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Filename extension |
.ear |
---|---|
Internet media type | application/java-archive |
Developed by | Sun Microsystems |
Type of format | file archive, data compression |
Extended from | JAR |
EAR (Enterprise Application aRchive) is a file format used by Jakarta EE for packaging one or more modules into a single archive so that the deployment of the various modules onto an application server happens simultaneously and coherently. It also contains XML files called deployment descriptors which describe how to deploy the modules.
Ant, Maven, or Gradle can be used to build EAR files.
An EAR file is a standard JAR file (and therefore a Zip file) with an .ear extension, with one or more entries representing the modules of the application, and a metadata directory called META-INF
which contains one or more deployment descriptors.
META-INF
directory with deployment descriptors specific to the JAR module.WEB-INF/
web.xml:
The deployment descriptor for the web module.classes/
: Contains compiled Java classes.lib/
: Contains library JAR files used by the web module.Developers can embed various artifacts within an EAR file for deployment by application servers:
META-INF
directory descriptors describing the persistent classes deployed. Deployed entity beans become visible to other components and, if remotely exported, to remote clients. Message Beans and Session Beans are available for remote access.Most application servers load classes from a deployed EAR file as an isolated tree of Java classloaders, isolating the application from other applications, but sharing classes between deployed modules. For example, a deployed WAR file would be able to create instances of classes defined in a JAR file that was also included in the containing EAR file, but not necessarily those in JAR files in other EAR files. One key reason for this behavior is to allow complete separation between applications which use static singletons (e.g. Log4J), which would otherwise confuse the configuration between separate applications. This also enables different versions of applications and libraries to be deployed side by side.
The JBoss application servers before Version 5 were notable in that it does not isolate deployed components. A web application deployed in one EAR file would have access to classes in other EAR and WAR files. This is a somewhat controversial policy. The Unified Classloader design reduces communications overhead between running applications, as class data can be shared by reference or simple copies. It also allows developers to avoid having to understand the problems that a tree of classloaders can create. However, it prevents different versions of dependent libraries from being deployed in separate applications. JBoss 4.0.2 switched to a hierarchical classloader, but in version 4.0.3 it reverted to a Unified Classloader for backwards compatibility reasons. There is now a configuration option to change this behavior. JBoss 5.x, 6.x and 7.x no longer use Unified Classloading.
The META-INF
directory contains at least the application.xml
deployment descriptor, known as the Java EE Deployment Descriptor. It contains the following XML entities:
icon
, which specifies the locations for the images that represent the application. A subdivision is made for small-icon
and large-icon
.display-name
, which identifies the applicationdescription
module
element for each module in the archivesecurity-role
elements for the global security roles in the applicationEach module
element contains an ejb
, web
or java
element which describes the individual modules within the application. Web modules also provide a context-root
which identifies the web module by its URL.
Next to the Jakarta EE deployment descriptor there can be zero or more runtime deployment descriptors. These are used to configure implementation-specific Jakarta EE parameters.