Control the default connection pool in IBM MQ classes for Java
This example shows how to use the default connection pool.
Consider the following example application, MQApp1:
import com.ibm.mq.*; public class MQApp1 { public static void main(String[] args) throws MQException { for (int i=0; i<args.length; i++) { MQQueueManager qmgr=new MQQueueManager(args[i]); : : (do something with qmgr) : qmgr.disconnect(); } }
MQApp1 takes a list of local queue managers from the command line, connects to each in turn, and performs some operation. However, when the command line lists the same queue manager many times, it is more efficient to connect only once, and to reuse that connection many times.
IBM MQ classes for Java provides a default connection pool used to do this. To enable the pool, use one of the MQEnvironment.addConnectionPoolToken() methods. To disable the pool, use MQEnvironment.removeConnectionPoolToken().
The following example application, MQApp2, is functionally identical to MQApp1, but connects only once to each queue manager.
import com.ibm.mq.*; public class MQApp2 { public static void main(String[] args) throws MQException { MQPoolToken token=MQEnvironment.addConnectionPoolToken(); for (int i=0; i<args.length; i++) { MQQueueManager qmgr=new MQQueueManager(args[i]); : : (do something with qmgr) : qmgr.disconnect(); MQEnvironment.removeConnectionPoolToken(token); } }
The first bold line activates the default connection pool by registering an MQPoolToken object with MQEnvironment.
The MQQueueManager constructor now searches this pool for an appropriate connection and only creates a connection to the queue manager if it cannot find an existing one. The qmgr.disconnect() call returns the connection to the pool for later reuse. These API calls are the same as the sample application MQApp1.
The second highlighted line deactivates the default connection pool, which destroys any queue manager connections stored in the pool. This is important because otherwise the application would terminate with a number of live queue manager connections in the pool. This situation could cause errors that would appear in the queue manager logs.
If an application uses a client channel definition table (CCDT) to connect to a queue manager, the MQQueueManager constructor first searches the table for a suitable client connection channel definition. If one is found, the constructor searches the default connection pool for a connection that can be used for the channel. If the constructor cannot find a suitable connection in the pool, it then searches the client channel definition table for the next suitable client connection channel definition, and proceeds as described previously. If the constructor completes its search of the client channel definition table and fails to find any suitable connection in the pool, the constructor starts a second search of the table. During this search, the constructor tries to create a new connection for each suitable client connection channel definition in turn, and uses the first connection that it manages to create.
The default connection pool stores a maximum of ten unused connections, and keeps unused connections active for a maximum of five minutes. The application can alter this (for details, see Supplying a different connection pool in IBM MQ classes for Java ).
Instead of using MQEnvironment to supply an MQPoolToken, the application can construct its own:MQPoolToken token=new MQPoolToken(); MQEnvironment.addConnectionPoolToken(token);
Some applications or middleware vendors provide subclasses of MQPoolToken in order to pass information to a custom connection pool. They can be constructed and passed to addConnectionPoolToken() in this way so that extra information can be passed to the connection pool.
Parent topic: Connection pooling in IBM MQ classes for Java