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jts: Java Transaction Service - Distributed EJB Transactions

The jts quickstart shows how to use JTS to perform distributed transactions across multiple containers, fulfilling the properties of an ACID transaction.

What is it?

The jts quickstart demonstrates how to perform distributed transactions across multiple containers in an application deployed to {productNameFull}. A distributed transaction is a set of operations performed by two or more nodes, participating in an activity coordinated as a single entity of work, and fulfilling the properties of an ACID transaction.

ACID is a set of 4 properties that guarantee the resources are processed in the following manner:

  • Atomic - if any part of the transaction fails, all resources remain unchanged.

  • Consistent - the state will be consistent across resources after a commit

  • Isolated - the execution of the transaction for each resource is isolated from each others

  • Durable - the data will persist after the transaction is committed

The example uses Java Transaction Service (JTS) to propagate a transaction context across two Container-Managed Transaction (CMT) EJBs that, although deployed in separate servers, participate in the same transaction. In this example, one server processes the Customer and Account data and the other server processes the Invoice data.

The code base is essentially the same as the cmt quickstart, however in this case the InvoiceManager has been separated to a different deployment archive to demonstrate the usage of JTS. You can see the changes in the following ways:

  • cmt/src/main/java/org/jboss/as/quickstarts/cmt/ejb/InvoiceManagerEJB.java has been moved to application-component-2/src/main/java/org/jboss/as/quickstarts/cmt/jts/ejb/InvoiceManagerEJB

  • cmt/src/main/java/org/jboss/as/quickstarts/cmt/ejb/CustomerManagerEJB.java has been moved to jts/application-component-1/src/main/java/org/jboss/as/quickstarts/cmt/jts/ejb/CustomerManagerEJB.java

The changes to CustomerManagerEJB are purely to accommodate the fact that InvoiceManager is now distributed.

You will see that the CustomerManagerEJB uses the EJB home for the remote EJB, this is expected to connect to remote EJBs. The example expects the EJBs to be deployed onto the same physical machine. This is not a restriction of JTS and the example can easily be converted to run on separate machines by editing the hostname value for the InvoiceManagerEJB in org.jboss.as.quickstarts.cmt.jts.ejb.CustomerManagerEJB.

A simple MDB has been provided that prints out the messages sent but this is not a transactional MDB and is purely provided for debugging purposes.

Also, while the cmt quickstart uses the Jakarta EE container default datasource, which is not distributed, this quickstart instead uses an external PostgreSQL database.

After you complete this quickstart, you are invited to run through the jts-distributed-crash-rec quickstart. The crash recovery quickstart builds upon this quickstart by demonstrating the fault tolerance of {productNameFull}.

Prerequisites

Developers should be familiar with the concepts introduced in the cmt quickstart.

This quickstart requires the configuration of two servers. The first server must be configured to use the PostgreSQL database. Instructions to install and configure PostgreSQL are below.

Configure the PostgreSQL Database for Use with this Quickstart

This quickstart requires the PostgreSQL database.

  1. Instructions to install and configure PostgreSQL can be found here: Download and Install PostgreSQL

  2. For the purpose of this quickstart, replace the word QUICKSTART_DATABASE_NAME with jts-quickstart-database in the PostgreSQL instructions.

  3. Make sure you Create a Database User for the PostgeSQL database.

  4. When you have completed these steps, make sure you start the PostgreSQL database. Unless you have set up the database to automatically start as a service, you must repeat the instructions to start the database server for your operating system every time you reboot your machine.

Wait until later in these instructions to add the PostgreSQL module and driver configuration to the first {productName} server.

Configure the Servers

For this example, you will need two instances of the application server, with a subtle startup configuration difference. Application server 2 must be started up with a port offset parameter provided to the startup script as -Djboss.socket.binding.port-offset=100.

Since both application servers must be configured in the same way, you must configure the first server and then clone it. After you clone the second server, the first server must be configured for PostgreSQL.

Configure the First Server

You configure JTS transactions by running JBoss CLI commands. For your convenience, this quickstart batches the commands into a configure-jts-transactions.cli script provided in the root directory of this quickstart.

  1. Before you begin, back up your server configuration file

    • If it is running, stop the {productName} server.

    • Back up the file: {jbossHomeName}/standalone/configuration/standalone-full.xml

    • After you have completed testing this quickstart, you can replace this file to restore the server to its original configuration.

  2. Start the {productName} server with the standalone full profile, passing a unique node ID by typing the following command. Make sure you replace UNIQUE_NODE_ID_1 with a node identifier that is unique to both servers.

  3. Start the {productName} server with the standalone full profile, passing a unique node ID, by typing the following command. Make sure you replace UNIQUE_NODE_ID_1 with a node identifier that is unique to both servers.

    $ {jbossHomeName}/bin/standalone.sh -c standalone-full.xml -Djboss.tx.node.id=UNIQUE_NODE_ID_1
    Note
    For Windows, use the {jbossHomeName}\bin\standalone.bat script.
  4. Review the configure-jts-transactions.cli file in the root of this quickstart directory. This script configures the server to use jts transaction processing.

  5. Open a new terminal, navigate to the root directory of this quickstart, and run the following command, replacing {jbossHomeName} with the path to your server:

    $ {jbossHomeName}/bin/jboss-cli.sh --connect --file=configure-jts-transactions.cli
    Note
    For Windows, use the {jbossHomeName}\bin\jboss-cli.bat script.

    You should see the following result when you run the script:

    The batch executed successfully
    process-state: restart-required
  6. Stop the {productName} server.

Important
When you have completed testing this quickstart, it is important to Remove the JTS Configuration from the {productName} Server.

Review the Modified Server Configuration

After stopping the server, open the {jbossHomeName}/standalone/configuration/standalone-full.xml file and review the changes.

  1. The orb initializers transactions attribute is changed from spec to full in the iiop-openjdk subsystem to enable JTS.

    <subsystem xmlns="{IiopOpenJdkSubsystemNamespace}">
        <initializers transactions="full" security="identity"/>
    </subsystem>
  2. An empty <jts/> element is added to the end of the transactions subsystem to enable JTS.

    <subsystem xmlns="{TransactionsSubsystemNamespace}">
        <core-environment node-identifier="${jboss.tx.node.id}">
            <process-id>
                <uuid/>
            </process-id>
        </core-environment>
        <recovery-environment socket-binding="txn-recovery-environment" status-socket-binding="txn-status-manager"/>
        <jts/>
    </subsystem>

Clone the Server Directory

Make a copy of this {productName} directory structure to use for the second server.

Configure Server1 to use PostgreSQL

Application server 1 must be now configured to use the PostgreSQL database created previously in the Configure the PostgreSQL Database for Use with this Quickstart section.

  1. Make sure you start the PostgreSQL database. Unless you have set up the database to automatically start as a service, you must repeat the instructions "Start the database server" for your operating system every time you reboot your machine.

  2. Follow the instructions to Add the PostgreSQL Module to the {productName} Server to the server 1 install only.

  3. Follow the instructions to Configure the PostgreSQL Driver in the {ProductName} Server for the server 1 configuration. Make sure you pass the -Djboss.tx.node.id=UNIQUE_NODE_ID_1 on the command line when you start the first server to configure PostgreSQL.

Start the Servers

Start the two {productName} server with the standalone full profile, passing a unique node ID, by typing the following commands. You must pass a socket binding port offset on the command to start the second server. Make sure you replace UNIQUE_NODE_ID_1 and UNIQUE_NODE_ID_2 with node identifiers that are unique across both servers.

$ {jbossHomeName}_1/bin/standalone.sh -c standalone-full.xml -Djboss.tx.node.id=UNIQUE_NODE_ID_1
$ {jbossHomeName}_2/bin/standalone.sh -c standalone-full.xml -Djboss.tx.node.id=UNIQUE_NODE_ID_2 -Djboss.socket.binding.port-offset=100
Note
For Windows, use the {jbossHomeName}_1\bin\standalone.bat and {jbossHomeName}_2\bin\standalone.bat scripts.

Build and Deploy the Quickstart

Since this quickstart builds two separate components, you can not use the standard Build and Deploy commands used by most of the other quickstarts. You must follow these steps to build, deploy, and run this quickstart.

  1. Make sure you have started the {productName} server with the PostgreSQL driver.

  2. Open a terminal and navigate to the root directory of this quickstart.

  3. Type this command to build and deploy the archive.

    $ mvn clean install wildfly:deploy
  4. This will deploy {artifactId}-application-component-1.war and {artifactId}-application-component-2.jar to the running instance of the server.

Access the Application

The application will be running at the following URL: http://localhost:8080/{artifactId}-application-component-1/.

When you enter a name and click to Add that customer, you will see the following in the application server 1 console:

INFO  [org.hibernate.hql.internal.QueryTranslatorFactoryInitiator] (default task-2) HHH000397: Using ASTQueryTranslatorFactory
INFO  [org.jboss.ejb.client] (default task-4) JBoss EJB Client version 2.1.4.Final-redhat-1

You will also see the following in application-server-2 console:

INFO  [org.jboss.ejb.client] (p: default-threadpool; w: Idle) JBoss EJB Client version 2.1.4.Final-redhat-1
INFO  [class org.jboss.as.quickstarts.cmt.jts.mdb.HelloWorldMDB] (Thread-97 (ActiveMQ-client-global-threads-6840624)) Received Message: Created invoice for customer named: Tom

The web page will also change and show you the new list of customers.

Server Log: Expected Warnings and Errors

You will see the following warnings in the server log. You can ignore these warnings.

WFLYJCA0091: -ds.xml file deployments are deprecated. Support may be removed in a future version.

Remove the JTS Configuration From the Server

You must remove the JTS server configuration you did during setup because it interferes with the JTA quickstarts.

You can modify the server configuration by running the remove-jts-transactions.cli script provided in the root directory of this quickstart, by using the JBoss CLI interactively, or by manually editing the configuration file.

Remove the JTS Server Configuration by Running the CLI Script

  1. Start the first {productName} server with the standalone full profile, passing a unique node ID, by typing the following command. Make sure you replace UNIQUE_NODE_ID_1 with the node identifier that you used when you previously started the server.

    $ {jbossHomeName}_1/bin/standalone.sh -c standalone-full.xml -Djboss.tx.node.id=UNIQUE_NODE_ID_1
    Note
    For Windows, use the {jbossHomeName}_1\bin\standalone.bat script.
  2. Open a new terminal, navigate to the root directory of this quickstart, and run the following command, replacing {jbossHomeName}_1 with the path to your server:

    $ {jbossHomeName}_1/bin/jboss-cli.sh --connect --file=remove-jts-transactions.cli
    Note
    For Windows, use the {jbossHomeName}_1\bin\jboss-cli.bat script.

    This script removes the JTS configuration from the iiop-openjdk and transactions subsystems in the server configuration. You should see the following result when you run the script:

    The batch executed successfully
    process-state: restart-required
    {
        "outcome" => "success",
        "result" => undefined
    }

Remove the JTS Server Configuration using the Management CLI

  1. Start the first {productName} server with the standalone full profile, passing a unique node ID, by typing the following command. Make sure you replace UNIQUE_NODE_ID_1 with the node identifier that you used when you previously started the server.

    $ {jbossHomeName}_1/bin/standalone.sh -c standalone-full.xml -Djboss.tx.node.id=UNIQUE_NODE_ID_1
    Note
    For Windows, use the {jbossHomeName}_1\bin\standalone.bat script.
  2. To start the JBoss CLI tool, open a new terminal, navigate to the {jbossHomeName}_1 directory, and type the following:

    $ {jbossHomeName}_1/bin/jboss-cli.sh --connect
    Note
    For Windows, use the {jbossHomeName}_1\bin\jboss-cli.bat script.
  3. At the prompt, type the following commands.

    /subsystem=iiop-openjdk/:write-attribute(name=transactions,value=spec)
    /subsystem=transactions/:undefine-attribute(name=jts)
    /subsystem=transactions/:undefine-attribute(name=node-identifier)
  4. You should see the following response after each command execution.

    {
        "outcome" => "success",
        "response-headers" => {
            "operation-requires-reload" => true,
            "process-state" => "restart-required"
        }
    }

Remove the JTS Server Configuration Manually

  1. Stop the server.

  2. If you backed up the {jbossHomeName}/standalone/configuration/standalone-full.xml file, ,simply replace the edited configuration file with the backup copy.

  3. If you did not make a backup copy, open the file {jbossHomeName}/standalone/configuration/standalone-full.`xml and disable JTS as follows:

    • Find the orb subsystem and change the configuration back to its original state.

      <subsystem xmlns="{IiopOpenJdkSubsystemNamespace}">
          <initializers transactions="spec" security="identity"/>
      </subsystem>
    • Find the transaction subsystem and remove the node-identifier attribute from the core-environment element. Also remove the <jts/> element.

      <subsystem xmlns="{TransactionsSubsystemNamespace}">
          <core-environment>
              <process-id>
                  <uuid/>
              </process-id>
          </core-environment>
          <recovery-environment socket-binding="txn-recovery-environment" status-socket-binding="txn-status-manager"/>
      </subsystem>