openid-client
v6.1.7
Published
OAuth 2 / OpenID Connect Client API for JavaScript Runtimes
Downloads
10,704,193
Maintainers
Readme
openid-client
OAuth 2 / OpenID Connect Client API for JavaScript Runtimes
openid-client simplifies integration with authorization servers by providing easy-to-use APIs for the most common authentication and authorization flows, including OAuth 2 and OpenID Connect. It is designed for JavaScript runtimes like Node.js, Browsers, Deno, Cloudflare Workers, and more.
Features
The following features are currently in scope and implemented in this software:
- Authorization Server Metadata discovery
- Authorization Code Flow (profiled under OpenID Connect 1.0, OAuth 2.0, OAuth 2.1, FAPI 1.0 Advanced, and FAPI 2.0)
- Refresh Token, Device Authorization, and Client Credentials Grants
- Demonstrating Proof-of-Possession at the Application Layer (DPoP)
- Token Introspection and Revocation
- Pushed Authorization Requests (PAR)
- UserInfo and Protected Resource Requests
- Authorization Server Issuer Identification
- JWT Secured Introspection, Response Mode (JARM), Authorization Request (JAR), and UserInfo
- Passport Strategy
Sponsor
If you want to quickly add authentication to JavaScript apps, feel free to check out Auth0's JavaScript SDK and free plan. Create an Auth0 account; it's free!
Certification
Filip Skokan has certified that this software conforms to the Basic, FAPI 1.0, and FAPI 2.0 Relying Party Conformance Profiles of the OpenID Connect™ protocol.
💗 Help the project
Support from the community to continue maintaining and improving this module is welcome. If you find the module useful, please consider supporting the project by becoming a sponsor.
API Reference Documentation
openid-client
is distributed via npmjs.com and github.com.
Examples
example
ESM import
import * as client from 'openid-client'
- Authorization Code Flow (OAuth 2.0) - source
- Authorization Code Flow (OpenID Connect) - source | diff
- Extensions
- Passport Strategy - source
Quick start
let server!: URL // Authorization Server's Issuer Identifier
let clientId!: string // Client identifier at the Authorization Server
let clientSecret!: string // Client Secret
let config: client.Configuration = await client.discovery(
server,
clientId,
clientSecret,
)
Authorization Code Flow
Authorization Code flow is for obtaining Access Tokens (and optionally Refresh Tokens) to use with third party APIs.
When you want to have your end-users authorize or authenticate you need to send them to the authorization server's authorization_endpoint
. Consult the web framework of your choice on how to redirect but here's how
to get the authorization endpoint's URL with parameters already encoded in the query to redirect
to.
/**
* Value used in the authorization request as the redirect_uri parameter, this
* is typically pre-registered at the Authorization Server.
*/
let redirect_uri!: string
let scope!: string // Scope of the access request
/**
* PKCE: The following MUST be generated for every redirect to the
* authorization_endpoint. You must store the code_verifier and state in the
* end-user session such that it can be recovered as the user gets redirected
* from the authorization server back to your application.
*/
let code_verifier: string = client.randomPKCECodeVerifier()
let code_challenge: string =
await client.calculatePKCECodeChallenge(code_verifier)
let state!: string
let parameters: Record<string, string> = {
redirect_uri,
scope,
code_challenge,
code_challenge_method: 'S256',
}
if (!config.serverMetadata().supportsPKCE()) {
/**
* We cannot be sure the server supports PKCE so we're going to use state too.
* Use of PKCE is backwards compatible even if the AS doesn't support it which
* is why we're using it regardless. Like PKCE, random state must be generated
* for every redirect to the authorization_endpoint.
*/
state = client.randomState()
parameters.state = state
}
let redirectTo: URL = client.buildAuthorizationUrl(config, parameters)
// now redirect the user to redirectTo.href
console.log('redirecting to', redirectTo.href)
When end-users are redirected back to the redirect_uri
your application consumes the callback and
passes in PKCE code_verifier
to include it in the authorization code grant token exchange.
let getCurrentUrl!: (...args: any) => URL
let tokens: client.TokenEndpointResponse = await client.authorizationCodeGrant(
config,
getCurrentUrl(),
{
pkceCodeVerifier: code_verifier,
expectedState: state,
},
)
console.log('Token Endpoint Response', tokens)
You can then fetch a protected resource response
let protectedResourceResponse: Response = await client.fetchProtectedResource(
config,
tokens.access_token,
new URL('https://rs.example.com/api'),
'GET',
)
console.log(
'Protected Resource Response',
await protectedResourceResponse.json(),
)
Device Authorization Grant (Device Flow)
let scope!: string // Scope of the access request
let response = await client.initiateDeviceAuthorization(config, { scope })
console.log('User Code:', response.user_code)
console.log('Verification URI:', response.verification_uri)
console.log('Verification URI (complete):', response.verification_uri_complete)
You will display the instructions to the end-user and have them directed at verification_uri
or
verification_uri_complete
, afterwards you can start polling for the Device Access Token Response.
let tokens: client.TokenEndpointResponse =
await client.pollDeviceAuthorizationGrant(config, response)
console.log('Token Endpoint Response', tokens)
This will poll in a regular interval and only resolve with tokens once the end-user authenticates.
Client Credentials Grant
Client Credentials flow is for obtaining Access Tokens to use with third party APIs on behalf of your application, rather than an end-user which was the case in previous examples.
let scope!: string // Scope of the access request
let resource!: string // Resource Indicator of the Resource Server the access token is for
let tokens: client.TokenEndpointResponse = await lib.clientCredentialsGrant(
config,
{ scope, resource },
)
console.log('Token Endpoint Response', tokens)
Supported Runtimes
The supported JavaScript runtimes include those that support the utilized Web API globals and standard built-in objects. These are (but are not limited to):
- Browsers
- Bun
- Cloudflare Workers
- Deno
- Electron
- Node.js[^nodejs]
- Vercel's Edge Runtime
Supported Versions
| Version | Security Fixes 🔑 | Other Bug Fixes 🐞 | New Features ⭐ | Runtime and Module type | | -------------------------------------------------------- | ----------------- | ------------------ | --------------- | ------------------------------- | | v6.x | ✅ | ✅ | ✅ | Universal[^universal] ESM[^cjs] | | v5.x | ✅ | ❌ | ❌ | Node.js CJS + ESM |
[^nodejs]: Node.js v20.x as baseline is required
[^universal]: Assumes runtime support of WebCryptoAPI and Fetch API
[^cjs]: CJS style require('openid-client')
is possible in Node.js versions where process.features.require_module
is true
or with the --experimental-require-module
Node.js CLI flag.