.setDialog(subscriptionDialog,
dialogId);
if (!transaction.isTransactionMapped()) {
this.sipStack.mapTransaction(transaction);
// Let the listener see it if it just got
// created.
// otherwise, we have already processed the tx
// so
// we dont want the listener to see it.
transaction.setPassToListener();
try {
this.sipStack.addTransaction(transaction);
} catch (Exception ex) {
}
}
}
} else {
// The subscription default dialog is our dialog.
// Found a subscrbe dialog for the NOTIFY
// So map the tx.
transaction.setDialog(subscriptionDialog, dialogId);
dialog = subscriptionDialog;
if (!transaction.isTransactionMapped()) {
this.sipStack.mapTransaction(transaction);
// Let the listener see it if it just got created.
// otherwise, we have already processed the tx so
// we dont want the listener to see it.
transaction.setPassToListener();
try {
this.sipStack.addTransaction(transaction);
} catch (Exception ex) {
}
}
sipStack.putDialog(subscriptionDialog);
if (pendingSubscribeClientTx != null) {
subscriptionDialog
.addTransaction(pendingSubscribeClientTx);
pendingSubscribeClientTx.setDialog(subscriptionDialog,
dialogId);