Research
Security News
Quasar RAT Disguised as an npm Package for Detecting Vulnerabilities in Ethereum Smart Contracts
Socket researchers uncover a malicious npm package posing as a tool for detecting vulnerabilities in Etherium smart contracts.
@badgateway/oauth2-client
Advanced tools
OAuth2 client for browsers and Node.js. Tiny footprint, PKCE support
This package contains an OAuth2 client. It aims to be a fully-featured OAuth2 utility library, for Node.js, Browsers and written in Typescript.
This OAuth2 client is only 4KB gzipped, it has 0 dependencies and
relies on modern APIs like fetch()
and Web Crypto which are built-in
since Node 18 (but it works with Polyfills on Node 14 and 16).
authorization_code
grant with optional PKCE support.password
and client_credentials
grant.fetch()
wrapper that automatically adds Bearer tokens and refreshes them.npm i @badgateway/oauth2-client
To get started, set up the Client class.
import { OAuth2Client } from '@badgateway/oauth2-client';
const client = new OAuth2Client({
// The base URI of your OAuth2 server
server: 'https://my-auth-server/',
// OAuth2 client id
clientId: '...',
// OAuth2 client secret. Only required for 'client_credentials', 'password'
// flows. Don't specify this in insecure contexts, such as a browser using
// the authorization_code flow.
clientSecret: '...',
// The following URIs are all optional. If they are not specified, we will
// attempt to discover them using the oauth2 discovery document.
// If your server doesn't have support this, you may need to specify these.
// you may use relative URIs for any of these.
// Token endpoint. Most flows need this.
// If not specified we'll use the information for the discovery document
// first, and otherwise default to /token
tokenEndpoint: '/token',
// Authorization endpoint.
//
// You only need this to generate URLs for authorization_code flows.
// If not specified we'll use the information for the discovery document
// first, and otherwise default to /authorize
authorizationEndpoint: '/authorize',
// OAuth2 Metadata discovery endpoint.
//
// This document is used to determine various server features.
// If not specified, we assume it's on /.well-known/oauth2-authorization-server
discoveryEndpoint: '/.well-known/oauth2-authorization-server',
});
Many functions use or return a 'OAuth2Token' type. This type has the following shape:
export type OAuth2Token = {
accessToken: string;
refreshToken: string | null;
/**
* When the Access Token expires.
*
* This is expressed as a unix timestamp in milliseconds.
*/
expiresAt: number | null;
};
const token = await client.clientCredentials();
const newToken = await client.refreshToken(oldToken);
const token = await client.password({
username: '..',
password: '..',
});
The authorization_code
flow is the flow for browser-based applications,
and roughly consists of 3 major steps:
code
is exchanged for a access and refresh token.This library provides support for these steps, but there's no requirement to use its functionality as the system is mostly stateless.
import { OAuth2Client, generateCodeVerifier } from 'client';
const client = new OAuth2Client({
server: 'https://authserver.example/',
clientId: '...',
// Note, if urls cannot be auto-detected, also specify these:
tokenEndpoint: '/token',
authorizationEndpoint: '/authorize',
});
Redirecting the user to the authorization server
/**
* This generates a security code that must be passed to the various steps.
* This is used for 'PKCE' which is an advanced security feature.
*
* It doesn't break servers that don't support it, but it makes servers that
* so support it more secure.
*
* It's optional to pass this, but recommended.
*/
const codeVerifier = await generateCodeVerifier();
// In a browser this might work as follows:
document.location = await client.authorizationCode.getAuthorizeUri({
// URL in the app that the user should get redirected to after authenticating
redirectUri: 'https://my-app.example/',
// Optional string that can be sent along to the auth server. This value will
// be sent along with the redirect back to the app verbatim.
state: 'some-string',
codeVerifier,
scope: ['scope1', 'scope2'],
});
Handling the redirect back to the app and obtain token
const oauth2Token = await client.authorizationCode.getTokenFromCodeRedirect(
document.location,
{
/**
* The redirect URI is not actually used for any redirects, but MUST be the
* same as what you passed earlier to "authorizationCode"
*/
redirectUri: 'https://my-app.example/',
/**
* This is optional, but if it's passed then it also MUST be the same as
* what you passed in the first step.
*
* If set, it will verify that the server sent the exact same state back.
*/
state: 'some-string',
codeVerifier,
}
);
When using an OAuth2-protected API, typically you will need to obtain an Access
token, and then add this token to each request using an Authorization: Bearer
header.
Because access tokens have a limited lifetime, and occasionally needs to be refreshed this is a bunch of potential plumbing.
To make this easier, this library has a 'fetch wrapper'. This is effectively just like a regular fetch function, except it automatically adds the header and will automatically refresh tokens when needed.
Usage:
import { OAuth2Client, OAuth2Fetch } from '@badgateway/oauth2-client';
const client = new OAuth2Client({
server: 'https://my-auth-server',
clientId: 'my-client-id'
});
const fetchWrapper = new OAuth2Fetch({
client: client,
/**
* You are responsible for implementing this function.
* it's purpose is to supply the 'initial' oauth2 token.
*/
getNewToken: async () => {
// Example
return client.clientCredentials();
// Another example
return client.authorizationCode.getToken({
code: '..',
redirectUri: '..',
});
// You can return null to fail the process. You may want to do this
// when a user needs to be redirected back to the authorization_code
// endpoints.
return null;
},
/**
* Optional. This will be called for any fatal authentication errors.
*/
onError: (err) => {
// err is of type Error
}
});
After set up, you can just call fetch
on the new object to call your API, and
the library will ensure there's always a Bearer
header.
const response = fetchWrapper.fetch('https://my-api', {
method: 'POST',
body: 'Hello world'
});
To keep a user logged in between sessions, you may want to avoid full reauthentication. To do this, you'll need to store authentication token somewhere.
The fetch wrapper has 2 functions to help with this:
const fetchWrapper = new OAuth2Fetch({
client: client,
getNewToken: async () => {
// See above!
},
/**
* This function is called whenever the active token changes. Using this is
* optional, but it may be used to (for example) put the token in off-line
* storage for later usage.
*/
storeToken: (token) => {
document.localStorage.setItem('token-store', JSON.stringify(token));
},
/**
* Also an optional feature. Implement this if you want the wrapper to try a
* stored token before attempting a full re-authentication.
*
* This function may be async. Return null if there was no token.
*/
getStoredToken: () => {
const token = document.localStorage.getItem('token-store');
if (token) return JSON.parse(token);
return null;
}
});
It might be preferable to use this library as a more traditional 'middleware'.
The OAuth2Fetch object also exposes a mw
function that returns a middleware
for fetch.
const mw = oauth2.mw();
const response = mw(
myRequest,
req => fetch(req)
);
This syntax looks a bit wild if you're not used to building middlewares, but this effectively allows you to 'decorate' existing request libraries with functionality from this oauth2 library.
A real example using the Ketting library:
import { Client } from 'ketting';
import { OAuth2Client, OAuth2Fetch } from '@badgateway/oauth2-client';
/**
* Create the oauth2 client
*/
const oauth2Client = new OAuth2Client({
server: 'https://my-auth.example',
clientId: 'foo',
});
/**
* Create the 'fetch helper'
*/
const oauth2Fetch = new OAuth2Fetch({
client: oauth2Client,
});
/**
* Add the middleware to Ketting
*/
const ketting = new Client('http://api-root');
ketting.use(oauth2Fetch.mw());
Introspection (RFC7662) lets you find more information about a token, such as whether it's valid, which user it belongs to, which oauth2 client was used to generate it, etc.
To be able to use it, your authorization server must have support for the introspection endpoint. It's location will be automatically detected using the Metadata discovery document.
import { OAuth2Client } from '@badgateway/oauth2-client';
const client = new Client({
server: 'https://auth-server.example/',
clientId: '...',
/**
* Some servers require OAuth2 clientId/clientSecret to be passed.
* If they require it, specify it. If not it's fine to omit.
*/
clientSecret: '...',
});
// Get a token
const token = client.clientCredentials();
// Introspect!
console.log(client.introspect(token));
This package works out of the box with modern browsers and Node 18.
To use this package with Node 16, you need to run:
npm i node-fetch@2
Version 2 is required, because version 3 has been rewritten in a non-backwards compatible way with ESM.
After installing node-fetch, it must be registered globally:
if (!global.fetch) {
const nodeFetch = require('node-fetch');
global.fetch = nodeFetch;
global.Headers = nodeFetch.Headers;
global.Request = nodeFetch.Request;
global.Response = nodeFetch.Response;
}
On Node 14.x you also need the following polyfill:
// For Node 14.x and below
if (global.btoa === undefined) {
global.btoa = input => {
return Buffer.from(input).toString('base64');
};
}
FAQs
OAuth2 client for browsers and Node.js. Tiny footprint, PKCE support
The npm package @badgateway/oauth2-client receives a total of 73,546 weekly downloads. As such, @badgateway/oauth2-client popularity was classified as popular.
We found that @badgateway/oauth2-client demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 0 open source maintainers collaborating on the project.
Did you know?
Socket for GitHub automatically highlights issues in each pull request and monitors the health of all your open source dependencies. Discover the contents of your packages and block harmful activity before you install or update your dependencies.
Research
Security News
Socket researchers uncover a malicious npm package posing as a tool for detecting vulnerabilities in Etherium smart contracts.
Security News
Research
A supply chain attack on Rspack's npm packages injected cryptomining malware, potentially impacting thousands of developers.
Research
Security News
Socket researchers discovered a malware campaign on npm delivering the Skuld infostealer via typosquatted packages, exposing sensitive data.