Plugin API
This chapter introduces the type definitions and usage of Rsbuild plugin APIs.
RsbuildPlugin
The type of the plugin object. The plugin object contains the following properties:
name: The name of the plugin, a unique identifier.setup: The setup function of the plugin, which can be an async function. This function is called once when the plugin is initialized. The plugin API provides the context info, utility functions and lifecycle hooks. For a complete introduction to lifecycle hooks, please read the Plugin Hooks chapter.apply: Conditional apply the plugin during serve or build, see Conditional application.enforce: Specify the execution order of the plugin, see enforce property.pre: Declare the names of pre-plugins, which will be executed before the current plugin, see Pre-Plugins.post: Declare the names of post-plugins, which will be executed after the current plugin, see Post-Plugins.remove: Declare the plugins that need to be removed, you can pass an array of plugin names, see Removing plugins.
You can import this type from @rsbuild/core:
Conditional application
By default, plugins are applied for both the dev server and production builds. If you want a plugin to apply only in a specific scenario, you can use the apply property to specify when it should be activated:
serve: Applies when running the dev or preview server.build: Applies when running a production build.
The apply property can also be a function that receives two parameters: config and context.
The apply function returns true to apply the plugin or false to skip it.
The apply property was introduced in @rsbuild/core v1.4.8.
enforce property
By default, plugins are executed in the order they are added. Plugins can adjust their execution order by adding an enforce property:
pre: Execute the plugin before other pluginspost: Execute the plugin after other plugins
This affects the order in which hooks are registered, but if a hook specifies an order property, the order takes higher precedence.
The enforce property was introduced in @rsbuild/core v1.4.9.
Pre-Plugins
By setting the pre property, you can force some specific plugins to execute before the current plugin. The pre property takes higher precedence than the enforce property.
For example, consider the following two plugins:
The Bar plugin is configured with the Foo plugin in its pre property, so the Foo plugin will always be executed before the Bar plugin.
Post-Plugins
By setting the post property, you can force some specific plugins to execute after the current plugin. The post property takes higher precedence than the enforce property.
The Bar plugin is configured with the Foo plugin in its post property, so the Foo plugin will always be executed after the Bar plugin.
Removing plugins
You can remove other plugins within a plugin using the remove property.
For example, if you register both the Foo and Bar plugins mentioned above, the Foo plugin will not take effect because the Bar plugin declares the removal of the Foo plugin.
It should be noted that if the current plugin is registered as a specific environment plugin, only the removal of plugins in the same environment is supported, and global plugins cannot be removed.
api.context
api.context is a read-only object that provides some context information.
The content of api.context is exactly the same as rsbuild.context, please refer to rsbuild.context.
- Example:
api.getRsbuildConfig
Get the Rsbuild config, this method must be called after the modifyRsbuildConfig hook is executed.
- Type:
- Parameters:
You can specify the type of Rsbuild config to read by using the type parameter:
- Example:
api.getNormalizedConfig
Get the normalized Rsbuild config for all environments or a specific one. Call this method only after the modifyRsbuildConfig hook has executed.
Compared with the api.getRsbuildConfig method, the config returned by this method has been normalized, and the type definition of the config will be narrowed. For example, the undefined type of config.html will be removed.
We recommend using this method to get the Rsbuild config.
- Type:
- Example:
api.logger
A logger instance used to output log information in a unified format. Use this instead of console.log to maintain consistent logging with Rsbuild.
Equivalent to import { logger } from '@rsbuild/core'.
- Version:
>= 1.4.0 - Example:
api.isPluginExists
Determines if a plugin has been registered in the current Rsbuild instance.
-
If the
environmentparameter is not specified, it checks if the plugin exists in the globally registered plugins. -
If the
environmentparameter is specified, it checks if the plugin exists in the specified environment. -
Type:
- Example:
Or check if a plugin exists in a specified environment:
api.transform
A simplified wrapper around Rspack loaders, api.transform lets you easily transform the code of specific modules during the build process.
You can match files by module path, query, or other conditions, and apply custom transformations to their contents.
- Type:
api.transform accepts two params:
descriptor: an object describing the module's matching conditions.handler: a transformation function that takes the current module code and returns the transformed code.
Example
For example, match modules with the .pug extension and transform them to JavaScript code:
Descriptor param
The descriptor param is an object describing the module's matching conditions.
- Type:
The descriptor param supports the following matching conditions:
test: matches module's path (without query), the same as Rspack's Rule.test.
targets: matches the Rsbuild output.target, and applies the current transform function only to the matched targets.
environments: matches the Rsbuild environment name, and applies the current transform function only to the matched environments.
resourceQuery: matches module's query, the same as Rspack's Rule.resourceQuery.
raw: if raw istrue, the transform handler will receive the Buffer type code instead of the string type.
layer: marks the layer of the matching module, can be used to group a group of modules into one layer, the same as Rspack's Rule.layer.
issuerLayer: matches the layer of the module that issues the current module, the same as Rspack's Rule.issuerLayer.
issuer: matches the absolute path of the module that issues the current module, the same as Rspack's Rule.issuer.
with: matches import attributes, the same as Rspack's Rule.with.
mimetype: Matches modules based on MIME type instead of file extension. It's primarily useful for data URI module (likedata:text/javascript,...), the same as Rspack's Rule.mimetype.
enforce: Specifies the execution order of the transform function, the same as Rspack's Rule.enforce.- When
enforceispre, the transform function will be executed before other transform functions (or Rspack loaders). - When
enforceispost, the transform function will be executed after other transform functions (or Rspack loaders).
- When
Handler param
The handler param is a transformation function that takes the current module code and returns the transformed code.
- Type:
The handler function provides the following params:
code: The code of the module.context: The directory path of the currently processed module. The same as Rspack loader's this.context.resolve: Resolve a module specifier. The same as Rspack loader's this.resolve.resource: The absolute path of the module, including the query. The same as Rspack loader's this.resource.resourcePath: The absolute path of the module, without the query. The same as Rspack loader's this.resourcePath.resourceQuery: The query of the module. The same as Rspack loader's this.resourceQuery.environment: The environment context for current build.addDependency: Add an additional file as the dependency. The file will be watched and changes to the file will trigger rebuild. The same as Rspack loader's this.addDependency.addMissingDependency: Add an non-existing file as the dependency. The file will be watched and changes to the file will trigger rebuild. The same as Rspack loader's this.addMissingDependency.addContextDependency: Add an additional directory as the dependency. The directory will be watched and changes to the directory will trigger rebuild. The same as Rspack loader's this.addContextDependency.emitFile: Emits a file to the build output. The same as Rspack loader's this.emitFile.importModule: Compile and execute a module at the build time. The same as Rspack loader's this.importModule.
For example:
Difference with loader
api.transform can be thought of as a lightweight implementation of Rspack loader. It provides a simple and easy to use API and automatically calls Rspack loader at the backend to transform the code.
In Rsbuild plugins, you can quickly implement code transformation functions using api.transform, which can handle the majority of common scenarios without having to learn how to write an Rspack loader.
Note that for some complex code transformation scenarios, api.transform may not be sufficient. In such situations, you can implement it using the Rspack loader.
Source maps
You can return a source map in the transform function, and Rsbuild will automatically merge the returned source map with source maps generated by other Rspack loaders or transform hooks, ensuring that the final source map correctly maps back to the original source code.
api.resolve
Intercept and modify module request information before module resolution begins. The same as Rspack's normalModuleFactory.hooks.resolve hook.
- Version:
>= 1.0.17 - Type:
Example
- Modify the request of
a.jsfile:
Handler param
The handler parameter is a callback function that receives a module require information and allows you to modify it.
- Type:
The handler function provides the following parameters:
resolveData: Module request information. For details, please refer to Rspack - resolve hook.compiler: The Compiler object of Rspack.compilation: The Compilation object of Rspack.environment: The environment context of the current build.
api.processAssets
Modify assets before emitting, the same as Rspack's compilation.hooks.processAssets hook.
- Version:
>= 1.0.0 - Type:
api.processAssets accepts two params:
descriptor: an object to describes the stage and matching conditions that triggerprocessAssets.handler: A callback function that receives the assets object and allows you to modify it.
Example
- Emit a new asset in the
additionalstage:
- Updating an existing asset:
- Removing an asset:
Descriptor param
The descriptor parameter is an object to describes the stage and matching conditions that trigger processAssets.
- Type:
The descriptor param supports the following properties:
stage: Rspack internally dividesprocessAssetsinto multiple stages (refer to process assets stages). You can choose the appropriate stage based on the operations you need to perform.
targets: Matches the Rsbuild output.target, and applies the current processAssets function only to the matched targets.
environments: matches the Rsbuild environment name, and applies the current processAssets function only to the matched environments.
Handler param
The handler parameter is a callback function that receives an assets object and allows you to modify it.
- Type:
The handler function provides the following parameters:
assets: An object where key is the asset's pathname, and the value is data of the asset represented by the Source.compiler: The Compiler object of Rspack.compilation: The Compilation object of Rspack.environment: The environment context of the current build.sources: The Rspack Sources object, which contains multiple classes which represent a Source.
Process assets stages
Here's the list of supported stages. Rspack will execute these stages sequentially from top to bottom. Please select the appropriate stage based on the operation you need to perform.
additional— add additional assets to the compilation.pre-process— basic preprocessing of the assets.derived— derive new assets from the existing assets.additions— add additional sections to the existing assets, e.g., banner or initialization code.optimize— optimize existing assets in a general way.optimize-count— optimize the count of existing assets, e.g., by merging them.optimize-compatibility— optimize the compatibility of existing assets, e.g., add polyfills or vendor prefixes.optimize-size— optimize the size of existing assets, e.g., by minimizing or omitting whitespace.dev-tooling— add development tooling to the assets, e.g., by extracting a source map.optimize-inline— optimize the numbers of existing assets by inlining assets into other assets.summarize— summarize the list of existing assets.optimize-hash— optimize the hashes of the assets, e.g., by generating real hashes of the asset content.optimize-transfer— optimize the transfer of existing assets, e.g., by preparing a compressed (gzip) file as separate asset.analyse— analyze the existing assets.report— creating assets for the reporting purposes.
api.expose
Used for plugin communication.
api.expose can explicitly expose some properties or methods of the current plugin, and other plugins can get these APIs through api.useExposed.
- Type:
- Example:
api.useExposed
Used for plugin communication.
api.useExposed can get the properties or methods exposed by other plugins.
- Type:
- Example:
Identifiers
You can use Symbol as a unique identifier to avoid potential naming conflicts:
Type declaration
You can declare types through the generics of the function:
Execution order
When communicating between plugins, you need to be aware of the order in which the plugins are executed.
For example, in the above example, if pluginParent is not registered, or registers after pluginChild, then api.useExposed('plugin-parent') will return an undefined.
You can use the pre, post options of the plugin object, and the order option of the plugin hook to ensure the order is correct.