/*
* Copyright (c) 2005, 2013, 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.internal.spec;
import java.security.spec.AlgorithmParameterSpec;
import javax.crypto.SecretKey;
Parameters for SSL/TLS key material generation. This class is used to initialize KeyGenerator of the type "TlsKeyMaterial". The keys returned by such KeyGenerators will be instances of TlsKeyMaterialSpec
. Instances of this class are immutable.
Author: Andreas Sterbenz Since: 1.6 Deprecated: Sun JDK internal use only --- WILL BE REMOVED in a future
release.
/**
* Parameters for SSL/TLS key material generation.
* This class is used to initialize KeyGenerator of the type
* "TlsKeyMaterial". The keys returned by such KeyGenerators will be
* instances of {@link TlsKeyMaterialSpec}.
*
* <p>Instances of this class are immutable.
*
* @since 1.6
* @author Andreas Sterbenz
* @deprecated Sun JDK internal use only --- WILL BE REMOVED in a future
* release.
*/
@Deprecated
public class TlsKeyMaterialParameterSpec implements AlgorithmParameterSpec {
private final SecretKey masterSecret;
private final int majorVersion, minorVersion;
private final byte[] clientRandom, serverRandom;
private final String cipherAlgorithm;
private final int cipherKeyLength, ivLength, macKeyLength;
private final int expandedCipherKeyLength; // == 0 for domestic ciphersuites
private final String prfHashAlg;
private final int prfHashLength;
private final int prfBlockSize;
Constructs a new TlsKeyMaterialParameterSpec.
Params: - masterSecret – the master secret
- majorVersion – the major number of the protocol version
- minorVersion – the minor number of the protocol version
- clientRandom – the client's random value
- serverRandom – the server's random value
- cipherAlgorithm – the algorithm name of the cipher keys to
be generated
- cipherKeyLength – if 0, no cipher keys will be generated;
otherwise, the length in bytes of cipher keys to be
generated for domestic cipher suites; for cipher suites defined as
exportable, the number of key material bytes to be generated;
- expandedCipherKeyLength – 0 for domestic cipher suites; for
exportable cipher suites the length in bytes of the key to be
generated.
- ivLength – the length in bytes of the initialization vector
to be generated, or 0 if no initialization vector is required
- macKeyLength – the length in bytes of the MAC key to be generated
- prfHashAlg – the name of the TLS PRF hash algorithm to use.
Used only for TLS 1.2+. TLS1.1 and earlier use a fixed PRF.
- prfHashLength – the output length of the TLS PRF hash algorithm.
Used only for TLS 1.2+.
- prfBlockSize – the input block size of the TLS PRF hash algorithm.
Used only for TLS 1.2+.
Throws: - NullPointerException – if masterSecret, clientRandom,
serverRandom, or cipherAlgorithm are null
- IllegalArgumentException – if the algorithm of masterSecret is
not TlsMasterSecret, or if majorVersion or minorVersion are
negative or larger than 255; or if cipherKeyLength, expandedKeyLength,
ivLength, or macKeyLength are negative
/**
* Constructs a new TlsKeyMaterialParameterSpec.
*
* @param masterSecret the master secret
* @param majorVersion the major number of the protocol version
* @param minorVersion the minor number of the protocol version
* @param clientRandom the client's random value
* @param serverRandom the server's random value
* @param cipherAlgorithm the algorithm name of the cipher keys to
* be generated
* @param cipherKeyLength if 0, no cipher keys will be generated;
* otherwise, the length in bytes of cipher keys to be
* generated for domestic cipher suites; for cipher suites defined as
* exportable, the number of key material bytes to be generated;
* @param expandedCipherKeyLength 0 for domestic cipher suites; for
* exportable cipher suites the length in bytes of the key to be
* generated.
* @param ivLength the length in bytes of the initialization vector
* to be generated, or 0 if no initialization vector is required
* @param macKeyLength the length in bytes of the MAC key to be generated
* @param prfHashAlg the name of the TLS PRF hash algorithm to use.
* Used only for TLS 1.2+. TLS1.1 and earlier use a fixed PRF.
* @param prfHashLength the output length of the TLS PRF hash algorithm.
* Used only for TLS 1.2+.
* @param prfBlockSize the input block size of the TLS PRF hash algorithm.
* Used only for TLS 1.2+.
*
* @throws NullPointerException if masterSecret, clientRandom,
* serverRandom, or cipherAlgorithm are null
* @throws IllegalArgumentException if the algorithm of masterSecret is
* not TlsMasterSecret, or if majorVersion or minorVersion are
* negative or larger than 255; or if cipherKeyLength, expandedKeyLength,
* ivLength, or macKeyLength are negative
*/
public TlsKeyMaterialParameterSpec(SecretKey masterSecret,
int majorVersion, int minorVersion, byte[] clientRandom,
byte[] serverRandom, String cipherAlgorithm, int cipherKeyLength,
int expandedCipherKeyLength, int ivLength, int macKeyLength,
String prfHashAlg, int prfHashLength, int prfBlockSize) {
if (masterSecret.getAlgorithm().equals("TlsMasterSecret") == false) {
throw new IllegalArgumentException("Not a TLS master secret");
}
if (cipherAlgorithm == null) {
throw new NullPointerException();
}
this.masterSecret = masterSecret;
this.majorVersion =
TlsMasterSecretParameterSpec.checkVersion(majorVersion);
this.minorVersion =
TlsMasterSecretParameterSpec.checkVersion(minorVersion);
this.clientRandom = clientRandom.clone();
this.serverRandom = serverRandom.clone();
this.cipherAlgorithm = cipherAlgorithm;
this.cipherKeyLength = checkSign(cipherKeyLength);
this.expandedCipherKeyLength = checkSign(expandedCipherKeyLength);
this.ivLength = checkSign(ivLength);
this.macKeyLength = checkSign(macKeyLength);
this.prfHashAlg = prfHashAlg;
this.prfHashLength = prfHashLength;
this.prfBlockSize = prfBlockSize;
}
private static int checkSign(int k) {
if (k < 0) {
throw new IllegalArgumentException("Value must not be negative");
}
return k;
}
Returns the master secret.
Returns: the master secret.
/**
* Returns the master secret.
*
* @return the master secret.
*/
public SecretKey getMasterSecret() {
return masterSecret;
}
Returns the major version number.
Returns: the major version number.
/**
* Returns the major version number.
*
* @return the major version number.
*/
public int getMajorVersion() {
return majorVersion;
}
Returns the minor version number.
Returns: the minor version number.
/**
* Returns the minor version number.
*
* @return the minor version number.
*/
public int getMinorVersion() {
return minorVersion;
}
Returns a copy of the client's random value.
Returns: a copy of the client's random value.
/**
* Returns a copy of the client's random value.
*
* @return a copy of the client's random value.
*/
public byte[] getClientRandom() {
return clientRandom.clone();
}
Returns a copy of the server's random value.
Returns: a copy of the server's random value.
/**
* Returns a copy of the server's random value.
*
* @return a copy of the server's random value.
*/
public byte[] getServerRandom() {
return serverRandom.clone();
}
Returns the cipher algorithm.
Returns: the cipher algorithm.
/**
* Returns the cipher algorithm.
*
* @return the cipher algorithm.
*/
public String getCipherAlgorithm() {
return cipherAlgorithm;
}
Returns the length in bytes of the encryption key to be generated.
Returns: the length in bytes of the encryption key to be generated.
/**
* Returns the length in bytes of the encryption key to be generated.
*
* @return the length in bytes of the encryption key to be generated.
*/
public int getCipherKeyLength() {
return cipherKeyLength;
}
Returns the length in bytes of the expanded encryption key to be
generated. Returns zero if the expanded encryption key is not
supposed to be generated.
Returns: the length in bytes of the expanded encryption key to be
generated.
/**
* Returns the length in bytes of the expanded encryption key to be
* generated. Returns zero if the expanded encryption key is not
* supposed to be generated.
*
* @return the length in bytes of the expanded encryption key to be
* generated.
*/
public int getExpandedCipherKeyLength() {
// TLS v1.1 disables the exportable weak cipher suites.
if (majorVersion >= 0x03 && minorVersion >= 0x02) {
return 0;
}
return expandedCipherKeyLength;
}
Returns the length in bytes of the initialization vector to be
generated. Returns zero if the initialization vector is not
supposed to be generated.
Returns: the length in bytes of the initialization vector to be
generated.
/**
* Returns the length in bytes of the initialization vector to be
* generated. Returns zero if the initialization vector is not
* supposed to be generated.
*
* @return the length in bytes of the initialization vector to be
* generated.
*/
public int getIvLength() {
return ivLength;
}
Returns the length in bytes of the MAC key to be generated.
Returns: the length in bytes of the MAC key to be generated.
/**
* Returns the length in bytes of the MAC key to be generated.
*
* @return the length in bytes of the MAC key to be generated.
*/
public int getMacKeyLength() {
return macKeyLength;
}
Obtains the PRF hash algorithm to use in the PRF calculation.
Returns: the hash algorithm.
/**
* Obtains the PRF hash algorithm to use in the PRF calculation.
*
* @return the hash algorithm.
*/
public String getPRFHashAlg() {
return prfHashAlg;
}
Obtains the length of the PRF hash algorithm.
Returns: the hash algorithm length.
/**
* Obtains the length of the PRF hash algorithm.
*
* @return the hash algorithm length.
*/
public int getPRFHashLength() {
return prfHashLength;
}
Obtains the block size of the PRF hash algorithm.
Returns: the hash algorithm block size
/**
* Obtains the block size of the PRF hash algorithm.
*
* @return the hash algorithm block size
*/
public int getPRFBlockSize() {
return prfBlockSize;
}
}