FusionAuth JWT is intended to be fast and easy to use. FusionAuth JWT has a single external dependency on Jackson, no Bouncy Castle, Apache Commons or Guava.
If you find a vulnerability or other security related bug, please send a note to [email protected] before opening a GitHub issue. This will allow us to assess the disclosure and prepare a fix prior to a public disclosure.
We are very interested in compensating anyone that can identify a security related bug or vulnerability and properly disclose it to use.
- JWT signing using HMAC, RSA and Elliptic Curve support
HS256
,HS384
,HS512
,RS256
,RS384
,RS512
,ES256
,ES384
,ES512
- PEM decoding / encoding
- Decode PEM files to PrivateKey or PublicKey
- Decode private EC keys un-encapsulated in PKCS#8, returned PEM will be in PKCS#8 form.
- Both public and private keys will be returned when encoded in the private PEM
- Encode PrivateKey or PublicKey to PEM
- Decode PEM files to PrivateKey or PublicKey
- JSON Web Key
- Build JWK from Private Key
- Build JWK from Public Key
- Build JWK from PEM
- Helpers
- Generate RSA Key Pairs in
2048
,3072
or4096
bit sizes - Generate EC Key Pairs in
256
,384
and521
bit sizes - Generate
x5t
andx5t#256
values from X.509 Certificates - Generate ideal HMAC secret lengths for
SHA-256
,SHA-384
andSHA-512
- Generate the
at_hash
andc_hash
claims for OpenID Connect
- Generate RSA Key Pairs in
<dependency>
<groupId>io.fusionauth</groupId>
<artifactId>fusionauth-jwt</artifactId>
<version>3.0.0</version>
</dependency>
// Build an HMAC signer using a SHA-256 hash
Signer signer = HMACSigner.newSHA256Signer("too many secrets");
// Build a new JWT with an issuer(iss), issued at(iat), subject(sub) and expiration(exp)
JWT jwt = new JWT().setIssuer("www.acme.com")
.setIssuedAt(ZonedDateTime.now(ZoneOffset.UTC))
.setSubject("f1e33ab3-027f-47c5-bb07-8dd8ab37a2d3")
.setExpiration(ZonedDateTime.now(ZoneOffset.UTC).plusMinutes(60));
// Sign and encode the JWT to a JSON string representation
String encodedJWT = JWT.getEncoder().encode(jwt, signer);
A higher strength hash can be used by changing the signer. The encoding and decoding steps are not affected.
// Build an HMAC signer using a SHA-384 hash
Signer signer384 = HMACSigner.newSHA384Signer("too many secrets");
// Build an HMAC signer using a SHA-512 hash
Signer signer512 = HMACSigner.newSHA512Signer("too many secrets");
// Build an HMC verifier using the same secret that was used to sign the JWT
Verifier verifier = HMACVerifier.newVerifier("too many secrets");
// Verify and decode the encoded string JWT to a rich object
JWT jwt = JWT.getDecoder().decode(encodedJWT, verifier);
// Assert the subject of the JWT is as expected
assertEquals(jwt.subject, "f1e33ab3-027f-47c5-bb07-8dd8ab37a2d3");
// Build an RSA signer using a SHA-256 hash
Signer signer = RSASigner.newSHA256Signer(new String(Files.readAllBytes(Paths.get("private_key.pem"))));
// Build a new JWT with an issuer(iss), issued at(iat), subject(sub) and expiration(exp)
JWT jwt = new JWT().setIssuer("www.acme.com")
.setIssuedAt(ZonedDateTime.now(ZoneOffset.UTC))
.setSubject("f1e33ab3-027f-47c5-bb07-8dd8ab37a2d3")
.setExpiration(ZonedDateTime.now(ZoneOffset.UTC).plusMinutes(60));
// Sign and encode the JWT to a JSON string representation
String encodedJWT = JWT.getEncoder().encode(jwt, signer);
A higher strength hash can be used by changing the signer. The encoding and decoding steps are not affected.
// Build an RSA signer using a SHA-384 hash
Signer signer = RSASigner.newSHA384Signer(new String(Files.readAllBytes(Paths.get("private_key.pem"))));
// Build an RSA signer using a SHA5124 hash
Signer signer = RSASigner.newSHA512Signer(new String(Files.readAllBytes(Paths.get("private_key.pem"))));
// Build an RSA verifier using an RSA Public Key
Verifier verifier = RSAVerifier.newVerifier(Paths.get("public_key.pem"));
// Verify and decode the encoded string JWT to a rich object
JWT jwt = JWT.getDecoder().decode(encodedJWT, verifier);
// Assert the subject of the JWT is as expected
assertEquals(jwt.subject, "f1e33ab3-027f-47c5-bb07-8dd8ab37a2d3");
// Build an EC signer using a SHA-256 hash
Signer signer = ECSigner.newSHA256Signer(new String(Files.readAllBytes(Paths.get("private_key.pem"))));
// Build a new JWT with an issuer(iss), issued at(iat), subject(sub) and expiration(exp)
JWT jwt = new JWT().setIssuer("www.acme.com")
.setIssuedAt(ZonedDateTime.now(ZoneOffset.UTC))
.setSubject("f1e33ab3-027f-47c5-bb07-8dd8ab37a2d3")
.setExpiration(ZonedDateTime.now(ZoneOffset.UTC).plusMinutes(60));
// Sign and encode the JWT to a JSON string representation
String encodedJWT = JWT.getEncoder().encode(jwt, signer);
A higher strength hash can be used by changing the signer. The encoding and decoding steps are not affected.
// Build an EC signer using a SHA-384 hash
Signer signer = ECSigner.newSHA384Signer(new String(Files.readAllBytes(Paths.get("private_key.pem"))));
// Build an EC signer using a SHA-512 hash
Signer signer = ECSigner.newSHA512Signer(new String(Files.readAllBytes(Paths.get("private_key.pem"))));
// Build an EC verifier using an EC Public Key
Verifier verifier = ECSigner.newVerifier(Paths.get("public_key.pem"));
// Verify and decode the encoded string JWT to a rich object
JWT jwt = JWT.getDecoder().decode(encodedJWT, verifier);
// Assert the subject of the JWT is as expected
assertEquals(jwt.subject, "f1e33ab3-027f-47c5-bb07-8dd8ab37a2d3");
JSONWebKey jwk = JSONWebKey.build(publicKey);
String json = jwk.toJSON();
{
"e": "AQAB",
"kty": "RSA",
"n": "Auchby3lZKHbiAZrTkJh79hJvgC3W7STSS4y6UZEhhxx3m3W2hD8qCyw6BEyrciPpwou-vmeDN7qBSk2QKqTTjlg5Pkf8O4z8d9HAlBTUDg4p98qLFOF2EFWWTiFbQwAP2qODOIv9WCAM2rkXEPwGiF962XAoOwiSmldeDu7Uo5A-bnTi0z3oNu4qm_48kv90o9CMiELszE9jsfoH32WE71HDqhsRjVNddDJ81e5zxBN8UEmaR-gmWqa63laON2KANPugJP7PrYJ_PC9ilQfV3F1rDpqbvlFQkshohJ39VrVpEtSRmJ12nqTFuspXLApekOyic3J9jo6ZI7o3IdQmy3bpnJIT_U",
"use": "sig"
}
JSONWebKey jwk = JSONWebKey.build(privateKey);
String json = jwk.toJSON();
{
"p": "9dy6wUxA0eOHopUP-E5QjDzuW8rXdaQMR566oDJ1qL0iD0koQAB9X3hboB-2Rru0aATu6WDW-jd4mgtYnXO8ow",
"kty": "RSA",
"q": "6Nfc6c8meTRkVRAHCF24LB5GLfsjoMB0tOeEO9w9Ous1a4o-D24bAePMUImAp3woFoNDRfWtlNktOqLel5Pjew",
"d": "C0G3QGI6OQ6tvbCNYGCqq043YI_8MiBl7C5dqbGZmx1ewdJBhMNJPStuckhskURaDwk4-8VBW9SlvcfSJJrnZhgFMjOYSSsBtPGBIMIdM5eSKbenCCjO8Tg0BUh_xa3CHST1W4RQ5rFXadZ9AeNtaGcWj2acmXNO3DVETXAX3x0",
"e": "AQAB",
"use": "sig",
"qi": "XLE5O360x-MhsdFXx8Vwz4304-MJg-oGSJXCK_ZWYOB_FGXFRTfebxCsSYi0YwJo-oNu96bvZCuMplzRI1liZw",
"dp": "32QGgDmjr9GX3N6p2wh1YWa_gMHmUSqUScLseUA_7eijeNYU70pCoCtAvVXzDYPhoJ3S4lQuIL2kI_tpMe8GFw",
"dq": "21tJjqeN-k-mWhCwX2xTbpTSzsyy4uWMzUTy6aXxtUkTWY2yK70yClS-Df2MS70G0za0MPtjnUAAgSYhB7HWcw",
"n": "359ZykLITko_McOOKAtpJRVkjS5itwZxzjQidW2X6tBEOYCH4LZbwfj8fGGvlUtzpyuwnYuIlNX8TvZLTenOk45pphXr5PMCMKi7YZgkhd6_t_oeHnXY-4bnDLF1r9OUFKwj6C-mFFM-woKc-62tuK6QJiuc-5bFfn9wRL15K1E"
}
JSONWebKey jwk = JSONWebKey.build(privateKey)
.add("boom", "goes the dynamite")
.add("more", "cowbell");
String json = jwk.toJSON();
{
"alg" : "ES256",
"boom" : "goes the dynamite",
"crv" : "P-256",
"kty" : "EC",
"more" : "cowbell",
"use" : "sig",
"x" : "NIWpsIea0qzB22S0utDG8dGFYqEInv9C7ZgZuKtwjno",
"y" : "iVFFtTgiInz_fjh-n1YqbibnUb2vtBZFs3wPpQw3mc0"
}
$ mvn install
$ sb int
Note: If you do not yet have Savant build tool installed, use the following instructions.
$ mkdir ~/savant
$ cd ~/savant
$ wget http://savant.inversoft.org/org/savantbuild/savant-core/1.0.0/savant-1.0.0.tar.gz
$ tar xvfz savant-1.0.0.tar.gz
$ ln -s ./savant-1.0.0 current
$ export PATH=$PATH:~/savant/current/bin/
For more information, checkout savantbuild.org.