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JsseJce
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ALLOW_ECC: boolean
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fipsProviderList: ProviderList
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static class initializer
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SunCertificates
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CIPHER_RSA_PKCS1: String
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CIPHER_RC4: String
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CIPHER_DES: String
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CIPHER_3DES: String
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CIPHER_AES: String
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CIPHER_AES_GCM: String
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SIGNATURE_DSA: String
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SIGNATURE_ECDSA: String
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SIGNATURE_RAWDSA: String
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SIGNATURE_RAWECDSA: String
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SIGNATURE_RAWRSA: String
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SIGNATURE_SSLRSA: String
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JsseJce(): void
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isEcAvailable(): boolean
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getCipher(String): Cipher
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getSignature(String): Signature
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getKeyGenerator(String): KeyGenerator
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getKeyPairGenerator(String): KeyPairGenerator
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getKeyAgreement(String): KeyAgreement
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getMac(String): Mac
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getKeyFactory(String): KeyFactory
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getAlgorithmParameters(String): AlgorithmParameters
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getSecureRandom(): SecureRandom
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getMD5(): MessageDigest
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getSHA(): MessageDigest
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getMessageDigest(String): MessageDigest
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getRSAKeyLength(PublicKey): int
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getRSAPublicKeySpec(PublicKey): RSAPublicKeySpec
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getECParameterSpec(String): ECParameterSpec
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getNamedCurveOid(ECParameterSpec): String
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decodePoint(byte[], EllipticCurve): ECPoint
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encodePoint(ECPoint, EllipticCurve): byte[]
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beginFipsProvider(): Object
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endFipsProvider(Object): void
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EcAvailability
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/*
* Copyright (c) 2001, 2018, 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 sun.security.ssl;
import java.math.BigInteger;
import java.security.*;
import java.security.interfaces.RSAPublicKey;
import java.security.spec.*;
import java.util.*;
import javax.crypto.*;
import sun.security.jca.ProviderList;
import sun.security.jca.Providers;
import static sun.security.ssl.SunJSSE.cryptoProvider;
import sun.security.util.ECUtil;
import static sun.security.util.SecurityConstants.PROVIDER_VER;
This class contains a few static methods for interaction with the JCA/JCE
to obtain implementations, etc.
Author: Andreas Sterbenz
/**
* This class contains a few static methods for interaction with the JCA/JCE
* to obtain implementations, etc.
*
* @author Andreas Sterbenz
*/
final class JsseJce {
static final boolean ALLOW_ECC =
Utilities.getBooleanProperty("com.sun.net.ssl.enableECC", true);
private static final ProviderList fipsProviderList;
static {
// force FIPS flag initialization
// Because isFIPS() is synchronized and cryptoProvider is not modified
// after it completes, this also eliminates the need for any further
// synchronization when accessing cryptoProvider
if (SunJSSE.isFIPS() == false) {
fipsProviderList = null;
} else {
// Setup a ProviderList that can be used by the trust manager
// during certificate chain validation. All the crypto must be
// from the FIPS provider, but we also allow the required
// certificate related services from the SUN provider.
Provider sun = Security.getProvider("SUN");
if (sun == null) {
throw new RuntimeException
("FIPS mode: SUN provider must be installed");
}
Provider sunCerts = new SunCertificates(sun);
fipsProviderList = ProviderList.newList(cryptoProvider, sunCerts);
}
}
private static final class SunCertificates extends Provider {
private static final long serialVersionUID = -3284138292032213752L;
SunCertificates(final Provider p) {
super("SunCertificates", PROVIDER_VER, "SunJSSE internal");
AccessController.doPrivileged(new PrivilegedAction<Object>() {
@Override
public Object run() {
// copy certificate related services from the Sun provider
for (Map.Entry<Object,Object> entry : p.entrySet()) {
String key = (String)entry.getKey();
if (key.startsWith("CertPathValidator.")
|| key.startsWith("CertPathBuilder.")
|| key.startsWith("CertStore.")
|| key.startsWith("CertificateFactory.")) {
put(key, entry.getValue());
}
}
return null;
}
});
}
}
JCE transformation string for RSA with PKCS#1 v1.5 padding.
Can be used for encryption, decryption, signing, verifying.
/**
* JCE transformation string for RSA with PKCS#1 v1.5 padding.
* Can be used for encryption, decryption, signing, verifying.
*/
static final String CIPHER_RSA_PKCS1 = "RSA/ECB/PKCS1Padding";
JCE transformation string for the stream cipher RC4.
/**
* JCE transformation string for the stream cipher RC4.
*/
static final String CIPHER_RC4 = "RC4";
JCE transformation string for DES in CBC mode without padding.
/**
* JCE transformation string for DES in CBC mode without padding.
*/
static final String CIPHER_DES = "DES/CBC/NoPadding";
JCE transformation string for (3-key) Triple DES in CBC mode
without padding.
/**
* JCE transformation string for (3-key) Triple DES in CBC mode
* without padding.
*/
static final String CIPHER_3DES = "DESede/CBC/NoPadding";
JCE transformation string for AES in CBC mode
without padding.
/**
* JCE transformation string for AES in CBC mode
* without padding.
*/
static final String CIPHER_AES = "AES/CBC/NoPadding";
JCE transformation string for AES in GCM mode
without padding.
/**
* JCE transformation string for AES in GCM mode
* without padding.
*/
static final String CIPHER_AES_GCM = "AES/GCM/NoPadding";
JCA identifier string for DSA, i.e. a DSA with SHA-1.
/**
* JCA identifier string for DSA, i.e. a DSA with SHA-1.
*/
static final String SIGNATURE_DSA = "DSA";
JCA identifier string for ECDSA, i.e. a ECDSA with SHA-1.
/**
* JCA identifier string for ECDSA, i.e. a ECDSA with SHA-1.
*/
static final String SIGNATURE_ECDSA = "SHA1withECDSA";
JCA identifier string for Raw DSA, i.e. a DSA signature without
hashing where the application provides the SHA-1 hash of the data.
Note that the standard name is "NONEwithDSA" but we use "RawDSA"
for compatibility.
/**
* JCA identifier string for Raw DSA, i.e. a DSA signature without
* hashing where the application provides the SHA-1 hash of the data.
* Note that the standard name is "NONEwithDSA" but we use "RawDSA"
* for compatibility.
*/
static final String SIGNATURE_RAWDSA = "RawDSA";
JCA identifier string for Raw ECDSA, i.e. a DSA signature without
hashing where the application provides the SHA-1 hash of the data.
/**
* JCA identifier string for Raw ECDSA, i.e. a DSA signature without
* hashing where the application provides the SHA-1 hash of the data.
*/
static final String SIGNATURE_RAWECDSA = "NONEwithECDSA";
JCA identifier string for Raw RSA, i.e. a RSA PKCS#1 v1.5 signature
without hashing where the application provides the hash of the data.
Used for RSA client authentication with a 36 byte hash.
/**
* JCA identifier string for Raw RSA, i.e. a RSA PKCS#1 v1.5 signature
* without hashing where the application provides the hash of the data.
* Used for RSA client authentication with a 36 byte hash.
*/
static final String SIGNATURE_RAWRSA = "NONEwithRSA";
JCA identifier string for the SSL/TLS style RSA Signature. I.e.
an signature using RSA with PKCS#1 v1.5 padding signing a
concatenation of an MD5 and SHA-1 digest.
/**
* JCA identifier string for the SSL/TLS style RSA Signature. I.e.
* an signature using RSA with PKCS#1 v1.5 padding signing a
* concatenation of an MD5 and SHA-1 digest.
*/
static final String SIGNATURE_SSLRSA = "MD5andSHA1withRSA";
private JsseJce() {
// no instantiation of this class
}
static boolean isEcAvailable() {
return EcAvailability.isAvailable;
}
Return an JCE cipher implementation for the specified algorithm.
/**
* Return an JCE cipher implementation for the specified algorithm.
*/
static Cipher getCipher(String transformation)
throws NoSuchAlgorithmException {
try {
if (cryptoProvider == null) {
return Cipher.getInstance(transformation);
} else {
return Cipher.getInstance(transformation, cryptoProvider);
}
} catch (NoSuchPaddingException e) {
throw new NoSuchAlgorithmException(e);
}
}
Return an JCA signature implementation for the specified algorithm.
The algorithm string should be one of the constants defined
in this class.
/**
* Return an JCA signature implementation for the specified algorithm.
* The algorithm string should be one of the constants defined
* in this class.
*/
static Signature getSignature(String algorithm)
throws NoSuchAlgorithmException {
if (cryptoProvider == null) {
return Signature.getInstance(algorithm);
} else {
// reference equality
if (algorithm == SIGNATURE_SSLRSA) {
// The SunPKCS11 provider currently does not support this
// special algorithm. We allow a fallback in this case because
// the SunJSSE implementation does the actual crypto using
// a NONEwithRSA signature obtained from the cryptoProvider.
if (cryptoProvider.getService("Signature", algorithm) == null) {
// Calling Signature.getInstance() and catching the
// exception would be cleaner, but exceptions are a little
// expensive. So we check directly via getService().
try {
return Signature.getInstance(algorithm, "SunJSSE");
} catch (NoSuchProviderException e) {
throw new NoSuchAlgorithmException(e);
}
}
}
return Signature.getInstance(algorithm, cryptoProvider);
}
}
static KeyGenerator getKeyGenerator(String algorithm)
throws NoSuchAlgorithmException {
if (cryptoProvider == null) {
return KeyGenerator.getInstance(algorithm);
} else {
return KeyGenerator.getInstance(algorithm, cryptoProvider);
}
}
static KeyPairGenerator getKeyPairGenerator(String algorithm)
throws NoSuchAlgorithmException {
if (cryptoProvider == null) {
return KeyPairGenerator.getInstance(algorithm);
} else {
return KeyPairGenerator.getInstance(algorithm, cryptoProvider);
}
}
static KeyAgreement getKeyAgreement(String algorithm)
throws NoSuchAlgorithmException {
if (cryptoProvider == null) {
return KeyAgreement.getInstance(algorithm);
} else {
return KeyAgreement.getInstance(algorithm, cryptoProvider);
}
}
static Mac getMac(String algorithm)
throws NoSuchAlgorithmException {
if (cryptoProvider == null) {
return Mac.getInstance(algorithm);
} else {
return Mac.getInstance(algorithm, cryptoProvider);
}
}
static KeyFactory getKeyFactory(String algorithm)
throws NoSuchAlgorithmException {
if (cryptoProvider == null) {
return KeyFactory.getInstance(algorithm);
} else {
return KeyFactory.getInstance(algorithm, cryptoProvider);
}
}
static AlgorithmParameters getAlgorithmParameters(String algorithm)
throws NoSuchAlgorithmException {
if (cryptoProvider == null) {
return AlgorithmParameters.getInstance(algorithm);
} else {
return AlgorithmParameters.getInstance(algorithm, cryptoProvider);
}
}
static SecureRandom getSecureRandom() throws KeyManagementException {
if (cryptoProvider == null) {
return new SecureRandom();
}
// Try "PKCS11" first. If that is not supported, iterate through
// the provider and return the first working implementation.
try {
return SecureRandom.getInstance("PKCS11", cryptoProvider);
} catch (NoSuchAlgorithmException e) {
// ignore
}
for (Provider.Service s : cryptoProvider.getServices()) {
if (s.getType().equals("SecureRandom")) {
try {
return SecureRandom.getInstance(
s.getAlgorithm(), cryptoProvider);
} catch (NoSuchAlgorithmException ee) {
// ignore
}
}
}
throw new KeyManagementException("FIPS mode: no SecureRandom "
+ " implementation found in provider " + cryptoProvider.getName());
}
static MessageDigest getMD5() {
return getMessageDigest("MD5");
}
static MessageDigest getSHA() {
return getMessageDigest("SHA");
}
static MessageDigest getMessageDigest(String algorithm) {
try {
if (cryptoProvider == null) {
return MessageDigest.getInstance(algorithm);
} else {
return MessageDigest.getInstance(algorithm, cryptoProvider);
}
} catch (NoSuchAlgorithmException e) {
throw new RuntimeException
("Algorithm " + algorithm + " not available", e);
}
}
static int getRSAKeyLength(PublicKey key) {
BigInteger modulus;
if (key instanceof RSAPublicKey) {
modulus = ((RSAPublicKey)key).getModulus();
} else {
RSAPublicKeySpec spec = getRSAPublicKeySpec(key);
modulus = spec.getModulus();
}
return modulus.bitLength();
}
static RSAPublicKeySpec getRSAPublicKeySpec(PublicKey key) {
if (key instanceof RSAPublicKey) {
RSAPublicKey rsaKey = (RSAPublicKey)key;
return new RSAPublicKeySpec(rsaKey.getModulus(),
rsaKey.getPublicExponent());
}
try {
KeyFactory factory = JsseJce.getKeyFactory("RSA");
return factory.getKeySpec(key, RSAPublicKeySpec.class);
} catch (Exception e) {
throw new RuntimeException(e);
}
}
static ECParameterSpec getECParameterSpec(String namedCurveOid) {
return ECUtil.getECParameterSpec(cryptoProvider, namedCurveOid);
}
static String getNamedCurveOid(ECParameterSpec params) {
return ECUtil.getCurveName(cryptoProvider, params);
}
static ECPoint decodePoint(byte[] encoded, EllipticCurve curve)
throws java.io.IOException {
return ECUtil.decodePoint(encoded, curve);
}
static byte[] encodePoint(ECPoint point, EllipticCurve curve) {
return ECUtil.encodePoint(point, curve);
}
// In FIPS mode, set thread local providers; otherwise a no-op.
// Must be paired with endFipsProvider.
static Object beginFipsProvider() {
if (fipsProviderList == null) {
return null;
} else {
return Providers.beginThreadProviderList(fipsProviderList);
}
}
static void endFipsProvider(Object o) {
if (fipsProviderList != null) {
Providers.endThreadProviderList((ProviderList)o);
}
}
// lazy initialization holder class idiom for static default parameters
//
// See Effective Java Second Edition: Item 71.
private static class EcAvailability {
// Is EC crypto available?
private static final boolean isAvailable;
static {
boolean mediator = true;
try {
JsseJce.getSignature(SIGNATURE_ECDSA);
JsseJce.getSignature(SIGNATURE_RAWECDSA);
JsseJce.getKeyAgreement("ECDH");
JsseJce.getKeyFactory("EC");
JsseJce.getKeyPairGenerator("EC");
JsseJce.getAlgorithmParameters("EC");
} catch (Exception e) {
mediator = false;
}
isAvailable = mediator;
}
}
}