io.jsonwebtoken.security.Keys Maven / Gradle / Ivy
/*
* Copyright (C) 2014 jsonwebtoken.io
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package io.jsonwebtoken.security;
import io.jsonwebtoken.SignatureAlgorithm;
import io.jsonwebtoken.lang.Assert;
import io.jsonwebtoken.lang.Classes;
import javax.crypto.SecretKey;
import javax.crypto.spec.SecretKeySpec;
import java.security.KeyPair;
import java.util.Arrays;
import java.util.Collections;
import java.util.List;
/**
* Utility class for securely generating {@link SecretKey}s and {@link KeyPair}s.
*
* @since 0.10.0
*/
public final class Keys {
private static final String MAC = "io.jsonwebtoken.impl.crypto.MacProvider";
private static final String RSA = "io.jsonwebtoken.impl.crypto.RsaProvider";
private static final String EC = "io.jsonwebtoken.impl.crypto.EllipticCurveProvider";
private static final Class[] SIG_ARG_TYPES = new Class[]{SignatureAlgorithm.class};
//purposefully ordered higher to lower:
private static final List PREFERRED_HMAC_ALGS = Collections.unmodifiableList(Arrays.asList(
SignatureAlgorithm.HS512, SignatureAlgorithm.HS384, SignatureAlgorithm.HS256));
//prevent instantiation
private Keys() {
}
/*
public static final int bitLength(Key key) throws IllegalArgumentException {
Assert.notNull(key, "Key cannot be null.");
if (key instanceof SecretKey) {
byte[] encoded = key.getEncoded();
return Arrays.length(encoded) * 8;
} else if (key instanceof RSAKey) {
return ((RSAKey)key).getModulus().bitLength();
} else if (key instanceof ECKey) {
return ((ECKey)key).getParams().getOrder().bitLength();
}
throw new IllegalArgumentException("Unsupported key type: " + key.getClass().getName());
}
*/
/**
* Creates a new SecretKey instance for use with HMAC-SHA algorithms based on the specified key byte array.
*
* @param bytes the key byte array
* @return a new SecretKey instance for use with HMAC-SHA algorithms based on the specified key byte array.
* @throws WeakKeyException if the key byte array length is less than 256 bits (32 bytes) as mandated by the
* JWT JWA Specification
* (RFC 7518, Section 3.2)
*/
public static SecretKey hmacShaKeyFor(byte[] bytes) throws WeakKeyException {
if (bytes == null) {
throw new InvalidKeyException("SecretKey byte array cannot be null.");
}
int bitLength = bytes.length * 8;
for (SignatureAlgorithm alg : PREFERRED_HMAC_ALGS) {
if (bitLength >= alg.getMinKeyLength()) {
return new SecretKeySpec(bytes, alg.getJcaName());
}
}
String msg = "The specified key byte array is " + bitLength + " bits which " +
"is not secure enough for any JWT HMAC-SHA algorithm. The JWT " +
"JWA Specification (RFC 7518, Section 3.2) states that keys used with HMAC-SHA algorithms MUST have a " +
"size >= 256 bits (the key size must be greater than or equal to the hash " +
"output size). Consider using the " + Keys.class.getName() + "#secretKeyFor(SignatureAlgorithm) method " +
"to create a key guaranteed to be secure enough for your preferred HMAC-SHA algorithm. See " +
"https://tools.ietf.org/html/rfc7518#section-3.2 for more information.";
throw new WeakKeyException(msg);
}
/**
* Returns a new {@link SecretKey} with a key length suitable for use with the specified {@link SignatureAlgorithm}.
*
* JWA Specification (RFC 7518), Section 3.2
* requires minimum key lengths to be used for each respective Signature Algorithm. This method returns a
* secure-random generated SecretKey that adheres to the required minimum key length. The lengths are:
*
*
* JWA HMAC-SHA Key Length Requirements
*
* Algorithm
* Key Length
*
*
* HS256
* 256 bits (32 bytes)
*
*
* HS384
* 384 bits (48 bytes)
*
*
* HS512
* 512 bits (64 bytes)
*
*
*
* @param alg the {@code SignatureAlgorithm} to inspect to determine which key length to use.
* @return a new {@link SecretKey} instance suitable for use with the specified {@link SignatureAlgorithm}.
* @throws IllegalArgumentException for any input value other than {@link SignatureAlgorithm#HS256},
* {@link SignatureAlgorithm#HS384}, or {@link SignatureAlgorithm#HS512}
*/
public static SecretKey secretKeyFor(SignatureAlgorithm alg) throws IllegalArgumentException {
Assert.notNull(alg, "SignatureAlgorithm cannot be null.");
switch (alg) {
case HS256:
case HS384:
case HS512:
return Classes.invokeStatic(MAC, "generateKey", SIG_ARG_TYPES, alg);
default:
String msg = "The " + alg.name() + " algorithm does not support shared secret keys.";
throw new IllegalArgumentException(msg);
}
}
/**
* Returns a new {@link KeyPair} suitable for use with the specified asymmetric algorithm.
*
* If the {@code alg} argument is an RSA algorithm, a KeyPair is generated based on the following:
*
*
* Generated RSA Key Sizes
*
* JWA Algorithm
* Key Size
*
*
* RS256
* 2048 bits
*
*
* PS256
* 2048 bits
*
*
* RS384
* 3072 bits
*
*
* PS384
* 3072 bits
*
*
* RS512
* 4096 bits
*
*
* PS512
* 4096 bits
*
*
*
* If the {@code alg} argument is an Elliptic Curve algorithm, a KeyPair is generated based on the following:
*
*
* Generated Elliptic Curve Key Parameters
*
* JWA Algorithm
* Key Size
* JWA Curve Name
* ASN1 OID Curve Name
*
*
* EC256
* 256 bits
* {@code P-256}
* {@code secp256r1}
*
*
* EC384
* 384 bits
* {@code P-384}
* {@code secp384r1}
*
*
* EC512
* 512 bits
* {@code P-521}
* {@code secp521r1}
*
*
*
* @param alg the {@code SignatureAlgorithm} to inspect to determine which asymmetric algorithm to use.
* @return a new {@link KeyPair} suitable for use with the specified asymmetric algorithm.
* @throws IllegalArgumentException if {@code alg} is not an asymmetric algorithm
*/
public static KeyPair keyPairFor(SignatureAlgorithm alg) throws IllegalArgumentException {
Assert.notNull(alg, "SignatureAlgorithm cannot be null.");
switch (alg) {
case RS256:
case PS256:
case RS384:
case PS384:
case RS512:
case PS512:
return Classes.invokeStatic(RSA, "generateKeyPair", SIG_ARG_TYPES, alg);
case ES256:
case ES384:
case ES512:
return Classes.invokeStatic(EC, "generateKeyPair", SIG_ARG_TYPES, alg);
default:
String msg = "The " + alg.name() + " algorithm does not support Key Pairs.";
throw new IllegalArgumentException(msg);
}
}
}