A package for server-side rendering Lit templates and components.
@lit-labs/ssr
is pre-release software, not quite ready for public consumption. As we develop it we are using it as a test bed to ensure that new versions of lit
(lit-html
and lit-element
) are SSR-ready. We expect that the foundational SSR support in this package will support a wide variety of use cases, from full-blown app rendering frameworks built on top of web components, to framework-specific plugins for rendering custom elements in e.g. React or Angular, to pre-rendering plugins for static site generators like 11ty. Please stay tuned and file issues with use cases you'd like to see covered.
The easiest way to get started is to import your Lit template modules (and any
LitElement
definitions they may use) into the node global scope and render
them to a stream (or string) using the render(value: unknown): Iterable<string>
function provided by the render-lit-html.js
module. When
running in Node, Lit automatically depends on Node-compatible implementations of
a minimal set of DOM APIs provided by the @lit-labs/ssr-dom-shim
package,
including defining customElements
on the global object.
// Example: server.js:
import {render} from '@lit-labs/ssr/lib/render-lit-html.js';
import {myTemplate} from './my-template.js';
//...
const ssrResult = render(myTemplate(data));
context.body = Readable.from(ssrResult);
To avoid polluting the Node.js global object with the DOM shim and ensure each request receives a fresh global object, we also provide a way to load app code into, and render from, a separate VM context with its own global object. Note that using this feature requires Node 14+ and passing the --experimental-vm-modules
flag to node on because of its use of experimental VM modules for creating a module-compatible VM context.
To render in a VM context, the renderModule
function from the
render-module.js
module will import a given module into a server-side VM
context shimmed with the minimal DOM shim required for Lit server rendering,
execute a given function exported from that module, and return its value.
Within that module, you can call the render
method from the
render-lit-html.js
module to render lit-html
templates and return an
iterable that incrementally emits the serialized strings of the given template.
// Example: render-template.js
import {render} from '@lit-labs/ssr/lib/render-lit-html.js';
import {myTemplate} from './my-template.js';
export const renderTemplate = (someData) => {
return render(myTemplate(someData));
};
// Example: server.js:
import {renderModule} from '@lit-labs/ssr/lib/render-module.js';
// Execute the above `renderTemplate` in a separate VM context with a minimal DOM shim
const ssrResult = await (renderModule(
'./render-template.js', // Module to load in VM context
import.meta.url, // Referrer URL for module
'renderTemplate', // Function to call
[{some: "data"}] // Arguments to function
) as Promise<Iterable<unknown>>);
// ...
context.body = Readable.from(ssrResult);
"Hydration" is the process of having lit re-associate the expressions of a lit template with the nodes they should update in the DOM. In order to "hydrate" lit templates, the hydrate
method from the experimental-hydrate
module is provided in the lit
package. Prior to updating a server-rendered container using render
, you should first call hydrate
on that container using the same template and data that was used to render on the server:
import {myTemplate} from './my-template.js';
import {render} from 'lit';
import {hydrate} from 'lit/experimental-hydrate.js';
// Initial hydration required before render:
// (must be same data used to render on the server)
const initialData = getInitialAppData();
hydrate(myTemplate(initialData), document.body);
// After hydration, render will efficiently update the server-rendered DOM:
const update = (data) => render(myTemplate(data), document.body);
When LitElement
s are server rendered, their shadow root contents are emitted inside a <template shadowroot>
, also known as a Declarative Shadow Root, a new browser feature that is shipping Chrome. Declarative shadow roots automatically attach their contents to a shadow root on the template's parent element when parsed. For browsers that do not yet implement declarative shadow root, there is a template-shadowroot
polyfill, described below.
Because the hydrate
function above does not descend into shadow roots, it only works on one scope of the DOM at a time. To hydrate LitElement
shadow roots, load the lit/hydrate-support.js
module, which installs support for LitElement
automatically hydrating itself when it detects it was server-rendered with declarative shadow DOM. This module should be loaded before the lit
module is loaded, to ensure hydration support is properly installed.
Put together, an HTML page that was server rendered and containing LitElement
s in the main document might look like this:
import {render} from '@lit-labs/ssr/lib/render-lit-html.js';
import './app-components.js';
const ssrResult = render(html`
<html>
<head> </head>
<body>
<app-shell>
<app-page-one></app-page-one>
<app-page-two></app-page-two>
</app-shell>
<script type="module">
// Hydrate template-shadowroots eagerly after rendering (for browsers without
// native declarative shadow roots)
import {
hasNativeDeclarativeShadowRoots,
hydrateShadowRoots,
} from './node_modules/@webcomponents/template-shadowroot/template-shadowroot.js';
if (!hasNativeDeclarativeShadowRoots()) {
hydrateShadowRoots(document.body);
}
// ...
// Load and hydrate components lazily
import('./app-components.js');
</script>
</body>
</html>
`);
// ...
context.body = Readable.from(ssrResult);
Note that as a simple example, the code above assumes a static top-level template that does not need to be hydrated on the client, and that top-level components individually hydrate themselves using data supplied either by attributes or via a side-channel mechanism. This is in no way fundamental; the top-level template can be used to pass data to the top-level components, and that template can be loaded and hydrated on the client to apply the same data.
Please note the following current limitations with the SSR package:
- Browser support: Support for hydrating elements on browsers that require the ShadyCSS polyfill (IE11) is not currently tested or supported.
- DOM shim: The DOM shim used by default is very minimal; because the server-rendering code for Lit relies largely on its declarative nature and string-based templates, we are able to incrementally stream the contents of a template and its sub-elements while avoiding the cost of a full DOM shim by not actually using the DOM for rendering. As such, the DOM shim used provides only enough to load and register element definitions, namely things like a minimal
HTMLElement
base class andcustomElements
registry. - DOM access: The above point means care should be taken to avoid interacting directly with the DOM in certain lifecycle callbacks. Concretely, you should generally only interact directly with the DOM (like accessing child/parent nodes, querying, imperatively adding event listeners, dispatching events, etc.) in the following lifecycle callbacks, which are not called on the server:
LitElement
'supdate
,updated
,firstUpdated
, or event handlersDirective
'supdate
- Patterns for usage: As mentioned above under "Status", we intend to flesh out a number of common patterns for using this package, and provide appropriate APIs and documentation for these as the package reaches maturity. Concerns like server/client data management, incremental loading and hydration, etc. are currently beyond the scope of what this package offers, but we believe it should support building these patterns on top of it going forward. Please file issues for ideas, suggestions, and use cases you may encounter.