Combines an api spec with superagent
/supertest
to create a type-checked api client.
First, either define or import an io-ts-http
api spec. The following one will be used
for this guide:
import * as h from '@api-ts/io-ts-http';
import * as t from 'io-ts';
import { NumberFromString } from 'io-ts-types';
export const Example = t.type({
foo: t.string,
bar: t.number,
});
export const GenericAPIError = t.type({
message: t.string,
});
export const PutExample = h.httpRoute({
path: '/example/{id}',
method: 'PUT',
request: h.httpRequest({
params: {
id: NumberFromString,
},
body: {
example: Example,
},
}),
response: {
ok: Example,
invalidRequest: GenericAPIError,
},
});
export const ExampleAPI = h.apiSpec({
'api.example': {
put: PutExample,
},
});
ExampleAPI
can then be used to create a type-safe api client for either superagent
or supertest
. This requires two steps: wrapping the superagent
/supertest
instance,
then binding it to the api spec.
For superagent
:
import { superagentRequestFactory, buildApiClient } from '@api-ts/superagent-wrapper';
import superagent from 'superagent';
import { ExampleAPI } from './see-the-above-example';
// The api root, in a real project probably coming from a config option
const BASE_URL = 'http://example.com/';
// Step one: wrap `superagent` and the api root
const requestFactory = superagentRequestFactory(superagent, BASE_URL);
// Step two: combine the request factory and imported api spec into an api client
// This is intended to be exported and used
export const apiClient = buildApiClient(requestFactory, ExampleAPI);
For supertest
the process is almost identical except that supertest
itself handles
knowing the root api url:
import { supertestRequestFactory, buildApiClient } from '@api-ts/superagent-wrapper';
import supertest from 'superagent';
import { ExampleAPI } from './see-the-above-example';
// For the purposes of this guide, say we have an Express app that can be imported from the project.
// See the `supertest` docs for the options it has for instantiation.
import { app } from '../src/index';
const request = supertest(app);
// Step one: wrap the `supertest` request function created above
const requestFactory = superatestRequestFactory(request);
// Step two: combine the request factory and imported api spec into an api client
// This is intended to be exported and used
export const apiClient = buildApiClient(requestFactory, ExampleAPI);
The resulting apiClient
can then be imported elsewhere and used:
import { apiClient } from './api-client-example';
const doSomething = async () => {
// The `api.example` here comes from the operation in the `ExampleAPI` definition from above
const response = await apiClient['api.example']
// The object passed to this function is type-checked against the request codec
.put({ id: 42, example: { foo: 'hello', bar: 1 } })
// This will use the set of response codecs to decode the response
.decode();
// The two main properties on `response` are `status` and `body`
// If the value of `status` is checked, then TypeScript will infer the correct body type
if (response.status === 200) {
const { foo, bar } = response.body; // We know the correct body type here
} else if (response.status === 400) {
// The body is a GenericAPIError
console.log(response.body.message);
} else {
// In case an unexpected status code comes back, or the response body does not correctly
// decode, we can still access it as an `unknown` type.
if (
response.body &&
typeof response.body === 'object' &&
response.body.hasOwnProperty('message')
) {
console.log(response.body.message);
}
}
};
For convenience, a decodeExpecting
function is also added to requests. It accepts an
HTTP status code and throws if either the response code doesn't match, or it does but
the response body failed to decode.
const expectOk = async () => {
// The `api.example` here comes from the operation in the `ExampleAPI` definition from above
const response = await apiClient['api.example']
// The object passed to this function is type-checked against the request codec
.put({ id: 42, example: { foo: 'hello', bar: 1 } })
// This will use the set of response codecs to decode the response
.decodeExpecting(200);
const { foo, bar } = response.body;
};