# jsonwebtoken [![Build Status](https://secure.travis-ci.org/auth0/node-jsonwebtoken.png)](http://travis-ci.org/auth0/node-jsonwebtoken) An implementation of [JSON Web Tokens](https://tools.ietf.org/html/rfc7519). This was developed against `draft-ietf-oauth-json-web-token-08`. It makes use of [node-jws](https://github.com/brianloveswords/node-jws) # Install ```bash $ npm install jsonwebtoken ``` # Usage ### jwt.sign(payload, secretOrPrivateKey, options, [callback]) (Asynchronous) If a callback is supplied, callback is called with the JsonWebToken string (Synchronous) Returns the JsonWebToken as string `payload` could be an object literal, buffer or string. *Please note that* `exp` is only set if the payload is an object literal. `secretOrPrivateKey` is a string or buffer containing either the secret for HMAC algorithms, or the PEM encoded private key for RSA and ECDSA. `options`: * `algorithm` (default: `HS256`) * `expiresIn`: expressed in seconds or a string describing a time span [rauchg/ms](https://github.com/rauchg/ms.js). Eg: `60`, `"2 days"`, `"10h"`, `"7d"` * `notBefore`: expressed in seconds or a string describing a time span [rauchg/ms](https://github.com/rauchg/ms.js). Eg: `60`, `"2 days"`, `"10h"`, `"7d"` * `audience` * `subject` * `issuer` * `jwtid` * `subject` * `noTimestamp` * `headers` If `payload` is not a buffer or a string, it will be coerced into a string using `JSON.stringify`. If any `expiresIn`, `notBeforeMinutes`, `audience`, `subject`, `issuer` are not provided, there is no default. The jwt generated won't include those properties in the payload. Additional headers can be provided via the `headers` object. Generated jwts will include an `iat` claim by default unless `noTimestamp` is specified. Example ```js // sign with default (HMAC SHA256) var jwt = require('jsonwebtoken'); var token = jwt.sign({ foo: 'bar' }, 'shhhhh'); // sign with RSA SHA256 var cert = fs.readFileSync('private.key'); // get private key var token = jwt.sign({ foo: 'bar' }, cert, { algorithm: 'RS256'}); // sign asynchronously jwt.sign({ foo: 'bar' }, cert, { algorithm: 'RS256' }, function(token) { console.log(token); }); ``` ### jwt.verify(token, secretOrPublicKey, [options, callback]) (Asynchronous) If a callback is supplied, function acts asynchronously. Callback passed the payload decoded if the signature (and optionally expiration, audience, issuer) are valid. If not, it will be passed the error. (Synchronous) If a callback is not supplied, function acts synchronously. Returns the payload decoded if the signature (and optionally expiration, audience, issuer) are valid. If not, it will throw the error. `token` is the JsonWebToken string `secretOrPublicKey` is a string or buffer containing either the secret for HMAC algorithms, or the PEM encoded public key for RSA and ECDSA. `options` * `algorithms`: List of strings with the names of the allowed algorithms. For instance, `["HS256", "HS384"]`. * `audience`: if you want to check audience (`aud`), provide a value here * `issuer` (optional): string or array of strings of valid values for the `iss` field. * `ignoreExpiration`: if `true` do not validate the expiration of the token. * `ignoreNotBefore`... * `subject`: if you want to check subject (`sub`), provide a value here ```js // verify a token symmetric - synchronous var decoded = jwt.verify(token, 'shhhhh'); console.log(decoded.foo) // bar // verify a token symmetric jwt.verify(token, 'shhhhh', function(err, decoded) { console.log(decoded.foo) // bar }); // invalid token - synchronous try { var decoded = jwt.verify(token, 'wrong-secret'); } catch(err) { // err } // invalid token jwt.verify(token, 'wrong-secret', function(err, decoded) { // err // decoded undefined }); // verify a token asymmetric var cert = fs.readFileSync('public.pem'); // get public key jwt.verify(token, cert, function(err, decoded) { console.log(decoded.foo) // bar }); // verify audience var cert = fs.readFileSync('public.pem'); // get public key jwt.verify(token, cert, { audience: 'urn:foo' }, function(err, decoded) { // if audience mismatch, err == invalid audience }); // verify issuer var cert = fs.readFileSync('public.pem'); // get public key jwt.verify(token, cert, { audience: 'urn:foo', issuer: 'urn:issuer' }, function(err, decoded) { // if issuer mismatch, err == invalid issuer }); // verify jwt id var cert = fs.readFileSync('public.pem'); // get public key jwt.verify(token, cert, { audience: 'urn:foo', issuer: 'urn:issuer', jwtid: 'jwtid' }, function(err, decoded) { // if jwt id mismatch, err == invalid jwt id }); // verify subject var cert = fs.readFileSync('public.pem'); // get public key jwt.verify(token, cert, { audience: 'urn:foo', issuer: 'urn:issuer', jwtid: 'jwtid', subject: 'subject' }, function(err, decoded) { // if subject mismatch, err == invalid subject }); // alg mismatch var cert = fs.readFileSync('public.pem'); // get public key jwt.verify(token, cert, { algorithms: ['RS256'] }, function (err, payload) { // if token alg != RS256, err == invalid signature }); ``` ### jwt.decode(token [, options]) (Synchronous) Returns the decoded payload without verifying if the signature is valid. __Warning:__ This will __not__ verify whether the signature is valid. You should __not__ use this for untrusted messages. You most likely want to use `jwt.verify` instead. `token` is the JsonWebToken string `options`: * `json`: force JSON.parse on the payload even if the header doesn't contain `"typ":"JWT"`. * `complete`: return an object with the decoded payload and header. Example ```js // get the decoded payload ignoring signature, no secretOrPrivateKey needed var decoded = jwt.decode(token); // get the decoded payload and header var decoded = jwt.decode(token, {complete: true}); console.log(decoded.header); console.log(decoded.payload) ``` ### jwt.refresh(token, expiresIn, secretOrPrivateKey [, callback]) Will refresh the given token. The token is __expected__ to be *decoded* and *valid*. No checks will be performed on the token. The function will copy the values of the token, give it a new expiry time based on the given `expiresIn` parameter and will return a new signed token using the `sign` function and given secretOrPrivateKey. * `token`: is the *decoded* JsonWebToken string * `expiresIn` : New value to set when the token will expire. * `secretOrPrivateKey` : is a string or buffer containing either the secret for HMAC algorithms, or the PEM encoded private key for RSA and ECDSA. * `callback` : If a callback is supplied, callback is called with the newly refreshed JsonWebToken string Example ```js // ... var originalDecoded = jwt.decode(token, {complete: true}); var refreshed = jwt.refresh(originalDecoded, 3600, secret); console.log(JSON.stringify(originalDecoded)); // new 'exp' value is later in the future. console.log(JSON.stringify(jwt.decode(refreshed, {complete: true}))); ``` ## Errors & Codes Possible thrown errors during verification. Error is the first argument of the verification callback. ### TokenExpiredError Thrown error if the token is expired. Error object: * name: 'TokenExpiredError' * message: 'jwt expired' * expiredAt: [ExpDate] ```js jwt.verify(token, 'shhhhh', function(err, decoded) { if (err) { /* err = { name: 'TokenExpiredError', message: 'jwt expired', expiredAt: 1408621000 } */ } }); ``` ### JsonWebTokenError Error object: * name: 'JsonWebTokenError' * message: * 'jwt malformed' * 'jwt signature is required' * 'invalid signature' * 'jwt audience invalid. expected: [OPTIONS AUDIENCE]' * 'jwt issuer invalid. expected: [OPTIONS ISSUER]' * 'jwt id invalid. expected: [OPTIONS JWT ID]' * 'jwt subject invalid. expected: [OPTIONS SUBJECT]' ```js jwt.verify(token, 'shhhhh', function(err, decoded) { if (err) { /* err = { name: 'JsonWebTokenError', message: 'jwt malformed' } */ } }); ``` ## Algorithms supported Array of supported algorithms. The following algorithms are currently supported. alg Parameter Value | Digital Signature or MAC Algorithm ----------------|---------------------------- HS256 | HMAC using SHA-256 hash algorithm HS384 | HMAC using SHA-384 hash algorithm HS512 | HMAC using SHA-512 hash algorithm RS256 | RSASSA using SHA-256 hash algorithm RS384 | RSASSA using SHA-384 hash algorithm RS512 | RSASSA using SHA-512 hash algorithm ES256 | ECDSA using P-256 curve and SHA-256 hash algorithm ES384 | ECDSA using P-384 curve and SHA-384 hash algorithm ES512 | ECDSA using P-521 curve and SHA-512 hash algorithm none | No digital signature or MAC value included # TODO * X.509 certificate chain is not checked ## Issue Reporting If you have found a bug or if you have a feature request, please report them at this repository issues section. Please do not report security vulnerabilities on the public GitHub issue tracker. The [Responsible Disclosure Program](https://auth0.com/whitehat) details the procedure for disclosing security issues. ## Author [Auth0](auth0.com) ## License This project is licensed under the MIT license. See the [LICENSE](LICENSE) file for more info.