Examples of org.apache.sandesha2.storage.beanmanagers.RMDBeanMgr

• org.apache.sandesha2.storage.beanmanagers.RMDBeanMgr
  Used to manage NextMsg beans.

    String sequenceId = sequence.getIdentifier().getIdentifier();
    long msgNo = sequence.getMessageNumber();
    boolean lastMessage = sequence.getLastMessage();

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

    //check the security credentials
    SandeshaUtil.assertProofOfPossession(bean, msgCtx, msgCtx.getEnvelope().getHeader().
        getFirstChildWithName(new QName(rmMsgCtx.getRMNamespaceValue(), Sandesha2Constants.WSRM_COMMON.SEQUENCE)));
    SandeshaUtil.assertProofOfPossession(bean, msgCtx, msgCtx.getEnvelope().getBody());


    // 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 = msgCtx.getConfigurationContext();
    if (configCtx == null) {
      String message = SandeshaMessageHelper.getMessage(SandeshaMessageKeys.configContextNotSet);
      log.debug(message);
      throw new SandeshaException(message);
    }

    if(bean == null){
      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, bean)) {

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

      return InvocationResponse.ABORT;
    }

    // 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();
    if (log.isDebugEnabled())
      log.debug("SequenceProcessor::processReliableMessage replyTo = " + replyTo);

    // Updating the server completed message ranges list
    RangeString serverCompletedMessageRanges = bean.getServerCompletedMessages();
    // See if the message is in the list of completed ranges
    boolean msgNoPresentInList =  serverCompletedMessageRanges.isMessageNumberInRanges(msgNo);
    if (!msgNoPresentInList){
       serverCompletedMessageRanges.addRange(new Range(msgNo));
    }

    // 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 ((SandeshaUtil.isDuplicateInOnlyMessage(msgCtx)
            ||
          SandeshaUtil.isDuplicateInOutMessage(msgCtx))
        && (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 when no make connection is
      // in use
      if(replyTo==null || replyTo.isWSAddressingAnonymous()) {

        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());
        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 = bean.getAcksToEndpointReference();

      //Send an Ack if needed.
      //We are not sending acks for duplicate messages in the 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 using replay.
      //Therefore we only send acks back in the anon InOnly case.
      int msgExchangePattern = rmMsgCtx.getMessageContext().getAxisOperation().getAxisSpecificMEPConstant();
      if (log.isDebugEnabled())
        log.debug("SequenceProcessor:: mep= " + msgExchangePattern);
      if (WSDLConstants.MEP_CONSTANT_IN_ONLY ==  msgExchangePattern &&
          (replyTo==null || replyTo.getAddress()==null || replyTo.isWSAddressingAnonymous() || replyTo.hasNoneAddress())) {
        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().getAxisSpecificMEPConstant();
    if(specVersion!=null && specVersion.equals(Sandesha2Constants.SPEC_VERSIONS.v1_0) &&

          // 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.

          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(log.isDebugEnabled()) log.debug("Exit: PollingManager::pollRMSSide");
  }

  private void pollRMDSide(SequenceEntry entry, boolean force) throws AxisFault {
    if(log.isDebugEnabled()) log.debug("Enter: PollingManager::pollRMDSide, force: " + force);
    RMDBeanMgr nextMsgMgr = storageManager.getRMDBeanMgr();
    RMDBean findBean = new RMDBean();
    findBean.setPollingMode(true);
    findBean.setTerminated(false);
    findBean.setSequenceID(entry.getSequenceId());
    RMDBean nextMsgBean = nextMsgMgr.findUnique(findBean);

    if(nextMsgBean == null) {
      // This sequence must have been terminated, or deleted
      stopThreadForSequence(entry.getSequenceId(), false);
    } else {

          Sandesha2Constants.SPEC_VERSIONS.v1_1.equals(rmVersion) && replyTo!=null && SandeshaUtil.isWSRMAnonymous(replyTo.getAddress())) {
        RMDBean findBean = new RMDBean ();
        findBean.setPollingMode(true);
        findBean.setToEndpointReference(replyTo);

        RMDBeanMgr rmdBeanMgr = storageManager.getRMDBeanMgr();
        List<RMDBean> beans = rmdBeanMgr.find(findBean);
        if(beans.isEmpty()) {
          rmsBean.setTerminationPauserForCS(true);
          storageManager.getRMSBeanMgr().update(rmsBean);
          complete = false;
        }

        if (toEPR!=null)
          rMDBean.setToAddress(toEPR.getAddress());

        rMDBean.setServerCompletedMessages(new RangeString());
        RMDBeanMgr rmdBeanMgr = storageManager.getRMDBeanMgr();

        // Store the security token for the offered sequence
        rMDBean.setSecurityTokenData(rmsBean.getSecurityTokenData());

        rMDBean.setLastActivatedTime(System.currentTimeMillis());

        rmdBeanMgr.insert(rMDBean);
        SandeshaUtil.startWorkersForSequence(configCtx, rMDBean);
      }

      // Get the CreateSeqBean based on the message id to take a lock on the bean
        SenderBean createSeqBean = retransmitterMgr.retrieve(createSeqMsgId);

                          //If there is more than one we report the first invalid range

    //adding a MakeConnection for the response sequence if needed.
    if (rmsBean.getOfferedSequence() != null) {

      RMDBeanMgr rMDBeanMgr = storageManager.getRMDBeanMgr();
      RMDBean rMDBean = rMDBeanMgr.retrieve(outSequenceId);

      if (rMDBean!=null && rMDBean.isPollingMode()) {
        PollingManager manager = storageManager.getPollingManager();
        if(manager != null) manager.schedulePollingRequest(rMDBean.getSequenceID(), false);
      }

    ConfigurationContext configurationContext = rmMsgCtx.getConfigurationContext();
    StorageManager storageManager = SandeshaUtil.getSandeshaStorageManager(
              configurationContext, configurationContext.getAxisConfiguration());

    RMDBeanMgr rmdMgr = storageManager.getRMDBeanMgr();
    RMDBean rmdBean = rmdMgr.retrieve(sequenceId);
    String outBoundInternalSequence = rmdBean.getOutboundInternalSequence();

    RMSBeanMgr rmsBeanMgr = storageManager.getRMSBeanMgr();
    RMSBean findBean = new RMSBean ();
    findBean.setInternalSequenceID(outBoundInternalSequence);

          pingAction);

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

    RMDBeanMgr rmdBeanMgr = storageManager.getRMDBeanMgr();

    String seqID = SandeshaUtil.getUUID();

    // Mockup an RMDBean
    RMDBean rmdBean = new RMDBean();
    rmdBean.setSequenceID(seqID);
    rmdBean.setToEndpointReference(new EndpointReference(AddressingConstants.Final.WSA_ANONYMOUS_URL));
    rmdBean.setAcksToEndpointReference(new EndpointReference(AddressingConstants.Final.WSA_ANONYMOUS_URL));
    rmdBean.setReplyToEndpointReference(new EndpointReference(AddressingConstants.Final.WSA_ANONYMOUS_URL));
    rmdBean.setRMVersion(Sandesha2Constants.SPEC_VERSIONS.v1_1);
    rmdBean.setServerCompletedMessages(new RangeString());
    // Flag that the sequence is terminated.
    rmdBean.setTerminated(true);

    // Create a transaction and insert the RMSBean
    Transaction tran = storageManager.getTransaction();

    rmdBeanMgr.insert(rmdBean);

    tran.commit();


    OutputStream tmpOut2 = connection.getOutputStream();

          Sandesha2Constants.SPEC_2007_02.Actions.ACTION_CLOSE_SEQUENCE);

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

    RMDBeanMgr rmdBeanMgr = storageManager.getRMDBeanMgr();

    String seqID = SandeshaUtil.getUUID();

    // Mockup an RMDBean
    RMDBean rmdBean = new RMDBean();
    rmdBean.setSequenceID(seqID);
    rmdBean.setToEndpointReference(new EndpointReference(AddressingConstants.Final.WSA_ANONYMOUS_URL));
    rmdBean.setAcksToEndpointReference(new EndpointReference(AddressingConstants.Final.WSA_ANONYMOUS_URL));
    rmdBean.setReplyToEndpointReference(new EndpointReference(AddressingConstants.Final.WSA_ANONYMOUS_URL));
    rmdBean.setRMVersion(Sandesha2Constants.SPEC_VERSIONS.v1_1);
    rmdBean.setServerCompletedMessages(new RangeString());
    // Flag that the sequence is terminated.
    rmdBean.setTerminated(true);

    // Create a transaction and insert the RMSBean
    Transaction tran = storageManager.getTransaction();

    rmdBeanMgr.insert(rmdBean);

    tran.commit();


    OutputStream tmpOut2 = connection.getOutputStream();

          Sandesha2Constants.SPEC_2007_02.Actions.ACTION_ACK_REQUEST);

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

    RMDBeanMgr rmdBeanMgr = storageManager.getRMDBeanMgr();

    String seqID = SandeshaUtil.getUUID();

    // Mockup an RMDBean
    RMDBean rmdBean = new RMDBean();
    rmdBean.setSequenceID(seqID);
    rmdBean.setToEndpointReference(new EndpointReference(AddressingConstants.Final.WSA_ANONYMOUS_URL));
    rmdBean.setAcksToEndpointReference(new EndpointReference(AddressingConstants.Final.WSA_ANONYMOUS_URL));
    rmdBean.setReplyToEndpointReference(new EndpointReference(AddressingConstants.Final.WSA_ANONYMOUS_URL));
    rmdBean.setRMVersion(Sandesha2Constants.SPEC_VERSIONS.v1_1);
    rmdBean.setServerCompletedMessages(new RangeString());
    // Flag that the sequence is terminated.
    rmdBean.setTerminated(true);

    // Create a transaction and insert the RMSBean
    Transaction tran = storageManager.getTransaction();

    rmdBeanMgr.insert(rmdBean);

    tran.commit();


    OutputStream tmpOut2 = connection.getOutputStream();