Advanced Customization with Ext Plugins

Ext plugins are powerful tools for extending Liferay. Because they increase the complexity of your Liferay instance, you should only use an Ext plugin if you’re sure you can’t accomplish your goal using a different method. Check out Application Display Templates for customizing display of apps that support them, or check out Customizing Liferay Portal with Hooks for the available alternatives using hook plugins. If an ADT or hook won’t suffice, keep reading to discover the use cases for Ext plugins and how to set one up. First it’s important to consider why you should avoid Ext plugins when possible.

As someone once said, “With great power comes great responsibility” (okay, many people have said that many times). Before deciding to use an Ext plugin, weigh the cost. Ext plugins let you use internal APIs and even let you overwrite Liferay core files. When upgrading to a new version of Liferay (even if it’s a maintenance version or a service pack), you have to review all changes and manually modify your Ext plugin to merge your changes with Liferay’s. Additionally, Ext plugins aren’t hot deployable. To deploy an Ext plugin, you must restart your server. Lastly, with Ext plugins, additional steps are required to deploy or redeploy to production systems.

Now that you know the limitations of Ext plugins, let’s look at why you’d want to use them:

  • To specify custom classes as portal property values. For example, to specify a property that needs a custom class (e.g.,, you need an Ext plugin to add your custom class to the portal class loader.
  • To provide custom implementations for any Liferay beans declared in Liferay’s Spring files (when possible, use service wrappers from a hook instead of an Ext plugin).
  • To add JSPs referenced from portal properties that can only be changed from an Ext plugin (check whether the property can be modified from a hook plugin first).
  • To Overwrite a class (not recommended unless you have no other choice).

With these use cases in mind, you’ll learn how to use Ext for these things:

  • Creating an Ext plugin
  • Developing an Ext plugin
  • Deploying in Production
  • Migrating Old Extension Environments

It’s time to create an Ext plugin.

Creating an Ext Plugin

Ext plugins are powerful tools for extending Liferay. Because they increase the complexity of your Liferay instance, you should only use an Ext plugin if you’re sure you can’t accomplish your goal in a different way. You can create Ext plugins in Liferay IDE or in your terminal environment. The Ext plugin is stored in the Plugins SDK’s ext directory.

You can also create an Ext plugin in a Liferay Maven project.

This tutorial covers how to create an Ext plugin in a Plugins SDK project using Ant. This is shown from both Liferay IDE and the terminal. To learn how to create Liferay Maven projects, see the tutorial Creating Liferay Maven plugins from IDE or the tutorial Creating Liferay Maven Plugins from the Command Line.

First, follow along with creating an Ext plugin using Liferay IDE!

Using Liferay IDE to Create an Ext Plugin

Follow the steps below, replacing the project name with your own, and you’ll have an Ext plugin in no time:

  1. Go to FileNewLiferay Plugin Project.

  2. Enter your project’s name and its display name. In the figure below, example is used for both. Note that the Display name field is automatically filled in with the capitalized version of the Project name.

  3. Leave the Use default location checkbox checked. Since you’re using Ant, the default location is set to your Liferay Plugins SDK’s location. If you’d like to change where your plugin project is saved, uncheck the box and specify an alternate location.

  4. Select the Ant (liferay-plugins-sdk) option for your build type.

  5. Your configured SDK and Liferay runtime should already be selected. If you haven’t yet pointed Liferay IDE to a Plugins SDK, click Configure SDKs to open the Installed Plugin SDKs management wizard. You can also access the New Server Runtime Environment wizard if you need to set up your runtime server; just click the New Liferay Runtime button next to the Liferay Portal Runtime selection box.

  6. Select Ext for your Plugin type.

  7. Click Finish.

Figure 1: You can create an Ext plugin project with Liferay IDE.

Figure 1: You can create an Ext plugin project with Liferay IDE.

The Plugins SDK automatically appends -ext to the plugin project name when it creates your Ext plugin’s project folder. In Liferay IDE, you can either create a completely new plugin or add a new plugin to an existing plugin project.

Creating an Ext Plugin Using the Terminal

To create a new Ext plugin from the terminal, navigate to the ext directory in your Liferay Plugins SDK and enter the command below that is appropriate for your operating system. The two arguments after the create command are the project name and display name, respectively. The examples below use the project name example and the display name Example. Make sure to specify values you want to use for your Ext plugin’s project name and display name.

In Linux or Mac OS, enter:

./ example "Example"

In Windows, enter:

create.bat example "Example"

A BUILD SUCCESSFUL message from Ant tells you there’s a new folder (e.g., folder example-ext for a project named example) inside your Plugins SDK’s ext folder. The Plugins SDK automatically appends -ext to the project name.

Anatomy of an Ext Plugin

There are a few things to note about an Ext plugin’s directory structure. Below is a listing of an Ext folder structure. The screenshot that follows this listing shows the structure of the Ext plugin in Liferay IDE:

  • [project name]-ext/
    • docroot/
      • WEB-INF/
        • ext-impl/
          • src/
        • ext-lib/
          • global/
          • portal/
        • ext-service/
          • src/
        • ext-util-bridges/
          • src/
        • ext-util-java/
          • src/
        • ext-util-taglib/
          • src/
        • ext-web/
          • docroot/

Here are detailed explanations of the /docroot/WEB-INF/ subdirectories:

ext-impl/src: Contains the configuration file, custom implementation classes, and classes that override core classes from portal-impl.jar.

ext-lib/global: Contains libraries to be copied to the application server’s global classloader upon deployment of the Ext plugin.

ext-lib/portal: Contains libraries to be copied inside Liferay’s main application. These libraries are usually necessary because they’re invoked from classes you add in ext-impl/src.

ext-service/src: Contains classes that should be available to other plugins. In advanced scenarios, this folder can be used to hold classes that overwrite classes from portal-service.jar. Service Builder puts services’ interfaces here.

ext-web/docroot: Contains the web application’s configuration files, including WEB-INF/struts-config-ext.xml, which allows you to customize Liferay’s core struts classes. Note that hooks are recommended for customizing a struts action. Any JSPs that you’re customizing also belong here.

ext-util-bridges, ext-util-java and ext-util-taglib: These folders are needed only in scenarios where you need to customize classes of these Liferay libraries: util-bridges.jar, util-java.jar and util-taglib.jar, respectively. If you’re not customizing any of these libraries, you can ignore these folders.

By default, several files are also added to the plugin. Here are the most significant files:

build.xml: The Ant build file for the Ext plugin project.

docroot/WEB-INF/ Contains plugin-specific properties, including the plugin’s display name, version, author, and license type. docroot/WEB-INF/ext-impl/src/ Overrides Liferay’s configuration properties. However, you should use a hook plugin to override properties whenever it’s possible. An example where an Ext plugin is necessary to override a property is when specifying a custom class as a portal property value. You can use a file with each of your Ext plugins, but don’t override the same property from multiple files–the loading order isn’t assured and you can cause unintended system behavior as a result.

docroot/WEB-INF/ext-web/docroot/WEB-INF files:

  • portlet-ext.xml: Used to overwrite the definition of a Liferay portlet. To do this, copy the complete definition of the desired portlet from portlet-custom.xml in Liferay’s source code, then apply the necessary changes.
  • liferay-portlet-ext.xml: This file is similar to portlet-ext.xml, but is for additional definition elements specific to Liferay. To override these definition elements, copy the complete definition of the desired portlet from liferay-portlet.xml within Liferay’s source code, then apply the necessary changes.
  • struts-config-ext.xml and tiles-defs-ext.xml: These files are used to customize the struts actions used by Liferay’s core portlets.

Great! You’ve now created an Ext plugin and are familiar with its directory structure and its most significant files. Let’s use your Ext plugin to customize Liferay Portal.

Developing an Ext Plugin

An Ext plugin changes Liferay itself when the plugin is deployed; it’s not a separate component that can you can easily remove at any time. For this reason, the Ext plugin development process is different from that of other plugin types. It’s important to remember that once an Ext plugin is deployed, some of its files are copied inside the Liferay installation; the only way to remove the changes is by redeploying an unmodified Liferay application.

The Plugins SDK lets you deploy and redeploy Ext plugins during your development phase. Redeployment involves cleaning (i.e., removing) your application server and unzipping your specified Liferay bundle to start from scratch. That way any changes made to the Ext plugin during development are properly applied, and files removed from your plugin by previous changes aren’t left behind in the Liferay application. Because of this added complexity, you should use another plugin type to accomplish your goals whenever possible.

Before digging in to the details, here’s an overview of the Ext plugin development processes described below:

  • How to configure your Plugins SDK environment to develop Ext plugins for Liferay Portal on your application server.
  • How to deploy and publish your Ext plugins for the first time.
  • How to redeploy normally or use a clean redeployment process after making changes to your Ext plugins.
  • How to package your Ext plugins for distribution.
  • Examples of Liferay Portal customizations that require advanced customization techniques.

It’s time to learn each step of the development process.

Set Up the Build Environment

Before deploying an Ext plugin, you must edit the build.[username].properties file in the root folder of your Plugins SDK. If the file doesn’t yet exist, create it now. Substitute [username] with your user ID on your computer. Once you’ve opened your build properties file, add the following properties–make sure the individual paths reflect the right locations on your system:[work]

app.server.dir=[work]/liferay-portal-[version]/[app server][...]/liferay-portal-[app server].zip

Your property must specify the path to your Liferay bundle .zip file. The work directory that you specify for the property is where you’ve unzipped your Liferay bundle runtime. The app.server.dir property must point to your application server’s directory in your work directory. Look in your Liferay bundle at the path to the application server to determine the value to use for your app.server.dir property.

For example, if your work directory is C:/work, specify it as your property’s value. If your Liferay bundle .zip file is C:/downloads/liferay-portal-tomcat-6.2.0-ce-ga1-[timestamp].zip, set the property to that file’s path. If the relative path to the application server within the Liferay bundle .zip file is liferay-portal-6.2-ce-ga3\tomcat-7.0.42, specify an app.server.dir property value C:/work/liferay-portal-6.2-ce-ga3/tomcat-7.0.42.

Next you’ll modify the Ext plugin you created and deploy it.

Initial Deployment

Your environment is set up and you’re ready to start customizing. For this exercise, you’ll customize the sections of a user profile. This example can be done using a hook and the users.form.add.main property, but for demonstration purposes, you’ll learn how to customize it by overriding portal properties using an Ext plugin. To customize the users.form.add.main portal property, open the docroot/WEB-INF/ext-impl/src/ file and enter a new setting, like this one:


In the customization above, the users.form.add.main property no longer specifies user profile page sections for user groups, personal sites, and categorizations. Only the sections named in the value list for the customized users.form.add.main portal property will be shown in the portal’s user profile pages.

After you’ve made customizations in the Ext plugin, you can deploy the plugin.

Deploy the Plugin

You can deploy your plugin from Liferay IDE or the terminal.

Deploying in Liferay IDE: Drag your Ext plugin project from your Package Explorer onto your server to deploy your plugin. Liferay IDE automatically restarts the server, for the server to detect and publish your Ext plugin.

Deploying in the terminal:

  1. Open a terminal window in your Ext plugin project directory and enter one of these commands:

    ant deploy
    ant direct-deploy

    The direct-deploy target deploys all plugin changes directly to the appropriate directories in the Liferay application. The deploy target creates a .war file with your changes and then deploys it to your server. Either way, your server must be restarted after the deployment. Using direct-deploy is preferred for deploying Ext plugins during development if your application server supports it. Direct deploy doesn’t work in WebLogic Server or WebSphere application server environments.

    A BUILD SUCCESSFUL message indicates your plugin is now being deployed. Your console window running Liferay shows a message like the following one:

    Extension environment for [your project]-ext has been applied. You must
    reboot the server and redeploy all other plugins

    If any changes applied through the Ext plugin affect the deployment process itself, you must redeploy all other plugins. Even if the Ext plugin doesn’t affect the deployment process, it’s a best practice to redeploy all your other plugins following initial deployment of the Ext plugin.

    The ant deploy target builds a .war file with your changes and copies them to the auto-deploy directory inside the Liferay installation. When the server starts, it detects the .war file, inspects it, and copies its contents to the appropriate destinations inside the deployed and running Liferay application.

  2. Restart the server so that it detects and publishes your Ext plugin.

Once your server restarts, try Liferay Portal to see the customizations you introduced with your Ext plugin.

If you customized the users.form.update.main property, for example, log in as an administrator and go to Control PanelUsers and Organizations. Edit an existing user and verify that the right navigation menu only shows the sections that you specified for the users.form.update.main property.

Figure 2: If you customized the users.form.update.main property, Liferay Portals User Information only shows the sections you specified.

Figure 2: If you customized the `users.form.update.main` property, Liferay Portal's User Information only shows the sections you specified.

That was a simple application of an Ext plugin. You can proceed with a more complex customization that illustrates the proper way to redeploy an Ext plugin, which is different from initial deployment.

Let’s customize the Details section of the user profile. Rather than override its JSP, you’ll use a more powerful method for adding new sections or even merging existing ones. You can refer to custom sections from the and implement them just by creating a JSP. You’ll modify the property users.form.update.main again and the property users.form.add.main to set the following properties:


You removed the original Details section and added a custom one called basic. When Liferay reads the property, it looks for the implementation of each section based on the following conventions:

  • The section is implemented in a JSP in the following directory:

  • The name of the JSP is the same as the name of the section with the .jsp extension. If the section name has a dash, (-), replace it with an underscore (_). For example, if the section is called my-info, the JSP should be named my_info.jsp to comply with JSP naming standards.

  • The section name that’s shown to the user comes from the language bundles. When using a key/value that is not included with Liferay, add it to both your Ext plugin’s file and the language-specific properties file for each language variant you’re providing a translation for. These files go in the ext-impl/src directory of your Ext plugin.

For this example, you’ll create a file in the Ext plugin with the following path:


You can write the contents of the file from scratch or just copy the details.jsp file from Liferay’s source code and modify from there. You can remove some of the fields (e.g., birthday or gender), leaving the screen name, email address, first name, and last name fields to simplify user creation and user update. Make sure to completely remove the tags associated with and surrounding the field.

You don’t need to add a new key to, because an entry for the key named basic is already included in Liferay’s language bundle.

Let’s redeploy the Ext plugin to review the changes.


So far, Ext plugin development has been similar to the development of other plugin types. You’ve now reached the point of divergence. When the plugin is first deployed, some of its files are copied into the Liferay installation. After changing an Ext plugin, you’ll either redeploy or clean redeploy, depending on the modifications you made to your plugin following the initial deployment. Let’s talk about each redeployment method and when to use each one.

Clean Redeployment: If you removed part(s) of your plugin, if there are changes to your plugin that can affect plugin deployment, or if you want to start with a clean Liferay environment, undeploy your plugin and clean your application server before redeploying your Ext plugins. By cleaning the application server, the existing Liferay installation is removed and the bundle specified in your Plugins SDK environment (e.g., the value of in build.[username].properties) is unzipped in its place. The exact steps you take differ based on whether you’re developing in Liferay IDE or a terminal:

Using Liferay IDE:

  1. Remove the plugin from the server. While selecting the Ext plugin in the Servers view, select the plugin’s Remove option.

  2. Clean the application server. Remember to shut down the application server before cleaning it. This is required on Windows because the server process locks the installed Liferay bundle’s files.

    While selecting the Ext plugin project in the Package Explorer view, select the plugin’s LiferayClean App Server… option.

    Figure 3: How to clean app server

    Figure 3: How to clean app server

  3. Start the Liferay server.

  4. Drag the Ext plugin and drop it onto the Liferay server.

  5. While selecting the Liferay server in the Servers view, click the Publish option.

Using the terminal:

  1. Stop the Liferay server.

  2. For each Ext plugin you’re deploying, enter the following commands into your console:

    cd [your-plugin-ext]
    ant clean-app-server
    ant direct-deploy
  3. Start the Liferay server.

Redeployment: If you only added to your plugin or made modifications that don’t affect the plugin deployment process, you can redeploy using these steps:

  • Using Liferay IDE: Right-click your plugin located underneath your server and select Redeploy.

  • Using the terminal: Redeploy in the terminal using the same procedure as for initial deployment. Open a terminal window in your Ext plugin project’s directory and execute either ant deploy or ant direct-deploy.

After your plugin is published to Liferay Portal, check for the customizations it produces. If you implemented and deployed the example customizations for the User Information page, you can see the customizations by viewing an existing user’s information in the Control Panel.

Implementing and deploying this example customization demonstrates the Ext plugin development process. Next you’ll learn how to package an Ext plugin for distribution and production.


Once you’re finished developing an Ext plugin, you can package it in a .war file for distribution and production deployment.

Using Liferay IDE: With your Ext plugin project selected in the Package Explorer view, select the project’s LiferaySDKwar option.

Using the terminal: From your Ext plugin’s directory execute

ant war

The .war file is written to your [liferay-plugins]/dist directory.

You really have the hang of building and packaging your Ext plugins! Next, you’ll learn about JBoss 7 requirements for packaging up an Ext plugin that contains a new tag library. If this doesn’t apply to you, feel free to skip over it.

Ext Plugin Packaging Requirements for JBoss 7

If you’re deploying to JBoss 7 and you’re developing an Ext plugin that defines a new tag library, you need to take JBoss’s classloading behavior into account. Before packaging this kind of Ext plugin, create a jboss-deployment-structure.xml file in the Ext plugin’s WEB-INF/ folder and add the following contents to it:

<jboss-deployment-structure xmlns="urn:jboss:deployment-structure:1.0">
                        <module name="deployment.util-taglib"></module>
                        <module name="com.liferay.portal"></module>
                <module name="deployment.util-taglib">
                                <resource-root path="WEB-INF/ext-util-taglib/ext-util-taglib.jar" />
                                <resource-root path="WEB-INF/lib/util-taglib.jar"></resource-root>
                                <resource-root path="WEB-INF/lib/util-java.jar"></resource-root>
                                <module name="javax.faces.api"></module>
                                <module name="javax.servlet.api" />
                                <module name="javax.servlet.jsp.api" />
                                <module name="com.liferay.portal"></module>

Also, in your Ext plugin’s file, you must add util-taglib.jar to your plugin’s list of portal dependency .jar files. Here’s what the property setting looks like with just util-taglib.jar in its list of values:


Once you’ve made these updates, you can package your plugin and deploy it using the process described previously in this tutorial.

Now that you’ve learned the basics of Ext plugin development and covered this requirement for JBoss customizations, you should look at some advanced customizations that you can do.

Advanced Customization Techniques

With Ext plugins, you can change anything in Liferay. It’s time to look at some additional customization techniques made possible by Ext plugins. As always, be careful when using Ext plugins.

With each new version of Liferay, there can be changes to the implementation classes. If you change Liferay’s source code directly, you’ll have to merge your changes into the newer Liferay version. To minimize such conflicts, the best approach is not to change anything. Rather, you can extend the class you want to change and override the required methods. Then use the requisite Liferay configuration files to reference your subclass as a replacement for the original class.

Below, you’ll learn about these topics:

  • Using advanced configuration files
  • Changing the API of a core service
  • Replacing core classes in portal-impl

First, you’ll learn to use advanced configuration files.

Using Advanced Configuration Files

Liferay uses several internal configuration files for its own architecture; in addition, there are configuration files for the libraries and frameworks Liferay depends on, like Struts and Spring. Configuration could be accomplished using fewer files with more properties in each, but maintenance and use is made easier by splitting up the configuration properties into several files. For advanced customization needs, it may be useful to override the configuration specified in multiple configuration files. Liferay provides a clean way to do this from an Ext plugin without modifying the original files.

All the configuration files in Liferay are listed below by their path in an Ext plugin folder. Here are descriptions of what each file is for and the path to the original file in Liferay Portal:

  • ext-impl/src/META-INF/ext-model-hints.xml
    • Description: Allows overriding the default properties of the fields of the data models used by Liferay’s core portlets. These properties determine how the form fields for each model are rendered.
    • Original file in Liferay: portal-impl/src/META-INF/portal-model-hints.xml
  • ext-impl/src/META-INF/ext-spring.xml
    • Description: Allows overriding the Spring configuration used by Liferay and any of its core portlets. It’s most commonly used to configure specific data sources or swap the implementation of a default service with a custom one.
    • Original file in Liferay: portal-impl/src/META-INF/*-spring.xml
  • ext-impl/src/content/Language-ext_*.properties
    • Description: Allow overriding the value of any key used by Liferay’s UI to support internationalization.
    • Original file in Liferay: portal-impl/src/content/Language-*.properties
  • ext-impl/src/META-INF/portal-log4j-ext.xml
    • Description: Allows overriding the Log4j configuration. It’s most commonly used to increase or decrease the log level of a given package or class, to obtain more information, or to hide unneeded information from the logs.
    • Original file in Liferay: portal-impl/src/META-INF/portal-log4j.xml
  • ext-impl/src/com/liferay/portal/jcr/jackrabbit/dependencies/repository-ext.xml
    • Description: Allows overriding the configuration of the Jackrabbit repository. Refer to the Jackrabbit configuration documentation for details (
    • Original file in Liferay: portal-impl/src/com/liferay/portal/jcr/jackrabbit/dependencies/repository.xml
  • ext-web/docroot/WEB-INF/portlet-ext.xml
    • Description: Allows overriding the declaration of the core portlets included in Liferay. It’s most commonly used to change the init parameters or the roles specified.
    • Original file in Liferay: portal-web/docroot/WEB-INF/portlet-custom.xml
  • ext-web/docroot/WEB-INF/liferay-portlet-ext.xml
    • Description: Allows overriding the Liferay-specific declaration of the core portlets included in Liferay. Refer to the liferay-portlet-app_6_2_0.dtd file for details on all the available options. Use this file with care; the code of the portlets may be assuming some of these options to be set to certain values.
    • Original file in Liferay: portal-web/docroot/WEB-INF/liferay-portlet.xml
  • ext-web/docroot/WEB-INF/liferay-display.xml
    • Description: Allows overriding the portlets that are shown in the interface for adding applications and the categories in which they’re organized. It’s most commonly used to change the categorization, hide certain portlets, or make specific Control Panel portlets available to be added to a page.
    • Original file in Liferay: portal-web/docroot/WEB-INF/liferay-display.xml
  • ext-web/docroot/WEB-INF/liferay-layout-templates-ext.xml
    • Description: Allows specifying custom template files for each of Liferay’s standard layout templates. This is rarely necessary.
    • Original file in Liferay: portal-web/docroot/WEB-INF/liferay-layout-templates.xml
  • ext-web/docroot/WEB-INF/liferay-look-and-feel-ext.xml
    • Description: Allows changing the properties of Liferay’s default themes. This is rarely used.
    • Original file in Liferay: portal-web/docroot/WEB-INF/liferay-look-and-feel.xml

Next you can learn how to configure a Lucene Analyzer.

Configuring Lucene Analyzers

Liferay uses Lucene to facilitate search and indexing within the portal. In old versions of Liferay, you could configure Lucene analyzers from a file. While convenient, it was problematic to have only a single analyzer for all portal-indexed fields. For example, it was difficult to provide correct behaviors for handling both keyword and text fields.

Since Liferay 6.1, you no longer configure Lucene from a file. Instead, Lucene analyzers are defined in Spring configuration files. The default analyzer configuration is defined in /portal-impl/src/META-INF/search-spring.xml. Liferay 6.1 introduced per-field analyzers, allowing Lucene’s query parser to identify the correct analyzer to handle any field.

There are two common scenarios where it’s useful to configure Lucene analyzers: when creating custom language analyzers to override a Liferay language analyzer, and when creating a custom indexer to index new fields. Liferay provides a large number of language analyzers in search-spring.xml out of the box and uses regular expression matching to map localized fields to specific analyzers. If your language is not included among the defaults, or you’re not satisfied with one of the default language analyzers, you can override it with a custom analyzer. If you’ve created a custom indexer to index new fields, you can use the default analyzer for your new fields, select a specific one (such as one of the KeywordAnalyzers), or define a custom analyzer.

To customize the Lucene analyzer configuration, you must create an Ext plugin. The Analyzer classes reference the Lucene APIs directly, so it’s not possible to configure Lucene analyzers from a hook plugin. In your Ext plugin, create a file /docroot/WEB-INF/ext-impl/src/META-INF/ext-spring.xml and declare the beans you’ll override with a custom configuration.

Here are a few of the pre-configured analyzers from the bean configuration in search-spring.xml:

<entry key="tag"
       value-ref="" /> 
<entry key="templateId" 
       value-ref="org.apache.lucene.analysis.KeywordAnalyzer" />
<entry key="treePath"
       value-ref="" /> 
<entry key="type" 
       value-ref="org.apache.lucene.analysis.KeywordAnalyzer" /> 
<entry key="userName"
       value-ref="" /> 
<entry key=".*_ar" 
       value-ref="" />
<entry key=".*_de_DE"
       value-ref="" /> 
<entry key=".*_el_GR" 
       value-ref="org.apache.lucene.analysis.el.GreekAnalyzer" />
<entry key=".*_fa_IR"
       value-ref="org.apache.lucene.analysis.fa.PersianAnalyzer" /> 
<entry key=".*_fr_[A-Z]{2}"
       value-ref="" />

You can define custom analyzers for any fields, including custom fields.

You can learn how to change the API of a core service next.

Changing the API of a Core Service

Sometimes you might need to change the API of a method provided by one of Liferay’s services (e.g., UserLocalService). This is an advanced customization need.

Changing a core service API under normal circumstances requires modifying Liferay’s source code directly and making manual changes to a slew of files. But that’s not the Liferay way: there’s a better way to do it.

The best way to extend an existing service is by creating a custom service that’s complementary (e.g., a MyUserLocalService that includes all the new methods). Your code can invoke this service instead of the default service, and the implementation of your service can invoke the original service as needed.

This technique doesn’t require an Ext plugin since it can be done from portlet plugins. In fact, using Service Builder for an Ext plugin is deprecated, but it’s supported for migration from the old extension environment.

Sometimes it’s desirable to change the implementation of the original service to call your custom one; that’s when you’ll need an Ext plugin. Override the Spring definition for UserLocalServiceUtil in ext-spring.xml and point it to your MyUserLocalServiceImpl (instead of UserLocalServiceImpl). Now both MyUserLocalServiceUtil and UserLocalServiceUtil will use the same Spring bean: your new implementation.

You can also replace core classes in portal-impl. Keep reading to find out how.

Replacing Core Classes in portal-impl

If you’re sure you need to change a core portal-impl class, and you’re certain it can’t be replaced using a configuration file, here’s the best way to do it while avoiding conflicts when merging with a new portal version:

  1. Rename the original class (e.g., DeployUtilMyDeployUtil).

  2. Create a new subclass with the old name (e.g., DeployUtil extends MyDeployUtil).

  3. Override any methods you need to change.

  4. Delegate static methods.

  5. Use a logger with an appropriate class name for both classes (e.g., DeployUtil).

This strategy helps you determine what you’ll need to merge when a new version of Liferay is released.

That’s it for advanced customization techniques. It’s time to consider how to deploy Ext plugins in production.

Deploying in Production

Often, you can’t use Ant to deploy web applications in production or pre-production environments. Additionally, some application servers such as WebSphere or WebLogic have their own deployment tools and don’t work with Liferay’s auto-deployment process. Here are two methods to consider for deploying and redeploying Ext plugins in production.

Method 1: Redeploying Liferay’s Web Application

You can use this method in any application server that supports auto-deployment; What’s the benefit? The only artifact that needs to be transferred to the production system is your Ext plugin’s .war file, produced using the ant war target. This .war file is usually small and easy to transport. Execute these steps on the server:

  1. Redeploy Liferay:

    If this is your first time deploying your Ext plugin to this server, skip this step. Otherwise, start by executing the same steps you first used to deploy Liferay on your app server. If you’re using a bundle, unzip it again. If you installed Liferay manually on an existing application server, you must redeploy the Liferay .war file and copy both the libraries required globally by Liferay and your Ext plugin, to the appropriate directory within the application server.

  2. Copy the Ext plugin .war into the auto-deploy directory. For a bundled Liferay distribution, the deploy folder is in Liferay’s root folder of your bundle (e.g., liferay-portal-[version]/).

  3. Once the Ext plugin is detected and deployed by Liferay, restart your Liferay server.

Method 2: Generate an Aggregated WAR File

Some application servers don’t support auto-deploy; WebSphere and WebLogic are two examples. With an aggregated .war file, all Ext plugins are merged before deployment to production. A single .war file then contains Liferay plus the changes from all your Ext plugins. Before you deploy the aggregated Liferay .war file, copy the dependency .jar files for Liferay and all Ext plugins to the global application server class loader in the production server. The precise location varies from server to server; refer to Deployment to get the details for your application server.

To create the aggregated .war file, deploy the Ext plugin first to the Liferay bundle you are using in your development environment. Once it’s deployed, restart the server so that the plugin is fully deployed and shut it down again. Now the aggregated file is ready.

Create a .war file by zipping the Liferay web application folder from within the app server. Copy into your application server’s global classpath all of the libraries on which your Ext plugins depends.

Now, perform these actions on your server:

  1. Redeploy Liferay using the aggregated .war file.

  2. Stop the server and copy the new version of the global libraries to the appropriate directory in the application server.

Next we’ll show you how to migrate your extension environment (from older versions of Liferay) into Ext plugins.

Migrating Old Extension Environments

Because Ext plugins are an evolution of the extension environment provided in Liferay 5.2 and earlier, you might need to migrate your extension environment into Ext plugins when upgrading Liferay. If you need to do this, we have good news; migrating is automated and relatively easy.

To successfully migrate, execute an Ant target within the ext directory of the Plugins SDK, pointing to the old extension environment and naming the new plugin.

ant upgrade-ext -Dext.dir=/projects/liferay/ext"My Ext"

Remember the three parameters you saw before:

  • ext.dir: The location of the old extension environment.
  • The name of the Ext plugin that you want to create.
  • The display name.

After executing the target, you should see the logs of several copy operations that take files from the extension environment and copy them into the equivalent directory within the Ext plugin (see the section Creating an Ext plugin for an explanation of the main directories within the plugin).

With the migration process finished, you can upgrade your code to the new version of Liferay by completing a few additional tasks. Most commonly, you should do these things:

  • Review the uses of Liferay’s APIs and adapt them accordingly.
  • Review any changes to the new version of Liferay’s JSPs. Merge your changes into the JSPs of the new Liferay version.
  • Run ant build-service to use Service Builder. It’s also recommended to consider moving this code to a portlet plugin, because Service Builder is deprecated in Ext, and plugins allow for greater modularity and maintainability.
  • If you implemented any portlets in the old extension environment, migrate them to portlet plugins; extension environment portlets have been deprecated since Liferay Portal 6.0, and support isn’t guaranteed in future Liferay Portal releases.

Licensing and Contributing

Liferay Portal is Open Source software licensed under the LGPL 2.1 license ( If you reuse any code snippet and redistribute it, whether publicly or to a specific customer, make sure your modifications are compliant with the license. One common way is to make the source code of your modifications available to the community under the same license. Make sure you read the license text yourself to find the option that best fits your needs.

If your goal in making changes is fixing a bug or improving Liferay, it could be of interest to a broader audience. Consider contributing it back to the project. That benefits all users of the product including you, since you won’t have to maintain the changes with each newly released version of Liferay. You can notify Liferay of bugs or improvements in Check out the Participate section of, to learn all the ways that you can contribute to the Liferay Portal project.

In summary, Ext plugins are a powerful way to extend Liferay. There are no limits to what you can customize with them, so use them carefully. Before using an Ext plugin, see if you can implement all or part of the desired functionality through [Application Display Templates]](/docs/6-2/tutorials/-/knowledge_base/t/application-display-templates) or a different plugin type. Portlets, hooks, and web plugins offer you a lot of extension capabilities themselves, without introducing the complexity that’s inherent with Ext plugins. If you need to use an Ext plugin, make your customization as small as possible and follow the instructions in this tutorial carefully to avoid issues.

Customizing Liferay Portal with Hooks

Application Display Templates

Developing with the Plugins SDK

Developing Plugins with Liferay IDE

Creating Liferay Maven Plugins from Liferay IDE

Creating Liferay Maven Plugins from the Command Line

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