- Introduction
- 1. Getting Started
- 2. Installation Alternatives
- 3. Installation With Binary Download
- 4. Installation With Source Download
- 5. Setting the JBOSS_HOME variable
- 6. Uninstall JBoss
- 7. Test your Installation
- 8. The JBoss Server - A Quick Tour
- 9. EJB3 Caveats in JBoss Application Server 5.0.0
- 10. About the Example Applications
- 11. Sample JSF-EJB3 Application
- 12. Using Seam
- 13. Using other Databases
- A. Revision History
- B. Further Information Sources
JBoss Application Server is the open source implementation of the Java EE suite of services. It comprises a set of offerings for enterprise customers who are looking for preconfigured profiles of JBoss Enterprise Middleware components that have been tested and certified together to provide an integrated experience. It's easy-to-use server architecture and high flexibility makes JBoss the ideal choice for users just starting out with J2EE, as well as senior architects looking for a customizable middleware platform.
Because it is Java-based, JBoss Application Server is cross-platform, easy to install and use on any operating system that supports Java. The readily available source code is a powerful learning tool to debug the server and understand it. It also gives you the flexibility to create customized versions for your personal or business use.
Installing JBoss Application Server is simple and easy. You can have it installed and running in no time. This guide will teach you to install and get started with the JBoss Application Server.
If you find a typographical error in the Installation Guide and Getting Started Guide, or if you have thought of a way to make this manual better, we would love to hear from you! Please submit a report in JIRA: http://jira.jboss.com against the project JBoss Application Server and component Docs/Installation and Getting Started Guide.
If you have a suggestion for improving the documentation, try to be as specific as possible when describing it. If you have found an error, please include the section number and some of the surrounding text so we can find it easily.
Note
Be sure to give us your name so you can receive full credit.
Note
This content is taken from svn.jboss.org/repos/jbossas/projects/docs/community/5 and has yet to be branched.
To access the content directly and make changes yourself:
svn co https://svn.jboss.org/repos/jbossas/projects/docs/community/5 --username yourusername
You must have adequate disk space to install JDK and JBoss Application Server while also allowing enough space for your applications. Before installing JBoss Application Server you must have a working installation of Java. Since JBoss is 100% pure Java you can have it working on any Operating System / Platform that supports Java.
For the latest information on supported Operating System / JVM combinations and supported Database platforms, please refer to http://www.jboss.com.
You must have a working installation of JDK 1.5 or JDK 1.6 before you install JBoss Application Server. You can install the 32-bit or 64-bit JVM as per your requirements. In this guide we will show you how to install a 32-bit Sun JDK 5.0 on a Linux Platform and Microsoft Windows Platform. But before we do that let's take a look at some of the benefits of using a 64-bit JVM.
Benefits of 64-bit JVM on 64-bit OS and Hardware:
-
Wider datapath: The pipe between RAM and CPU is doubled, which improves the performance of memory-bound applications.
-
64-bit memory addressing gives virtually unlimited (1 exabyte) heap allocation. However large heaps affect garbage collection.
-
Applications that run with more than 1.5GB of RAM (including free space for garbage collection optimization) should utilize the 64-bit JVM.
-
Applications that run on a 32-bit JVM and do not require more than minimal heap sizes will gain nothing from a 64-bit JVM. Barring memory issues, 64-bit hardware with the same relative clock speed and architecture is not likely to run Java applications faster than their 32-bit cousin.
Installing and Configuring 32-bit Sun JDK 5.0 or JDK 6.0 on Linux
-
Download the Sun JDK 5.0 or JDK 6 (Java 2 Development Kit) from Sun's website: http://java.sun.com/javase/downloads/index_jdk5.jsp for JDK 5.0 or http://java.sun.com/javase/downloads/ for JDK 6.0. Select the JDK Update <x>" (where x is the latest update number) for download and then select "RPM in self-extracting" file for Linux[1]. Read the instructions on Sun's website for installing the JDK.
-
If you do not want to use SysV service scripts you can install the "self-extracting file" for Linux instead of choosing the "RPM in self-extracting" file. In that case you can skip the next step mentioned here. But it is recommended to use the SysV service scripts for production servers.
-
Download and install the appropriate
-compat RPMfromJPackagehere. Please ensure you choose a matching version of the-compatpackage to the JDK you installed. -
Create an environment variable that points to the JDK installation directory and call it
JAVA_HOME. Add$JAVA_HOME/binto the system path to be able to runjavafrom the command line. You can do this by adding the following lines to the.bashrcfile in your home directory.#In this example /usr/java/jdk1.6.0_07 is the JDK installation directory. export JAVA_HOME=/usr/java/jdk1.6.0_07 export PATH=$PATH:$JAVA_HOME/bin
Set this variable for the user account doing the installation and also for the user account that will run the server.
-
If you have more than one version of JVM installed in your machine, make sure you are using the JDK1.5 or JDK1.6 installation as the default source for the
javaandjavacexecutables. You can do this using the alternatives system. The alternatives system allows different versions of Java, from different sources to co-exist on your system.Select alternatives for java, javac and java_sdk_1.<x>
-
As root, type the following command at the shell prompt and you should see something like this:
[root@vsr ~]$ /usr/sbin/alternatives --config java There are 2 programs which provide 'java'. Selection Command ----------------------------------------------- 1 /usr/lib/jvm/jre-1.4.2-gcj/bin/java *+ 2 /usr/lib/jvm/jre-1.5.0-sun/bin/java Enter to keep the current selection[+], or type selection number:
Make sure the Sun version [
jre-1.5.0-sunin this case] is selected (marked with a '+' in the output), or select it by entering its number as prompted. -
Repeat the same for javac and java_sdk_1.<x>
[root@vsr ~]$ /usr/sbin/alternatives --config javac There are 1 programs which provide 'javac'. Selection Command ----------------------------------------------- *+ 1 /usr/lib/jvm/java-1.5.0-sun/bin/javac Enter to keep the current selection[+], or type selection number:
[root@vsr ~]$ /usr/sbin/alternatives --config java_sdk_1.5.0 There are 1 programs which provide 'java_sdk_1.5.0'. Selection Command ----------------------------------------------- *+ 1 /usr/lib/jvm/java-1.5.0-sun Enter to keep the current selection[+], or type selection number:
You should verify that java, javac and java_sdk_1.<x> all point to the same manufacturer and version.
Note
You can always override this step by setting the
JAVA_HOMEenvironment variable as explained in the previous step. -
-
Make sure that the
javaexecutable is in your path and that you are using an appropriate version. To verify your Java environment, typejava -versionat the shell prompt and you should see something like this:[root@vsr ~]$ java -version java version "1.5.0_14" Java(TM) 2 Runtime Environment, Standard Edition (build 1.5.0_14-b03) Java HotSpot(TM) Client VM (build 1.5.0_14-b03, mixed mode, sharing)
Installing and Configuring 32-bit Sun JDK 5.0 or JDK 6.0 on Microsoft Windows
-
Download the Sun JDK 5.0 (Java 2 Development Kit) from Sun's website: http://java.sun.com/javase/downloads/index_jdk5.jsp for JDK 5.0 or http://java.sun.com/javase/downloads/ for JDK 6.0. Choose the JDK Update <x>" (where x is the latest update number) for download and then select your Windows Platform options to perform the installation.
-
Create an environment variable called
JAVA_HOMEthat points to the JDK installation directory, for example:C:\Program Files\Java\jdk1.5.0_14\. In order to run java from the command line add thejre\bindirectory to your path, for example:C:\Program Files\Java\jdk1.5.0_14\jre\bin. To do this, open the Control Panel from the Start Menu, switch to Classic View if necessary, open the System Control Panel applet, select the Advanced Tab, and click on the Environment Variables button.
You can install the JBoss Application Server in one of these two modes:
-
Binary files download
In this form of installation, simply unzip the downloaded zip file to the directory of your choice. You can unzip the JBoss Application Server on any operating system that supports the zip format. The zip file is available on http://labs.jboss.com/jbossas/downloads/. Please ensure you have met the pre-requisites required before proceeding with your installation. Pre-requisites are discussed in Section 1.1, “Pre-Requisites”. Further details on installation using the Binary files are discussed in Chapter 3, Installation With Binary Download
JBossAS 5.0.0 can be compiled with both Java5 and Java6. The Java5 compiled binary is our primary/recommended binary distribution. It has undergone rigorous testing and can run under both a Java 5 and a Java 6 runtime. When running under Java 6 you need to manually copy the following libraries from the
JBOSS_HOME/clientdirectory to theJBOSS_HOME/lib/endorseddirectory, so that the JAX-WS 2.0 apis supported by JBossWS are used:* jbossws-native-saaj.jar * jbossws-native-jaxrpc.jar * jbossws-native-jaxws.jar * jbossws-native-jaxws-ext.jar
Another alternative is to download the jdk6 distribution (
jboss-5.0.0.CR2-jdk6.zip) in which case no configuration changes are required. Please refer to the release notes for additional information about running with JDK 6. -
Source Files download
In this form of installation, download the source files from the web and build the source files locally. On successfully building your source files you can manually copy the built file into a desired folder and start the server. Please ensure you have met the pre-requisites required before proceeding with your installation. Pre-requisites are discussed in Section 1.1, “Pre-Requisites”. For more instructions on building your source files, please refer to Chapter 4, Installation With Source Download .
Three types of server configurations will be included in your installation - minimal , default , and all .
You can download the Binary zip files from http://labs.jboss.com/jbossas/downloads/.
There are two binary distributions available:
In this form of installation, simply unzip the downloaded zip file to the directory of your choice on any operating system that supports the zip format.
-
Unzip
jboss-<release>.zipto extract the archive contents into the location of your choice. You can do this using the JDKjartool (or any other ZIP extraction tool). In the example below we are assuming you downloaded the zip file to the/jbossdirectory.[usr]$
cd /jboss[usr]$jar -xvf jboss-<release>.zip -
You should now have a directory called
jboss-<release>. Next you need to set your JBOSS_HOME environment variables. This is discussed in Chapter 5, Setting the JBOSS_HOME variable .
You can download the zip source file from http://labs.jboss.com/jbossas/downloads/.
-
Uncompress
jboss-<release>-src.tar.gzto extract the archive contents into the location of your choice. You can do this using thetararchiving utility in Linux (or any other compatible extraction tool). In this example we are assuming your source files were copied in the/jbossfolder.[user@localhost]$ cd /jboss [user@localhost]$ tar -xvf
jboss-<release>-src.tar.gz -
You should now have a directory called
jboss-<release>-src.tar.gz. The next step is to build your source files. In this example we are using Apache ANT. This is discussed in the following section.
Apache Ant is a Java-based build tool. Instead of using an extended model using shell-based commands, Ant is extended using Java classes that use XML-based configuration files. The configuration files call out a target tree that executes various tasks. Each task is run by an object that implements a particular Task interface. This gives you the ability to perform cross platform builds. Please also note that if needed, Ant provides an <exec> task that allows commands to be executed based on the Operating System it is executing on. For more information on Apache ANT please click here.
You will need to build your JBoss Application Server source files before you can run the application server. Apache Ant is shipped with the JBoss Application Server source files and can be executed from the <source_directory>/tools/bin directory.
The source files can also be built using Apache Maven which is also shipped with the JBoss Application Server source files under <source_directory>/tools/maven directory. For more information about Apache Maven, please refer to http://maven.apache.org/.
Like Java, you also need to set the environment variables for Apache ANT and/or Apache Maven. The following example illustrates a desirable configuration for the .bashrc file. In the example the file is edited using the gnome text editor (gedit).
[user@localhost ~]$ gedit .bashrc # Source global definitions if [ -f /etc/bashrc ]; then /etc/bashrc fi ...... # User specific aliases and functions # The following are the environment variables for Java , ANT and Maven export JAVA_HOME=/usr/java/jdk1.6.0_07/ export PATH=$PATH:$JAVA_HOME/bin export ANT_HOME=/home/downloads/jboss-<source_directory>/tools/ export PATH=$PATH:$ANT_HOME/bin export MAVEN_HOME=/home/downloads/jboss-<source_directory>/tools/maven export PATH=$PATH:$MAVEN_HOME/bin
To implement the changes you've made to the .bashrc file, type the following on a terminal.
[user@localhost ~]$ source .bashrc [user@localhost ~]$
If any errors are displayed, please check your .bashrc file for errors and ensure that all directory paths are correct.
To build the JBoss Application Server source files with Apache ANT, from a terminal change directory to where the unzipped source files are. In the following example we are assuming that the source files were copied and unzipped in the logged in user's downloads folder.
[user@localhost]$ cd /home/user/downloads/jboss-<release>-src/build
[user@localhost build]$ ls
aspects component-matrix docbook-support iiop jmx mbeans security system-jmx tools
bootstrap connector ejb3 j2se jmx-remoting messaging server testsuite varia
build console embedded jbossas main pom.xml spring-int thirdparty webservices
cluster deployment hibernate-int jbossmq management profileservice system tomcat
From the contents of the build directory above, you can see the build.xml file which is used by Apache ANT as a configuration file when building your source files.
The next step is to perform the build using Apache ANT as illustrated below.
[user@localhost build]$ ant compile-classes: [mkdir] Created dir: /jboss/jboss-<release>-src/tomcat/output/classes [javac] Compiling 89 source files to /jboss/jboss-<release>-src/tomcat/output/classes .... ....content truncated ..... ..... _buildmagic:build-bypass-check: jars: most: main: BUILD SUCCESSFUL Total time: 2 seconds
A successful build will have the above message. If your build fails, please check the error log and ensure that your configuration files and environment variables are correctly set. The JBoss Application Server files are built under the build/output/jboss-<release> directory as indicated below.
Note
At this point the JBoss Application Server source files build is a hybrid one (builds in both Ant and Maven) because it declares all JBoss dependencies as maven2 artifacts, however after the dependencies are resolved/imported the legacy ant based build is used to compile and build the distribution. The JBoss Application Server source files will change to a full maven build soon.
[user@localhost build]$ ls build.bat build-old.xml build-thirdparty-old.xml eclipse.psf output build-distr.xml build-release.xml build.xml etc pom.xml build.log build.sh docs local.properties VersionRelease.java [user@localhost build]$ cd output/jboss-<release> [user@localhost build]$ ls bin client docs lib server
The jboss-<release> directory contains your successful JBoss Application Server files. You can copy this folder to a different location or run the server from this folder after setting the JBOSS_HOME environment variable in your .bashrc file. Next you need to set your JBOSS_HOME environment variables. This is discussed in Chapter 5, Setting the JBOSS_HOME variable
.
-
Create an environment variable called
JBOSS_HOMEthat points to the JBoss Application Server installation directory, for example:C:\Program Files\JBoss\jboss-<release>\. -
In order to run JBoss Application Server from the command line, add the
jboss-<release>\bindirectory to your path, for example:C:\Program Files\JBoss\jboss-<release>\bin. To do this, open the Control Panel from the Start Menu, switch to Classic View if necessary, open the System Control Panel applet, select the Advanced Tab, and click on the Environment Variables button.
You are now ready to start the JBoss Application Server.
The JBoss Application Server may be uninstalled by simply deleting the JBoss Application Server's installation directory. You will also need to remove the JBOSS_HOME environment variables discussed in Chapter 5, Setting the JBOSS_HOME variable for your Linux or Windows platform.
After you have installed the JBoss Application Server, it is wise to perform a simple startup test to validate that there are no major problems with your Java VM/operating system combination. To test your installation, open the JBOSS_DIST/jboss-<release>/bin directory and execute the run.bat (for Windows) or run.sh (for Linux) script, as appropriate for your operating system.
Your output should look similar to the following (accounting for installation directory differences) and contain no error or exception messages:
[samson@dhcp-1-150 bin]$ sh run.sh ========================================================================= JBoss Bootstrap Environment JBOSS_HOME: /downloads/jboss-5.0.0.CR2 JAVA: /usr/local/jdk1.6.0_07//bin/java JAVA_OPTS: -Dprogram.name=run.sh -server -Xms128m -Xmx512m -XX:MaxPermSize=256m -Dorg.jboss.resolver.warning=true -Dsun.rmi.dgc.client.gcInterval=3600000 -Dsun.rmi.dgc.server.gcInterval=3600000 -Djava.net.preferIPv4Stack=true CLASSPATH: /downloads/jboss-5.0.0.CR2/bin/run.jar:/usr/local/jdk1.6.0_07//lib/tools.jar ========================================================================= 15:23:05,038 INFO [ServerImpl] Starting JBoss (Microcontainer)... 15:23:05,042 INFO [ServerImpl] Release ID: JBoss [Morpheus] 5.0.0.CR2 (build: SVNTag=JBoss_5_0_0_CR2 date=200809171139) . . ...output truncated . . 15:25:18,401 INFO [Http11Protocol] Starting Coyote HTTP/1.1 on http-127.0.0.1-8080 15:25:18,556 INFO [AjpProtocol] Starting Coyote AJP/1.3 on ajp-127.0.0.1-8009 15:25:18,620 INFO [ServerImpl] JBoss (Microcontainer) [5.0.0.CR2 (build: SVNTag=JBoss_5_0_0_CR2 date=200809171139)] Started in 2m:13s:511ms
Now open http://localhost:8080 in your web browser. (Make sure you dont have anything else already on your machine using that port).[2] The contents of your page should look similar to the following: Figure 7.1, “Test your Installation”.
You are now ready to use the JBoss Application Server.
Now that you’ve downloaded JBoss and have run the server for the first time, the next thing you will want to know is how the installation is laid out and what goes where. At first glance there seems to be a lot of stuff in there, and it’s not obvious what you need to look at and what you can safely ignore for the time being. To remedy that, we’ll explore the server directory structure, locations of the key configuration files, log files, deployment and so on. It’s worth familiarizing yourself with the layout at this stage as it will help you understand the JBoss service architecture so that you’ll be able to find your way around when it comes to deploying your own applications.
Fundamentally, the JBoss architecture consists of the JMX MBean server, the microkernel, and a set of pluggable component services - the MBeans. This makes it easy to assemble different configurations and gives you the flexibility to tailor them to meet your requirements.
You don’t have to run a large, monolithic server all the time; you can remove the components you don’t need (which can also reduce the server startup time considerably) and you can also integrate additional services into JBoss by writing your own MBeans. You certainly do not need to do this to be able to run standard Java EE 5 applications though.
You don’t need a detailed understanding of JMX to use JBoss, but it’s worth keeping a picture of this basic architecture in mind as it is central to the way JBoss works.
The JBoss Application Server ships with three different server configurations. Within the <JBoss_Home>/server directory, you will find four subdirectories: minimal, default and all - one for each server configuration. Each of these configurations provide a different set of services. The default configuration is the one used if you don’t specify another one when starting up the server.
- minimal
-
has a minimal configuration—the bare minimum services required to start JBoss. It starts the logging service, a JNDI server and a URL deployment scanner to find new deployments. This is what you would use if you want to use JMX/JBoss to start your own services without any other Java EE 5 technologies. This is just the bare server. There is no web container, no EJB or JMS support.
- default
-
is a base Java EE 5 server profile containing a default set of services. It has the most frequently used services required to deploy a Java EE application. It does not include the JAXR service, the IIOP service, or any of the clustering services.
- all
-
The all configuration starts all the available services. This includes the RMI/IIOP and clustering services, which are not loaded in the default configuration.
If you want to know which services are configured in each of these instances, look at the jboss-service.xml file in the <JBoss_Home>/server/<instance-name>/conf/ directory and also the configuration files in the <JBoss_Home>/server/<instance-name>/deploy directory.
[usr@localhost <JBoss_Home>]$ls server/default/conf
bootstrap-beans.xml jboss-log4j.xml login-config.xml xmdesc
bootstrap-repo-beans.xml jboss-minimal.xml props
jax-ws-catalog.xml jboss-service.xml standardjbosscmp-jdbc.xml
jbossjta-properties.xml jndi.properties standardjboss.xml
Note
The default configuration is the one used if you don’t specify another one when starting up the server.
To start the server using an alternate configuration refer to Section 8.1.2.2, “Start the Server With Alternate Configuration”.
The directory server configuration you’re using, is effectively the server root while JBoss is running. It contains all the code and configuration information for the services provided by the particular server configuration. It’s where the log output goes, and it’s where you deploy your applications. Table 8.1, “Server Configuration Directory Structure” shows the directories inside the server configuration directory (<JBoss_Home>/server/<instance-name>) and their functions.
The "default" server configuration file set is located in the <JBoss_Home>/server/default directory. The following example illustrates a truncated directory structure of the jboss-as-<release> server configuration files:
[user@localhost <JBoss_Home>]$ tree |-- bin |-- client |-- docs | |-- dtd | |-- examples | | |-- binding-manager | | | `-- sample-bindings.xml | | |-- jca | | |-- jms | | |-- jmx | | |-- netboot | | | `-- netboot.war | | `-- varia | | |-- deployment-service | | |-- derby-plugin.jar | | |-- entity-resolver-manager | | | `-- xmlresolver-service.xml | | `-- jboss-bindings.xml | `-- schema |-- lib | |-- commons-codec.jar | |-- commons-httpclient.jar | |-- commons-logging.jar | |-- concurrent.jar | |-- endorsed | | |-- serializer.jar | | |-- xalan.jar | | `-- xercesImpl.jar | |-- getopt.jar | |-- jboss-common.jar | |-- jboss-jmx.jar | |-- jboss-system.jar | |-- jboss-xml-binding.jar | `-- log4j-boot.jar `-- server |-- all | |-- conf | | |-- jacorb.properties | | |-- jboss-log4j.xml | | |-- jboss-minimal.xml | | |-- jboss-service.xml | | |-- jbossjta-properties.xml | | |-- jndi.properties | | |-- login-config.xml | | |-- props | | | |-- jbossws-roles.properties | | | |-- jbossws-users.properties | | | |-- jmx-console-roles.properties | | | `-- jmx-console-users.properties | | |-- standardjboss.xml | | |-- standardjbosscmp-jdbc.xml | | `-- xmdesc | |-- deploy | |-- deploy-hasingleton | | `-- jms | |-- farm | | `-- cluster-examples-service.xml | `-- lib |-- default | |-- conf | | |-- jboss-log4j.xml | | |-- jboss-minimal.xml | | |-- jboss-service.xml | | |-- jbossjta-properties.xml | | |-- jndi.properties | | |-- login-config.xml | | |-- props | | | |-- jbossws-roles.properties | | | |-- jbossws-users.properties | | | |-- jmx-console-roles.properties | | | `-- jmx-console-users.properties | | |-- standardjboss.xml | | |-- standardjbosscmp-jdbc.xml | | `-- xmdesc | | |-- AttributePersistenceService-xmbean.xml | | |-- ClientUserTransaction-xmbean.xml | | |-- JNDIView-xmbean.xml | | |-- Log4jService-xmbean.xml | | |-- NamingBean-xmbean.xml | | |-- NamingService-xmbean.xml | | |-- TransactionManagerService-xmbean.xml | | |-- org.jboss.deployment.JARDeployer-xmbean.xml | | |-- org.jboss.deployment.MainDeployer-xmbean.xml | | `-- org.jboss.deployment.SARDeployer-xmbean.xml | |-- data | | |-- hypersonic | | |-- jboss.identity | | |-- tx-object-store | | `-- xmbean-attrs | |-- deploy | |-- lib | |-- log | | |-- boot.log | | |-- server.log | | `-- server.log.2008-08-09 | |-- tmp | `-- work | `-- jboss.web | `-- localhost `-- minimal |-- conf | |-- jboss-log4j.xml | |-- jboss-service.xml | |-- jndi.properties | `-- xmdesc | |-- NamingBean-xmbean.xml | `-- NamingService-xmbean.xml |-- deploy `-- lib |-- jboss-management.jar |-- jboss-minimal.jar |-- jnpserver.jar `-- log4j.jar
The files in the conf directory are explained in the following table.
| File | Description |
|---|---|
jboss-minimal.xml
|
This is a minimalist example of the jboss-service.xml configuration file. (This is the jboss-service.xml file used in the minimal configuration file set)
|
jboss-service.xml
|
jboss-service.xml defines the core services and their configurations.
|
jndi.properties
|
The jndi.properties file specifies the JNDI InitialContext properties that are used within the JBoss server when an InitialContext is created using the no-arg constructor.
|
jboss-log4j.xml
|
This file configures the Apache log4j framework category priorities and appenders used by the JBoss server code. |
login-config.xml
|
This file contains sample server side authentication configurations that are applicable when using JAAS based security. |
props/*
|
The props directory contains the users and roles property files for the jmx-console.
|
standardjaws.xml
|
This file provides the default configuration for the legacy EJB 1.1 CMP engine. |
standardjboss.xml
|
This file provides the default container configurations. |
standardjbosscmp-jdbc.xml
|
This file provides a default configuration file for the JBoss CMP engine. |
xmdesc/*-mbean.xml
|
The xmdesc directory contains XMBean descriptors for several services configured in the jboss-service.xml file.
|
Table 8.2. Contents of "conf" directory
The files in the deploy directory are explained in the following table.
| File | Description |
|---|---|
bsh-deployer.xml
|
This file configures the bean shell deployer, which deploys bean shell scripts as JBoss services. |
cache-invalidation-service.xml
|
This is a service that allows for custom invalidation of the EJB caches via JMS notifications. It is disabled by default. |
client-deployer-service.xml
|
This is a service that provides support for Java EE application clients. It manages the java:comp/env enterprise naming context for client applications based on the application-client.xml descriptor.
|
ear-deployer.xml
|
The EAR deployer is the service responsible for deploying Java EE EAR files. |
ejb-deployer.xml
|
The EJB deployer is the service responsible for deploying JEE EJB JAR files. |
hsqldb-ds.xml
|
hsqldb-ds.xml configures the Hypersonic embedded database service configuration file. It sets up the embedded database and related connection factories.
|
http-invoker.sar
|
http-invoker.sar contains the detached invoker that supports RMI over HTTP. It also contains the proxy bindings for accessing JNDI over HTTP.
|
jboss-aop-jdk50.deployer
|
This service configures the AspectManagerService and deploys JBoss AOP applications.
|
jboss-bean.deployer
|
jboss-bean.deployer provides the JBoss microcontainer, which deploys POJO services wrapped in .beans files.
|
jboss-ha-local-jdbc.rar
|
jboss-ha-local-jdbc.rar is an experimental version of jboss-local-jdbc.rar that supports datasource failover.
|
jboss-ha-xa-jdbc.rar
|
jboss-ha-xa-jdbc.rar is an experimental version of jboss-xa-jdbc.rar that supports datasource failover.
|
jboss-local-jdbc.rar
|
jboss-local-jdbc.rar is a JCA resource adaptor that implements the JCA ManagedConnectionFactory interface for JDBC drivers that support the DataSource interface but not JCA.
|
jboss-xa-jdbc.rar
|
jboss-xa-jdbc.rar is a JCA resource adaptor that implements the JCA ManagedConnectionFactory interface for JDBC drivers that support the XADataSource interface.
|
jbossjca-service.xml
|
jbossjca-service.xml is the application server implementation of the JCA specification. It provides the connection management facilities for integrating resource adaptors into the JBoss server.
|
jboss-web.deployer
|
The jboss-web.deployer directory provides the Tomcat servlet engine.
|
jbossws.sar
|
jbossws.sar provides JEE web services support.
|
messaging/destinations-service.xml
|
destinations-service.xml configures a number of Messaging queues and topics used by the Messaging unit tests.
|
messaging/messaging-service.xml
|
The messaging-service.xml file configures the core JBoss Messaging service.
|
jmx-console.war
|
The jmx-console.war directory provides the JMX Console. The JMX Console provides a simple web interface for managing the MBean server.
|
jmx-invoker-service.sar
|
jmx-invoker-service.sar is an unpacked MBean service archive that exposes a subset of the JMX MBeanServer interface methods as an RMI interface to enable remote access to the JMX core functionality. This is similar to the legacy jmx-rmi-adaptor.sar, with the difference that the transport is handled by the detached invoker architecture.
|
jsr-88-service.xml
|
jsr-88-service.xml provides the JSR 88 remote deployment service.
|
mail-ra.rar
|
mail-ra.rar is a resource adaptor that provides a JavaMail connector.
|
mail-service.xml
|
The mail-service.xml file is an MBean service descriptor that provides JavaMail sessions for use inside the JBoss server.
|
management/console-mgr.sar
|
console-mgr.sar provides the Web Console. It is a web application/applet that provides a richer view of the JMX server management data than the JMX console. You may view the console using the URL http://localhost:8080/web-console/.
|
monitoring-service.xml
|
The monitoring-service.xml file configures alert monitors like the console listener and email listener used by JMX notifications.
|
properties-service.xml
|
The properties-service.xml file is an MBean service descriptor that allows for customization of the JavaBeans PropertyEditors as well as the definition of system properties.
|
scheduler-service.xml
|
The scheduler-service.xml and schedule-manager-service.xml files are MBean service descriptors that provide a scheduling type of service.
|
sqlexception-service.xml
|
The sqlexception-service.xml file is an MBean service descriptor for the handling of vendor specific SQLExceptions.
|
uuid-key-generator.sar
|
The uuid-key-generator.sar service provides a UUID-based key generation facility.
|
Table 8.3. Contents of "deploy" directory
The "all" server configuration file set is located in the <JBoss_Home>/server/all directory. In addition to the services in the "default" set, the all configuration contains several other services in the conf/ directory as shown below.
| File | Description |
|---|---|
cluster-service.xml
|
This service configures clustering communication for most clustered services in JBoss. |
deploy-hasingleton-service.xml
|
This provides the HA singleton service, allowing JBoss to manage services that must be active on only one node of a cluster. |
httpha-invoker.sar
|
This service provides HTTP tunneling support for clustered environments. |
iiop-service.xml
|
This provides IIOP invocation support. |
juddi-service.sar
|
This service provides UDDI lookup services. |
snmp-adaptor.sar
|
This is a JMX to SNMP adaptor. It allows for the mapping of JMX notifications onto SNMP traps. |
Table 8.4. Additional Services in "conf" directory for "all" configuration
The following table explains the files providing ejb3 services.
| File | Description |
|---|---|
ejb3-interceptors-aop.xml
|
This service provides the AOP interceptor stack configurations for EJB3 bean types. |
ejb3.deployer
|
This service deploys EJB3 applications into JBoss. |
jboss-aop-jdk50.deployer
|
This is a Java 5 version of the AOP deployer. The AOP deployer configures the AspectManagerService and deploys JBoss AOP applications.
|
jbossws.sar
|
This provides Java EE 5 web services support. |
Table 8.5. EJB3 Services
Finally, in the EJB3 "all" configuration there are two additional services.
| File | Description |
|---|---|
ejb3-clustered-sfsbcache-service.xml
|
This provides replication and failover for EJB3 stateful session beans. |
ejb3-entity-cache-service.xml
|
This provides a clustered cache for EJB3 entity beans. |
Table 8.6. Additional Services in EJB3 "all" Configuration
You can add your own configurations too. The best way to do this is to copy an existing one that is closest to your needs and modify the contents. For example, if you weren’t interested in using messaging, you could copy the production directory, renaming it as myconfig, remove the jms subdirectory and then start JBoss with the new configuration.
./run.sh -c
myconfig
Move to JBOSS_DIST/jboss-as/bin directory and execute the run.bat (for Windows) or run.sh (for Linux) script, as appropriate for your operating system.
Remote connection to the JBoss AS server
JBoss AS now binds its services to localhost (127.0.0.1) by default, instead of binding to all available interfaces (0.0.0.0). This was primarily done for security reasons because of concerns of users going to production without having secured their servers properly. To enable remote access by binding JBoss services to a particular interface, simply run jboss with the -b option. To bind to all available interfaces and re-enable the legacy behaviour use -b 0.0.0.0. In any case, be aware you still need to secure your server properly.
For more information including setting up multiple JBoss server instances on one machine and hosting multiple domains with JBoss, please refer to the Administration and Configuration Guide. Some examples on binding are shipped in <JBOSS_HOME>/docs/examples/binding-manager/sample-bindings.xml.
On starting your server, your screen output should look like the following (accounting for installation directory differences) and contain no error or exception messages:
[user@mypc bin]$ ./run.sh ========================================================================= JBoss Bootstrap Environment JBOSS_HOME: /home/user/jboss-as-version/jboss-as JAVA: java JAVA_OPTS: -Dprogram.name=run.sh -server -Xms1503m -Xmx1503m -Dsun.rmi.dgc.client. gcInterval=3600000 -Dsun.rmi.dgc.server.gcInterval=3600000 -Djava.net.preferIPv4Stack=true CLASSPATH: /home/user/jboss-as-version/jboss-as/bin/run.jar =========================================================================
More options for the JBoss AS run script are discussed in Section 8.1.2.2, “Start the Server With Alternate Configuration” below.
Note
Note that there is no "Server Started" message shown at the console when the server is started using the production profile, which is the default profile used when no other is specified. This message may be observed in the server.log file located in the server/production/log subdirectory.
The run script supports the following options:
usage: run.sh [options] -h, --help Show help message -V, --version Show version information -- Stop processing options -D<name>[=<value>] Set a system property -d, --bootdir=<dir> Set the boot patch directory; Must be absolute or url -p, --patchdir=<dir> Set the patch directory; Must be absolute or url -n, --netboot=<url> Boot from net with the given url as base -c, --configuration=<name> Set the server configuration name -B, --bootlib=<filename> Add an extra library to the front bootclasspath -L, --library=<filename> Add an extra library to the loaders classpath -C, --classpath=<url> Add an extra url to the loaders classpath -P, --properties=<url> Load system properties from the given url -b, --host=<host or ip> Bind address for all JBoss services. -g, --partition=<name> HA Partition name (default=DefaultDomain) -u, --udp=<ip> UDP multicast address -l, --log=<log4j|jdk> Specify the logger plugin type
To shutdown the server, you simply issue a Ctrl-C sequence in the console in which JBoss was started. Alternatively, you can use the shutdown.sh command.
[bin]$ ./shutdown.sh -S
The shutdown script supports the following options:
A JMX client to shutdown (exit or halt) a remote JBoss server. usage: shutdown [options] <operation> options: -h, --help Show this help message (default) -D<name>[=<value>] Set a system property -- Stop processing options -s, --server=<url> Specify the JNDI URL of the remote server -n, --serverName=<url> Specify the JMX name of the ServerImpl -a, --adapter=<name> Specify JNDI name of the MBeanServerConnection to use -u, --user=<name> Specify the username for authentication -p, --password=<name> Specify the password for authentication operations: -S, --shutdown Shutdown the server -e, --exit=<code> Force the VM to exit with a status code -H, --halt=<code> Force the VM to halt with a status code
Using the shutdown command requires a server configuration that contains the jmx-invoker-service.xml service. Hence you cannot use the shutdown command with the minimal configuration.
You can configure the server to run as a service under Microsoft Windows, and configure it to start automatically if desired.
Download the JavaService package from http://forge.objectweb.org/projects/javaservice/.
Unzip the package and use the JBossInstall.bat file to install the JBoss service. You must set the JAVA_HOME and JBOSS_HOME environment variables to point to the jdk and jboss-as directories before running JBossInstall.bat. Run JBossInstall.bat with the following syntax:
JBossInstall.bat
<depends>
[-auto | -manual]
Where
<depends>
is the name of any service that the JBoss AS server depends on, such as the mysql database service.
Once the service is installed the server can be started by using the command net start JBoss, and stopped with the command net stop JBoss.
Please refer to the documentation included in the JavaService package for further information.
When the JBoss Server is running, you can get a live view of the server by going to the JMX console application at http://localhost:8080/jmx-console. You should see something similar to Figure 8.1, “View of the JMX Management Console Web Application”.
The JMX Console is the JBoss Management Console which provides a raw view of the JMX MBeans which make up the server. They can provide a lot of information about the running server and allow you to modify its configuration, start and stop components and so on.
For example, find the service=JNDIView link and click on it. This particular MBean provides a service to allow you to view the structure of the JNDI namespaces within the server. Now find the operation called list near the bottom of the MBean view page and click the invoke button. The operation returns a view of the current names bound into the JNDI tree, which is very useful when you start deploying your own applications and want to know why you can’t resolve a particular EJB name.
Look at some of the other MBeans and their listed operations; try changing some of the configuration attributes and see what happens. With a very few exceptions, none of the changes made through the console are persistent. The original configuration will be reloaded when you restart JBoss, so you can experiment freely without doing any permanent damage.
Note
If you installed JBoss using the graphical installer, the JMX Console will prompt you for a username and password before you can access it. If you installed using other modes, you can still configure JMX Security manually. We will show you how to secure your console in Section 8.4.3, “Security Service”.
Now that we have examined the JBoss server, we will take a look at some of the main configuration files and what they are used for. All paths are relative to the server configuration directory (server/production, for example).
The core services specified in the conf/jboss-service.xml file are started first when the server starts up. If you have a look at this file in an editor you will see MBeans for various services including logging, security, JNDI, JNDIView etc. Try commenting out the entry for the JNDIView service.
Note that because the mbeans definition had nested comments, we had to comment out the mbean in two sections, leaving the original comment as it was.
<!-- Section 1 commented out
<mbean code="org.jboss.naming.JNDIView"
name="jboss:service=JNDIView"
xmbean-dd="resource:xmdesc/JNDIView-xmbean.xml">
-->
<!-- The HANamingService service name -->
<!-- Section two commented out
<attribute name="HANamingService">jboss:service=HAJNDI</attribute></mbean>
-->
If you then restart JBoss, you will see that the JNDIView service no longer appears in the JMX Management Console (JMX Console) listing. In practice, you should rarely, if ever, need to modify this file, though there is nothing to stop you adding extra MBean entries in here if you want to. The alternative is to use a separate file in the deploy directory, which allows your service to be hot deployable.
In JBoss log4j is used for logging. If you are not familiar with the log4j package and would like to use it in your applications, you can read more about it at the Jakarta web site (http://jakarta.apache.org/log4j/).
Logging is controlled from a central conf/jboss-log4j.xml file. This file defines a set of appenders specifying the log files, what categories of messages should go there, the message format and the level of filtering. By default, JBoss produces output to both the console and a log file (log/server.log).
There are 5 basic log levels used: DEBUG, INFO, WARN, ERROR and FATAL. The logging threshold on the console is INFO, which means that you will see informational messages, warning messages and error messages on the console but not general debug messages. In contrast, there is no threshold set for the server.log file, so all generated logging messages will be logged there.
If things are going wrong and there doesn’t seem to be any useful information in the console, always check the server.log file to see if there are any debug messages which might help you to track down the problem. However, be aware that just because the logging threshold allows debug messages to be displayed, that doesn't mean that all of JBoss will produce detailed debug information for the log file. You will also have to boost the logging limits set for individual categories. Take the following category for example.
<!-- Limit JBoss categories to INFO -->
<category name="org.jboss">
<priority value="
INFO
"/>
</category>
This limits the level of logging to INFO for all JBoss classes, apart from those which have more specific overrides provided. If you were to change this to DEBUG, it would produce much more detailed logging output.
As another example, let’s say you wanted to set the output from the container-managed persistence engine to DEBUG level and to redirect it to a separate file, cmp.log, in order to analyze the generated SQL commands. You would add the following code to the conf/jboss-log4j.xml file:
<appender name="CMP" class="org.jboss.logging.appender.RollingFileAppender">
<errorHandler class="org.jboss.logging.util.OnlyOnceErrorHandler"/>
<param name="File" value="${jboss.server.home.dir}/log/cmp.log"/>
<param name="Append" value="false"/>
<param name="MaxFileSize" value="500KB"/>
<param name="MaxBackupIndex" value="1"/>
<layout class="org.apache.log4j.PatternLayout">
<param name="ConversionPattern" value="%d %-5p [%c] %m%n"/>
</layout>
</appender>
<category name="org.jboss.ejb.plugins.cmp">
<priority value="DEBUG" />
<appender-ref ref="CMP"/>
</category>
This creates a new file appender and specifies that it should be used by the logger (or category) for the package org.jboss.ejb.plugins.cmp.
The file appender is set up to produce a new log file every day rather than producing a new one every time you restart the server or writing to a single file indefinitely. The current log file is cmp.log. Older files have the date they were written added to their filenames. Please note that the log directory also contains HTTP request logs which are produced by the web container.
The security domain information is stored in the file conf/login-config.xml as a list of named security domains, each of which specifies a number of JAAS [3] login modules which are used for authentication purposes in that domain. When you want to use security in an application, you specify the name of the domain you want to use in the application’s JBoss-specific deployment descriptors, jboss.xml (used in defining jboss specific configurations for an application) and/or jboss-web.xml (used in defining jboss for a Web application. We'll quickly look at how to do this to secure the JMX Console application which ships with JBoss.
Almost every aspect of the JBoss server can be controlled through the JMX Console, so it is important to make sure that, at the very least, the application is password protected. Otherwise, any remote user could completely control your server. To protect it, we will add a security domain to cover the application.
This can be done in the jboss-web.xml file for the JMX Console, which can be found in deploy/jmx-console.war/WEB-INF/ directory. Uncomment the security-domain in that file, as shown below.
<jboss-web>
<security-domain>java:/jaas/jmx-console</security-domain>
</jboss-web>
This links the security domain to the web application, but it doesn't tell the web application what security policy to enforce, what URLs are we trying to protect, and who is allowed to access them. To configure this, go to the web.xml file in the same directory and uncomment the security-constraint that is already there. This security constraint will require a valid user name and password for a user in the JBossAdmin group.
<!--
A security constraint that restricts access to the HTML JMX console
to users with the role JBossAdmin. Edit the roles to what you want and
uncomment the WEB-INF/jboss-web.xml/security-domain element to enable
secured access to the HTML JMX console.
-->
<security-constraint>
<web-resource-collection>
<web-resource-name>HtmlAdaptor</web-resource-name>
<description>
An example security config that only allows users with the
role JBossAdmin to access the HTML JMX console web application
</description>
<url-pattern>/*</url-pattern>
<http-method>GET</http-method>
<http-method>POST</http-method>
</web-resource-collection>
<auth-constraint>
<role-name>JBossAdmin</role-name>
</auth-constraint>
</security-constraint>
That's great, but where do the user names and passwords come from? They come from the jmx-console security domain we linked the application to. We have provided the configuration for this in the conf/login-config.xml.
<application-policy name="jmx-console">
<authentication>
<login-module code="org.jboss.security.auth.spi.UsersRolesLoginModule"
flag="required">
<module-option name="usersProperties">
props/jmx-console-users.properties
</module-option>
<module-option name="rolesProperties">
props/jmx-console-roles.properties
</module-option>
</login-module>
</authentication>
</application-policy>
This configuration uses a simple file based security policy. The configuration files are found in the conf/props directory of your server configuration. The usernames and passwords are stored in the conf/props/jmx-console-users.properties file and take the form "username=password". To assign a user to the JBossAdmin group add "username=JBossAdmin" to the jmx-console-roles.properties file (additional roles on that username can be added comma separated). The existing file creates an admin user with the password admin. For security, please either remove the user or change the password to a stronger one.
JBoss will re-deploy the JMX Console whenever you update its web.xml. You can check the server console to verify that JBoss has seen your changes. If you have configured everything correctly and re-deployed the application, the next time you try to access the JMX Console, it will ask you for a name and password. [4]
The JMX Console isn't the only web based management interface to JBoss. There is also the Web Console. Although it's a Java applet, the corresponding web application can be secured in the same way as the JMX Console. The Web Console is in the file deploy/management/console-mgr.sar/web-console.war.. The only difference is that the Web Console is provided as a simple WAR file instead of using the exploded directory structure that the JMX Console did. The only real difference between the two is that editing the files inside the WAR file is a bit more cumbersome.
[3] The Java Authentication and Authorization Service. JBoss uses JAAS to provide pluggable authentication modules. You can use the ones that are provided or write your own if you have more specific requirements.
[4] Since the username and password are session variables in the web browser you may need to restart your browser to use the login dialog window.
There are a number of implementation features that you should be aware of when developing applications for JBoss Application Server 5.0.0.
JBoss Application Server 5 fully supports the entire Java 5 Enterprise Edition specification. JBoss Application Server 4.2.2 implemented EJB3 functionality by way of an EJB MBean container running as a plugin in the JBoss Application Server. This had certain implications for application development.
The EJB3 plugin injects references to an EntityManager and @EJB references from one EJB object to another. However this support is limited to the EJB3 MBean and the JAR files it manages. Any JAR files which are loaded from a WAR (such as Servlets, JSF backing beans, and so forth) do not undergo this processing. The Java 5 Enterprise Edition standard specifies that a Servlet can reference a Session Bean through an @EJB annotated reference, this was not implemented in JBoss Application Server 4.2.2.
In this guide, we make use of a simple web application to show the use of JSF-EJB3 components. We then illustrate how to use Seam to integrate the JSF and EJB3 components. The example applications (source code) come with this guide and you can find them located in the JBOSS_DIST/doc/examples directory. You can also download the sample applications from http://www.redhat.com/docs/manuals/jboss. We use two examples in this book:
-
A simple "TODO" application to create, view and edit tasks - implemented using JSF and EJB3;
-
The same application using the SEAM framework.
If you installed the documentation on your hard drive, then the first example can be found in the JBOSS_DIST/doc/examples/jsfejb3 directory (if you download the examples the path is: gettingstarted/jsfejb3). We will see how to build this example using the build.xml file present here and also how to deploy the application. We will also cover in detail the workings of the .java, .xml and .properties files.
The second example used in this guide can be found in the JBOSS_DIST/doc/examples/seamejb3 directory. Using a simple "TODO" application we will illustrate how Seam ties together the database, the web interface and the EJB3 business logic in a web application. We will use the build.xml file present here to compile and build our Seam application.
Within the JBOSS_DIST/doc/examples/<seamejb3|jsfejb3> directory, you will find the following sub-directories:
-
src : contains the Java source code files.
-
view : contains the web pages.
-
resources : contains all the configuration files used.
To compile and package the examples, you must have Apache Ant 1.6+ installed in your machine. You can download it from http://ant.apache.org and have it installed in few steps:
-
Unzip the downloaded file to the directory of your choice.
-
Create an environment variable called
ANT_HOMEpointing to the Ant installation directory. You can do this by adding the following line to your.bashrcfile (substituting with the actual location of the ant directory on your system):export ANT_HOME=/home/user/apache-ant-1.7.0
On Windows you do this by opening the Control Panel from the Start Menu, switching it to classic view if necessary, then opening System/Advanced/Environment Variables. Create a new variable, call it
ANT_HOMEand set it to be the ant directory. -
Add
$ANT_HOME/binto the system path to be able to runantfrom the command line. You can do this by adding the following line to your.bashrcfile:export PATH=$PATH:$ANT_HOME/bin
On Windows you do this by opening the Control Panel from the Start Menu, switching it to classic view if necessary, then editing the
PATHenvironment variable found in System/Advanced/Environment Variables/System Variables/Path. Add a semicolon and the path to the antbindirectory. -
Verify your Ant installation. To do this type
ant -versionat the command prompt. Your output should look something like this:Apache Ant version 1.7.0 compiled on December 13 2006
We use a simple "TODO" application to show how JSF and EJB3 work together in a web application. The "TODO" application works like this: You can create a new 'todo' task item using the "Create" web form. Each 'todo' item has a 'title' and a 'description'. When you submit the form, the application saves your task to a relational database. Using the application, you can view all 'todo' items, edit/delete an existing 'todo' item and update the task in the database.
The sample application comprises the following components:
-
Entity objects - These objects represent the data model; the properties in the object are mapped to column values in relational database tables.
-
JSF web pages - The web interface used to capture input data and display result data. The data fields on these web pages are mapped to the data model via the JSF Expression Language (EL).
-
EJB3 Session Bean - This is where the functionality is implemented. We make use of a Stateless Session Bean.
In this section we will show you how the web interface is defined using JSF pages. We will also see how the data model is mapped to the web form using JSF EL. Using the #{...} notation to reference Java objects is called JSF EL (JSF Expression Language). Lets take a look at the pages used in our application:
-
index.xhtml : This page displays two options: 1. Create New Todo 2. Show all Todos. When you click on the Submit button the corresponding action is invoked.
<h:form> <ul> <li><h:commandLink type="submit" value="Create New Todo" action="create"/></li> <li><h:commandLink type="submit" value="Show All Todos" action="todos"/></li> </ul> </h:form>
-
create.xhtml : When you try to create a new task, this JSF page captures the input data. We use the
todoBeanto back the form input text fields. The #{todoBean.todo.title} symbol refers to the "title" property of the "todo" object in the "TodoBean" class. The #{todoBean.todo.description} symbol refers to the "description" property of the "todo" object in the "TodoBean" class. The #{todoBean.persist} symbol refers to the "persist" method in the "TodoBean" class. This method creates the "Todo" instance with the input data (title and description) and persists the data.<h:form id="create"> <table> <tr> <td>Title:</td> <td> <h:inputText id="title" value="#{todoBean.todo.title}" size="15"> <f:validateLength minimum="2"/> </h:inputText> </td> </tr> <tr> <td>Description:</td> <td> <h:inputTextarea id="description" value="#{todoBean.todo.description}"> <f:validateLength minimum="2" maximum="250"/> </h:inputTextarea> </td> </tr> </table> <h:commandButton type="submit" id="create" value="Create" action="#{todoBean.persist}"/> </h:form>Figure 11.1, “The "Create Todo" web page ” shows the "Create Todo" web page with the input fields mapped to the data model.
-
todos.xhtml : This page displays the list of all "todos" created. There is also an option to choose a "todo" item for 'edit' or 'delete'.
The list of all 'todos' is fetched by #{todoBean.todos} symbol referring to the 'getTodos()' property in the 'TodoBean' class. The JSF
dataTableiterates through the list and displays eachTodoobject in a row. The 'Edit' option is available across each row. The #{todo.id} symbol represents the "id" property of the "todo" object.<h:form> <h:dataTable value="#{todoBean.todos}" var="todo"> <h:column> <f:facet name="header">Title</f:facet> #{todo.title} </h:column> <h:column> <f:facet name="header">Description</f:facet> #{todo.description} </h:column> <h:column> <a href="edit.faces?tid=#{todo.id}">Edit</a> </h:column> </h:dataTable> <center> <h:commandButton action="create" value="Create New Todo" type="submit"/> </center> </h:form>Figure 11.2, “The "Show All Todos" web page ” shows the "Show All Todos" web page with the data fields mapped to the data model.
-
edit.xhtml : This page allows you to edit the "todo" item's 'title' and 'description' properties. The #{todoBean.update} and #{todoBean.delete} symbols represent the "update" and "delete" methods in the "TodoBean" class.
<h2>Edit #{todoBean.todo.title}</h2> <h:form id="edit"> <input type="hidden" name="tid" value="#{todoBean.todo.id}"/> <table> <tr> <td>Title:</td> <td> <h:inputText id="title" value="#{todoBean.todo.title}" size="15"> <f:validateLength minimum="2"/> </h:inputText> </td> </tr> <tr> <td>Description:</td> <td> <h:inputTextarea id="description" value="#{todoBean.todo.description}"> <f:validateLength minimum="2" maximum="250"/> </h:inputTextarea> </td> </tr> </table> <h:commandButton type="submit" id="update" value="Update" action="#{todoBean.update}"/> <h:commandButton type="submit" id="delete" value="Delete" action="#{todoBean.delete}"/> </h:form>Figure 11.3, “The "Edit Todo" web page ” shows the "Edit Todo" web page with the mapping to the data model.
Note
We have used XHTML pages in the sample applications because we recommend using Facelets instead of JSP to render JSF view pages.
EJB 3.0 is one of the major improvements introduced with Java EE 5.0. It aims at reducing the complexity of older versions of EJB and simplifies Enterprise Java development and deployment. You will notice that to declare a class as a 'Session Bean' you simply have to annotate it. Using annotations eliminates the complexity involved with too many deployment descriptors. Also the only interface an EJB3 Session Bean requires is a business interface that declares all the business methods that must be implemented by the bean.
We will explore the two important source files associated with the Bean implementation in our application: TodoDaoInt.java and TodoDao.java.
-
Business interface :
TodoDaoInt.javaWe define here the methods that need to be implemented by the bean implementation class. Basically, the business methods that will be used in our application are defined here.
public interface TodoDaoInt { public void persist (Todo todo); public void delete (Todo todo); public void update (Todo todo); public List <Todo> findTodos (); public Todo findTodo (String id); } -
Stateless Session Bean :
TodoDao.javaThe
@Statelessannotation marks the bean as a stateless session bean. In this class, we need to access the Entity beanTododefined earlier. For this we need anEntityManager. The@PersistenceContextannotation tells the JBoss Server to inject an entity manager during deployment.@Stateless public class TodoDao implements TodoDaoInt { @PersistenceContext private EntityManager em; public void persist (Todo todo) { em.persist (todo); } public void delete (Todo todo) { Todo t = em.merge (todo); em.remove( t ); } public void update (Todo todo) { em.merge (todo); } public List <Todo> findTodos () { return (List <Todo>) em.createQuery("select t from Todo t") .getResultList(); } public Todo findTodo (String id) { return (Todo) em.find(Todo.class, Long.parseLong(id)); } }
We will build the sample application using Ant and explore the configuration and packaging details. Please install Ant if currently not installed on your computer.
Let's look at building the example application and then explore the configuration files in detail.
In Chapter 10, About the Example Applications
, we looked at the directory structure of the jsfejb3 sample application. At the command line, go to the jsfejb3 directory. There you will see a build.xml file. This is our Ant build script for compiling and packaging the archives. To build the application, you need to first of all edit the build.xml file and edit the value of jboss-dist to reflect the location where the JBoss Application Server is installed. Once you have done this, just type the command ant and your output should look like this:
[user@localhost jsfejb3]$ ant
Buildfile: build.xml
compile:
[mkdir] Created dir: /jboss/gettingstarted/jsfejb3/build/classes
[javac] Compiling 4 source files to /home/user/Desktop/gettingstarted/jsfejb3/build/classes
[javac] Note: /jboss/gettingstarted/jsfejb3/src/TodoDao.java uses unchecked or unsafe operations.
[javac] Note: Recompile with -Xlint:unchecked for details.
war:
[mkdir] Created dir: /jboss/gettingstarted/jsfejb3/build/jars
[war] Building war: /jboss/gettingstarted/jsfejb3/build/jars/app.war
ejb3jar:
[jar] Building jar: /jboss/gettingstarted/jsfejb3/build/jars/app.jar
ear:
[ear] Building ear: /jboss/gettingstarted/jsfejb3/build/jars/jsfejb3.ear
main:
BUILD SUCCESSFUL
Total time: 3 seconds
If you get the BUILD SUCCESSFUL message, you will find a newly created build directory with 2 sub-directories in it:
-
classes : containing the compiled class files.
-
jars : containing three archives -
app.jar,app.warandjsfejb3.ear.-
app.jar : EJB code and descriptors.
-
app.war : web application which provides the front end to allow users to interact with the business components (the EJBs). The web source (HTML, images etc.) contained in the
jsfejb3/viewdirectory is added unmodified to this archive. The Ant task also adds theWEB-INFdirectory that contains the files which aren’t meant to be directly accessed by a web browser but are still part of the web application. These include the deployment descriptors (web.xml) and extra jars required by the web application. -
jsfejb3.ear : The EAR file is the complete application, containing the EJB modules and the web module. It also contains an additional descriptor,
application.xml. It is also possible to deploy EJBs and web application modules individually but the EAR provides a convenient single unit.
-
To pre-populate the database, we have supplied SQL Code (import.sql) to run with HSQL in the examples/jsfejb3/resources directory. When you build the application using Ant, this is packaged in the app.jar file within the jsfejb3.ear file. When the application is deployed, you should be able to view the pre-populated data.
Just as a quick aside at this point, start up the JMX console application and click on the service=Hypersonic link which you’ll find under the section jboss. If you can’t find this, make sure the Hypersonic service is enabled in the hsqldb-ds.xml file.
This will take you to the information for the Hypersonic service MBean. Scroll down to the bottom of the page and click the invoke button for the startDatabaseManager() operation. This starts up the HSQL Manager, a Java GUI application which you can use to manipulate the database directly.
Deploying an application in JBoss is simple and easy. You just have to copy the EAR file to the deploy directory in the 'server configuration' directory of your choice. Here, we will deploy it to the 'default' configuration, so we copy the EAR file to the JBOSS_DIST/jboss-as/server/default/deploy directory.
You should see something close to the following output from the server:
15:32:23,997 INFO [EARDeployer] Init J2EE application: file:/jboss/jboss-as-5.0.0<release>/server/default/deploy/jsfejb3.ear
15:32:24,212 INFO [JmxKernelAbstraction] creating wrapper delegate for: org.jboss.ejb3.
entity.PersistenceUnitDeployment
15:32:24,213 INFO [JmxKernelAbstraction] installing MBean: persistence.units:ear=
jsfejb3.ear,jar=app.jar,unitName=helloworld with dependencies:
15:32:24,213 INFO [JmxKernelAbstraction] jboss.jca:name=DefaultDS,service=
DataSourceBinding
15:32:24,275 INFO [PersistenceUnitDeployment] Starting persistence unit persistence.
units:ear=jsfejb3.ear,jar=app.jar,unitName=helloworld
15:32:24,392 INFO [Ejb3Configuration] found EJB3 Entity bean: Todo
15:32:24,450 WARN [Ejb3Configuration] Persistence provider caller does not implements
the EJB3 spec correctly. PersistenceUnitInfo.getNewTempClassLoader() is null.
15:32:24,512 INFO [Configuration] Reading mappings from resource : META-INF/orm.xml
15:32:24,512 INFO [Ejb3Configuration] [PersistenceUnit: helloworld] no META-INF/orm.xml
found
15:32:24,585 INFO [AnnotationBinder] Binding entity from annotated class: Todo
15:32:24,586 INFO [EntityBinder] Bind entity Todo on table Todo
.
.
.
.
15:32:26,311 INFO [SchemaExport] Running hbm2ddl schema export
15:32:26,312 INFO [SchemaExport] exporting generated schema to database
15:32:26,314 INFO [SchemaExport] Executing import script: /import.sql
15:32:26,418 INFO [SchemaExport] schema export complete
15:32:26,454 INFO [NamingHelper] JNDI InitialContext properties:{java.naming.factory.
initial=org.jnp.interfaces.NamingContextFactory, java.naming.factory.url.pkgs=org.jboss.
naming:org.jnp.interfaces}
15:32:26,484 INFO [JmxKernelAbstraction] creating wrapper delegate for: org.jboss.ejb3.
stateless.StatelessContainer
15:32:26,485 INFO [JmxKernelAbstraction] installing MBean: jboss.j2ee:ear=jsfejb3.ear,
jar=app.jar,name=TodoDao,service=EJB3 with dependencies:
15:32:26,513 INFO [JmxKernelAbstraction] persistence.units:ear=jsfejb3.ear,
jar=app.jar,unitName=helloworld
15:32:26,557 INFO [EJBContainer] STARTED EJB: TodoDao ejbName: TodoDao
15:32:26,596 INFO [EJB3Deployer] Deployed: file:/jboss/jboss-as-5.0.0<release>
server/default/tmp/deploy/
tmp33761jsfejb3.ear-contents/app.jar
15:32:26,625 INFO [TomcatDeployer] deploy, ctxPath=/jsfejb3, warUrl=.../tmp/deploy/
tmp33761jsfejb3.ear-contents/app-exp.war/
15:32:26,914 INFO [EARDeployer] Started J2EE application: file:/jboss/jboss-as-5.0.0<release>/server/default/deploy/jsfejb3.ear
If there are any errors or exceptions, make a note of the error message. Check that the EAR is complete and inspect the WAR file and the EJB jar files to make sure they contain all the necessary components (classes, descriptors etc.).
You can safely redeploy the application if it is already deployed. To undeploy it you just have to remove the archive from the deploy directory. There’s no need to restart the server in either case. If everything seems to have gone OK, then point your browser at the application URL.
You will be forwarded to the application main page. Figure 11.5, “Sample TODO” shows the sample application in action.
JBoss Seam is a framework that provides the glue between the new EJB3 and JSF frameworks that are part of the Java EE 5.0 standard. In fact, the name Seam refers to the seamless manner in which it enables developers to use these two frameworks in an integrated manner. Seam automates many of the common tasks, and makes extensive use of annotations to reduce the amount of xml code that needs to be written. The overall effect is to significantly reduce the total amount of coding that needs to be done.
If you are new to Seam, you can find more introductory information from the following url and book:
-
Beginning JBoss Seam by Joseph Faisal Nusairat, Apress 2007.
We have included two versions of the example application, one coded using EJB3 / JSF without using Seam, and one using Seam, to demonstrate clearly the difference in application development using the Seam framework.
The index.xhtml file used is the same as in the EJB3/JSF example.
create.xhtml begins to reveal the difference that coding using the Seam framework makes.
<h:form id="create">
<f:facet name="beforeInvalidField">
<h:graphicImage styleClass="errorImg" value="error.png"/>
</f:facet>
<f:facet name="afterInvalidField">
<s:message styleClass="errorMsg" />
</f:facet>
<f:facet name="aroundInvalidField">
<s:div styleClass="error"/>
</f:facet>
<s:validateAll>
<table>
<tr>
<td>Title:</td>
<td>
<s:decorate>
<h:inputText id="title" value="#{todo.title}" size="15"/>
</s:decorate>
</td>
</tr>
<tr>
<td>Description:</td>
<td>
<s:decorate>
<h:inputTextarea id="description" value="#{todo.description}"/>
</s:decorate>
</td>
</tr>
</table>
</s:validateAll>
<h:commandButton type="submit" id="create" value="Create"
action="#{todoDao.persist}"/>
</h:form>
The first thing that is different here is the Java Server Facelet code at the beginning, which works with the @NotNull validation constraint of our todo class to enforce and indicate invalid input to the user.
Also notice here that rather than requiring the use of a TodoBean class as we did in the EJB3/JSF example we back the form directly with a Todo entity bean. When this page is called, JSF asks Seam to resolve the variable todo due to JSF EL references such as #{todo.title}. Since there is no value already bound to that variable name, Seam will instantiate an entity bean of the todo class and return it to JSF, after storing it in the Seam context. The Seam context replaces the need for an intermediary bean.
The form input values are validated against the Hibernate Validator constraints specified in the todo class. JSF will redisplay the page if the constraints are violated, or it will bind the form input values to the Todo entity bean.
Entity beans shouldn't do database access or transaction management, so we can't use the Todo entity bean as a JSF action listener. Instead, creation of a new todo item in the database is accomplished by calling the persist method of a TodoDao session bean. When JSF requests Seam to resolve the variable todoDao through the JSF EL expression #{todoDao.persist}, Seam will either instantiate an object if one does not already exist, or else pass the existing stateful todoDao object from the Seam context. Seam will intercept the persist method call and inject the todo entity from the session context.
Let's have a look at the TodoDao class (defined in TodoDao.java) to see how this injection capability is implemented.
Let's go through a listing of the code for the TodoDao class.
@Stateful
@Name("todoDao")
public class TodoDao implements TodoDaoInt {
@In (required=false) @Out (required=false)
private Todo todo;
@PersistenceContext (type=EXTENDED)
private EntityManager em;
// Injected from pages.xml
Long id;
public String persist () {
em.persist (todo);
return "persisted";
}
@DataModel
private List <Todo> todos;
@Factory("todos")
public void findTodos () {
todos = em.createQuery("select t from Todo t")
.getResultList();
}
public void setId (Long id) {
this.id = id;
if (id != null) {
todo = (Todo) em.find(Todo.class, id);
} else {
todo = new Todo ();
}
}
public Long getId () {
return id;
}
public String delete () {
em.remove( todo );
return "removed";
}
public String update () {
return "updated";
}
@Remove @Destroy
public void destroy() {}
}
First of all notice that this is a stateful session bean. Seam can use both stateful and stateless session beans, the two most common types of EJB3 beans.
The @In and @Out annotations define an attribute that is injected by Seam. The attribute is injected to this object or from this object to another via a Seam context variable named todo, a reference to the Seam registered name of our Todo class defined in Todo.java.
The @PersistenceContext annotation injects the EJB3 Entity manager, allowing this object to persist objects to the database. Because this is a stateful session bean and the PersistenceContext type is set to EXTENDED, the same Entity Manager instance is used until the Remove method of the session bean is called. The database to be used (a persistence-unit) is defined in the file resources/META-INF/persistence.xml
Note that this session bean has simultaneous access to context associated with web request (the form values of the todo object), and state held in transactional resources (the EntityManager). This is a break from traditional J2EE architectures, but Seam does not force you to work this way. You can use more traditional forms of application layering if you wish.
The @DataModel annotation initializes the todos property, which will be outjected or "exposed" to the view. The @Factory annotated method performs the work of generating the todos list, and is called by Seam if it attempts to access the exposed DataModel property and finds it to be null. Notice the absence of property access methods for the todos property. Seam takes care of this for you automatically.
Let's take a look at the JSF code that we use for displaying and editing the list of todos, to get an idea of how to use these interfaces in practice.
Using the DataModel exposed property of the Session Bean it becomes trivial to produce a list of todos:
<h:form>
<h:dataTable value="#{todos}" var="todo">
<h:column>
<f:facet name="header">Title</f:facet>
#{todo.title}
</h:column>
<h:column>
<f:facet name="header">Description</f:facet>
#{todo.description}
</h:column>
<h:column>
<a href="edit.seam?tid=#{todo.id}">Edit</a>
</h:column>
</h:dataTable>
<center>
<h:commandButton action="create"
value="Create New Todo" type="submit"/>
</center>
</h:form>
When the JSF variable resolver encounters {#todos} and requests todos, Seam finds that there is no "todos" component in the current scope, so it calls the @Factory("todos") method to make one. The todos object is then outjected once the factory method is done since it is annotated with the @DataModel annotation.
Constructing the view for the edit page is similarly straight forward:
<h:form id="edit">
<f:facet name="beforeInvalidField">
<h:graphicImage styleClass="errorImg" value="error.png"/>
</f:facet>
<f:facet name="afterInvalidField">
<s:message styleClass="errorMsg" />
</f:facet>
<f:facet name="aroundInvalidField">
<s:div styleClass="error"/>
</f:facet>
<s:validateAll>
<table>
<tr>
<td>Title:</td>
<td>
<s:decorate>
<h:inputText id="title" value="#{todo.title}" size="15"/>
</s:decorate>
</td>
</tr>
<tr>
<td>Description:</td>
<td>
<s:decorate>
<h:inputTextarea id="description" value="#{todo.description}"/>
</s:decorate>
</td>
</tr>
</table>
</s:validateAll>
<h:commandButton type="submit" id="update" value="Update"
action="#{todoDao.update}"/>
<h:commandButton type="submit" id="delete" value="Delete"
action="#{todoDao.delete}"/>
</h:form>
Here we see the same factors in play. JSF validation code taking advantage of the validation constraints defined in our Entity Bean, and the use of the todoDao Session Bean's update and delete methods to update the database.
The call from todos.xhtml: edit.seam?tid=#{todo.id} causes Seam to create a todoDao and set it's id property to tid. Setting its id property causes the todoDao to retrieve the appropriate record from the database.
The functionality that allows the edit page to be called with a parameter in this way is implemented through pages.xml. Let's have a look at the pages.xml file and how it is used by Seam applications.
Seam drastically reduces the amount of xml coding that needs to be done. One file that is of interest is the pages.xml, packaged in the app.war file's WEB-INF directory. This file is available in the resources/WEB-INF directory in the source code bundle. The pages.xml file is used to define page descriptions including Seam page parameters (HTTP GET parameters), page actions, page navigation rules, error pages etc. Among other things it can be used in a Seam application to define exception handlers and redirections.
In the case of our sample application we are using it to define a Seam page parameter. The pages.xml in this example contains the following code:
<page view-id="/edit.xhtml">
<param name="tid" value="#{todoDao.id}"
converterId="javax.faces.Long"/>
</page>
This defines a parameter named tid for the edit.xhtml page. When the edit.xhtml page is loaded, the HTTP GET request parameter tid is converted to a Long value and assigned to the id property of the todoDao object. You can have as many page parameters as required to bind HTTP GET request parameters to the back-end components in your application.
In the previous chapters, we’ve been using the JBossAS default datasource in our applications. This datasource is configured to use the embedded Hypersonic database instance shipped by default with the distribution. This datasource is bound to the JNDI name java:/DefaultDS and its descriptor is named hsqldb-ds.xml under the deploy directory
Having a database included with JBossAS is very convenient for running the server and examples out-of-the-box. However, this database is not a production quality database and as such should not be used with enterprise-class deployments. As a consequence of this JBoss Support does not provide any official support for Hypersonic.
In this chapter we will explain in details how to configure and deploy a datasource to connect JBossAS to the most popular database servers available on the market today.
Datasource configuration file names end with the suffix -ds.xml so that they will be recognized correctly by the JCA deployer. The docs/example/jca directory contains sample files for a wide selection of databases and it is a good idea to use one of these as a starting point. For a full description of the configuration format, the best place to look is the DTD file docs/dtd/jboss-ds_1_5.dtd. Additional documentation on the files and the JBoss JCA implementation can also be found in the JBoss Application Server Guide available at http://labs.jboss.com/projects/docs/.
Local transaction datasources are configured using the local-tx-datasource element and XA-compliant ones using xa-tx-datasource. The example file generic-ds.xml shows how to use both types and also some of the other elements that are available for things like connection pool configuration. Examples of both local and XA configurations are available for Oracle, DB2 and Informix.
If you look at the example files firebird-ds.xml, facets-ds.xml and sap3-ds.xml, you’ll notice that they have a completely different format, with the root element being connection-factories rather than datasources. These use an alternative, more generic JCA configuration syntax used with a pre-packaged JCA resource adapter. The syntax is not specific to datasource configuration and is used, for example, in the jms-ds.xml file to configure the JMS resource adapter.
We would also highly recommend consulting the JCA wiki pages at http://wiki.jboss.org/wiki/Wiki.jsp?page=JBossJCA
Next, we’ll work through some step-by-step examples to illustrate what’s involved setting up a datasource for a specific database.
The MySQL® database has become the world's most popular open source database thanks to its consistent fast performance, high reliability and ease of use. This database server is used in millions of installations ranging from large corporations to specialized embedded applications across every continent of the world. . In this section, we'll be using the community version of their database server (GA 5.0.45) and the latest JDBC driver (GA 5.1.5) both available at http://www.mysql.com.
Using the test client described in Section 13.6, “Creating a JDBC client”, you may now verify the proper installation of your datasource.
Oracle is one of the main players in the commercial database field and most readers will probably have come across it at some point. You can download it freely for non-commercial purposes from http://www.oracle.com/technology/products/database/xe/index.html
In this section, we'll connect the server to Oracle Database 10g Express Edition using the latest JDBC driver (11g) available at http://www.oracle.com/technology/software/tech/java/sqlj_jdbc/index.html
Before you can verify the datasource configuration, Oracle XE should be reconfigured to avoid port conflict with JBossAS as by default they both start a web server on port 8080.
Open up an Oracle SQLcommand line and execute the following commands:
SQL> connect;
Enter user-name: SYSTEM
Enter password:
Connected.
SQL> begin
2 dbms_xdb.sethttpport('8090');
3 end;
4 /
PL/SQL procedure successfully completed.
SQL> select dbms_xdb.gethttpport from dual;
GETHTTPPORT
-----------
8090
The web server started by Oracle XE to provide http-based administration tools is now running on port 8090. Start the JBossAS server instance as you would normally do. You are now ready to use the test client described in Chapter 6.5 to verify the proper installation of your datasource.
In this section, we'll connect the server to MS SQL Server 2000 using the latest JDBC driver (v1.2) available at http://msdn2.microsoft.com/en-us/data/aa937724.aspx.
To make the JDBC driver classes available to JBoss Application Server, copy the archive sqljdbc.jar from the sqljdbc_1.2 distribution to the lib directory in the default server configuration (assuming that is the server configuration you’re running).
Then create a text file in the deploy directory called mssql-ds.xml with the following datasource descriptor :
<?xml version="1.0" encoding="UTF-8"?> <datasources> <local-tx-datasource> <jndi-name>DefaultDS</jndi-name> <connection-url>jdbc:sqlserver://localhost:1433;DatabaseName=pubs</connection-url> <driver-class>com.microsoft.sqlserver.jdbc.SQLServerDriver</driver-class> <user-name>sa</user-name> <password>jboss</password> <check-valid-connection-sql>SELECT 1 FROM sysobjects</check-valid-connection-sql> <metadata> <type-mapping>MS SQLSERVER2000</type-mapping> </metadata> </local-tx-datasource> </datasources>
The datasource is pointing at a database “pubs” provided by default with MS SQL Server 2000.
Remember to update the connection url attributes as well as the username/password combination to match your environment setup.
Using the test client described in Section 13.6, “Creating a JDBC client”, you may now verify the proper installation of your datasource.
The persistence manager of JBoss Messaging uses the default datasource to create tables to store messages, transaction data and other indexes. Configuration of "persistence" is grouped in xxx-persistence-service.xml files. JBoss Application Server ships with a default hsqldb-persistence-service.xml file, which configures the Messaging server to use the Hypersonic database instance that ships by default with the JBoss Application Server.
You can view the hsqldb-persistence-service.xml file in configurations based on the
all
or
default
configurations:
<JBoss_Home>/server/all/deploy/messaging/hsqldb-persistence-service.xml and <JBoss_Home>/server/default/deploy/messaging/hsqldb-persistence-service.xml
Warning
Please note that the Hypersonic database is not recommended for production environments due to its limited support for transaction isolation and its low reliability under high load
More information on configuring JBoss Messaging can be found in the JBoss AS Configuration Guide.
When testing a newly configured datasource we suggest using some very basic JDBC client code embedded in a JSP page.
First of all, you should create an exploded WAR archive under the deploy directory which is simply a folder named "jdbcclient.war".
In this folder, create a text document named client.jsp and paste the code below:
<%@page contentType="text/html"
import="java.util.*,javax.naming.*,javax.sql.DataSource,java.sql.*"
%>
<%
DataSource ds = null;
Connection con = null;
PreparedStatement pr = null;
InitialContext ic;
try {
ic = new InitialContext();
ds = (DataSource)ic.lookup( "java:/DefaultDS" );
con = ds.getConnection();
pr = con.prepareStatement("SELECT USERID, PASSWD FROM JMS_USERS");
ResultSet rs = pr.executeQuery();
while (rs.next()) {
out.println("<br> " +rs.getString("USERID") + " | " +rs.getString("PASSWD"));
}
rs.close();
pr.close();
}catch(Exception e){
out.println("Exception thrown " +e);
}finally{
if(con != null){
con.close();
}
} %>
Open up a web browser and hit the url: http://localhost:8080/jdbcclient/client.jsp. A list of users and password should show up as a result of the jdbc query:
dynsub | dynsub guest | guest j2ee | j2ee john | needle nobody | nobody
Developers wanting to get familiar with software development and implementation in JBoss Application Server can read: JBoss: A Developer's Notebook . (O'Reilly, 2005. Norman Richards, Sam Griffith).
For more comprehensive JBoss documentation covering advanced JBoss topics, refer to the manuals available online at http://www.jboss.org/jbossas/docs.
For general EJB instruction, with thorough JBoss coverage, see Enterprise JavaBeans, 4th Edition . (O'Reilly, 2004. Richard Monson-Haeful, Bill Burke, Sacha Labourey)
To learn more about Hibernate, see Java Persistence With Hibernate . (Manning, 2007. Christian Bauer, Gavin King)
For complete coverage of the JBoss Seam framework, we recommend JBoss Seam: Simplicity And Power Beyond Java EE . (Prentice Hall, 2007. Michael Yuan, Thomas Heute).