/*
* Copyright (c) 2000, 2012, 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
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*/
/*
*
* (C) Copyright IBM Corp. 1999 All Rights Reserved.
* Copyright 1997 The Open Group Research Institute. All rights reserved.
*/
package sun.security.krb5;
import sun.security.util.*;
import sun.security.krb5.internal.crypto.*;
import sun.security.krb5.internal.*;
import java.io.IOException;
import java.math.BigInteger;
/**
* This class encapsulates Kerberos encrypted data. It allows
* callers access to both the ASN.1 encoded form of the EncryptedData
* type as well as the raw cipher text.
*/
public class EncryptedData implements Cloneable {
int eType;
Integer kvno; // optional
byte[] cipher;
byte[] plain; // not part of ASN.1 encoding
// ----------------+-----------+----------+----------------+---------------
// Encryption type |etype value|block size|minimum pad size|confounder size
// ----------------+-----------+----------+----------------+---------------
public static final int
ETYPE_NULL = 0; // 1 0 0
public static final int
ETYPE_DES_CBC_CRC = 1; // 8 4 8
public static final int
ETYPE_DES_CBC_MD4 = 2; // 8 0 8
public static final int
ETYPE_DES_CBC_MD5 = 3; // 8 0 8
// draft-brezak-win2k-krb-rc4-hmac-04.txt
public static final int
ETYPE_ARCFOUR_HMAC = 23; // 1
// NOTE: the exportable RC4-HMAC is not supported;
// it is no longer a usable encryption type
public static final int
ETYPE_ARCFOUR_HMAC_EXP = 24; // 1
// draft-ietf-krb-wg-crypto-07.txt
public static final int
ETYPE_DES3_CBC_HMAC_SHA1_KD = 16; // 8 0 8
// draft-raeburn-krb-rijndael-krb-07.txt
public static final int
ETYPE_AES128_CTS_HMAC_SHA1_96 = 17; // 16 0 16
public static final int
ETYPE_AES256_CTS_HMAC_SHA1_96 = 18; // 16 0 16
/* used by self */
private EncryptedData() {
}
public Object clone() {
EncryptedData new_encryptedData = new EncryptedData();
new_encryptedData.eType = eType;
if (kvno != null) {
new_encryptedData.kvno = new Integer(kvno.intValue());
}
if (cipher != null) {
new_encryptedData.cipher = new byte[cipher.length];
System.arraycopy(cipher, 0, new_encryptedData.cipher,
0, cipher.length);
}
return new_encryptedData;
}
// Used in JSSE (com.sun.net.ssl.internal.KerberosPreMasterSecret)
public EncryptedData(
int new_eType,
Integer new_kvno,
byte[] new_cipher) {
eType = new_eType;
kvno = new_kvno;
cipher = new_cipher;
}
/*
// Not used.
public EncryptedData(
EncryptionKey key,
byte[] plaintext)
throws KdcErrException, KrbCryptoException {
EType etypeEngine = EType.getInstance(key.getEType());
cipher = etypeEngine.encrypt(plaintext, key.getBytes());
eType = key.getEType();
kvno = key.getKeyVersionNumber();
}
*/
// used in KrbApRep, KrbApReq, KrbAsReq, KrbCred, KrbPriv
// Used in JSSE (com.sun.net.ssl.internal.KerberosPreMasterSecret)
public EncryptedData(
EncryptionKey key,
byte[] plaintext,
int usage)
throws KdcErrException, KrbCryptoException {
EType etypeEngine = EType.getInstance(key.getEType());
cipher = etypeEngine.encrypt(plaintext, key.getBytes(), usage);
eType = key.getEType();
kvno = key.getKeyVersionNumber();
}
/*
// Not used.
public EncryptedData(
EncryptionKey key,
byte[] ivec,
byte[] plaintext)
throws KdcErrException, KrbCryptoException {
EType etypeEngine = EType.getInstance(key.getEType());
cipher = etypeEngine.encrypt(plaintext, key.getBytes(), ivec);
eType = key.getEType();
kvno = key.getKeyVersionNumber();
}
*/
/*
// Not used.
EncryptedData(
StringBuffer password,
byte[] plaintext)
throws KdcErrException, KrbCryptoException {
EncryptionKey key = new EncryptionKey(password);
EType etypeEngine = EType.getInstance(key.getEType());
cipher = etypeEngine.encrypt(plaintext, key.getBytes());
eType = key.getEType();
kvno = key.getKeyVersionNumber();
}
*/
public byte[] decrypt(
EncryptionKey key, int usage)
throws KdcErrException, KrbApErrException, KrbCryptoException {
if (eType != key.getEType()) {
throw new KrbCryptoException(
"EncryptedData is encrypted using keytype " +
EType.toString(eType) +
" but decryption key is of type " +
EType.toString(key.getEType()));
}
EType etypeEngine = EType.getInstance(eType);
plain = etypeEngine.decrypt(cipher, key.getBytes(), usage);
// The service ticket will be used in S4U2proxy request. Therefore
// the raw ticket is still needed.
//cipher = null;
return etypeEngine.decryptedData(plain);
}
/*
// currently destructive on cipher
// Not used.
public byte[] decrypt(
EncryptionKey key,
byte[] ivec, int usage)
throws KdcErrException, KrbApErrException, KrbCryptoException {
// XXX check for matching eType and kvno here
EType etypeEngine = EType.getInstance(eType);
plain = etypeEngine.decrypt(cipher, key.getBytes(), ivec, usage);
cipher = null;
return etypeEngine.decryptedData(plain);
}
// currently destructive on cipher
// Not used.
byte[] decrypt(StringBuffer password)
throws KdcErrException, KrbApErrException, KrbCryptoException {
EncryptionKey key = new EncryptionKey(password);
// XXX check for matching eType here
EType etypeEngine = EType.getInstance(eType);
plain = etypeEngine.decrypt(cipher, key.getBytes());
cipher = null;
return etypeEngine.decryptedData(plain);
}
*/
private byte[] decryptedData() throws KdcErrException {
if (plain != null) {
EType etypeEngine = EType.getInstance(eType);
return etypeEngine.decryptedData(plain);
}
return null;
}
/**
* Constructs an instance of EncryptedData type.
* @param encoding a single DER-encoded value.
* @exception Asn1Exception if an error occurs while decoding an
* ASN1 encoded data.
* @exception IOException if an I/O error occurs while reading encoded
* data.
*
*/
/* Used by self */
private EncryptedData(DerValue encoding)
throws Asn1Exception, IOException {
DerValue der = null;
if (encoding.getTag() != DerValue.tag_Sequence) {
throw new Asn1Exception(Krb5.ASN1_BAD_ID);
}
der = encoding.getData().getDerValue();
if ((der.getTag() & (byte)0x1F) == (byte)0x00) {
eType = (der.getData().getBigInteger()).intValue();
} else {
throw new Asn1Exception(Krb5.ASN1_BAD_ID);
}
if ((encoding.getData().peekByte() & 0x1F) == 1) {
der = encoding.getData().getDerValue();
int i = (der.getData().getBigInteger()).intValue();
kvno = new Integer(i);
} else {
kvno = null;
}
der = encoding.getData().getDerValue();
if ((der.getTag() & (byte)0x1F) == (byte)0x02) {
cipher = der.getData().getOctetString();
} else {
throw new Asn1Exception(Krb5.ASN1_BAD_ID);
}
if (encoding.getData().available() > 0) {
throw new Asn1Exception(Krb5.ASN1_BAD_ID);
}
}
/**
* Returns an ASN.1 encoded EncryptedData type.
*
* <xmp>
* EncryptedData ::= SEQUENCE {
* etype [0] Int32 -- EncryptionType --,
* kvno [1] UInt32 OPTIONAL,
* cipher [2] OCTET STRING -- ciphertext
* }
* </xmp>
*
* <p>
* This definition reflects the Network Working Group RFC 4120
* specification available at
* <a href="http://www.ietf.org/rfc/rfc4120.txt">
* http://www.ietf.org/rfc/rfc4120.txt</a>.
* <p>
* @return byte array of encoded EncryptedData object.
* @exception Asn1Exception if an error occurs while decoding an
* ASN1 encoded data.
* @exception IOException if an I/O error occurs while reading
* encoded data.
*
*/
public byte[] asn1Encode() throws Asn1Exception, IOException {
DerOutputStream bytes = new DerOutputStream();
DerOutputStream temp = new DerOutputStream();
temp.putInteger(BigInteger.valueOf(this.eType));
bytes.write(DerValue.createTag(DerValue.TAG_CONTEXT,
true, (byte)0x00), temp);
temp = new DerOutputStream();
if (kvno != null) {
// encode as an unsigned integer (UInt32)
temp.putInteger(BigInteger.valueOf(this.kvno.longValue()));
bytes.write(DerValue.createTag(DerValue.TAG_CONTEXT,
true, (byte)0x01), temp);
temp = new DerOutputStream();
}
temp.putOctetString(this.cipher);
bytes.write(DerValue.createTag(DerValue.TAG_CONTEXT, true,
(byte)0x02), temp);
temp = new DerOutputStream();
temp.write(DerValue.tag_Sequence, bytes);
return temp.toByteArray();
}
/**
* Parse (unmarshal) an EncryptedData from a DER input stream. This form
* parsing might be used when expanding a value which is part of
* a constructed sequence and uses explicitly tagged type.
*
* @param data the Der input stream value, which contains one or more
* marshaled value.
* @param explicitTag tag number.
* @param optional indicate if this data field is optional
* @exception Asn1Exception if an error occurs while decoding an
* ASN1 encoded data.
* @exception IOException if an I/O error occurs while reading
* encoded data.
* @return an instance of EncryptedData.
*
*/
public static EncryptedData parse(DerInputStream data,
byte explicitTag,
boolean optional)
throws Asn1Exception, IOException {
if ((optional) &&
(((byte)data.peekByte() & (byte)0x1F) != explicitTag))
return null;
DerValue der = data.getDerValue();
if (explicitTag != (der.getTag() & (byte)0x1F)) {
throw new Asn1Exception(Krb5.ASN1_BAD_ID);
} else {
DerValue subDer = der.getData().getDerValue();
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