Examples of org.apache.sandesha2.storage.StorageManager

• org.apache.sandesha2.storage.StorageManager
  Storage managers should extend this.

        && rmMsgCtx.getProperty(Sandesha2Constants.APPLICATION_PROCESSING_DONE).equals("true")) {
      return result;
    }

    MessageContext msgCtx = rmMsgCtx.getMessageContext();
    StorageManager storageManager = SandeshaUtil.getSandeshaStorageManager(msgCtx.getConfigurationContext(),msgCtx.getConfigurationContext().getAxisConfiguration());
    Sequence sequence = (Sequence) rmMsgCtx.getMessagePart(Sandesha2Constants.MessageParts.SEQUENCE);
    String sequenceId = sequence.getIdentifier().getIdentifier();
    long msgNo = sequence.getMessageNumber().getMessageNumber();
    boolean lastMessage = sequence.getLastMessage() != null;

    // Check that both the Sequence header and message body have been secured properly
    RMDBeanMgr mgr = storageManager.getRMDBeanMgr();
    RMDBean bean = mgr.retrieve(sequenceId);

    if(bean != null && bean.getSecurityTokenData() != null) {
      SecurityManager secManager = SandeshaUtil.getSecurityManager(msgCtx.getConfigurationContext());

      QName seqName = new QName(rmMsgCtx.getRMNamespaceValue(), Sandesha2Constants.WSRM_COMMON.SEQUENCE);

      SOAPEnvelope envelope = msgCtx.getEnvelope();
      OMElement body = envelope.getBody();
      OMElement seqHeader = envelope.getHeader().getFirstChildWithName(seqName);

      SecurityToken token = secManager.recoverSecurityToken(bean.getSecurityTokenData());

      secManager.checkProofOfPossession(token, seqHeader, msgCtx);
      secManager.checkProofOfPossession(token, body, msgCtx);
    }

    // Store the inbound sequence id, number and lastMessage onto the operation context
    OperationContext opCtx = msgCtx.getOperationContext();
    if(opCtx != null) {
      opCtx.setProperty(Sandesha2Constants.MessageContextProperties.INBOUND_SEQUENCE_ID, sequenceId);
      opCtx.setProperty(Sandesha2Constants.MessageContextProperties.INBOUND_MESSAGE_NUMBER, new Long(msgNo));
      if(lastMessage) opCtx.setProperty(Sandesha2Constants.MessageContextProperties.INBOUND_LAST_MESSAGE, Boolean.TRUE);
    }

    // setting acked msg no range
    ConfigurationContext configCtx = rmMsgCtx.getMessageContext().getConfigurationContext();
    if (configCtx == null) {
      String message = SandeshaMessageHelper.getMessage(SandeshaMessageKeys.configContextNotSet);
      log.debug(message);
      throw new SandeshaException(message);
    }

    if (FaultManager.checkForUnknownSequence(rmMsgCtx, sequenceId, storageManager, false)) {
      if (log.isDebugEnabled())
        log.debug("Exit: SequenceProcessor::processReliableMessage, Unknown sequence");
      return InvocationResponse.ABORT;
    }

    // throwing a fault if the sequence is terminated
    if (FaultManager.checkForSequenceTerminated(rmMsgCtx, sequenceId, bean, false)) {
      if (log.isDebugEnabled())
        log.debug("Exit: SequenceProcessor::processReliableMessage, Sequence terminated");
      return InvocationResponse.ABORT;
    }

    // throwing a fault if the sequence is closed.
    if (FaultManager.checkForSequenceClosed(rmMsgCtx, sequenceId, bean, false)) {
      if (log.isDebugEnabled())
        log.debug("Exit: SequenceProcessor::processReliableMessage, Sequence closed");
      return InvocationResponse.ABORT;
    }
    FaultManager.checkForLastMsgNumberExceeded(rmMsgCtx, storageManager);

    if (FaultManager.checkForMessageRolledOver(rmMsgCtx, sequenceId, msgNo)) {

      if (log.isDebugEnabled())
        log.debug("Exit: SequenceProcessor::processReliableMessage, Message rolled over " + msgNo);

      return InvocationResponse.ABORT;
    }

    // Pause the messages bean if not the right message to invoke.

    // updating the last activated time of the sequence.
    bean.setLastActivatedTime(System.currentTimeMillis());

    if (lastMessage) {
      //setting this as the LastMessage number
      bean.setLastInMessageId(msgCtx.getMessageID());
    }

    EndpointReference replyTo = rmMsgCtx.getReplyTo();
    String key = SandeshaUtil.getUUID(); // key to store the message.
    // updating the Highest_In_Msg_No property which gives the highest
    // message number retrieved from this sequence.
    long highestInMsgNo = bean.getHighestInMessageNumber();

    if (msgNo > highestInMsgNo) {
      // If WS-Addressing is turned off there may not be a message id written into the SOAP
      // headers, but we can still fake one up to help us match up requests and replies within
      // this end of the connection.
      String messageId = msgCtx.getMessageID();
      if(messageId == null) {
        messageId = SandeshaUtil.getUUID();
        msgCtx.setMessageID(messageId);
      }

      bean.setHighestInMessageId(messageId);
      bean.setHighestInMessageNumber(msgNo);
    }

    String specVersion = rmMsgCtx.getRMSpecVersion();
    if (rmMsgCtx.getMessageContext().getAxisOperation().getName().getLocalPart().equals(Sandesha2Constants.RM_DUPLICATE_OPERATION.getLocalPart())
        && (Sandesha2Constants.QOS.InvocationType.DEFAULT_INVOCATION_TYPE == Sandesha2Constants.QOS.InvocationType.EXACTLY_ONCE)) {
      // this is a duplicate message and the invocation type is EXACTLY_ONCE. We try to return
      // ack messages at this point, as if someone is sending duplicates then they may have
      // missed earlier acks. We also have special processing for sync 2-way with RM 1.0
      if((replyTo==null || replyTo.hasAnonymousAddress()) &&
         (specVersion!=null && specVersion.equals(Sandesha2Constants.SPEC_VERSIONS.v1_0))) {

        SenderBeanMgr senderBeanMgr = storageManager.getSenderBeanMgr();
        SenderBean findSenderBean = new SenderBean ();

        if (rmMsgCtx.getMessageType()==Sandesha2Constants.MessageTypes.LAST_MESSAGE)
          findSenderBean.setMessageType(Sandesha2Constants.MessageTypes.LAST_MESSAGE);
        else
          findSenderBean.setMessageType(Sandesha2Constants.MessageTypes.APPLICATION);

        findSenderBean.setInboundSequenceId(sequence.getIdentifier().getIdentifier());
        findSenderBean.setInboundMessageNumber(sequence.getMessageNumber().getMessageNumber());
        findSenderBean.setSend(true);

        SenderBean replyMessageBean = senderBeanMgr.findUnique(findSenderBean);

        // this is effectively a poll for the replyMessage, so re-use the logic in the MakeConnection
        // processor. This will use this thread to re-send the reply, writing it into the transport.
        // As the reply is now written we do not want to continue processing, or suspend, so we abort.
        if(replyMessageBean != null) {
          if(log.isDebugEnabled()) log.debug("Found matching reply for replayed message");
           MakeConnectionProcessor.replyToPoll(rmMsgCtx, replyMessageBean, storageManager, false, null, transaction);
          result = InvocationResponse.ABORT;
          if (log.isDebugEnabled())
            log.debug("Exit: SequenceProcessor::processReliableMessage, replayed message: " + result);
          return result;
        }
      }

      EndpointReference acksTo = new EndpointReference (bean.getAcksToEPR());

      // Send an Ack if needed.
      //We are not sending acks for duplicate messages in the RM 1.0 anon InOut case.
      //If a standalone ack get sent before the actualy message (I.e. before the original msg get
      //replied), the client may take this as a InOnly message and may avoid looking for the application
      //response.
      if (!(Sandesha2Constants.SPEC_VERSIONS.v1_0.equals(rmMsgCtx.getRMSpecVersion()) &&
          rmMsgCtx.getReplyTo().hasAnonymousAddress())) {
        sendAckIfNeeded(bean, sequenceId, rmMsgCtx, storageManager, true, acksTo.hasAnonymousAddress());
      }

      result = InvocationResponse.ABORT;
      if (log.isDebugEnabled())
        log.debug("Exit: SequenceProcessor::processReliableMessage, dropping duplicate: " + result);
      return result;
    }

    // If the message is a reply to an outbound message then we can update the RMSBean that
    // matches.
    EndpointReference toEPR = msgCtx.getTo();
    if(toEPR == null || toEPR.hasAnonymousAddress()) {
      RMSBean outBean = null;

      // Look for the correct outbound sequence by checking the anon uuid (if there is one)
      String toAddress = (toEPR == null) ? null : toEPR.getAddress();
      if(SandeshaUtil.isWSRMAnonymous(toAddress)) {
        RMSBean finderBean = new RMSBean();
        finderBean.setAnonymousUUID(toAddress);
        outBean = storageManager.getRMSBeanMgr().findUnique(finderBean);
      }

      // Fall back to the sequence that may have been offered at sequence creation time
      if(outBean == null) {
        String outboundSequence = bean.getOutboundInternalSequence();
        if(outboundSequence != null) {
          outBean = SandeshaUtil.getRMSBeanFromInternalSequenceId(storageManager, outboundSequence);
        }
      }

      // Update the reply count
      if(outBean != null && outBean.getExpectedReplies() > 0 ) {
        outBean.setExpectedReplies(outBean.getExpectedReplies() - 1);
        RMSBeanMgr outMgr = storageManager.getRMSBeanMgr();
        outMgr.update(outBean);
      }
    }

    // Set the last activated time
    bean.setLastActivatedTime(System.currentTimeMillis());

    // Update the RMD bean
    mgr.update(bean);

    // If we are doing sync 2-way over WSRM 1.0, then we may just have received one of
    // the reply messages that we were looking for. If so we can remove the matching sender bean.
    int mep = msgCtx.getAxisOperation().getAxisSpecifMEPConstant();
    if(specVersion!=null && specVersion.equals(Sandesha2Constants.SPEC_VERSIONS.v1_0) &&
        mep == WSDLConstants.MEP_CONSTANT_OUT_IN) {
      RelatesTo relatesTo = msgCtx.getRelatesTo();
      if(relatesTo != null) {
        String messageId = relatesTo.getValue();
        SenderBean matcher = new SenderBean();
        matcher.setMessageID(messageId);
        SenderBean sender = storageManager.getSenderBeanMgr().findUnique(matcher);
        if(sender != null) {
          if(log.isDebugEnabled()) log.debug("Deleting sender for sync-2-way message");

          storageManager.removeMessageContext(sender.getMessageContextRefKey());

          //this causes the request to be deleted even without an ack.
          storageManager.getSenderBeanMgr().delete(messageId);

          // Try and terminate the corresponding outbound sequence
          RMSBean rmsBean = SandeshaUtil.getRMSBeanFromSequenceId(storageManager, sender.getSequenceID());
          TerminateManager.checkAndTerminate(rmMsgCtx.getConfigurationContext(), storageManager, rmsBean);
        }
      }
    }

    //setting properties for the messageContext
    rmMsgCtx.setProperty(Sandesha2Constants.MessageContextProperties.SEQUENCE_ID,sequenceId);
    rmMsgCtx.setProperty(Sandesha2Constants.MessageContextProperties.MESSAGE_NUMBER,new Long (msgNo));

    // We only create an ack message if:
    // - We have anonymous acks, and the backchannel is free
    // - We have async acks
    boolean backchannelFree = (replyTo != null && !replyTo.hasAnonymousAddress()) ||
                  WSDLConstants.MEP_CONSTANT_IN_ONLY == mep;

    boolean sendAck = false;

    boolean ackBackChannel = SpecSpecificConstants.sendAckInBackChannel (rmMsgCtx.getMessageType());
    EndpointReference acksTo = new EndpointReference (bean.getAcksToEPR());
    if (acksTo.hasAnonymousAddress() && backchannelFree && ackBackChannel) {
      Object responseWritten = msgCtx.getOperationContext().getProperty(Constants.RESPONSE_WRITTEN);
      if (responseWritten==null || !Constants.VALUE_TRUE.equals(responseWritten)) {
        sendAck = true;
      }
    } else if (!acksTo.hasAnonymousAddress()) {
      SandeshaPolicyBean policyBean = SandeshaUtil.getPropertyBean (msgCtx.getAxisOperation());
      long ackInterval = policyBean.getAcknowledgementInterval();
      long timeToSend = System.currentTimeMillis() + ackInterval;

      RMMsgContext ackRMMsgContext = AcknowledgementManager.generateAckMessage(rmMsgCtx, bean, sequenceId, storageManager,true);

      AcknowledgementManager.addAckBeanEntry(ackRMMsgContext, sequenceId, timeToSend, storageManager);
    }

    // If this message matches the WSRM 1.0 pattern for an empty last message (e.g.
    // the sender wanted to signal the last message, but didn't have an application
    // message to send) then we direct it to the RMMessageReceiver.
    //This is not done when LastMsg is a response - it is sent throuth the normal response flow.
    if((Sandesha2Constants.SPEC_2005_02.Actions.ACTION_LAST_MESSAGE.equals(msgCtx.getWSAAction()) ||
       Sandesha2Constants.SPEC_2005_02.Actions.SOAP_ACTION_LAST_MESSAGE.equals(msgCtx.getSoapAction())))
    {
      if (rmMsgCtx.getRelatesTo()==null) {
        if (log.isDebugEnabled())
          log.debug("Exit: SequenceProcessor::processReliableMessage, got WSRM 1.0 lastmessage");
        msgCtx.getAxisOperation().setMessageReceiver(new RMMessageReceiver ());
      }
    }

    // If the storage manager has an invoker, then they may be implementing inOrder, or
    // transactional delivery. Either way, if they have one we should use it.
    SandeshaThread invoker = storageManager.getInvoker();
    if (invoker != null) {
      // Whatever the MEP, we stop processing here and the invoker will do the real work. We only
      // SUSPEND if we need to keep the backchannel open for the response... we may as well ABORT
      // to let other cases end more quickly.
      if(backchannelFree && ackBackChannel) {
        result = InvocationResponse.ABORT;
      } else {
        result = InvocationResponse.SUSPEND;
      }
      InvokerBeanMgr storageMapMgr = storageManager.getInvokerBeanMgr();

      storageManager.storeMessageContext(key, rmMsgCtx.getMessageContext());
      storageMapMgr.insert(new InvokerBean(key, msgNo, sequenceId));

      // This will avoid performing application processing more than once.
      rmMsgCtx.setProperty(Sandesha2Constants.APPLICATION_PROCESSING_DONE, "true");

    }

    if (transaction != null && transaction.isActive())
      transaction.commit();

    if (sendAck) {
      try {
        transaction = storageManager.getTransaction();

        RMMsgContext ackRMMsgContext = AcknowledgementManager.generateAckMessage(rmMsgCtx, bean, sequenceId, storageManager,true);
        msgCtx.getOperationContext().setProperty(org.apache.axis2.Constants.RESPONSE_WRITTEN, Constants.VALUE_TRUE);
        AcknowledgementManager.sendAckNow(ackRMMsgContext);
        if (transaction != null && transaction.isActive()) transaction.commit();

    if (log.isDebugEnabled())
      log.debug("Enter: FaultManager::processCreateSequenceRefusedFault");

    ConfigurationContext configCtx = rmMsgCtx.getMessageContext().getConfigurationContext();

    StorageManager storageManager = SandeshaUtil.getSandeshaStorageManager(configCtx, configCtx
        .getAxisConfiguration());

    RelatesTo relatesTo = rmMsgCtx.getMessageContext().getRelatesTo();
    String createSeqMsgId = null;
    if (relatesTo != null) {
      createSeqMsgId = relatesTo.getValue();
    } else {
      // Work out the related message from the operation context
      OperationContext context = rmMsgCtx.getMessageContext().getOperationContext();
      MessageContext createSeq = context.getMessageContext(WSDLConstants.MESSAGE_LABEL_OUT_VALUE);
      if(createSeq != null) createSeqMsgId = createSeq.getMessageID();
    }
    if(createSeqMsgId == null) {
      String message = SandeshaMessageHelper.getMessage(SandeshaMessageKeys.relatesToNotAvailable);
      log.error(message);
      throw new SandeshaException(message);
    }

    SenderBeanMgr retransmitterMgr = storageManager.getSenderBeanMgr();
    RMSBeanMgr rmsBeanMgr = storageManager.getRMSBeanMgr();

    RMSBean rmsBean = rmsBeanMgr.retrieve(createSeqMsgId);
    if (rmsBean == null) {
      if (log.isDebugEnabled())
        log.debug("Exit: FaultManager::processCreateSequenceRefusedFault Unable to find RMSBean");

    if (log.isDebugEnabled())
      log.debug("Enter: FaultManager::processSequenceUnknownFault " + sequenceID);

    ConfigurationContext configCtx = rmMsgCtx.getMessageContext().getConfigurationContext();

    StorageManager storageManager = SandeshaUtil.getSandeshaStorageManager(configCtx, configCtx
        .getAxisConfiguration());

    // Find the rmsBean
    RMSBean rmsBean = SandeshaUtil.getRMSBeanFromSequenceId(storageManager, sequenceID);
    if (rmsBean != null) {

      // Notify the clients of a failure
      notifyClientsOfFault(rmsBean.getInternalSequenceID(), storageManager, configCtx, fault);

      rmMsgCtx.pause();

      // Cleanup sending side.
      if (log.isDebugEnabled())
        log.debug("Terminating sending sequence " + rmsBean);
      TerminateManager.terminateSendingSide(rmsBean, storageManager);

      // Update the last activated time.
      rmsBean.setLastActivatedTime(System.currentTimeMillis());

      // Update the bean in the map
      storageManager.getRMSBeanMgr().update(rmsBean);
    }
    else {
      RMDBean rmdBean = SandeshaUtil.getRMDBeanFromSequenceId(storageManager, sequenceID);
      if (rmdBean != null) {
        rmMsgCtx.pause();

        // Cleanup sending side.
        if (log.isDebugEnabled())
          log.debug("Terminating sending sequence " + rmdBean);
        TerminateManager.cleanReceivingSideOnTerminateMessage(configCtx, rmdBean.getSequenceID(), storageManager);

        // Update the last activated time.
        rmdBean.setLastActivatedTime(System.currentTimeMillis());

        // Update the bean in the map
        storageManager.getRMDBeanMgr().update(rmdBean);

      }
      else {
        if (log.isDebugEnabled())
          log.debug("Exit: FaultManager::processSequenceUnknownFault Unable to find sequence");

    Transaction transaction = null;
    MessageContext msgToInvoke = null;

    try {

      StorageManager storageManager = SandeshaUtil.getSandeshaStorageManager(configurationContext,configurationContext.getAxisConfiguration());
      InvokerBeanMgr invokerBeanMgr = storageManager.getInvokerBeanMgr();

      //starting a transaction
      transaction = storageManager.getTransaction();

      InvokerBean invokerBean = invokerBeanMgr.retrieve(messageContextKey);

      msgToInvoke = storageManager.retrieveMessageContext(messageContextKey, configurationContext);
      RMMsgContext rmMsg = MsgInitializer.initializeMessage(msgToInvoke);

      // ending the transaction before invocation.
      if(transaction != null) {
        transaction.commit();
        transaction = null;
      }

      //starting a transaction for the invocation work.
      transaction = storageManager.getTransaction();
      // Lock the RMD Bean just to avoid deadlocks
      SandeshaUtil.getRMDBeanFromSequenceId(storageManager, invokerBean.getSequenceID());
      // Depending on the transaction  support, the service will be invoked only once.
      // Therefore we delete the invoker bean and message now, ahead of time
      invokerBeanMgr.delete(messageContextKey);
      // removing the corresponding message context as well.
      storageManager.removeMessageContext(messageContextKey);

      try {

        boolean postFailureInvocation = false;

        // StorageManagers should st following property to
        // true, to indicate that the message received comes
        // after a failure.
        String postFaulureProperty = (String) msgToInvoke
            .getProperty(Sandesha2Constants.POST_FAILURE_MESSAGE);
        if (postFaulureProperty != null
            && Sandesha2Constants.VALUE_TRUE.equals(postFaulureProperty))
          postFailureInvocation = true;

        AxisEngine engine = new AxisEngine(msgToInvoke.getConfigurationContext());
        if (postFailureInvocation) {
          makeMessageReadyForReinjection(msgToInvoke);
          if (log.isDebugEnabled())
            log.debug("Receiving message, key=" + messageContextKey + ", msgCtx="
                + msgToInvoke.getEnvelope().getHeader());
          engine.receive(msgToInvoke);
        } else {
          if (log.isDebugEnabled())
            log.debug("Resuming message, key=" + messageContextKey + ", msgCtx="
                + msgToInvoke.getEnvelope().getHeader());
          msgToInvoke.setPaused(false);
          engine.resumeReceive(msgToInvoke);
        }

        if(transaction!=null){
          transaction.commit();
          transaction = storageManager.getTransaction();
        }
      } catch (Exception e) {
        if (log.isDebugEnabled())
          log.debug("Exception :", e);

        handleFault(rmMsg, e);
      }



      if (rmMsg.getMessageType() == Sandesha2Constants.MessageTypes.APPLICATION) {
        Sequence sequence = (Sequence) rmMsg
            .getMessagePart(Sandesha2Constants.MessageParts.SEQUENCE);

        boolean highestMessage = false;
        if (sequence.getLastMessage() != null) {
          //this will work for RM 1.0 only
          highestMessage = true;
        } else {
          RMDBean rmdBean = SandeshaUtil.getRMDBeanFromSequenceId(storageManager, invokerBean.getSequenceID());

          if (rmdBean!=null && rmdBean.isTerminated()) {
            long highestInMsgNo = rmdBean.getHighestInMessageNumber();
            if (invokerBean.getMsgNo()==highestInMsgNo)
              highestMessage = true;
          }
        }

        if (highestMessage) {
          //do cleaning stuff that hs to be done after the invocation of the last message.
          TerminateManager.cleanReceivingSideAfterInvocation(invokerBean.getSequenceID(), storageManager);
          // exit from current iteration. (since an entry
          // was removed)
          if(log.isDebugEnabled()) log.debug("Exit: InvokerWorker::run Last message return");
          return;
        }
      }

      if(!ignoreNextMsg){
        // updating the next msg to invoke
        RMDBean rMDBean = storageManager.getRMDBeanMgr().retrieve(invokerBean.getSequenceID());
        long nextMsgNo = rMDBean.getNextMsgNoToProcess();

        if (!(invokerBean.getMsgNo()==nextMsgNo)) {
          String message = "Operated message number is different from the Next Message Number to invoke";
          throw new SandeshaException (message);
        }

        nextMsgNo++;
        rMDBean.setNextMsgNoToProcess(nextMsgNo);
        storageManager.getRMDBeanMgr().update(rMDBean);
      }

      if(transaction != null && transaction.isActive()) transaction.commit();
      transaction = null;

    if (log.isDebugEnabled()) log.debug("SandeshaInHandler::invoke Continuing beyond basic checks");

    Transaction transaction = null;

    try {
      StorageManager storageManager = SandeshaUtil.getSandeshaStorageManager(context, context.getAxisConfiguration());
      transaction = storageManager.getTransaction();

      AxisService axisService = msgCtx.getAxisService();
      if (axisService == null) {
        String message = SandeshaMessageHelper.getMessage(SandeshaMessageKeys.axisServiceIsNull);
        log.debug(message);
        throw new AxisFault(message);
      }

      RMMsgContext rmMsgCtx = null;

      if (msgCtx.getProperty(Sandesha2Constants.MessageContextProperties.RM_MESSAGE_CONTEXT) != null)
        rmMsgCtx = (RMMsgContext)msgCtx.getProperty(Sandesha2Constants.MessageContextProperties.RM_MESSAGE_CONTEXT);
      else
        rmMsgCtx = MsgInitializer.initializeMessage(msgCtx);

      // validating the message
      MessageValidator.validateIncomingMessage(rmMsgCtx, storageManager);

      // commit the current transaction
      if(transaction != null && transaction.isActive()) transaction.commit();
      transaction = storageManager.getTransaction();

      // Process Ack headers in the message
      AcknowledgementProcessor ackProcessor = new AcknowledgementProcessor();
      ackProcessor.processAckHeaders(rmMsgCtx);

      // commit the current transaction
      if(transaction != null && transaction.isActive()) transaction.commit();
      transaction = storageManager.getTransaction();

      // Process Ack Request headers in the message
      AckRequestedProcessor reqProcessor = new AckRequestedProcessor();
      if(reqProcessor.processAckRequestedHeaders(rmMsgCtx)){
        returnValue = InvocationResponse.SUSPEND;
      }

      // Process MessagePending headers
      MessagePendingProcessor pendingProcessor = new MessagePendingProcessor();
      pendingProcessor.processMessagePendingHeaders(rmMsgCtx);

      // commit the current transaction
      if(transaction != null && transaction.isActive()) transaction.commit();
      transaction = storageManager.getTransaction();

      // Process the Sequence header, if there is one
      SequenceProcessor seqProcessor = new SequenceProcessor();
      returnValue = seqProcessor.processSequenceHeader(rmMsgCtx, transaction);

      }

      MessageContext createSeqMsg = createSeqRMMsg.getMessageContext();
      ConfigurationContext context = createSeqMsg.getConfigurationContext();
      StorageManager storageManager = SandeshaUtil.getSandeshaStorageManager(context, context.getAxisConfiguration());

      // If the inbound CreateSequence includes a SecurityTokenReference then
      // ask the security manager to resolve that to a token for us. We also
      // check that the Create was secured using the token.
      SecurityManager secManager = SandeshaUtil.getSecurityManager(context);
      OMElement theSTR = createSeqPart.getSecurityTokenReference();
      SecurityToken token = null;
      if(theSTR != null) {
        MessageContext msgcontext = createSeqRMMsg.getMessageContext();
        token = secManager.getSecurityToken(theSTR, msgcontext);

        // The create must be the body part of this message, so we check the
        // security of that element.
        OMElement body = msgcontext.getEnvelope().getBody();
        secManager.checkProofOfPossession(token, body, msgcontext);
      }

      //if toAddress is RMAnon we may need to terminate the request side sequence here.
      EndpointReference toEPR = createSeqMsg.getTo();
      if (toEPR.hasAnonymousAddress()) {

        RMSBean findBean = new RMSBean ();
        findBean.setReplyToEPR(toEPR.getAddress());
        findBean.setTerminationPauserForCS(true);

        //TODO recheck
        RMSBean rmsBean = storageManager.getRMSBeanMgr().findUnique(findBean);
        if (rmsBean!=null) {
          //AckManager hs not done the termination. Do the termination here.
          MessageContext requestSideRefMessage = storageManager.retrieveMessageContext(rmsBean.getReferenceMessageStoreKey(),context);
          if (requestSideRefMessage==null) {
            FaultManager.makeCreateSequenceRefusedFault(createSeqRMMsg,
                SandeshaMessageHelper.getMessage(SandeshaMessageKeys.referencedMessageNotFound, rmsBean.getInternalSequenceID()),
                new Exception());
            // Return false if an Exception hasn't been thrown.
            if (log.isDebugEnabled())
              log.debug("Exit: CreateSeqMsgProcessor::processInMessage " + Boolean.FALSE);
            return false;
          }

          RMMsgContext requestSideRefRMMessage = MsgInitializer.initializeMessage(requestSideRefMessage);
          TerminateManager.addTerminateSequenceMessage(requestSideRefRMMessage, rmsBean.getInternalSequenceID(), rmsBean.getSequenceID(), storageManager);
        }
      }


      MessageContext outMessage = null;

      // Create the new sequence id, as well as establishing the beans that handle the
      // sequence state.
      RMDBean rmdBean = SequenceManager.setupNewSequence(createSeqRMMsg, storageManager, secManager, token);

      RMMsgContext createSeqResponse = RMMsgCreator.createCreateSeqResponseMsg(createSeqRMMsg, rmdBean);
      outMessage = createSeqResponse.getMessageContext();
      // Set a message ID for this Create Sequence Response message
      outMessage.setMessageID(SandeshaUtil.getUUID());

      createSeqResponse.setFlow(MessageContext.OUT_FLOW);

      // for making sure that this won't be processed again
      createSeqResponse.setProperty(Sandesha2Constants.APPLICATION_PROCESSING_DONE, "true");

      CreateSequenceResponse createSeqResPart = (CreateSequenceResponse) createSeqResponse
          .getMessagePart(Sandesha2Constants.MessageParts.CREATE_SEQ_RESPONSE);

        // OFFER PROCESSING
      SequenceOffer offer = createSeqPart.getSequenceOffer();
      if (offer != null) {
        Accept accept = createSeqResPart.getAccept();
        if (accept == null) {
          if (log.isDebugEnabled())
            log.debug(SandeshaMessageHelper.getMessage(SandeshaMessageKeys.noAcceptPart));
          FaultManager.makeCreateSequenceRefusedFault(createSeqRMMsg,
                                                      SandeshaMessageHelper.getMessage(SandeshaMessageKeys.noAcceptPart),
                                                      new Exception());
          // Return false if an Exception hasn't been thrown.
          if (log.isDebugEnabled())
            log.debug("Exit: CreateSeqMsgProcessor::processInMessage " + Boolean.FALSE);
          return false;
        }

        // offered seq id
        String offeredSequenceID = offer.getIdentifer().getIdentifier();

        boolean offerEcepted = offerAccepted(offeredSequenceID, context, createSeqRMMsg, storageManager);

        if (offerEcepted) {
          // Setting the CreateSequence table entry for the outgoing
          // side.
          RMSBean rMSBean = new RMSBean();
          rMSBean.setSequenceID(offeredSequenceID);
          String outgoingSideInternalSequenceId = SandeshaUtil
              .getOutgoingSideInternalSequenceID(rmdBean.getSequenceID());
          rMSBean.setInternalSequenceID(outgoingSideInternalSequenceId);
          // this is a dummy value
          rMSBean.setCreateSeqMsgID(SandeshaUtil.getUUID());

          rMSBean.setToEPR(rmdBean.getToEPR());
          rMSBean.setAcksToEPR(rmdBean.getToEPR());  // The acks need to flow back into this endpoint
          rMSBean.setReplyToEPR(rmdBean.getReplyToEPR());
          rMSBean.setLastActivatedTime(System.currentTimeMillis());
          rMSBean.setRMVersion(rmdBean.getRMVersion());
          rMSBean.setClientCompletedMessages(new RangeString());

          // Setting sequence properties for the outgoing sequence.
          // Only will be used by the server side response path. Will
          // be wasted properties for the client side.

          Endpoint endpoint = offer.getEndpoint();
          if (endpoint!=null) {
            // setting the OfferedEndpoint
            rMSBean.setOfferedEndPoint(endpoint.getEPR().getAddress());
          }

          rmdBean.setOutboundInternalSequence(outgoingSideInternalSequenceId);
          RMDBeanMgr rmdBeanMgr = storageManager.getRMDBeanMgr();
          rmdBeanMgr.update(rmdBean);

          // Store the inbound token (if any) with the new sequence
          rMSBean.setSecurityTokenData(rmdBean.getSecurityTokenData());

          // If this new sequence has anonymous acksTo, then we must poll for the acks
          // If the inbound sequence is targetted at the WSRM anonymous URI, we need to start
          // polling for this sequence.
          String acksTo = rMSBean.getAcksToEPR();
          EndpointReference reference = new EndpointReference(acksTo);
          if ((acksTo == null || reference.hasAnonymousAddress()) &&
            Sandesha2Constants.SPEC_VERSIONS.v1_1.equals(createSeqRMMsg.getRMSpecVersion())) {
            rMSBean.setPollingMode(true);
          }

          // Set the SOAP Version for this sequence.
          rMSBean.setSoapVersion(SandeshaUtil.getSOAPVersion(createSeqRMMsg.getSOAPEnvelope()));

          storageManager.getRMSBeanMgr().insert(rMSBean);

          SandeshaUtil.startWorkersForSequence(context, rMSBean);

        } else {
          // removing the accept part.
          createSeqResPart.setAccept(null);
          createSeqResponse.addSOAPEnvelope();
        }
      }

      //TODO add createSequenceResponse message as the referenceMessage to the RMDBean.

      outMessage.setResponseWritten(true);

      rmdBean.setLastActivatedTime(System.currentTimeMillis());

      // If the inbound sequence is targetted at the anonymous URI, we need to start
      // polling for this sequence.
      if (toEPR.hasAnonymousAddress()) {
        if (Sandesha2Constants.SPEC_VERSIONS.v1_1.equals(createSeqRMMsg.getRMSpecVersion())) {
          rmdBean.setPollingMode(true);
        }
      }

      storageManager.getRMDBeanMgr().update(rmdBean);

      SandeshaUtil.startWorkersForSequence(context, rmdBean);

      //
      // We have done all of our updates, so commit the transaction

  public static void startWorkersForSequence(ConfigurationContext context, RMSequenceBean sequence)
  throws SandeshaException {
    if (log.isDebugEnabled())
      log.debug("Enter: SandeshaUtil::startWorkersForSequence, sequence " + sequence);

    StorageManager mgr = getSandeshaStorageManager(context, context.getAxisConfiguration());
    boolean polling = sequence.isPollingMode();

    SandeshaThread sender = mgr.getSender();
    SandeshaThread invoker = mgr.getInvoker();
    SandeshaThread pollMgr = mgr.getPollingManager();

    // Only start the polling manager if we are configured to use MakeConnection
    if(polling && pollMgr == null) {
      String message = SandeshaMessageHelper.getMessage(SandeshaMessageKeys.makeConnectionDisabled);
      throw new SandeshaException(message);

          SandeshaMessageKeys.cannotGetStorageManager));
  }

  public static StorageManager getInMemoryStorageManager(ConfigurationContext context) throws SandeshaException {

    StorageManager inMemoryStorageManager = null;

    AxisConfiguration config = context.getAxisConfiguration();
    Parameter parameter = config.getParameter(Sandesha2Constants.INMEMORY_STORAGE_MANAGER);
    if(parameter != null) inMemoryStorageManager = (StorageManager) parameter.getValue();
    if (inMemoryStorageManager != null)  return inMemoryStorageManager;

    return inMemoryStorageManager;
  }

  public static StorageManager getPermanentStorageManager(ConfigurationContext context) throws SandeshaException {

    StorageManager permanentStorageManager = null;

    AxisConfiguration config = context.getAxisConfiguration();
    Parameter parameter = config.getParameter(Sandesha2Constants.PERMANENT_STORAGE_MANAGER);
    if(parameter != null) permanentStorageManager = (StorageManager) parameter.getValue();
    if (permanentStorageManager != null)  return permanentStorageManager;

    return permanentStorageManager;
  }

  private static StorageManager getStorageManagerInstance (String className,ConfigurationContext context) throws SandeshaException {

    StorageManager storageManager = null;
    try {
      ClassLoader classLoader = null;
      AxisConfiguration config = context.getAxisConfiguration();
      Parameter classLoaderParam = config.getParameter(Sandesha2Constants.MODULE_CLASS_LOADER);
      if(classLoaderParam != null) classLoader = (ClassLoader) classLoaderParam.getValue();

        if (classLoader==null)
          throw new SandeshaException (SandeshaMessageHelper.getMessage(
              SandeshaMessageKeys.classLoaderNotFound));

        Class c = classLoader.loadClass(className);
      Class configContextClass = context.getClass();

      Constructor constructor = c.getConstructor(new Class[] { configContextClass });
      Object obj = constructor.newInstance(new Object[] {context});

      if (obj == null || !(obj instanceof StorageManager))
        throw new SandeshaException(SandeshaMessageHelper.getMessage(
            SandeshaMessageKeys.storageManagerMustImplement));

      StorageManager mgr = (StorageManager) obj;
      storageManager = mgr;
      return storageManager;

    } catch (Exception e) {
      String message = SandeshaMessageHelper.getMessage(