Advanced RPC Server for IBM MQ Functionality

This document covers the following topics:


Support for Request/Reply Scenarios

A synchronous request/reply call to MQ is possible. In this case, the remote procedure call has to have both INPUT and OUTPUT parameters, or an INOUT parameter has to be specified. The RPC Server for IBM MQ issues an MQ PUT call with message type "Request" on the default output queue. The Reply To Queue Name field is set to the name of the default input queue. After the MQPUT call, the RPC Server for IBM MQ issues an MQGET call on the default input queue and then it waits for the reply message (note that for this scenario the input queue must be different from the output queue).

The request and reply messages are correlated by the correlation ID. The reply message has to have the same correlation ID as the request message.

Handling of Correlation ID

For Request Reply scenarios there is an implicit usage of the correlation ID by the RPC Server for IBM MQ: MQ is instructed to generate a correlation ID. The option MQPMO_NEW_CORREL_ID is set internally to achieve this. When reading the reply the option MQMO_MATCH_CORREL_ID is specified, thus the reply message has to use the same correlation as specified in the request message.

Character Encoding Issues

When the RPC Server for IBM MQ is exchanging messages via the EntireX Broker with an RPC client, the usual rules apply. By default, the message is exchanged between the RPC Server for IBM MQ and EntireX using the platform encoding of the JVM that executes the RPC Server for IBM MQ.

If the payload of the MQ message is in XML format (property entirex.bridge.xmm has been set), the RPC Server for IBM MQ converts the XML payload to the encoding used for the remote procedure call. If the RPC Server for IBM MQ has to create the XML payload, it will use UTF-8. A different encoding can be used by setting the property entirex.bridge.xml.encoding.

If the payload of the MQ message is of type text, the translation of the MQ message payload is done by the IBM MQ Java classes. When sending a message, the RPC Server for IBM MQ converts the message to the encoding specified by the CCSID (Coded Character Set IDentification) of the queue manager. When receiving a message, the RPC Server for IBM MQ converts the message to the platform encoding of the JVM.

Note:
The default platform encoding of the JVM can be changed by setting the system property file.encoding in the startup script of the RPC Server for IBM MQ.

User Exit for Message Processing

IBM® MQ does not have a clearly defined message layout, it is basically a stream of bytes. In general it is up to the MQ application to know the exact semantics of an MQ message. This might include application-specific headers and formatting rules. The RPC Server for IBM MQ supports a general but simplified model of message processing.

To better handle application specific message layout details a user exit (or callback routine) can be used. The user exit is working on the IBM® MQ Java representation of an MQ message (class com.ibm.mq.MQMessage) and can change the MQ message. The user exit gets control:

  1. after an MQ message has been constructed by the RPC Server for IBM MQ and before the message is put to the MQ queue,

  2. after an MQ message has been read from an MQ queue and before it is processed by the RPC Server for IBM MQ.

The user exit can be used, for example, for an application specific processing of the MQRFH, MQRFH2 or even custom headers.

To enable a user exit, use the property entirex.wmqbridge.userexit to specify the class name of the user exit implementation. The class will be loaded using the standard classpath. You can specify a separate classpath with the property entirex.wmqbridge.userexit.classpath. Note that for the classpath a file or HTTP URL must be specified, for example file://myexit.jar or http://host/path/to/my/exit. Your user exit class must implement the Java interface com.softwareag.entirex.rpcbridge.WMQBridgeExit. This Java interface has the following methods:

/**
 ** This method is called after the message has been created by the WMQBridge 
 ** and before the message is sent to an MQ queue (MQPUT).
 ** The Message object and/or the MessageOptions object can be changed.
 **
 ** @param msg The MQ message object.
 ** @param pmo The MQPutMessageOptions object.
 **/
public void beforePut(com.ibm.mq.MQMessage msg, com.ibm.mq.MQPutMessageOptions pmo);
/**
 ** This method is called before a message is retrieved from an 
 ** MQ queue (MQGET). The MessageOptions object can be changed.
 **
 ** @param gmo The MQGetMessageOptions object.
 **/
public void beforeGet(com.ibm.mq.MQGetMessageOptions gmo);
/**
 ** This method is called after a message has been retrieved from an 
 ** MQ queue (MQGET) and before the message will be processed by the WMQBridge.
 ** The Message object can be changed.
 **
 ** @param msg The MQ message object.
 **/
public void afterGet(com.ibm.mq.MQMessage msg);

Transactional Behavior

Calls to MQ Series are non-transactional by default. Thus the request operates outside the normal unit-of-work protocols. When reading a message with MQGET, the message is deleted from the queue immediately. If an error occurs in the further processing of the message within the RPC Server for IBM MQ (for example the translation to RPC or XML results in an error), the message cannot be made available again. The same applies to sending a message, the MQPUT call makes the message available immediately.

If the RPC client application uses conversational RPC, the MQ calls are issued transactional (using the SYNCPOINT option). A Backout Conversation will send a backout to the queue manager, and a Commit Conversation will send a commit to the queue manager.

To understand the level of guaranteed delivery provided by the RPC Server for IBM MQ we present the flow of control when reading a message from a queue or writing a message to a queue. Sending a message to an MQ queue:

Start of instruction setTo send a message to an MQ Queue

  1. The RPC client application sends a send request to the RPC Server for IBM MQ.

  2. The RPC Server for IBM MQ creates a corresponding MQ message and puts the message on the queue. If the remote procedure call is part of an RPC conversation, the message is not committed.

  3. The RPC Server for IBM MQ returns a positive acknowledgment back to the RPC client. If something fails in step 2, an error is returned to the RPC client.

Start of instruction setTo receive a message from an MQ Queue

  1. The RPC client application sends a receive request to the RPC Server for IBM MQ.

  2. The RPC Server for IBM MQ reads a message from the queue. If no message is available, an error is returned to the RPC client. If the remote procedure call is part of an RPC conversation, the message is not committed.

  3. The RPC Server for IBM MQ creates a corresponding RPC reply that is sent back to the RPC client. If something fails in step 2, an error is returned to the RPC client.

If the send or receive call is part of a conversational RPC, the MQ transaction will get a commit or backout when the RPC conversation is closed, depending on the type of the End Conversation call.