Astro Adapter API
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Astro is designed to make it easy to deploy to any cloud provider for SSR (server-side rendering). This ability is provided by adapters, which are integrations. See the SSR guide to learn how to use an existing adapter.
What is an adapter
Section titled What is an adapterAn adapter is a special kind of integration that provides an entrypoint for server-side rendering. An adapter does two things:
- Implements host-specific APIs for handling requests.
- Configures the build according to host conventions.
Building an Adapter
Section titled Building an AdapterAn adapter is an integration and can do anything that an integration can do.
An adapter must call the setAdapter
API in the astro:config:done
hook like so:
The object passed into setAdapter
is defined as:
The properties are:
- name: A unique name for your adapter, used for logging.
- serverEntrypoint: The entrypoint for server-side rendering.
- exports: An array of named exports when used in conjunction with
createExports
(explained below). - adapterFeatures: An object that enables specific features that must be supported by the adapter. These features will change the built output, and the adapter must implement the proper logic to handle the different output.
- supportedAstroFeatures: A map of Astro built-in features. This allows Astro to determine which features an adapter is unable or unwilling to support so appropriate error messages can be provided.
Server Entrypoint
Section titled Server EntrypointAstro’s adapter API attempts to work with any type of host, and gives a flexible way to conform to the host APIs.
Exports
Section titled ExportsSome serverless hosts expect you to export a function, such as handler
:
With the adapter API you achieve this by implementing createExports
in your serverEntrypoint
:
And then in your integration, where you call setAdapter
, provide this name in exports
:
Start
Section titled StartSome hosts expect you to start the server yourselves, for example by listening to a port. For these types of hosts, the adapter API allows you to export a start
function which will be called when the bundle script is run.
astro/app
Section titled astro/appThis module is used for rendering pages that have been prebuilt through astro build
. Astro uses the standard Request and Response objects. Hosts that have a different API for request/response should convert to these types in their adapter.
The following methods are provided:
app.render(request, { routeData, locals })
Section titled app.render(request, { routeData, locals })This method calls the Astro page that matches the request, renders it, and returns a Promise to a Response object. This also works for API routes that do not render pages.
The method accepts a mandatory request
argument, and an optional argument for routeData
and locals
.
Provide a value for routeData
if you already know the route to render. Doing so will bypass the internal call to app.match
to determine the route to render.
The example below reads a header named x-private-header
, attempts to parse it as an object and pass it to locals
, which can then be passed to any middleware function.
app.match(request)
Section titled app.match(request)This method is used to determine if a request is matched by the Astro app’s routing rules.
You can usually call app.render(request)
without using .match
because Astro handles 404s if you provide a 404.astro
file. Use app.match(request)
if you want to handle 404s in a different way.
Allow installation via astro add
Section titled Allow installation via astro addThe astro add
command allows users to easily add integrations and adapters to their project. If you want your adapter to be installable with this tool, add astro-adapter
to the keywords
field in your package.json
:
Once you publish your adapter to npm, running astro add example
will install your package with any peer dependencies specified in your package.json
. We will also instruct users to update their project config manually.
Astro features
Section titled Astro featuresastro@3.0.0
Astro features are a way for an adapter to tell Astro whether they are able to support a feature, and also the adapter’s level of support.
When using these properties, Astro will:
- run specific validation;
- emit contextual to the logs;
These operations are run based on the features supported or not supported, their level of support, and the configuration that the user uses.
The following configuration tells Astro that this adapter has experimental support for assets, but the adapter is not compatible with the built-in services Sharp and Squoosh:
Astro will log a warning to the terminal:
and an error if the service used for assets is not compatible with the adapter:
Adapter features
Section titled Adapter featuresA set of features that changes the output of the emitted files. When an adapter opts in to these features, they will get additional information inside specific hooks.
functionPerRoute
Section titled functionPerRouteThis is a feature that is enabled when using SSR only. By default, Astro emits a single entry.mjs
file, which is responsible for emitting the rendered page on each request.
When functionPerRoute
is true
, Astro will instead create a separate file for each route defined in the project.
Each file emitted will only render one page. The pages will be emitted inside a dist/pages/
directory (or under a /pages/
directory in the directory specified for outDir
), and the emitted files will keep the same file paths of the src/pages/
directory.
The files inside the pages/
directory of the build will mirror the directory structure of your page files in src/pages/
, for example:
目錄dist/
目錄pages/
目錄blog/
- entry._slug_.astro.mjs
- entry.about.astro.mjs
- entry.index.astro.mjs
Enable the feature by passing true
to the adapter.
Then, consume the hook astro:build:ssr
, which will give you an entryPoints
object that maps a page route to the physical file emitted after the build.
The entryFile
is of type URL
and represents the physical path of the file in the file system. This means that the paths change based on the OS where the code runs.
Serverless environments
Section titled Serverless environmentsSetting functionPerRoute: true
in a serverless environment creates a JavaScript file (handler) for each route. A handler might have different names based on your hosting platform: lambda, function, page, etc.
Each of these routes is subject to a cold start when the handler runs, which may cause some delay. This delay is influenced by different factors.
With functionPerRoute: false
, there is only one single handler in charge of rendering all your routes. When this handler is first triggered, you will be subject to a cold start. Then, all other routes should function without delay. However, you will lose the benefit of code splitting that functionPerRoute: true
provides.
It’s important that you understand your hosting platform, and how it works, in order to choose the appropriate functionPerRoute
configuration for your project.
edgeMiddleware
Section titled edgeMiddlewareDefines whether any SSR middleware code will be bundled when built.
When enabled, this prevents middleware code from being bundled and imported by all pages during the build:
Then, consume the hook astro:build:ssr
, which will give you a middlewareEntryPoint
, an URL
to the physical file on the file system.