Network Deployment (Distributed operating systems), v8.0 > Scripting the application serving environment (wsadmin) > Use the script library to automate the application serving environment using wsadmin.sh
Automate messaging resource configurations using wsadmin scripting
The scripting library provides Jython script procedures to assist in automating the environment. Use the resource management scripts to configure and manage your Java Messaging Service (JMS) configurations.
The scripting library provides a set of procedures to automate the most common application server administration functions. There are three ways to use the Jython script library.
- Run scripts from the Jython script library in interactive mode with wsadmin.sh:
wsadmin>AdminServerManagement.createApplicationServer("myNode", "myServer", "default")- Use a text editor to combine several scripts from the Jython script library:
# # myscript.py # AdminServerManagement.createApplicationServer("myNode", "Server1", "default") AdminServerManagement.createApplicationServer("myNode", "Server2", "default") # Use one of them as the first member of a cluster AdminClusterManagement.createClusterWithFirstMember("myCluster", "APPLICATION_SERVER", "myNode", "Server1") # Add a second member to the cluster AdminClusterManagement.createClusterMember("myCluster", "myNode", "Server3") # Install an application AdminApplication.installAppWithClusterOption("DefaultApplication", "..\installableApps\DefaultApplication.ear", "myCluster") # Start all servers and applications on the node AdminServerManagement.startAllServers("myNode")Save the custom script and run it from the command line:./wsadmin.sh -language jython -f path/to/myscript.py- Use the Jython scripting library code as sample syntax to write custom scripts. Each script example in the script library demonstrates best practices for writing wsadmin scripts. The script library code is located in the WAS_HOME/scriptLibraries directory. Within this directory, the scripts are organized into subdirectories according to functionality, and further organized by version. For example, the WAS_HOME/scriptLibraries/application/V70 subdirectory contains procedures that perform application management tasks that are applicable to v7.0 and later of the product.
The messaging resource management procedures in the scripting library are located in the WAS_HOME/scriptLibraries/resources/JMS/V70 subdirectory. Each script from the directory automatically loads when you launch wsadmin.sh.
To automatically load your custom Jython scripts (*.py) when wsadmin.sh starts, save your automation scripts to a new subdirectory in...
WAS_HOME/scriptLibrariesTo create custom scripts using the scripting library procedures, save the modified scripts to a new subdirectory to avoid overwriting the library. Do not edit the script procedures in the scripting library.
We can use the scripts to perform multiple combinations of administration functions. Use the following sample combination of procedures to create a JMS provider and configure JMS resources for the JMS provider.
Procedure
- Optional: Launch wsadmin.sh.
Use this step to launch wsadmin.sh and connect to a server, or run the tool in local mode. If you launch wsadmin.sh, use the interactive mode examples in this topic to run scripts.
- Launch wsadmin.sh and connect to a server:
./wsadmin.sh -lang jython
- Launch wsadmin.sh in local mode and using the Jython scripting language:
./wsadmin.sh -conntype none -lang jython
When wsadmin.sh launches, the system loads all scripts from the scripting library.
- Configure a JMS provider.
Run the createJMSProvider procedure from the script library and specify the required arguments. To run the script, specify the node, server, JMS provider name, external initial contextual factory name, and external provider URL. We can optionally specify additional attributes in the following format: [["attr1", "value1"], ["attr2", "value2"]]. The following table provides additional information about the arguments to specify:
createJMSProvider script arguments. Run the script to create a JMS provider.
Argument Description Node name Name of the node of interest. Server name Name of the server of interest. JMS provider name Name to assign to the new JMS provider. External initial contextual factory name Java class name of the initial context factory for the JMS provider. External provider URL JMS provider URL for external JNDI lookups. The following example creates a JMS provider in your configuration:
./wsadmin.sh -lang jython -c "AdminJMS.createJMSProvider("myNode", "myServer", "myJMSProvider", "extInitCF", "extPURL", [["description", "testing"], ["supportsASF", "true"], ["providerType", "jmsProvType"]])"You can also use interactive mode to run the script procedure, as the following example displays:
wsadmin>AdminJMS.createJMSProvider("myNode", "myServer", "myJMSProvider", "extInitCF", "extPURL", [["description", "testing"], ["supportsASF", "true"], ["providerType", "jmsProvType"]])The script returns the configuration ID of the new JMS provider.
- Configure a generic JMS connection factory.
Run the createGenericJMSConnectionFactory procedure from the script library and specify the required arguments.
To run the script, specify the node, server, JMS provider name, name of the new connection factory, JNDI name, and external JNDI name. We can optionally specify additional attributes in the following format: [["attr1", "value1"], ["attr2", "value2"]]. The following table provides additional information about the arguments to specify:
createGenericJMSConnectionFactory script arguments. Run the script to create a generic JMS connection factory.
Argument Description Node name Name of the node of interest. Server name Name of the server of interest. JMS provider name Name of the JMS provider. Connection factory name Name to assign to the new connection factory JNDI name JNDI name that the system uses to bind the connection factory into the name space. External JNDI name JNDI name used to bind the queue into the application server name space. As a convention, use the fully qualified JNDI name; for example, in the form jms/Name, where Name is the logical name of the resource. This name is used to link the platform binding information. The binding associates the resources defined by the deployment descriptor of the module to the actual (physical) resources bound into JNDI by the platform. The following example creates a JMS connection factory in the configuration:
./wsadmin.sh -lang jython -c "AdminJMS.createGenericJMSConnectionFactory("myNode", "myServer", "myJMSProvider", "JMSCFTest", "jmsjndi", "extjmsjndi", [["XAEnabled", "true"], ["authDataAlias", "myalias"], ["description", "testing"]])"We can also use interactive mode to run the script procedure, as the following example displays:
wsadmin>AdminJMS.createGenericJMSConnectionFactory("myNode", "myServer", "myJMSProvider", "JMSCFTest", "jmsjndi", "extjmsjndi", [["XAEnabled", "true"], ["authDataAlias", "myalias"], ["description", "testing"]])The script returns the configuration ID of the new generic JMS connection factory.
- Create a generic JMS destination.
Run the createGenericJMSDestination procedure from the script library and specify the required arguments.
To run the script, specify the node, server, JMS provider name, generic JMS destination name, JNDI name, and external JNDI name. We can optionally specify additional attributes in the following format: [["attr1", "value1"], ["attr2", "value2"]]. The following table provides additional information about the arguments to specify:
createGenericJMSDestination script arguments. Run the script to create a generic JMS destination.
Argument Description Node name Name of the node of interest. Server name Name of the server of interest. JMS provider name Name of the JMS provider. Generic JMS destination name Name to assign to the new generic JMS destination. JNDI name JNDI name that the system uses to bind the connection factory into the name space. External JNDI name JNDI name used to bind the queue into the application server name space. As a convention, use the fully qualified JNDI name; for example, in the form jms/Name, where Name is the logical name of the resource. This name is used to link the platform binding information. The binding associates the resources defined by the deployment descriptor of the module to the actual (physical) resources bound into JNDI by the platform. Use a template to use a template to create a generic JMS destination in the configuration:
./wsadmin.sh -lang jython -c "AdminJMS.createGenericJMSDestination("myNode", "myServer", "myJMSProvider", "JMSDest", "destjndi", "extDestJndi", [["description", "testing"], ["category", "jmsDestCatagory"], ["type", "TOPIC"]]))"We can also use interactive mode to run the script procedure...
wsadmin>AdminJMS.createGenericJMSDestination("myNode", "myServer", "myJMSProvider", "JMSDest", "destjndi", "extDestJndi", [["description", "testing"], ["category", "jmsDestCatagory"], ["type", "TOPIC"]]))The script returns the configuration ID of the new generic JMS destination.
Results
The wsadmin script libraries return the same output as the associated wsadmin commands. For example, the AdminServerManagement.listServers() script returns a list of available servers. The AdminClusterManagement.checkIfClusterExists() script returns a value of true if the cluster exists, or false if the cluster does not exist. If the command does not return the expected output, the script libraries return a 1 value when the script successfully runs. If the script fails, the script libraries return a -1 value and an error message with the exception.
By default, the system disables failonerror option.
To enable this option, specify true as the last argument for the script procedure...
wsadmin>AdminApplication.startApplicationOnCluster("myApplication","myCluster","true")
What to do next
Create custom scripts to automate the environment by combining script procedures from the scripting library. Save custom scripts to a new subdirectory of the WAS_HOME/scriptLibraries directory.
Related
JMS configuration scripts
JMS query scripts
Use the script library to automate the application serving environment using wsadmin.sh