Verifying the multi-instance queue manager on Windows
Use the sample programs amqsghac, amqsphac and amqsmhac to verify a multi-instance queue manager configuration. This topic provides an example configuration to verify a multi-instance queue manager configuration on Windows Server 2003.
The high availability sample programs use automatic client reconnection. When the connected queue manager fails, the client attempts to reconnect to a queue manager in the same queue manager group. The description of the samples, High availability sample programs, demonstrates client reconnection using a single instance queue manager for simplicity. You can use the same samples with multi-instance queue managers to verify a multi-instance queue manager configuration.
This example uses the multi-instance configuration described in Creating a multi-instance queue manager on Windows domain controllers. Use the configuration to verify that the multi-instance queue manager switches over to the standby instance. Stop the queue manager with the endmqm command and use the -s, switchover, option. The client programs reconnect to the new queue manager instance and continue to work with the new instance after a slight delay.
The client is installed in a 400 MB VMware image that is running Windows 7 Service Pack 1. For security reasons, it is connected on the same VMware host-only network as the domain servers that are running the multi-instance queue manager. It is sharing the /MQHA folder, which contains the client connection table, to simplify configuration.
Verifying failover using IBM MQ Explorer
Verifying failover using the sample programs
- Choose a server to run the active instance
- You might have chosen one of the servers to host the MQHA directory or file system. If you plan to test failover by closing the VMware window running the active server, make sure that it is not the one hosting MQHA !
- On the server running the active queue manager instance
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Modify ipaddr1 and ipaddr2 and save the following commands in N:\hasample.tst.
DEFINE QLOCAL(SOURCE) REPLACE DEFINE QLOCAL(TARGET) REPLACE DEFINE CHANNEL(CHANNEL1) CHLTYPE(SVRCONN) TRPTYPE(TCP) + MCAUSER(' ') REPLACE DEFINE CHANNEL(CHANNEL1) CHLTYPE(CLNTCONN) TRPTYPE(TCP) + CONNAME(' ipaddr1 (1414), ipaddr2 (1414)') QMNAME(QM1) REPLACE START CHANNEL(CHANNEL1) DEFINE LISTENER(LISTENER.TCP) TRPTYPE(TCP) CONTROL(QMGR) DISPLAY LISTENER(LISTENER.TCP) CONTROL DISPLAY LSSTATUS(LISTENER.TCP) STATUS
Note: By leaving the MCAUSER parameter blank, the client user ID is sent to the server. The client user ID must have the correct permissions on the servers. An alternative is to set the MCAUSER parameter in the SVRCONN channel to the user ID you have configured on the server. -
Open a command prompt with the path N:\ and run the command:
runmqsc -m QM1 < hasample.tst
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Verify that the listener is running and has queue manager control, either by inspecting the output of the runmqsc command.
Or, using the IBM MQ Explorer that the TCPIP listener is running and hasLISTENER(LISTENER.TCP)CONTROL(QMGR) LISTENER(LISTENER.TCP)STATUS(RUNNING)
Control = Queue Manager
.
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- On the client
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- Map the shared directory C:\MQHA on the server to N:\ on the client.
- Open a command prompt with the path N:\. Set the environment variable
MQCHLLIB
to point to the client channel definition table (CCDT) on the server:SET MQCHLLIB=N:\data\QM1\@ipcc
- At the command prompt type the commands:
start amqsghac TARGET QM1 start amqsmhac -s SOURCE -t TARGET -m QM1 start amqsphac SOURCE QM1
Note: If you have problems, start the applications at a command prompt so that the reason code is printed out on the console, or look at the AMQERR01.LOG file in the N:\data\QM1\errors folder.
- On the server running the active queue manager instance
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- Either:
- Close the window running the VMware image with the active server instance.
- Using the IBM MQ Explorer, stop the active queue manager instance, allowing switchover to the standby instance and instructing re-connectable clients to reconnect.
- The three clients eventually detect the connection is broken, and then reconnect. In this configuration, if you close the server window, it is taking about seven minutes for all three connections to be reestablished. Some connections are reestablished well before others.
- Either:
Results
N:\>amqsphac SOURCE QM1
Sample AMQSPHAC start
target queue is SOURCE
message Message 1
message Message 2
message Message 3
message Message 4
message Message 5
17:05:25 : EVENT : Connection Reconnecting (Delay: 0ms)
17:05:47 : EVENT : Connection Reconnecting (Delay: 0ms)
17:05:52 : EVENT : Connection Reconnected
message Message 6
message Message 7
message Message 8
message Message 9
N:\>amqsmhac -s SOURCE -t TARGET -m QM1
Sample AMQSMHA0 start
17:05:25 : EVENT : Connection Reconnecting (Delay: 97ms)
17:05:48 : EVENT : Connection Reconnecting (Delay: 0ms)
17:05:53 : EVENT : Connection Reconnected
N:\>amqsghac TARGET QM1
Sample AMQSGHAC start
message Message 1
message Message 2
message Message 3
message Message 4
message Message 5
17:05:25 : EVENT : Connection Reconnecting (Delay: 156ms)
17:05:47 : EVENT : Connection Reconnecting (Delay: 0ms)
17:05:52 : EVENT : Connection Reconnected
message Message 6
message Message 7
message Message 8
message Message 9