declared by application or other plugins. Also a plugin can define extension points.
Current build status: [![Build Status](https://buildhive.cloudbees.com/job/decebals/job/pf4j/badge/icon)](https://buildhive.cloudbees.com/job/decebals/job/pf4j/)
PF4J is an open source (Apache license) lightweight (around 50KB) plugin framework for java, with minimal dependencies (only slf4j-api) and very extensible (see PluginDescriptorFinder and ExtensionFinder).
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.
Also, PF4J can be used in web applications. For my web applications when I want modularity I use [Wicket Plugin](https://github.com/decebals/wicket-plugin).
Each available plugin is loaded using a different java class loader, **PluginClassLoader**.
The **PluginClassLoader** contains only classes found in **PluginClasspath** (default _classes_ and _lib_ folders) of plugin and runtime classes and libraries of the required/dependent 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
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
**DefaultExtensionFinder** looks up extensions using **Extension** annotation.
DefaultExtensionFinder looks up extensions in all extensions index files `META-INF/extensions.idx`. PF4J uses Java Annotation Processing to process at compile time all classes annotated with @Extension and to produce the extensions index file.
You can control extension instance creation overriding `createExtensionFactory` method from DefaultExtensionFinder.
You can inject your custom component (for example PluginDescriptorFinder, ExtensionFinder, PluginClasspath, ...) in DefaultPluginManager just override `create...` methods (factory method pattern).
After you developed a plugin the next step is to deploy it in your application. For this task, you must create a zip file with a structure described in section "How to use" from the beginning of the document.
If you use `apache maven` as build manger than your pom.xml file must looks like [this](https://github.com/decebals/pf4j/blob/master/demo/plugins/plugin1/pom.xml). This file it's very simple and it's self explanatory.
If you use `apache ant` than your buil.xml file must looks like [this](https://github.com/gitblit/gitblit-powertools-plugin/blob/master/build.xml). In this case please look at the "build" target.
Each plugin passes through a pre-defined set of states. [PluginState](https://github.com/decebals/pf4j/blob/master/pf4j/src/main/java/ro/fortsoft/pf4j/PluginState.java) defines all possible states.
* *DISABLED* plugins are NOT automatically *STARTED* by pf4j in `startPlugins()` BUT you may manually start (and therefore enable) a *DISABLED* plugin by calling `startPlugin(pluginId)` instead of `enablePlugin(pluginId)` + `startPlugin(pluginId)`
* only *STARTED* plugins may contribute extensions. Any other state should not be considered ready to contribute an extension to the running system.
plugins on load if the system version is too old (if you want total control, please override `isPluginValid()`). This works for both `loadPlugins()` and `loadPlugin()`.
__PluginStateListener__ defines the interface for an object that listens to plugin state changes. You can use `addPluginStateListener()` and `removePluginStateListener()` from PluginManager if you want to add or remove a plugin state listener.
Your application, as a PF4J consumer, has full control over each plugin (state). So, you can load, unload, enable, disable, start, stop and delete a certain plugin using PluginManager (programmatically).
PF4J can run in two modes: **DEVELOPMENT** and **DEPLOYMENT**.
The DEPLOYMENT(default) mode is the standard workflow for plugins creation: create a new maven module for each plugin, codding the plugin (declares new extension points and/or
add new extensions), pack the plugin in a zip file, deploy the zip file to plugins folder. These operations are time consuming and from this reason I introduced the DEVELOPMENT runtime mode.
The main advantage of DEVELOPMENT runtime mode for a plugin developer is that he/she is not enforced to pack and deploy the plugins. In DEVELOPMENT mode you can developing plugins in a simple and fast mode.
You can retrieve the current runtime mode using `PluginManager.getRuntimeMode()` or in your Plugin implementation with `getWrapper().getRuntimeMode()`(see [WelcomePlugin](https://github.com/decebals/pf4j/blob/master/demo/plugins/plugin1/src/main/java/ro/fortsoft/pf4j/demo/welcome/WelcomePlugin.java)).
The DefaultPluginManager determines automatically the correct runtime mode and for DEVELOPMENT mode overrides some components(pluginsDirectory is __"../plugins"__, __PropertiesPluginDescriptorFinder__ as PluginDescriptorFinder, __DevelopmentPluginClasspath__ as PluginClassPath).
In theory, it's a relation **1:N** between an extension point and the extensions for this extension point.
This works well, except for when you develop multiple plugins for this extension point as different options for your clients to decide on which one to use.
In this situation you wish a possibility to disable all but one extension.