Node.js library for verifying JWTs signed by Amazon Cognito, and any OIDC-compatible IDP that signs JWTs with RS256 / RS384 / RS512.
npm install aws-jwt-verify
Note: this library can be used with Node.js 14 or higher. If used with TypeScript, TypeScript 4 or higher is required.
import { CognitoJwtVerifier } from "aws-jwt-verify";
// Verifier that expects valid access tokens:
const verifier = CognitoJwtVerifier.create({
userPoolId: "<user_pool_id>",
tokenUse: "access",
clientId: "<client_id>",
});
try {
const payload = await verifier.verify(
"eyJraWQeyJhdF9oYXNoIjoidk..." // the JWT as string
);
console.log("Token is valid. Payload:", payload);
} catch {
console.log("Token not valid!");
}
See all verify parameters for Amazon Cognito JWTs here.
import { JwtRsaVerifier } from "aws-jwt-verify";
const verifier = JwtRsaVerifier.create({
issuer: "https://example.com/", // set this to the expected "iss" claim on your JWTs
audience: "<audience>", // set this to the expected "aud" claim on your JWTs
jwksUri: "https://example.com/.well-known/jwks.json", // set this to the JWKS uri from your OpenID configuration
});
try {
const payload = await verifier.verify("eyJraWQeyJhdF9oYXNoIjoidk...");
console.log("Token is valid. Payload:", payload);
} catch {
console.log("Token not valid!");
}
See all verify parameters for JWTs from any IDP here.
- Do one thing and do it well. Focus solely on verifying JWTs.
- Pure TypeScript library that can be used in Node.js v14 and above (both CommonJS and ESM supported).
- Support both Amazon Cognito as well as any other OIDC-compatible IDP as first class citizen.
- 0 runtime dependencies, batteries included. This library includes all necessary code to validate RS256/RS384/RS512-signed JWTs. E.g. it contains a simple (and pluggable) HTTP helper to fetch the JWKS from the JWKS URI, and it includes a simple ASN.1 encoder to transform JWKs into DER-encoded RSA public keys (in order to verify JWTs with Node.js native crypto calls).
- Opinionated towards the best practices as described by the IETF in JSON Web Token Best Current Practices.
- Make it easy for users to use this library in a secure way. For example, this library requires users to specify
issuer
andaudience
, as these should be checked for (see best practices linked to above).
Currently, only signature algorithms RS256 , RS384 and RS512 are supported.
This library was specifically designed to be easy to use in:
- API Gateway Lambda authorizers
- AppSync Lambda authorizers
- CloudFront Lambda@Edge
- Node.js APIs, e.g. running in AWS Fargate, that need to verify incoming JWTs
- Verifying JWTs from Amazon Cognito
- Verifying JWTs from any OIDC-compatible IDP
- Verification errors
- The JWKS cache
- Usage examples
- Security
- License
Create a CognitoJwtVerifier
instance and use it to verify JWTs:
import { CognitoJwtVerifier } from "aws-jwt-verify";
// Verifier that expects valid access tokens:
const verifier = CognitoJwtVerifier.create({
userPoolId: "<user_pool_id>",
tokenUse: "access",
clientId: "<client_id>",
});
try {
const payload = await verifier.verify(
"eyJraWQeyJhdF9oYXNoIjoidk..." // the JWT as string
);
console.log("Token is valid. Payload:", payload);
} catch {
console.log("Token not valid!");
}
You can also use verifySync
, if you've made sure the JWK has already been cached, see further below.
Except the User Pool ID, parameters provided when creating the CognitoJwtVerifier
act as defaults, that can be overridden upon calling verify
or verifySync
.
Supported parameters are:
tokenUse
(mandatory): verify that the JWT'stoken_use
claim matches your expectation. Set to eitherid
oraccess
. Set tonull
to skip checkingtoken_use
.clientId
(mandatory): verify that the JWT'saud
(id token) orclient_id
(access token) claim matches your expectation. Provide a string, or an array of strings to allow multiple client ids (i.e. one of these client ids must match the JWT). Set tonull
to skip checking client id (not recommended unless you know what you are doing).group
(optional): verify that the JWT'scognito:groups
claim matches your expectation. Provide a string, or an array of strings to allow multiple groups (i.e. one of these groups must match the JWT).scope
(optional): verify that the JWT'sscope
claim matches your expectation (only of use for access tokens). Provide a string, or an array of strings to allow multiple scopes (i.e. one of these scopes must match the JWT). See also Checking scope.graceSeconds
(optional, default0
): to account for clock differences between systems, provide the number of seconds beyond JWT expiry (exp
claim) or before "not before" (nbf
claim) you will allow.customJwtCheck
(optional): your custom function with additional JWT (and JWK) checks to execute (see also below).includeRawJwtInErrors
(optional, defaultfalse
): set totrue
if you want to peek inside the invalid JWT when verification fails. Refer to: Peek inside invalid JWTs.
import { CognitoJwtVerifier } from "aws-jwt-verify";
const verifier = CognitoJwtVerifier.create({
userPoolId: "<user_pool_id>", // mandatory, can't be overridden upon calling verify
tokenUse: "id", // needs to be specified here or upon calling verify
clientId: "<client_id>", // needs to be specified here or upon calling verify
group: "admins", // optional
graceSeconds: 0, // optional
scope: "my-api/read", // optional
customJwtCheck: (payload, header, jwk) => {}, // optional
});
try {
const payload = await verifier.verify("eyJraWQeyJhdF9oYXNoIjoidk...", {
group: "users", // Cognito group overridden: should be users (not admins)
});
console.log("Token is valid. Payload:", payload);
} catch {
console.log("Token not valid!");
}
If you provide scopes to the CognitoJwtVerifier
, the verifier will make sure the scope
claim in the JWT includes at least one of those scopes:
import { CognitoJwtVerifier } from "aws-jwt-verify";
const verifier = CognitoJwtVerifier.create({
userPoolId: "<user_pool_id>",
tokenUse: "access", // scopes are only present on Cognito access tokens
clientId: "<client_id>",
scope: ["my-api:write", "my-api:admin"],
});
try {
const payload = await verifier.verify("eyJraWQeyJhdF9oYXNoIjoidk...");
console.log("Token is valid. Payload:", payload);
} catch {
console.log("Token not valid!");
}
So a JWT payload like the following would have a valid scope:
{
"client_id": "<client_id>",
"scope": "my-api:write someotherscope yetanotherscope", // scope string is split on spaces to gather the array of scopes to compare with
"iat": 1234567890,
"...": "..."
}
This scope would not be valid:
{
"client_id": "<client_id>",
"scope": "my-api:read someotherscope yetanotherscope", // Neither "my-api:write" nor "my-api:admin" present
"iat": 1234567890,
"...": "..."
}
It's possible to provide a function with your own custom JWT checks. This function will be called if the JWT is valid, at the end of the JWT verification.
The function will be called with:
- the decoded JWT header
- the decoded JWT payload
- the JWK that was used to verify the JWT
Throw an error in this function if you want to reject the JWT.
import { CognitoJwtVerifier } from "aws-jwt-verify";
const idTokenVerifier = CognitoJwtVerifier.create({
userPoolId: "<user_pool_id>",
tokenUse: "id",
clientId: "<client_id>",
customJwtCheck: async ({ header, payload, jwk }) => {
if (header.someHeaderField !== "expected") {
throw new Error("something wrong with the header");
}
if (payload.somePayloadField !== "expected") {
throw new Error("something wrong with the payload");
}
if (jwk.someJwkfField !== "expected") {
throw new Error("something wrong with the jwk");
}
await someAsyncCheck(...); // can call out to a DB or do whatever
},
});
// This will now throw, even if the JWT is otherwise valid, if your custom function throws:
await idTokenVerifier.verify("eyJraWQeyJhdF9oYXNoIjoidk...");
Note that customJwtCheck
may be an async function, but only if you use verify
(not supported for verifySync
).
If you want to allow JWTs from multiple User Pools, provide an array with these User Pools upon creating the verifier:
import { CognitoJwtVerifier } from "aws-jwt-verify";
// This verifier will trust both User Pools
const idTokenVerifier = CognitoJwtVerifier.create([
{
userPoolId: "<user_pool_id>",
tokenUse: "id",
clientId: "<client_id>", // clientId is mandatory at verifier level now, to disambiguate between User Pools
},
{
userPoolId: "<user_pool_id_2>",
tokenUse: "id",
clientId: "<client_id_2>",
},
]);
try {
const idTokenPayload = await idTokenVerifier.verify(
"eyJraWQeyJhdF9oYXNoIjoidk..." // token must be signed by either of the User Pools
);
console.log("Token is valid. Payload:", idTokenPayload);
} catch {
console.log("Token not valid!");
}
The generic JwtRsaVerifier
(see below) can also be used for Cognito, which is useful if you want to define a verifier that trusts multiple IDPs, i.e. Cognito and another IDP:
import { JwtRsaVerifier } from "aws-jwt-verify";
const verifier = JwtRsaVerifier.create([
{
issuer: "https://cognito-idp.eu-west-1.amazonaws.com/<user_pool_id>",
audience: "<client_id>",
},
{
issuer: "https://example.com/my/other/idp",
audience: "myaudience",
},
]);
The generic JwtRsaVerifier
works for any OIDC-compatible IDP that signs JWTs with RS256/RS384/RS512:
import { JwtRsaVerifier } from "aws-jwt-verify";
const verifier = JwtRsaVerifier.create({
issuer: "https://example.com/", // set this to the expected "iss" claim on your JWTs
audience: "<audience>", // set this to the expected "aud" claim on your JWTs
jwksUri: "https://example.com/.well-known/jwks.json", // set this to the JWKS uri from your OpenID configuration
});
try {
const payload = await verifier.verify("eyJraWQeyJhdF9oYXNoIjoidk...");
console.log("Token is valid. Payload:", payload);
} catch {
console.log("Token not valid!");
}
Support Multiple IDP's:
const verifier = JwtRsaVerifier.create([
{
issuer: "https://example.com/idp1",
audience: "expectedAudienceIdp1",
},
{
issuer: "https://example.com/idp2",
audience: "expectedAudienceIdp2",
},
]);
try {
const otherPayload = await verifier.verify("eyJraWQeyJhdF9oYXNoIjoidk..."); // Token must be from either idp1 or idp2
console.log("Token is valid. Payload:", otherPayload);
} catch {
console.log("Token not valid!");
}
Except issuer
, parameters provided when creating the JwtRsaVerifier
act as defaults, that can be overridden upon calling verify
or verifySync
.
Supported parameters are:
jwksUri
(optional, can only be provided at verifier level): the URI where the JWKS can be downloaded from. To find this URI for your IDP, consult your IDP's OpenId configuration (e.g. by opening the OpenId configuration in your browser). Usually, it is${issuer}/.well-known/jwks.json
, which is the default value that will be used if you don't explicitly providejwksUri
.audience
(mandatory): verify that the JWT'saud
claim matches your expectation. Provide a string, or an array of strings to allow multiple client ids (i.e. one of these audiences must match the JWT). Set tonull
to skip checking audience (not recommended unless you know what you are doing). Note that a JWT'saud
claim might be an array of audiences. TheJwtRsaVerifier
will in that case make sure that at least one of these audiences matches with at least one of the audiences that were provided to the verifier.scope
(optional): verify that the JWT'sscope
claim matches your expectation (only of use for access tokens). Provide a string, or an array of strings to allow multiple scopes (i.e. one of these scopes must match the JWT). See also Checking scope.graceSeconds
(optional, default0
): to account for clock differences between systems, provide the number of seconds beyond JWT expiry (exp
claim) or before "not before" (nbf
claim) you will allow.customJwtCheck
(optional): your custom function with additional JWT checks to execute (see Custom JWT and JWK checks).includeRawJwtInErrors
(optional, defaultfalse
): set totrue
if you want to peek inside the invalid JWT when verification fails. Refer to: Peek inside invalid JWTs.
When verification of a JWT fails, this library will throw an error. All errors are defined in src/error.ts and can be imported and tested for like so:
import { CognitoJwtVerifier } from "aws-jwt-verify";
import { JwtExpiredError } from "aws-jwt-verify/error";
const verifier = CognitoJwtVerifier.create({
userPoolId: "<user_pool_id>",
tokenUse: "access",
clientId: "<client_id>",
});
try {
const payload = await verifier.verify(
"eyJraWQeyJhdF9oYXNoIjoidk..." // the JWT as string
);
} catch (err) {
// An error is thrown, so the JWT is not valid
// Use `instanceof` to test for specific error cases:
if (err instanceof JwtExpiredError) {
console.error("JWT expired!");
}
throw err;
}
If you want to peek inside invalid JWTs, set includeRawJwtInErrors
to true
when creating the verifier. The thrown error will then include the raw JWT:
import { CognitoJwtVerifier } from "aws-jwt-verify";
import { JwtInvalidClaimError } from "aws-jwt-verify/error";
const verifier = CognitoJwtVerifier.create({
userPoolId: "<user_pool_id>",
tokenUse: "access",
clientId: "<client_id>",
includeRawJwtInErrors: true, // can also be specified as parameter to the `verify` call
});
try {
const payload = await verifier.verify(
"eyJraWQeyJhdF9oYXNoIjoidk..." // the JWT as string
);
} catch (err) {
if (err instanceof JwtInvalidClaimError) {
// You can log the payload of the raw JWT, e.g. to aid in debugging and alerting on authentication errors
// Be careful not to disclose information on the error reason to the the client
console.error("JWT invalid because:", err.message);
console.error("Raw JWT:", err.rawJwt.payload);
}
throw new Error("Unauthorized");
}
The instanceof
check in the catch
block above is crucial, because not all errors will include the rawJwt, only errors that subclass JwtInvalidClaimError
will. In order to understand why this makes sense, you should know that this library verifies JWTs in 3 stages, that all must succeed for the JWT to be considered valid:
- Stage 1: Verify JWT structure and JSON parse the JWT
- Stage 2: Verify JWT cryptographic signature (i.e. RS256/RS384/RS512)
- Stage 3: Verify JWT claims (such as e.g. its expiration)
Only in case of stage 3 verification errors, will the raw JWT be included in the error (if you set includeRawJwtInErrors
to true
). This way, when you look at the invalid raw JWT in the error, you'll know that its structure and signature are at least valid (stages 1 and 2 succeeded).
Note that if you use custom JWT checks, you are in charge of throwing errors in your custom code. You can (optionally) subclass your errors from JwtInvalidClaimError
, so that the raw JWT will be included on the errors you throw as well:
import { CognitoJwtVerifier } from "aws-jwt-verify";
import { JwtInvalidClaimError } from "aws-jwt-verify/error";
class CustomError extends JwtInvalidClaimError {}
const verifier = CognitoJwtVerifier.create({
userPoolId: "<user_pool_id>",
tokenUse: "access",
clientId: "<client_id>",
includeRawJwtInErrors: true,
customJwtCheck: ({ payload }) => {
if (payload.custom_claim !== "expected")
throw new CustomError("Invalid JWT", payload.custom_claim, "expected");
},
});
try {
const payload = await verifier.verify(
"eyJraWQeyJhdF9oYXNoIjoidk..." // the JWT as string
);
} catch (err) {
if (err instanceof JwtInvalidClaimError) {
console.error("JWT invalid:", err.rawJwt.payload);
}
throw new Error("Unauthorized");
}
The JWKS cache is responsible for fetching the JWKS from the JWKS URI, caching it, and selecting the right JWK from it. Both the CognitoJwtVerifier
and the (generic) JwtRsaVerifier
utilize an in-memory JWKS cache. For each issuer
a JWKS cache is maintained, and each JWK in a JWKS is selected and cached using its kid
(key id). The JWKS for an issuer
will be fetched once initially, and thereafter only upon key rotations (detected by the occurrence of a JWT with a kid
that is not yet in the cache).
Note: examples below work the same for CognitoJwtVerifier
and JwtRsaVerifier
.
If e.g. your runtime environment doesn't have internet access, or you want to prevent the fetch over the network, you can load the JWKS explicitly yourself:
import { CognitoJwtVerifier } from "aws-jwt-verify";
import { readFileSync } from "fs";
const idTokenVerifier = CognitoJwtVerifier.create({
userPoolId: "<user_pool_id>",
tokenUse: "id",
clientId: "<client_id>",
});
const jwks = JSON.parse(readFileSync("jwks.json", { encoding: "utf-8" }));
idTokenVerifier.cacheJwks(jwks);
// Because the JWKS doesn't need to be downloaded now, you can use verifySync:
try {
const idTokenPayload = idTokenVerifier.verifySync(
"eyJraWQeyJhdF9oYXNoIjoidk..."
);
console.log("Token is valid. Payload:", payload);
} catch {
console.log("Token not valid!");
}
// Async verify will of course work as well (and will use the cache also):
try {
const idTokenPayload = await idTokenVerifier.verify(
"eyJraWQeyJhdF9oYXNoIjoidk..."
);
console.log("Token is valid. Payload:", idTokenPayload);
} catch {
console.log("Token not valid!");
}
Note that the verifier will still try to fetch the JWKS, if it encounters a JWT with a kid that is not in it's cached JWKS (i.e. to cater for key rotations).
Both the CognitoJwtVerifier
and the JwtRsaVerifier
enforce a rate limit of 1 JWKS download per JWKS uri per 10 seconds. This protects users of this library from inadvertently flooding the JWKS uri with requests, and prevents wasting time doing network calls.
The rate limit works as follows (implemented by the penaltyBox
, see below). When the verifier fetches the JWKS and fails to locate the JWT's kid in the JWKS, an error is thrown, and a timer of 10 seconds is started. Until that timer completes, the verifier will refuse to fetch the particular JWKS uri again. It will instead throw an error immediately on verify
calls where that would require the JWKS to be downloaded.
The verifier will continue to verify JWTs for which the right JWK is already present in the cache, also it will still try other JWKS uris (for other issuers).
It is possible to implement a different rate limiting scheme yourself, by customizing the JWKS cache, or the penaltyBox
implementation, see below.
In a long running Node.js API (e.g. a Fargate container), it might make sense to hydrate the JWKS cache upon server start up. This will speed up the first JWT verification, as the JWKS doesn't have to be downloaded anymore.
This call will always fetch the current, latest, JWKS for each of the verifier's issuers (even though the JWKS might have been fetched and cached before):
const verifier = JwtRsaVerifier.create([
{
issuer: "https://example.com/idp1",
audience: "myappclient1",
},
{
issuer: "https://example.com/idp2",
audience: "myappclient2",
},
]);
// Fetch and cache the JWKS for all configured issuers
await verifier.hydrate();
Note: it is only useful to call this method if your calling process has an idle time window, in which it might just as well fetch the JWKS. For example, during container start up, when the load balancer does not yet route traffic to the container. Calling this method inside API Gateway custom authorizers or Lambda@Edge has no benefit (in fact, awaiting the call as part of the Lambda handler would even hurt performance as it bypasses the existing cached JWKS).
If you have a predefined rotation schedule for your JWKS, you could set the refresh interval of the verifier aligned to this schedule:
import { JwtRsaVerifier } from "aws-jwt-verify";
const verifier = JwtRsaVerifier.create({
issuer: "https://example.com/",
audience: "<audience>",
});
setInterval(() => {
verifier.cacheJwks({ keys: [] }); // empty cache, by loading an empty JWKS
}, 1000 * 60 * 60 * 4); // For a 4 hour refresh schedule
If an automated rotation does not fit your use case, and you need to clear out the JWKS cache, you could use:
verifier.cacheJwks({ keys: [] });
When you instantiate a CognitoJwtVerifier
or JwtRsaVerifier
without providing a JwksCache
, the SimpleJwksCache
is used:
import { JwtRsaVerifier } from "aws-jwt-verify";
import { SimpleJwksCache } from "aws-jwt-verify/jwk";
const verifier = JwtRsaVerifier.create({
issuer: "http://my-tenant.my-idp.com",
});
// Equivalent:
const verifier2 = JwtRsaVerifier.create(
{
issuer: "http://my-tenant.my-idp.com",
},
{
jwksCache: new SimpleJwksCache(),
}
);
The SimpleJwksCache
can be tailored by using a different penaltyBox
and/or fetcher
(see below).
Alternatively, you can implement an entirely custom JwksCache
yourself, by creating a class that implements the interface JwksCache
(from "aws-jwt-verify/jwk"
). This allows for highly custom scenario's, e.g. you could implement a JwksCache
with custom logic for selecting a JWK from the JWKS.
If you want to define multiple verifiers for the same JWKS uri, it makes sense to share the JWKS cache, so the JWKS will be downloaded and cached once:
import { JwtRsaVerifier } from "aws-jwt-verify";
import { SimpleJwksCache } from "aws-jwt-verify/jwk";
const sharedJwksCache = new SimpleJwksCache();
const verifierA = JwtRsaVerifier.create(
{
jwksUri: "https://example.com/keys/jwks.json",
issuer: "https://example.com/",
audience: "<audience>",
},
{
jwksCache: sharedJwksCache,
}
);
const verifierB = JwtRsaVerifier.create(
{
jwksUri: "https://example.com/keys/jwks.json", // same JWKS URI, so sharing cache makes sense
issuer: "https://example.com/",
audience: "<audience>",
},
{
jwksCache: sharedJwksCache,
}
);
When instantiating SimpleJwksCache
, the fetcher
property can be populated with an instance of a class that implements the interface JsonFetcher
(from "aws-jwt-verify/https"
), such as the SimpleJsonFetcher
(which is the default).
The purpose of the fetcher, is to execute fetches against the JWKS uri (HTTPS GET) and parse the resulting JSON file.
The default implementation, the SimpleJsonFetcher
, has basic machinery to do fetches over HTTPS. It does 1 (immediate) retry in case of connection errors.
By supplying a custom fetcher when instantiating SimpleJwksCache
, instead of SimpleJsonFetcher
, you can implement any retry and backoff scheme you want, or use another HTTPS library:
import { JwtRsaVerifier } from "aws-jwt-verify";
import { SimpleJwksCache } from "aws-jwt-verify/jwk";
import { JsonFetcher } from "aws-jwt-verify/https";
import axios from "axios";
// Use axios to do the HTTPS fetches
class CustomFetcher implements JsonFetcher {
instance = axios.create();
public async fetch(uri: string) {
return this.instance.get(uri).then((response) => response.data);
}
}
const verifier = JwtRsaVerifier.create(
{
issuer: "http://my-tenant.my-idp.com",
},
{
jwksCache: new SimpleJwksCache({
fetcher: new CustomFetcher(),
}),
}
);
When instantiating SimpleJwksCache
, the penaltyBox
property can be populated with an instance of a class that implements the interface PenaltyBox
(from "aws-jwt-verify/jwk"
), such as the SimplePenaltyBox
(which is the default).
The SimpleJwksCache
will always do await penaltyBox.wait(jwksUri, kid)
before asking the fetcher
to fetch the JWKS.
By supplying a custom penaltyBox when instantiating SimpleJwksCache
, instead of SimplePenaltyBox
, you can implement any waiting scheme you want, in your implementation of the wait
function.
The SimpleJwksCache
will call penaltyBox.registerSuccessfulAttempt(jwksUri, kid)
when it succeeds in locating the right JWK in the JWKS, and call penaltyBox.registerFailedAttempt(jwksUri, kid)
otherwise. You need to process these calls, so that you can determine the right amount of waiting in your wait
implementation.
import { JwtRsaVerifier } from "aws-jwt-verify";
import {
SimpleJwksCache,
SimplePenaltyBox,
PenaltyBox,
} from "aws-jwt-verify/jwk";
// In this example we use the SimplePenaltyBox, but override the default wait period
const verifier = JwtRsaVerifier.create(
{
issuer: "http://my-tenant.my-idp.com",
},
{
jwksCache: new SimpleJwksCache({
penaltyBox: new SimplePenaltyBox({ waitSeconds: 1 }),
}),
}
);
// Or implement your own penaltyBox
// The example here just stupidly waits 5 second always,
// even on the first fetch of the JWKS uri
class CustomPenaltyBox implements PenaltyBox {
public async wait(jwksUri: string, kid: string) {
// implement something better
await new Promise((resolve) => setTimeout(resolve, 5000));
}
public registerFailedAttempt(jwksUri: string, kid: string) {
// implement
}
public registerSuccessfulAttempt(jwksUri: string, kid: string) {
// implement
}
}
const verifier2 = JwtRsaVerifier.create(
{
issuer: "http://my-tenant.my-idp.com",
},
{
jwksCache: new SimpleJwksCache({ penaltyBox: new CustomPenaltyBox() }),
}
);
The verifier should be instantiated outside the Lambda handler, so the verifier's cache can be reused for subsequent requests for as long as the Lambda functions stays "hot".
This is an example of a Viewer Request Lambda@Edge function, that inspects each incoming request. It requires each incoming request to have a valid JWT (in this case an access token that includes scope "read") in the HTTP "Authorization" header.
const { CognitoJwtVerifier } = require("aws-jwt-verify");
// Create the verifier outside the Lambda handler (= during cold start),
// so the cache can be reused for subsequent invocations. Then, only during the
// first invocation, will the verifier actually need to fetch the JWKS.
const jwtVerifier = CognitoJwtVerifier.create({
userPoolId: "<user_pool_id>",
tokenUse: "access",
clientId: "<client_id>",
scope: "read",
});
exports.handler = async (event) => {
const accessToken = event.Records[0].cf.request.headers["authorization"];
try {
await jwtVerifier.verify(accessToken);
} catch {
return {
status: "403",
body: "Unauthorized",
};
}
return request; // allow request to proceed
};
The verifier should be instantiated outside the Lambda handler, so the verifier's cache can be reused for subsequent requests for as long as the Lambda functions stays "hot".
Two types of API Gateway Lambda authorizers could be created - token based and request-based. For both the types of authorizers, you could use the AWS API Gateway Lambda Authorizer BluePrint as a reference pattern where the token validation could be achieved as follows
For token based authorizers, where lambda event payload is set to Token
and token source is set to (http) Header
with name authorization
:
const { CognitoJwtVerifier } = require("aws-jwt-verify");
// Create the verifier outside the Lambda handler (= during cold start),
// so the cache can be reused for subsequent invocations. Then, only during the
// first invocation, will the verifier actually need to fetch the JWKS.
const jwtVerifier = CognitoJwtVerifier.create({
userPoolId: "<user_pool_id>",
tokenUse: "access",
clientId: "<client_id>",
scope: "read",
});
exports.handler = async (event) => {
const accessToken = event.authorizationToken;
let payload;
try {
// If the token is not valid, an error is thrown:
payload = await jwtVerifier.verify(accessToken);
} catch {
// API Gateway wants this *exact* error message, otherwise it returns 500 instead of 401:
throw new Error("Unauthorized");
}
// Proceed with additional authorization logic
// ...
};
For request based authorizers, where lambda event payload is set to Request
and identity source is set to (http) Header
with name authorization
:
const { CognitoJwtVerifier } = require("aws-jwt-verify");
// Create the verifier outside the Lambda handler (= during cold start),
// so the cache can be reused for subsequent invocations. Then, only during the
// first invocation, will the verifier actually need to fetch the JWKS.
const jwtVerifier = CognitoJwtVerifier.create({
userPoolId: "<user_pool_id>",
tokenUse: "access",
clientId: "<client_id>",
scope: "read",
});
exports.handler = async (event) => {
const accessToken = event.headers["authorization"];
let payload;
try {
// If the token is not valid, an error is thrown:
payload = await jwtVerifier.verify(accessToken);
} catch {
// API Gateway wants this *exact* error message, otherwise it returns 500 instead of 401:
throw new Error("Unauthorized");
}
// Proceed with additional authorization logic
// ...
};
An example of a sample HTTP Lambda authorizer is included here as part of the test suite for the solution (format 2.0).
The verifier should be instantiated outside the Lambda handler, so the verifier's cache can be reused for subsequent requests for as long as the Lambda functions stays "hot".
This is an example of AppSync Lambda Authorization function, that validates the JWT is valid (in this case an access token that includes scope "read") along with other authorization business logic
const { CognitoJwtVerifier } = require("aws-jwt-verify");
// Create the verifier outside the Lambda handler (= during cold start),
// so the cache can be reused for subsequent invocations. Then, only during the
// first invocation, will the verifier actually need to fetch the JWKS.
const jwtVerifier = CognitoJwtVerifier.create({
userPoolId: "<user_pool_id>",
tokenUse: "access",
clientId: "<client_id>",
scope: "read",
});
exports.handler = async (event) => {
const accessToken = event.authorizationToken;
try {
await jwtVerifier.verify(accessToken);
} catch {
return {
isAuthorized: false,
};
}
//Proceed with additional authorization logic
};
const { CognitoJwtVerifier } = require("aws-jwt-verify");
const fastify = require("fastify")({ logger: true });
// Create the verifier outside your route handlers,
// so the cache is persisted and can be shared amongst them.
const jwtVerifier = CognitoJwtVerifier.create({
userPoolId: "<user_pool_id>",
tokenUse: "access",
clientId: "<client_id>",
scope: "read",
});
fastify.get("/", async (request, reply) => {
try {
// A valid JWT is expected in the HTTP header "authorization"
await jwtVerifier.verify(request.headers.authorization);
} catch (authErr) {
fastify.log.error(authErr);
const err = new Error();
err.statusCode = 403;
throw err;
}
return { private: "only visible to users sending a valid JWT" };
});
const startFastify = async () => {
try {
await fastify.listen(3000);
} catch (err) {
fastify.log.error(err);
process.exit(1);
}
};
// Hydrate the JWT verifier, and start Fastify.
// Hydrating the verifier makes sure the JWKS is loaded into the JWT verifier,
// so it can verify JWTs immediately without any latency.
// (Alternatively, just start Fastify, the JWKS will be downloaded when the first JWT is being verified then)
Promise.all([jwtVerifier.hydrate(), () => fastify.listen(3000)]).catch(
(err) => {
fastify.log.error(err);
process.exit(1);
}
);
const { CognitoJwtVerifier } = require("aws-jwt-verify");
const express = require("express");
const app = express();
const port = 3000;
// Create the verifier outside your route handlers,
// so the cache is persisted and can be shared amongst them.
const jwtVerifier = CognitoJwtVerifier.create({
userPoolId: "<user_pool_id>",
tokenUse: "access",
clientId: "<client_id>",
scope: "read",
});
app.get("/", async (req, res, next) => {
try {
// A valid JWT is expected in the HTTP header "authorization"
await jwtVerifier.verify(req.header("authorization"));
} catch (err) {
console.error(err);
return res.status(403).json({ statusCode: 403, message: "Forbidden" });
}
res.json({ private: "only visible to users sending a valid JWT" });
});
// Hydrate the JWT verifier, then start express.
// Hydrating the verifier makes sure the JWKS is loaded into the JWT verifier,
// so it can verify JWTs immediately without any latency.
// (Alternatively, just start express, the JWKS will be downloaded when the first JWT is being verified then)
jwtVerifier
.hydrate()
.catch((err) => {
console.error(`Failed to hydrate JWT verifier: ${err}`);
process.exit(1);
})
.then(() =>
app.listen(port, () => {
console.log(`Example app listening at http://localhost:${port}`);
})
);
See CONTRIBUTING for more information.
This project is licensed under the Apache-2.0 License.