acorn
Rapidly develop and iterate on RESTful APIs using a strongly typed router designed for Deno CLI, Deno Deploy and Bun.
Usage
Under Deno runtime or Deploy
Add the package to your project:
deno add @oak/acorn
Under Node.js and Cloudflare Workers
Install the package using your chosen package manager:
npm
npx jsr add @oak/acorn
Yarn
yarn dlx jsr add @oak/acorn
pnpm
pnpm dlx jsr add @oak/acorn
Under Bun
bunx jsr add @oak/acorn
Listening
For Deno, Node.js, and Bun the router needs to be configured and then start listening for requests:
import { Router } from "@oak/acorn";
const BOOKS = {
"1": { id: 1, title: "The Hound of the Baskervilles" },
"2": { id: 2, title: "It" },
};
const router = new Router();
router.get("/", () => ({ hello: "world" }));
router.get("/books/:id", (ctx) => BOOKS[ctx.params.id]);
router.listen({ port: 5000 });
Fetch handlers
For Cloudflare Workers the router needs to be configured and the routerβs fetch handler needs to be exported:
import { Router } from "@oak/acorn";
const BOOKS = {
"1": { id: 1, title: "The Hound of the Baskervilles" },
"2": { id: 2, title: "It" },
};
const router = new Router();
router.get("/", () => ({ hello: "world" }));
router.get("/books/:id", (ctx) => BOOKS[ctx.params.id]);
router.listen({ port: 5000 });
export default { fetch: router.fetch };
Philosophy
After having spent years working on oak and extensive experience with building Deno, that really when people were looking at middleware type of solution, really what they were looking fore was a straight forward router that made it easy to handle JSON payloads.
Also, oak was created in the early days of Deno, before it even had a native
HTTP server, and that server supported the web standard Request
and
Response
.
Acorn was the culmination of that need. It makes it easy to have route handlers that are straight forward and focuses on staying closer to the native implementations of Deno constructs that have evolved over time.
Routes
An instance of a router has several methods for registering a handler for a route. The methods correspond to one or many HTTP methods or verbs. When a request is handled by the router that matches a route and the HTTP method(s), it will invoke the registered handler.
The handler is provided with a context which contains information about the request:
interface Context<Params extends Record<string, string>, BodyType> {
readonly addr: Addr;
readonly cookies: SecureCookieMap;
readonly params: Params;
readonly request: Request;
readonly searchParams: Record<string, string>;
body(): Promise<BodyType | undefined>;
url(): URL;
}
The .params
property provides any parameters (named captures) parsed out when
matching the route string.
The .searchParams
property provides any search parameters associated with the
request.
The .addr
property provides the remote address associated with the request.
The .url()
method returns an instance of URL associated with the request.
The .body()
method is a convenience method to deal with decoding a JSON string
body. It can be used with an optional
deserializer which can
do advanced decoding of the body, or it will attempted to be decoded from the
JSON string.
More advanced request body handling can be handled via the .request
property.
The handler is then expected to have a return value which can be a Request
instance, a value that is a BodyInit
, or
any other value. If an optional
serializer is provided
and the response is not a Request
instance or of the type BodyInit
, the
value will be passed to the serializer. If no serializer is present then
JSON.stringify()
will be used to attempt to convert the value to a JSON string. If undefined
is
returned, then a 404 NotFound
response will be generated.
The handling of the request differs significantly from middleware solutions like
oak. In most cases you will want only one
handler per route and HTTP method combination. There is nothing that prevents
multiple registrations, but the first handler registered that returns a non
undefined
value will be used and any remaining handlers will not be called.
Underneath, the router matches route strings using the browser standard URL Pattern API and matches the pathname part of the URL.
Copyright 2018-2024 the oak authors. All rights reserved. MIT License.