Creating Android plugins

Introduction

Android plugins are powerful tools to extend the capabilities of the Godot engine by tapping into the functionality provided by the Android platform and ecosystem.

Mobile gaming monetization is one such example since it requires features and capabilities that don’t belong to the core feature set of a game engine:

  • Analytics

  • In-app purchases

  • Receipt validation

  • Install tracking

  • Ads

  • Video ads

  • Cross-promotion

  • In-game soft & hard currencies

  • Promo codes

  • A/B testing

  • Login

  • Cloud saves

  • Leaderboards and scores

  • User support & feedback

  • Posting to Facebook, Twitter, etc.

  • Push notifications

Android plugin

While introduced in Godot 3.2, the Android plugin system got a significant architecture update starting with Godot 3.2.2. The new plugin system is backward-incompatible with the previous one, but both systems are kept functional in future releases of the 3.2.x branch. Since we previously did not version the Android plugin systems, the new one is now labelled v1 and is the starting point for the modern Godot Android ecosystem.

Note: In Godot 4.0, the previous system will be fully deprecated and removed.

As a prerequisite, make sure you understand how to set up a custom build environment for Android.

At its core, a Godot Android plugin is a Android archive library (aar archive file) with the following caveats:

  • The library must have a dependency on the Godot engine library (godot-lib.<version>.<status>.aar). A stable version is made available for each Godot release on the Godot download page.

  • The library must include a specifically configured <meta-data> tag in its manifest file.

Building an Android plugin

Prerequisite: Android Studio is strongly recommended as the IDE to use to create Android plugins. The instructions below assumes that you’re using Android Studio.

  1. Follow these instructions to create an Android library module for your plugin.

  2. Add the Godot engine library as a dependency to your plugin module:

  • Download the Godot engine library (godot-lib.<version>.<status>.aar) from the Godot download page (e.g.: godot-lib.4.0.stable.aar).

  • Follow these instructions to add the Godot engine library as a dependency for your plugin.

  • In the plugin module’s build.gradle file, replace implementation with compileOnly for the dependency line for the Godot engine library.

    • Download the Godot engine library (godot-lib.<version>.<status>.aar) from the Godot download page (e.g.: godot-lib.3.2.2.stable.aar).
  1. Update the plugin AndroidManifest.xml file:
  • Open the plugin AndroidManifest.xml file.

  • Add the <application></application> tag if it’s missing.

  • In the <application> tag, add a <meta-data> tag setup as follow:

    1. <meta-data
    2. android:name="org.godotengine.plugin.v1.[PluginName]"
    3. android:value="[plugin.init.ClassFullName]" />

    Where PluginName is the name of the plugin, and plugin.init.ClassFullName is the full name (package + class name) of the plugin loading class.

  1. Add the remaining logic for your plugin and run the gradlew build command to generate the plugin’s aar file. The build will likely generate both a debug and release aar files. Depending on your need, pick only one version (usually the release one) which to provide your users with.

    It’s recommended that the aar filename matches the following pattern: [PluginName]*.aar where PluginName is the name of the plugin in PascalCase (e.g.: GodotPayment.release.aar).

  2. Create a Godot Android Plugin configuration file to help the system detect and load your plugin:

  • The configuration file extension must be gdap (e.g.: MyPlugin.gdap).

  • The configuration file format is as follow:

    1. [config]
  1. Add the remaining logic for your plugin and run the gradlew build command to generate the plugin’s aar file. The build will likely generate both a debug and release aar files. Depending on your need, pick only one version (usually the release one) which to provide your users with.

    [dependencies]

    local=[“local_dep1.aar”, “local_dep2.aar”] remote=[“example.plugin.android:remote-dep1:0.0.1”, “example.plugin.android:remote-dep2:0.0.1”] custom_maven_repos=[“http://repo.mycompany.com/maven2"\]

    • The configuration file extension must be gdap (e.g.: MyPlugin.gdap).

    • The configuration file format is as follow:

      1. [config]
      2. name="MyPlugin"
      3. binary_type="local"
      4. binary="MyPlugin.aar"
      5. [dependencies]
      6. local=["local_dep1.aar", "local_dep2.aar"]
      7. remote=["example.plugin.android:remote-dep1:0.0.1", "example.plugin.android:remote-dep2:0.0.1"]
      8. custom_maven_repos=["http://repo.mycompany.com/maven2"]

      The config section and fields are required and defined as follow:

      • name: name of the plugin
    • name: name of the plugin.

    • binary_type: can be either local or remote. The type affects the binary field.

    • binary:

      • binary:

        • if binary_type is local, then this should be the filepath of the plugin aar file.

          • The filepath can be relative (e.g.: MyPlugin.aar) in which case it’s relative to the res://android/plugins directory.

          • The filepath can be absolute: res://some_path/MyPlugin.aar.

        • if binary_type is remote, then this should be a declaration for a remote gradle binary (e.g.: org.godot.example:my-plugin:0.0.0).

      The dependencies section and fields are optional and defined as follow:

      • local: contains a list of filepaths to the local .aar binary files the plugin depends on. Similarly to the binary field (when the binary_type is local), the local binaries’ filepaths can be relative or absolute.
      • If binary_type is remote, then this should be a declaration for a remote gradle binary (e.g.: org.godot.example:my-plugin:0.0.0).

        • custom_maven_repos: contains a list of URLs specifying the custom maven repositories required for the plugin’s dependencies

Loading and using an Android plugin

Move the plugin configuration file (e.g.: MyPlugin.gdap) and, if any, its local binary (e.g.: MyPlugin.aar) and dependencies to the Godot project’s res://android/plugins directory.

The Godot editor will automatically parse all .gdap files in the res://android/plugins directory and show a list of detected and toggleable plugins in the Android export presets window under the Plugins section.

../../../_images/android_export_preset_plugins_section.png

From your script:

  1. if Engine.has_singleton("MyPlugin"):
  2. var singleton = Engine.get_singleton("MyPlugin")
  3. print(singleton.myPluginFunction("World"))

Bundling GDNative resources

An Android plugin can define and provide C/C++ GDNative resources, either to provide and/or access functionality from the game logic. The GDNative resources can be bundled within the plugin aar file which simplifies the distribution and deployment process:

  • The shared libraries (.so) for the defined GDNative libraries will be automatically bundled by the aar build system.

  • Godot *.gdnlib and *.gdns resource files must be manually defined in the plugin assets directory. The recommended path for these resources relative to the assets directory should be: godot/plugin/v1/[PluginName]/.

For GDNative libraries, the plugin singleton object must override the org.godotengine.godot.plugin.GodotPlugin::getPluginGDNativeLibrariesPaths() method, and return the paths to the bundled GDNative libraries config files (*.gdnlib). The paths must be relative to the assets directory. At runtime, the plugin will provide these paths to Godot core which will use them to load and initialize the bundled GDNative libraries.

Reference implementations

Troubleshooting

Godot crashes upon load

Check adb logcat for possible problems, then:

  • Check that the methods exposed by the plugin used the following Java types: void, boolean, int, float, java.lang.String, org.godotengine.godot.Dictionary, int[], byte[], float[], java.lang.String[].

  • More complex datatypes are not supported for now.