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/*
* Copyright (c) 1997, 2020, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
package com.sun.crypto.provider;
import java.security.AccessController;
import java.security.Provider;
import java.security.SecureRandom;
import java.security.PrivilegedAction;
import java.util.HashMap;
import java.util.List;
import static sun.security.util.SecurityConstants.PROVIDER_VER;
import static sun.security.util.SecurityProviderConstants.*;
/**
* The "SunJCE" Cryptographic Service Provider.
*
* @author Jan Luehe
* @author Sharon Liu
*/
/**
* Defines the "SunJCE" provider.
*
* Supported algorithms and their names:
*
* - RSA encryption (PKCS#1 v1.5 and raw)
*
* - DES
*
* - DES-EDE
*
* - AES
*
* - Blowfish
*
* - RC2
*
* - ARCFOUR (RC4 compatible)
*
* - ChaCha20 (Stream cipher only and in AEAD mode with Poly1305)
*
* - Cipher modes ECB, CBC, CFB, OFB, PCBC, CTR, and CTS for all block ciphers
* and mode GCM for AES cipher
*
* - Cipher padding ISO10126Padding for non-PKCS#5 block ciphers and
* NoPadding and PKCS5Padding for all block ciphers
*
* - Password-based Encryption (PBE)
*
* - Diffie-Hellman Key Agreement
*
* - HMAC-MD5, HMAC-SHA1, HMAC with SHA2 family and SHA3 family of digests
*
*/
public final class SunJCE extends Provider {
@java.io.Serial
private static final long serialVersionUID = 6812507587804302833L;
private static final String info = "SunJCE Provider " +
"(implements RSA, DES, Triple DES, AES, Blowfish, ARCFOUR, RC2, PBE, "
+ "Diffie-Hellman, HMAC, ChaCha20)";
/* Are we debugging? -- for developers */
static final boolean debug = false;
// Instance of this provider, so we don't have to call the provider list
// to find ourselves or run the risk of not being in the list.
private static volatile SunJCE instance;
// lazy initialize SecureRandom to avoid potential recursion if Sun
// provider has not been installed yet
private static class SecureRandomHolder {
static final SecureRandom RANDOM = new SecureRandom();
}
static SecureRandom getRandom() { return SecureRandomHolder.RANDOM; }
// ps: putService
private void ps(String type, String algo, String cn) {
putService(new Provider.Service(this, type, algo, cn, null, null));
}
private void ps(String type, String algo, String cn, List<String> als,
HashMap<String, String> attrs) {
putService(new Provider.Service(this, type, algo, cn, als,
attrs));
}
// psA: putService with default aliases
private void psA(String type, String algo, String cn,
HashMap<String, String> attrs) {
putService(new Provider.Service(this, type, algo, cn, getAliases(algo),
attrs));
}
public SunJCE() {
/* We are the "SunJCE" provider */
super("SunJCE", PROVIDER_VER, info);
// if there is no security manager installed, put directly into
// the provider
if (System.getSecurityManager() == null) {
putEntries();
} else {
AccessController.doPrivileged(new PrivilegedAction<Void>() {
@Override
public Void run() {
putEntries();
return null;
}
});
}
if (instance == null) {
instance = this;
}
}
void putEntries() {
// reuse attribute map and reset before each reuse
HashMap<String, String> attrs = new HashMap<>(3);
attrs.put("SupportedModes", "ECB");
attrs.put("SupportedPaddings", "NOPADDING|PKCS1PADDING|OAEPPADDING"
+ "|OAEPWITHMD5ANDMGF1PADDING"
+ "|OAEPWITHSHA1ANDMGF1PADDING"
+ "|OAEPWITHSHA-1ANDMGF1PADDING"
+ "|OAEPWITHSHA-224ANDMGF1PADDING"
+ "|OAEPWITHSHA-256ANDMGF1PADDING"
+ "|OAEPWITHSHA-384ANDMGF1PADDING"
+ "|OAEPWITHSHA-512ANDMGF1PADDING"
+ "|OAEPWITHSHA-512/224ANDMGF1PADDING"
+ "|OAEPWITHSHA-512/256ANDMGF1PADDING");
attrs.put("SupportedKeyClasses",
"java.security.interfaces.RSAPublicKey" +
"|java.security.interfaces.RSAPrivateKey");
ps("Cipher", "RSA",
"com.sun.crypto.provider.RSACipher", null, attrs);
// common block cipher modes, pads
final String BLOCK_MODES = "ECB|CBC|PCBC|CTR|CTS|CFB|OFB" +
"|CFB8|CFB16|CFB24|CFB32|CFB40|CFB48|CFB56|CFB64" +
"|OFB8|OFB16|OFB24|OFB32|OFB40|OFB48|OFB56|OFB64";
final String BLOCK_MODES128 = BLOCK_MODES +
"|GCM|CFB72|CFB80|CFB88|CFB96|CFB104|CFB112|CFB120|CFB128" +
"|OFB72|OFB80|OFB88|OFB96|OFB104|OFB112|OFB120|OFB128";
final String BLOCK_PADS = "NOPADDING|PKCS5PADDING|ISO10126PADDING";
attrs.clear();
attrs.put("SupportedModes", BLOCK_MODES);
attrs.put("SupportedPaddings", BLOCK_PADS);
attrs.put("SupportedKeyFormats", "RAW");
ps("Cipher", "DES",
"com.sun.crypto.provider.DESCipher", null, attrs);
psA("Cipher", "DESede", "com.sun.crypto.provider.DESedeCipher",
attrs);
ps("Cipher", "Blowfish",
"com.sun.crypto.provider.BlowfishCipher", null, attrs);
ps("Cipher", "RC2",
"com.sun.crypto.provider.RC2Cipher", null, attrs);
attrs.clear();
attrs.put("SupportedModes", BLOCK_MODES128);
attrs.put("SupportedPaddings", BLOCK_PADS);
attrs.put("SupportedKeyFormats", "RAW");
psA("Cipher", "AES",
"com.sun.crypto.provider.AESCipher$General", attrs);
attrs.clear();
attrs.put("SupportedKeyFormats", "RAW");
psA("Cipher", "AES_128/ECB/NoPadding",
"com.sun.crypto.provider.AESCipher$AES128_ECB_NoPadding",
attrs);
psA("Cipher", "AES_128/CBC/NoPadding",
"com.sun.crypto.provider.AESCipher$AES128_CBC_NoPadding",
attrs);
psA("Cipher", "AES_128/OFB/NoPadding",
"com.sun.crypto.provider.AESCipher$AES128_OFB_NoPadding",
attrs);
psA("Cipher", "AES_128/CFB/NoPadding",
"com.sun.crypto.provider.AESCipher$AES128_CFB_NoPadding",
attrs);
psA("Cipher", "AES_128/GCM/NoPadding",
"com.sun.crypto.provider.AESCipher$AES128_GCM_NoPadding",
attrs);
psA("Cipher", "AES_192/ECB/NoPadding",
"com.sun.crypto.provider.AESCipher$AES192_ECB_NoPadding",
attrs);
psA("Cipher", "AES_192/CBC/NoPadding",
"com.sun.crypto.provider.AESCipher$AES192_CBC_NoPadding",
attrs);
psA("Cipher", "AES_192/OFB/NoPadding",
"com.sun.crypto.provider.AESCipher$AES192_OFB_NoPadding",
attrs);
psA("Cipher", "AES_192/CFB/NoPadding",
"com.sun.crypto.provider.AESCipher$AES192_CFB_NoPadding",
attrs);
psA("Cipher", "AES_192/GCM/NoPadding",
"com.sun.crypto.provider.AESCipher$AES192_GCM_NoPadding",
attrs);
psA("Cipher", "AES_256/ECB/NoPadding",
"com.sun.crypto.provider.AESCipher$AES256_ECB_NoPadding",
attrs);
psA("Cipher", "AES_256/CBC/NoPadding",
"com.sun.crypto.provider.AESCipher$AES256_CBC_NoPadding",
attrs);
psA("Cipher", "AES_256/OFB/NoPadding",
"com.sun.crypto.provider.AESCipher$AES256_OFB_NoPadding",
attrs);
psA("Cipher", "AES_256/CFB/NoPadding",
"com.sun.crypto.provider.AESCipher$AES256_CFB_NoPadding",
attrs);
psA("Cipher", "AES_256/GCM/NoPadding",
"com.sun.crypto.provider.AESCipher$AES256_GCM_NoPadding",
attrs);
attrs.clear();
attrs.put("SupportedModes", "CBC");
attrs.put("SupportedPaddings", "NOPADDING");
attrs.put("SupportedKeyFormats", "RAW");
ps("Cipher", "DESedeWrap",
"com.sun.crypto.provider.DESedeWrapCipher", null, attrs);
attrs.clear();
attrs.put("SupportedModes", "ECB");
attrs.put("SupportedPaddings", "NOPADDING");
attrs.put("SupportedKeyFormats", "RAW");
psA("Cipher", "ARCFOUR",
"com.sun.crypto.provider.ARCFOURCipher", attrs);
ps("Cipher", "AESWrap", "com.sun.crypto.provider.AESWrapCipher$General",
null, attrs);
psA("Cipher", "AESWrap_128",
"com.sun.crypto.provider.AESWrapCipher$AES128",
attrs);
psA("Cipher", "AESWrap_192",
"com.sun.crypto.provider.AESWrapCipher$AES192",
attrs);
psA("Cipher", "AESWrap_256",
"com.sun.crypto.provider.AESWrapCipher$AES256",
attrs);
attrs.clear();
attrs.put("SupportedKeyFormats", "RAW");
ps("Cipher", "ChaCha20",
"com.sun.crypto.provider.ChaCha20Cipher$ChaCha20Only",
null, attrs);
psA("Cipher", "ChaCha20-Poly1305",
"com.sun.crypto.provider.ChaCha20Cipher$ChaCha20Poly1305",
attrs);
// PBES1
psA("Cipher", "PBEWithMD5AndDES",
"com.sun.crypto.provider.PBEWithMD5AndDESCipher",
null);
ps("Cipher", "PBEWithMD5AndTripleDES",
"com.sun.crypto.provider.PBEWithMD5AndTripleDESCipher");
psA("Cipher", "PBEWithSHA1AndDESede",
"com.sun.crypto.provider.PKCS12PBECipherCore$PBEWithSHA1AndDESede",
null);
psA("Cipher", "PBEWithSHA1AndRC2_40",
"com.sun.crypto.provider.PKCS12PBECipherCore$PBEWithSHA1AndRC2_40",
null);
psA("Cipher", "PBEWithSHA1AndRC2_128",
"com.sun.crypto.provider.PKCS12PBECipherCore$PBEWithSHA1AndRC2_128",
null);
psA("Cipher", "PBEWithSHA1AndRC4_40",
"com.sun.crypto.provider.PKCS12PBECipherCore$PBEWithSHA1AndRC4_40",
null);
psA("Cipher", "PBEWithSHA1AndRC4_128",
"com.sun.crypto.provider.PKCS12PBECipherCore$PBEWithSHA1AndRC4_128",
null);
// PBES2
ps("Cipher", "PBEWithHmacSHA1AndAES_128",
"com.sun.crypto.provider.PBES2Core$HmacSHA1AndAES_128");
ps("Cipher", "PBEWithHmacSHA224AndAES_128",
"com.sun.crypto.provider.PBES2Core$HmacSHA224AndAES_128");
ps("Cipher", "PBEWithHmacSHA256AndAES_128",
"com.sun.crypto.provider.PBES2Core$HmacSHA256AndAES_128");
ps("Cipher", "PBEWithHmacSHA384AndAES_128",
"com.sun.crypto.provider.PBES2Core$HmacSHA384AndAES_128");
ps("Cipher", "PBEWithHmacSHA512AndAES_128",
"com.sun.crypto.provider.PBES2Core$HmacSHA512AndAES_128");
ps("Cipher", "PBEWithHmacSHA1AndAES_256",
"com.sun.crypto.provider.PBES2Core$HmacSHA1AndAES_256");
ps("Cipher", "PBEWithHmacSHA224AndAES_256",
"com.sun.crypto.provider.PBES2Core$HmacSHA224AndAES_256");
ps("Cipher", "PBEWithHmacSHA256AndAES_256",
"com.sun.crypto.provider.PBES2Core$HmacSHA256AndAES_256");
ps("Cipher", "PBEWithHmacSHA384AndAES_256",
"com.sun.crypto.provider.PBES2Core$HmacSHA384AndAES_256");
ps("Cipher", "PBEWithHmacSHA512AndAES_256",
"com.sun.crypto.provider.PBES2Core$HmacSHA512AndAES_256");
/*
* Key(pair) Generator engines
*/
ps("KeyGenerator", "DES",
"com.sun.crypto.provider.DESKeyGenerator");
psA("KeyGenerator", "DESede",
"com.sun.crypto.provider.DESedeKeyGenerator",
null);
ps("KeyGenerator", "Blowfish",
"com.sun.crypto.provider.BlowfishKeyGenerator");
psA("KeyGenerator", "AES",
"com.sun.crypto.provider.AESKeyGenerator",
null);
ps("KeyGenerator", "RC2",
"com.sun.crypto.provider.KeyGeneratorCore$RC2KeyGenerator");
psA("KeyGenerator", "ARCFOUR",
"com.sun.crypto.provider.KeyGeneratorCore$ARCFOURKeyGenerator",
null);
ps("KeyGenerator", "ChaCha20",
"com.sun.crypto.provider.KeyGeneratorCore$ChaCha20KeyGenerator");
ps("KeyGenerator", "HmacMD5",
"com.sun.crypto.provider.HmacMD5KeyGenerator");
psA("KeyGenerator", "HmacSHA1",
"com.sun.crypto.provider.HmacSHA1KeyGenerator", null);
psA("KeyGenerator", "HmacSHA224",
"com.sun.crypto.provider.KeyGeneratorCore$HmacKG$SHA224",
null);
psA("KeyGenerator", "HmacSHA256",
"com.sun.crypto.provider.KeyGeneratorCore$HmacKG$SHA256",
null);
psA("KeyGenerator", "HmacSHA384",
"com.sun.crypto.provider.KeyGeneratorCore$HmacKG$SHA384",
null);
psA("KeyGenerator", "HmacSHA512",
"com.sun.crypto.provider.KeyGeneratorCore$HmacKG$SHA512",
null);
psA("KeyGenerator", "HmacSHA512/224",
"com.sun.crypto.provider.KeyGeneratorCore$HmacKG$SHA512_224",
null);
psA("KeyGenerator", "HmacSHA512/256",
"com.sun.crypto.provider.KeyGeneratorCore$HmacKG$SHA512_256",
null);
psA("KeyGenerator", "HmacSHA3-224",
"com.sun.crypto.provider.KeyGeneratorCore$HmacKG$SHA3_224",
null);
psA("KeyGenerator", "HmacSHA3-256",
"com.sun.crypto.provider.KeyGeneratorCore$HmacKG$SHA3_256",
null);
psA("KeyGenerator", "HmacSHA3-384",
"com.sun.crypto.provider.KeyGeneratorCore$HmacKG$SHA3_384",
null);
psA("KeyGenerator", "HmacSHA3-512",
"com.sun.crypto.provider.KeyGeneratorCore$HmacKG$SHA3_512",
null);
psA("KeyPairGenerator", "DiffieHellman",
"com.sun.crypto.provider.DHKeyPairGenerator",
null);
/*
* Algorithm parameter generation engines
*/
psA("AlgorithmParameterGenerator",
"DiffieHellman", "com.sun.crypto.provider.DHParameterGenerator",
null);
/*
* Key Agreement engines
*/
attrs.clear();
attrs.put("SupportedKeyClasses", "javax.crypto.interfaces.DHPublicKey" +
"|javax.crypto.interfaces.DHPrivateKey");
psA("KeyAgreement", "DiffieHellman",
"com.sun.crypto.provider.DHKeyAgreement",
attrs);
/*
* Algorithm Parameter engines
*/
psA("AlgorithmParameters", "DiffieHellman",
"com.sun.crypto.provider.DHParameters", null);
ps("AlgorithmParameters", "DES",
"com.sun.crypto.provider.DESParameters");
psA("AlgorithmParameters", "DESede",
"com.sun.crypto.provider.DESedeParameters", null);
psA("AlgorithmParameters", "PBEWithMD5AndDES",
"com.sun.crypto.provider.PBEParameters",
null);
ps("AlgorithmParameters", "PBEWithMD5AndTripleDES",
"com.sun.crypto.provider.PBEParameters");
psA("AlgorithmParameters", "PBEWithSHA1AndDESede",
"com.sun.crypto.provider.PBEParameters",
null);
psA("AlgorithmParameters", "PBEWithSHA1AndRC2_40",
"com.sun.crypto.provider.PBEParameters",
null);
psA("AlgorithmParameters", "PBEWithSHA1AndRC2_128",
"com.sun.crypto.provider.PBEParameters",
null);
psA("AlgorithmParameters", "PBEWithSHA1AndRC4_40",
"com.sun.crypto.provider.PBEParameters",
null);
psA("AlgorithmParameters", "PBEWithSHA1AndRC4_128",
"com.sun.crypto.provider.PBEParameters",
null);
psA("AlgorithmParameters", "PBES2",
"com.sun.crypto.provider.PBES2Parameters$General",
null);
ps("AlgorithmParameters", "PBEWithHmacSHA1AndAES_128",
"com.sun.crypto.provider.PBES2Parameters$HmacSHA1AndAES_128");
ps("AlgorithmParameters", "PBEWithHmacSHA224AndAES_128",
"com.sun.crypto.provider.PBES2Parameters$HmacSHA224AndAES_128");
ps("AlgorithmParameters", "PBEWithHmacSHA256AndAES_128",
"com.sun.crypto.provider.PBES2Parameters$HmacSHA256AndAES_128");
ps("AlgorithmParameters", "PBEWithHmacSHA384AndAES_128",
"com.sun.crypto.provider.PBES2Parameters$HmacSHA384AndAES_128");
ps("AlgorithmParameters", "PBEWithHmacSHA512AndAES_128",
"com.sun.crypto.provider.PBES2Parameters$HmacSHA512AndAES_128");
ps("AlgorithmParameters", "PBEWithHmacSHA1AndAES_256",
"com.sun.crypto.provider.PBES2Parameters$HmacSHA1AndAES_256");
ps("AlgorithmParameters", "PBEWithHmacSHA224AndAES_256",
"com.sun.crypto.provider.PBES2Parameters$HmacSHA224AndAES_256");
ps("AlgorithmParameters", "PBEWithHmacSHA256AndAES_256",
"com.sun.crypto.provider.PBES2Parameters$HmacSHA256AndAES_256");
ps("AlgorithmParameters", "PBEWithHmacSHA384AndAES_256",
"com.sun.crypto.provider.PBES2Parameters$HmacSHA384AndAES_256");
ps("AlgorithmParameters", "PBEWithHmacSHA512AndAES_256",
"com.sun.crypto.provider.PBES2Parameters$HmacSHA512AndAES_256");
ps("AlgorithmParameters", "Blowfish",
"com.sun.crypto.provider.BlowfishParameters");
psA("AlgorithmParameters", "AES",
"com.sun.crypto.provider.AESParameters", null);
ps("AlgorithmParameters", "GCM",
"com.sun.crypto.provider.GCMParameters");
ps("AlgorithmParameters", "RC2",
"com.sun.crypto.provider.RC2Parameters");
ps("AlgorithmParameters", "OAEP",
"com.sun.crypto.provider.OAEPParameters");
psA("AlgorithmParameters", "ChaCha20-Poly1305",
"com.sun.crypto.provider.ChaCha20Poly1305Parameters", null);
/*
* Key factories
*/
psA("KeyFactory", "DiffieHellman",
"com.sun.crypto.provider.DHKeyFactory",
null);
/*
* Secret-key factories
*/
ps("SecretKeyFactory", "DES",
"com.sun.crypto.provider.DESKeyFactory");
psA("SecretKeyFactory", "DESede",
"com.sun.crypto.provider.DESedeKeyFactory", null);
psA("SecretKeyFactory", "PBEWithMD5AndDES",
"com.sun.crypto.provider.PBEKeyFactory$PBEWithMD5AndDES",
null);
/*
* Internal in-house crypto algorithm used for
* the JCEKS keystore type. Since this was developed
* internally, there isn't an OID corresponding to this
* algorithm.
*/
ps("SecretKeyFactory", "PBEWithMD5AndTripleDES",
"com.sun.crypto.provider.PBEKeyFactory$PBEWithMD5AndTripleDES");
psA("SecretKeyFactory", "PBEWithSHA1AndDESede",
"com.sun.crypto.provider.PBEKeyFactory$PBEWithSHA1AndDESede",
null);
psA("SecretKeyFactory", "PBEWithSHA1AndRC2_40",
"com.sun.crypto.provider.PBEKeyFactory$PBEWithSHA1AndRC2_40",
null);
psA("SecretKeyFactory", "PBEWithSHA1AndRC2_128",
"com.sun.crypto.provider.PBEKeyFactory$PBEWithSHA1AndRC2_128",
null);
psA("SecretKeyFactory", "PBEWithSHA1AndRC4_40",
"com.sun.crypto.provider.PBEKeyFactory$PBEWithSHA1AndRC4_40",
null);
psA("SecretKeyFactory", "PBEWithSHA1AndRC4_128",
"com.sun.crypto.provider.PBEKeyFactory$PBEWithSHA1AndRC4_128",
null);
ps("SecretKeyFactory", "PBEWithHmacSHA1AndAES_128",
"com.sun.crypto.provider.PBEKeyFactory$PBEWithHmacSHA1AndAES_128");
ps("SecretKeyFactory", "PBEWithHmacSHA224AndAES_128",
"com.sun.crypto.provider.PBEKeyFactory$PBEWithHmacSHA224AndAES_128");
ps("SecretKeyFactory", "PBEWithHmacSHA256AndAES_128",
"com.sun.crypto.provider.PBEKeyFactory$PBEWithHmacSHA256AndAES_128");
ps("SecretKeyFactory", "PBEWithHmacSHA384AndAES_128",
"com.sun.crypto.provider.PBEKeyFactory$PBEWithHmacSHA384AndAES_128");
ps("SecretKeyFactory", "PBEWithHmacSHA512AndAES_128",
"com.sun.crypto.provider.PBEKeyFactory$PBEWithHmacSHA512AndAES_128");
ps("SecretKeyFactory", "PBEWithHmacSHA1AndAES_256",
"com.sun.crypto.provider.PBEKeyFactory$PBEWithHmacSHA1AndAES_256");
ps("SecretKeyFactory", "PBEWithHmacSHA224AndAES_256",
"com.sun.crypto.provider.PBEKeyFactory$PBEWithHmacSHA224AndAES_256");
ps("SecretKeyFactory", "PBEWithHmacSHA256AndAES_256",
"com.sun.crypto.provider.PBEKeyFactory$PBEWithHmacSHA256AndAES_256");
ps("SecretKeyFactory", "PBEWithHmacSHA384AndAES_256",
"com.sun.crypto.provider.PBEKeyFactory$PBEWithHmacSHA384AndAES_256");
ps("SecretKeyFactory", "PBEWithHmacSHA512AndAES_256",
"com.sun.crypto.provider.PBEKeyFactory$PBEWithHmacSHA512AndAES_256");
// PBKDF2
psA("SecretKeyFactory", "PBKDF2WithHmacSHA1",
"com.sun.crypto.provider.PBKDF2Core$HmacSHA1",
null);
ps("SecretKeyFactory", "PBKDF2WithHmacSHA224",
"com.sun.crypto.provider.PBKDF2Core$HmacSHA224");
ps("SecretKeyFactory", "PBKDF2WithHmacSHA256",
"com.sun.crypto.provider.PBKDF2Core$HmacSHA256");
ps("SecretKeyFactory", "PBKDF2WithHmacSHA384",
"com.sun.crypto.provider.PBKDF2Core$HmacSHA384");
ps("SecretKeyFactory", "PBKDF2WithHmacSHA512",
"com.sun.crypto.provider.PBKDF2Core$HmacSHA512");
/*
* MAC
*/
attrs.clear();
attrs.put("SupportedKeyFormats", "RAW");
ps("Mac", "HmacMD5", "com.sun.crypto.provider.HmacMD5", null, attrs);
psA("Mac", "HmacSHA1", "com.sun.crypto.provider.HmacSHA1",
attrs);
psA("Mac", "HmacSHA224",
"com.sun.crypto.provider.HmacCore$HmacSHA224", attrs);
psA("Mac", "HmacSHA256",
"com.sun.crypto.provider.HmacCore$HmacSHA256", attrs);
psA("Mac", "HmacSHA384",
"com.sun.crypto.provider.HmacCore$HmacSHA384", attrs);
psA("Mac", "HmacSHA512",
"com.sun.crypto.provider.HmacCore$HmacSHA512", attrs);
psA("Mac", "HmacSHA512/224",
"com.sun.crypto.provider.HmacCore$HmacSHA512_224", attrs);
psA("Mac", "HmacSHA512/256",
"com.sun.crypto.provider.HmacCore$HmacSHA512_256", attrs);
psA("Mac", "HmacSHA3-224",
"com.sun.crypto.provider.HmacCore$HmacSHA3_224", attrs);
psA("Mac", "HmacSHA3-256",
"com.sun.crypto.provider.HmacCore$HmacSHA3_256", attrs);
psA("Mac", "HmacSHA3-384",
"com.sun.crypto.provider.HmacCore$HmacSHA3_384", attrs);
psA("Mac", "HmacSHA3-512",
"com.sun.crypto.provider.HmacCore$HmacSHA3_512", attrs);
ps("Mac", "HmacPBESHA1",
"com.sun.crypto.provider.HmacPKCS12PBECore$HmacPKCS12PBE_SHA1",
null, attrs);
ps("Mac", "HmacPBESHA224",
"com.sun.crypto.provider.HmacPKCS12PBECore$HmacPKCS12PBE_SHA224",
null, attrs);
ps("Mac", "HmacPBESHA256",
"com.sun.crypto.provider.HmacPKCS12PBECore$HmacPKCS12PBE_SHA256",
null, attrs);
ps("Mac", "HmacPBESHA384",
"com.sun.crypto.provider.HmacPKCS12PBECore$HmacPKCS12PBE_SHA384",
null, attrs);
ps("Mac", "HmacPBESHA512",
"com.sun.crypto.provider.HmacPKCS12PBECore$HmacPKCS12PBE_SHA512",
null, attrs);
ps("Mac", "HmacPBESHA512/224",
"com.sun.crypto.provider.HmacPKCS12PBECore$HmacPKCS12PBE_SHA512_224",
null, attrs);
ps("Mac", "HmacPBESHA512/256",
"com.sun.crypto.provider.HmacPKCS12PBECore$HmacPKCS12PBE_SHA512_256",
null, attrs);
// PBMAC1
ps("Mac", "PBEWithHmacSHA1",
"com.sun.crypto.provider.PBMAC1Core$HmacSHA1", null, attrs);
ps("Mac", "PBEWithHmacSHA224",
"com.sun.crypto.provider.PBMAC1Core$HmacSHA224", null, attrs);
ps("Mac", "PBEWithHmacSHA256",
"com.sun.crypto.provider.PBMAC1Core$HmacSHA256", null, attrs);
ps("Mac", "PBEWithHmacSHA384",
"com.sun.crypto.provider.PBMAC1Core$HmacSHA384", null, attrs);
ps("Mac", "PBEWithHmacSHA512",
"com.sun.crypto.provider.PBMAC1Core$HmacSHA512", null, attrs);
ps("Mac", "SslMacMD5",
"com.sun.crypto.provider.SslMacCore$SslMacMD5", null, attrs);
ps("Mac", "SslMacSHA1",
"com.sun.crypto.provider.SslMacCore$SslMacSHA1", null, attrs);
/*
* KeyStore
*/
ps("KeyStore", "JCEKS",
"com.sun.crypto.provider.JceKeyStore");
/*
* SSL/TLS mechanisms
*
* These are strictly internal implementations and may
* be changed at any time. These names were chosen
* because PKCS11/SunPKCS11 does not yet have TLS1.2
* mechanisms, and it will cause calls to come here.
*/
ps("KeyGenerator", "SunTlsPrf",
"com.sun.crypto.provider.TlsPrfGenerator$V10");
ps("KeyGenerator", "SunTls12Prf",
"com.sun.crypto.provider.TlsPrfGenerator$V12");
ps("KeyGenerator", "SunTlsMasterSecret",
"com.sun.crypto.provider.TlsMasterSecretGenerator",
List.of("SunTls12MasterSecret", "SunTlsExtendedMasterSecret"),
null);
ps("KeyGenerator", "SunTlsKeyMaterial",
"com.sun.crypto.provider.TlsKeyMaterialGenerator",
List.of("SunTls12KeyMaterial"), null);
ps("KeyGenerator", "SunTlsRsaPremasterSecret",
"com.sun.crypto.provider.TlsRsaPremasterSecretGenerator",
List.of("SunTls12RsaPremasterSecret"), null);
}
// Return the instance of this class or create one if needed.
static SunJCE getInstance() {
if (instance == null) {
return new SunJCE();
}
return instance;
}
}