Plugin Framework for Java (PF4J)
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Plugin Framework for Java (PF4J)

A plugin is a way for a third party to extend the functionality of an application. A plugin implements extension points declared by application or other plugins. Also a plugin can define extension points.

Features/Benefits

With PF4J you can easily transform a monolithic java application in a modular application. PF4J is an open source (Apache license) tiny Java library (around 35KB), with minimal dependencies and very extensible (see PluginDescriptorFinder and ExtensionFinder).

No XML, only Java.

You can mark any interface or abstract class as an extension point (with marker interface ExtensionPoint) and you specified that an class is an extension with @Extension annotation.

Components

  • Plugin is the base class for all plugins types. Each plugin is loaded into a separate class loader to avoid conflicts.
  • PluginManager is used for all aspects of plugins management (loading, starting, stopping).
  • ExtensionPoint is a point in the application where custom code can be invoked. It's a java interface marker.
    Any java interface or abstract class can be marked as an extension point (implements ExtensionPoint interface).
  • Extension is an implementation of an extension point. It's a java annotation on a class.

Artifacts

  • PF4J pf4j (jar)
  • PF4J Demo pf4j-demo (executable jar)

Using Maven

In your pom.xml you must define the dependencies to PF4J artifacts with:

<dependency>
    <groupId>ro.fortsoft.pf4j</groupId>
    <artifactId>pf4j</artifactId>
    <version>${pf4j.version}</version>
</dependency>    

where ${pf4j.version} is the last pf4j version.

You may want to check for the latest released version using Maven Search

How to use

It's very simple to add pf4j in your application:

public static void main(String[] args) {
    ...
    
    PluginManager pluginManager = new DefaultPluginManager();
    pluginManager.loadPlugins();
    pluginManager.startPlugins();

    ...
}

In above code, I created a DefaultPluginManager (it's the default implementation for PluginManager interface) that loads and starts all active(resolved) plugins.
Each available plugin is loaded using a PluginClassLoader.
The PluginClassLoader contains only classes found in classes and lib folders of plugin and runtime classes and libraries of the required plugins. The plugins are stored in a folder. You can specify the plugins folder in the constructor of DefaultPluginManager. If the plugins folder is not specified than the location is returned by System.getProperty("pf4j.pluginsDir", "plugins").

The structure of plugins folder is:

  • plugin1.zip (or plugin1 folder)
  • plugin2.zip (or plugin2 folder)

In plugins folder you can put a plugin as folder or archive file (zip). A plugin folder has this structure:

  • classes folder
  • lib folder (optional - if the plugin used third party libraries)

The plugin manager searches plugins metadata using a PluginDescriptorFinder.
DefaultPluginDescriptorFinder lookups plugins descriptors in MANIFEST.MF file. In this case the classes/META-INF/MANIFEST.MF file looks like:

Manifest-Version: 1.0
Archiver-Version: Plexus Archiver
Created-By: Apache Maven
Built-By: decebal
Build-Jdk: 1.6.0_17
Plugin-Class: ro.fortsoft.pf4j.demo.welcome.WelcomePlugin
Plugin-Dependencies: x, y, z
Plugin-Id: welcome-plugin
Plugin-Provider: Decebal Suiu
Plugin-Version: 0.0.1

In above manifest I described a plugin with id welcome-plugin, with class ro.fortsoft.pf4j.demo.welcome.WelcomePlugin, with version 0.0.1 and with dependencies to plugins x, y, z.

Also you can use any PluginDescriptorFinder (for example PropertiesPluginDescriptorFinder) in DefaultPluginManager (using setPluginDescriptorFinder() method).

plugin.class=ro.fortsoft.pf4j.demo.welcome.WelcomePlugin
plugin.dependencies=x, y, z
plugin.id=welcome-plugin
plugin.provider=Decebal Suiu
plugin.version=0.0.1

You can define an extension point in your application using ExtensionPoint interface marker.

public interface Greeting extends ExtensionPoint {

    public String getGreeting();

}

Another important internal component is ExtensionFinder that describes how plugin manager discovers extensions for extensions points.
DefaultExtensionFinder looks up extensions using Extension annotation.

public class WelcomePlugin extends Plugin {

    public WelcomePlugin(PluginWrapper wrapper) {
        super(wrapper);
    }

    @Extension
    public static class WelcomeGreeting implements Greeting {

        public String getGreeting() {
            return "Welcome";
        }

    }

}

In above code I supply an extension for the Greeting extension point.

You can retrieve all extensions for an extension point with:

List<Greeting> greetings = pluginManager.getExtensions(Greeting.class);
for (Greeting greeting : greetings) {
    System.out.println(">>> " + greeting.getGreeting());
}

The output is:

>>> Welcome
>>> Hello

For more information please see the demo sources.

Demo

I have a tiny demo application. The demo application is in demo folder. In demo/api folder I declared an extension point (Greeting).
In demo/plugin* I implemented two plugins: plugin1, plugin2 (each plugin adds an extension for Greeting).

To run the demo application use:

./run-demo.sh

License

Copyright 2012 Decebal Suiu

Licensed under the Apache License, Version 2.0 (the "License"); you may not use this work except in compliance with the License. You may obtain a copy of the License in the LICENSE file, or at:

http://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.