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Theia Plugin API and VS Code extensions support

Eclipse Theia is designed for extensibility. Therefore, it supports three extension mechanisms: VS Code extensions, Theia extensions, and Theia plugins. In the following, we focus on the mechanics of Theia plugins and Theia’s compatibility with the VS Code Extension API in order to support running VS Code extensions in Theia. This documentation aims to support developers extending Theia’s plugin API to either enhance the extensibility of Theia via plugins and/or increase Theia’s coverage of the VS Code Extension API – and with that the number of VS Code extensions that can be used in Theia.

Theia plugins, as well as VS Code extensions, can be installed and removed from a Theia installation at runtime and may extend many different capabilities of Theia, such as theming, language support, debuggers, tree views, etc., via a clearly defined API. A plugin runs inside a "host process". This is a sub-process spawned by Theia's backend to isolate the plugin from the main process. This encapsulates the plugin to prevent it from arbitrarily accessing Theia services and potentially harm performance or functionality of Theia’s main functionality. Instead, a plugin accesses Theia’s state and services via the plugin API.

Theia’s plugin API thrives to be a super set of VS Code’s extension API to enable running VS Code extensions as Theia plugins. For many cases this already works well. A report on API compatibility is generated daily in the vscode-theia-comparator repository. Please note that the report only checks the API on an interface level – and not the compatibility of the interfaces’ implementation behaviour. To be sure that an extension is fully supported, it is recommended to test it yourself. Feel free to open new issues for missing or incomplete API and link them in the report via a pull request. The report can be found here:

API Compatibility

Relevant Theia source code

  • plugin: Contains the API declaration of the theia plugin namespace
  • plugin-ext: Contains both the mechanisms for running plugins and providing them with an API namespace and the implementation of the ‘theia’ plugin API
  • plugin-ext-vscode: Contains an implementation of the VS Code plugin API. Since VS Code and Theia APIs are largely compatible, the initialization passes on the Theia plugin API and overrides a few members in the API object to be compatible to VS Code extensions (see plugin-ext-vscode/src/node/plugin-vscode-init.ts)

API definition and exposure

The plugin API is declared in the plugin package in file theia.d.ts.

The implementation of the API defined in the plugin package is passed to a plugin by manipulating the module loading mechanism in plugin containers to construct an API module object. This enables Theia plugins to import the API via the @theia/plugin module in node or via the theia namespace in web workers. For VS Code plugins, the same API is available via the vscode namespace as expected by them.

Plugin containers are node processes (see plugin-ext/src/hosted/node/plugin-host.ts)and web workers (plugin-ext/src/hosted/browser/worker/worker-main.ts). These expose the API in the following places:

Note that it is not necessary to adapt these for implementing new plugin API.

Communication between plugin API and Theia

As the plugin runs in a separate process, the plugin API cannot directly communicate with Theia. Instead, the plugin process and Theia’s main process communicate via RPC. Therefore, the following "Main-Ext" pattern is used.

Communication between Theia and Plugin API

Ext refers to the code running on the plugin side inside the isolated host process. Therefore, this code cannot directly use any Theia services (e.g. via dependency injection). Main refers to code running inside the Theia frontend in the browser context. Therefore, it can access any Theia service just like a build time Theia extension.

As the lifecycle of a plugin starts inside its process on the Ext side, anything that the plugin needs from Theia (e.g. state, command execution, access to services) has to be invoked over RCP via an implementation on the Main side. In the inverse direction, the same is true for code that runs on the Main side and that needs something from the plugin side (e.g. changing plugin state after a user input). It needs to be invoked over RCP via an implementation on the Ext side. Therefore, Main and Ext interfaces usually come in pairs (e.g. LanguagesExt and LanguagesMain).

To communicate with each other, the implementation of each side of the API - Main and Ext - has an RPC proxy of its corresponding counterpart. The proxy is based on the interface of the other side: Main implementation has a proxy of the Ext interface and vice versa. The implementations do not have explicit dependencies to each other.

Communication via RPC only supports transferring plain JSON objects: Only pure DTO objects without any functions can be transmitted. Consequently, objects with functions need to be cached and references to such objects need to be transmitted as handles (ids) that are resolved to the original object later on to invoke functions.

For instance, in LanguagesExtImpl#registerCodeActionsProvider a new code action provider is cached on the Ext side and then registered on the Main side via its handle. When the code action provider’s methods are later invoked on the Main side (e.g. in LanguagesMainImpl#provideCodeActions), it calls the Ext side with this handle. The Ext side then gets the cached object, executes appropriate functions and returns the results back to the Main side (e.g. in LanguagesExtImpl#$provideCodeActions).

Adding new API

This section gives an introduction to extending Theia’s plugin API. If you want to add a whole new namespace in your own extension, see this readme.

For adding new API, the first step is to declare it in the theia.d.ts file in the plugin package. In a second step, the implementation for the new API must be made available in the returned object of the API factory in plugin-context.ts. Typically, functions or properties returned by the API factory delegate to an Ext implementation that actually provides the functionality. See the following shortened and commented excerpt from plugin-context.ts#createAPIFactory:

// Creates the API factory used to create the API object for each plugin
// Implementations handed into this are shared between plugins
export function createAPIFactory(
    rpc: RPCProtocol,
    pluginManager: PluginManager,
    envExt: EnvExtImpl,
    debugExt: DebugExtImpl,
    preferenceRegistryExt: PreferenceRegistryExtImpl,
    editorsAndDocumentsExt: EditorsAndDocumentsExtImpl,
    workspaceExt: WorkspaceExtImpl,
    messageRegistryExt: MessageRegistryExt,
    clipboard: ClipboardExt,
    webviewExt: WebviewsExtImpl
): PluginAPIFactory {

    // Instantiation of Ext services.
    // Instantiate and register with RPC so that it will be called when the main side uses its proxy.
    const authenticationExt = rpc.set(MAIN_RPC_CONTEXT.AUTHENTICATION_EXT, new AuthenticationExtImpl(rpc));
    const commandRegistry = rpc.set(MAIN_RPC_CONTEXT.COMMAND_REGISTRY_EXT, new CommandRegistryImpl(rpc));
    // [...]

    // The returned function is used to create an instance of the plugin API for a plugin.
    return function (plugin: InternalPlugin): typeof theia {
        const authentication: typeof theia.authentication = {
            // [...]
        };

        // [...]

        // Here the API is returned. Add members of the root namespace directly to the returned object.
        // Each namespace is contained in its own property.
        return <typeof theia>{
            version: require('../../package.json').version,
            // The authentication namespace
            authentication,
            // [...]
            // Types
            StatusBarAlignment: StatusBarAlignment,
            Disposable: Disposable,
            EventEmitter: Emitter,
            CancellationTokenSource: CancellationTokenSource,
            // [...]
        };
    };
}

Adding new Ext and Main interfaces with implementations

Ext and Main interfaces only contain the functions called over RCP. Further functions are just part of the implementations. Functions to be called over RCP must start with $, e.g. $executeStuff.

Complex objects and RPC

Only pure DTO objects without any functions or references to other objects can be transmitted via RPC. This often makes it impossible to just transfer objects provided by a plugin directly via RPC. In this case a DTO interface is necessary. These are defined plugin-ext/src/common/plugin-api-rpc.ts. Utility functions to convert between DTO and API types on the Ext side are usually added to plugin-ext/src/plugin/type-converters.ts. Thus, this is also a good starting point to look for conversion utilities for existing types.

If functions of objects need to be invoked on the opposite side of their creation, the object needs to be cached on the creation side. The other side receives a handle (basically an id) that can be used to invoke the functionality on the creation side. As all cached objects are kept in memory, they should be disposed of when they are no longer needed.

For instance, in LanguagesExtImpl#registerCodeActionsProvider a new code action provider is created and cached on the Ext side and then registered on the Main side via its handle. When the code action provider’s methods are later invoked on the Main side (e.g. in LanguagesMainImpl#provideCodeActions), it calls the Ext side with this handle. The Ext side then gets the cached object, executes appropriate functions and returns the results back to the Main side (e.g. in LanguageExtImpl#$provideCodeActions).

Another example to browse are the TaskExtImpl and TaskMainImpl classes.

Adding new types

New classes and other types such as enums are usually implemented in plugin-ext/src/plugin/types-impl.ts. They can be added here and the added to the API object created in the API factory.

Additional Links

Talk by Thomas Maeder on writing plugin API: https://www.youtube.com/watch?v=Z_65jy8_9SM

Adding a new plugin API namespace outside of theia plugin API: how-to-add-new-plugin-namespace.md

Theia Plugin Implementation wiki page: https://github.com/eclipse-theia/theia/wiki/Theia-Plugin-Implementation

Writing Plugin API wiki page in the che wiki: https://github.com/eclipse/che/wiki/Writing-Theia-plugin-API

Theia versus VS Code API Comparator: https://github.com/eclipse-theia/vscode-theia-comparator

Theia's extension mechanisms: VS Code extensions, Theia extensions, and Theia plugins: https://theia-ide.org/docs/extensions

Example of creating a custom namespace API and using in VS Code extensions: https://github.com/thegecko/vscode-theia-extension