author | ohair |
Tue, 25 May 2010 15:58:33 -0700 | |
changeset 5506 | 202f599c92aa |
parent 1763 | 0a6b65d56746 |
child 7039 | 6464c8e62a18 |
permissions | -rw-r--r-- |
2 | 1 |
/* |
5506 | 2 |
* Copyright (c) 1996, 2008, Oracle and/or its affiliates. All rights reserved. |
2 | 3 |
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
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* |
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* This code is free software; you can redistribute it and/or modify it |
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* under the terms of the GNU General Public License version 2 only, as |
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5506 | 7 |
* published by the Free Software Foundation. Oracle designates this |
2 | 8 |
* particular file as subject to the "Classpath" exception as provided |
5506 | 9 |
* by Oracle in the LICENSE file that accompanied this code. |
2 | 10 |
* |
11 |
* This code is distributed in the hope that it will be useful, but WITHOUT |
|
12 |
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or |
|
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License |
|
14 |
* version 2 for more details (a copy is included in the LICENSE file that |
|
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* accompanied this code). |
|
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* |
|
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* You should have received a copy of the GNU General Public License version |
|
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* 2 along with this work; if not, write to the Free Software Foundation, |
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* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. |
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* |
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5506 | 21 |
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
22 |
* or visit www.oracle.com if you need additional information or have any |
|
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* questions. |
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2 | 24 |
*/ |
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package sun.security.ssl; |
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import java.io.ByteArrayInputStream; |
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import java.io.IOException; |
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32 |
import java.security.*; |
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import javax.crypto.*; |
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import javax.crypto.spec.SecretKeySpec; |
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import javax.crypto.spec.IvParameterSpec; |
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37 |
import java.nio.*; |
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38 |
||
39 |
import sun.security.ssl.CipherSuite.*; |
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import static sun.security.ssl.CipherSuite.*; |
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41 |
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42 |
import sun.misc.HexDumpEncoder; |
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43 |
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||
45 |
/** |
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46 |
* This class handles bulk data enciphering/deciphering for each SSLv3 |
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47 |
* message. This provides data confidentiality. Stream ciphers (such |
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48 |
* as RC4) don't need to do padding; block ciphers (e.g. DES) need it. |
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49 |
* |
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* Individual instances are obtained by calling the static method |
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51 |
* newCipherBox(), which should only be invoked by BulkCipher.newCipher(). |
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* |
|
53 |
* NOTE that any ciphering involved in key exchange (e.g. with RSA) is |
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* handled separately. |
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* |
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* @author David Brownell |
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* @author Andreas Sterbenz |
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*/ |
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59 |
final class CipherBox { |
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60 |
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61 |
// A CipherBox that implements the identity operation |
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final static CipherBox NULL = new CipherBox(); |
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64 |
/* Class and subclass dynamic debugging support */ |
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private static final Debug debug = Debug.getInstance("ssl"); |
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67 |
// the protocol version this cipher conforms to |
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68 |
private final ProtocolVersion protocolVersion; |
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69 |
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70 |
// cipher object |
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private final Cipher cipher; |
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72 |
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73 |
/** |
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74 |
* Cipher blocksize, 0 for stream ciphers |
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*/ |
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76 |
private int blockSize; |
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77 |
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78 |
/** |
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79 |
* NULL cipherbox. Identity operation, no encryption. |
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80 |
*/ |
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81 |
private CipherBox() { |
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82 |
this.protocolVersion = ProtocolVersion.DEFAULT; |
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83 |
this.cipher = null; |
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84 |
} |
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85 |
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86 |
/** |
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87 |
* Construct a new CipherBox using the cipher transformation. |
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88 |
* |
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89 |
* @exception NoSuchAlgorithmException if no appropriate JCE Cipher |
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90 |
* implementation could be found. |
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*/ |
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private CipherBox(ProtocolVersion protocolVersion, BulkCipher bulkCipher, |
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SecretKey key, IvParameterSpec iv, boolean encrypt) |
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94 |
throws NoSuchAlgorithmException { |
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try { |
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this.protocolVersion = protocolVersion; |
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this.cipher = JsseJce.getCipher(bulkCipher.transformation); |
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int mode = encrypt ? Cipher.ENCRYPT_MODE : Cipher.DECRYPT_MODE; |
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cipher.init(mode, key, iv); |
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// do not call getBlockSize until after init() |
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// otherwise we would disrupt JCE delayed provider selection |
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blockSize = cipher.getBlockSize(); |
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// some providers implement getBlockSize() incorrectly |
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if (blockSize == 1) { |
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blockSize = 0; |
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} |
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107 |
} catch (NoSuchAlgorithmException e) { |
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108 |
throw e; |
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109 |
} catch (Exception e) { |
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110 |
throw new NoSuchAlgorithmException |
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111 |
("Could not create cipher " + bulkCipher, e); |
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112 |
} catch (ExceptionInInitializerError e) { |
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113 |
throw new NoSuchAlgorithmException |
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114 |
("Could not create cipher " + bulkCipher, e); |
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115 |
} |
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116 |
} |
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117 |
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118 |
/* |
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119 |
* Factory method to obtain a new CipherBox object. |
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120 |
*/ |
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121 |
static CipherBox newCipherBox(ProtocolVersion version, BulkCipher cipher, |
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122 |
SecretKey key, IvParameterSpec iv, boolean encrypt) |
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123 |
throws NoSuchAlgorithmException { |
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124 |
if (cipher.allowed == false) { |
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125 |
throw new NoSuchAlgorithmException("Unsupported cipher " + cipher); |
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126 |
} |
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127 |
if (cipher == B_NULL) { |
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128 |
return NULL; |
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129 |
} else { |
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130 |
return new CipherBox(version, cipher, key, iv, encrypt); |
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} |
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132 |
} |
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133 |
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134 |
/* |
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135 |
* Encrypts a block of data, returning the size of the |
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136 |
* resulting block. |
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*/ |
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138 |
int encrypt(byte[] buf, int offset, int len) { |
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139 |
if (cipher == null) { |
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140 |
return len; |
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} |
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142 |
try { |
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if (blockSize != 0) { |
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len = addPadding(buf, offset, len, blockSize); |
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145 |
} |
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if (debug != null && Debug.isOn("plaintext")) { |
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try { |
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HexDumpEncoder hd = new HexDumpEncoder(); |
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150 |
System.out.println( |
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"Padded plaintext before ENCRYPTION: len = " |
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+ len); |
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hd.encodeBuffer( |
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new ByteArrayInputStream(buf, offset, len), |
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System.out); |
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} catch (IOException e) { } |
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} |
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int newLen = cipher.update(buf, offset, len, buf, offset); |
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159 |
if (newLen != len) { |
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160 |
// catch BouncyCastle buffering error |
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throw new RuntimeException("Cipher buffering error " + |
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"in JCE provider " + cipher.getProvider().getName()); |
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} |
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return newLen; |
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} catch (ShortBufferException e) { |
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throw new ArrayIndexOutOfBoundsException(e.toString()); |
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} |
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} |
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170 |
/* |
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171 |
* Encrypts a ByteBuffer block of data, returning the size of the |
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* resulting block. |
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173 |
* |
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174 |
* The byte buffers position and limit initially define the amount |
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175 |
* to encrypt. On return, the position and limit are |
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176 |
* set to last position padded/encrypted. The limit may have changed |
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* because of the added padding bytes. |
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*/ |
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179 |
int encrypt(ByteBuffer bb) { |
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180 |
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181 |
int len = bb.remaining(); |
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182 |
||
183 |
if (cipher == null) { |
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184 |
bb.position(bb.limit()); |
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return len; |
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186 |
} |
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187 |
||
188 |
try { |
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int pos = bb.position(); |
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190 |
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191 |
if (blockSize != 0) { |
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// addPadding adjusts pos/limit |
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len = addPadding(bb, blockSize); |
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194 |
bb.position(pos); |
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} |
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if (debug != null && Debug.isOn("plaintext")) { |
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try { |
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HexDumpEncoder hd = new HexDumpEncoder(); |
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200 |
System.out.println( |
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"Padded plaintext before ENCRYPTION: len = " |
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+ len); |
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hd.encodeBuffer(bb, System.out); |
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205 |
} catch (IOException e) { } |
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/* |
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207 |
* reset back to beginning |
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*/ |
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209 |
bb.position(pos); |
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210 |
} |
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211 |
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212 |
/* |
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213 |
* Encrypt "in-place". This does not add its own padding. |
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214 |
*/ |
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215 |
ByteBuffer dup = bb.duplicate(); |
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int newLen = cipher.update(dup, bb); |
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217 |
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218 |
if (bb.position() != dup.position()) { |
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throw new RuntimeException("bytebuffer padding error"); |
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220 |
} |
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222 |
if (newLen != len) { |
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223 |
// catch BouncyCastle buffering error |
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224 |
throw new RuntimeException("Cipher buffering error " + |
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225 |
"in JCE provider " + cipher.getProvider().getName()); |
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226 |
} |
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227 |
return newLen; |
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228 |
} catch (ShortBufferException e) { |
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RuntimeException exc = new RuntimeException(e.toString()); |
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230 |
exc.initCause(e); |
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231 |
throw exc; |
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232 |
} |
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233 |
} |
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||
235 |
||
236 |
/* |
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237 |
* Decrypts a block of data, returning the size of the |
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238 |
* resulting block if padding was required. |
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239 |
*/ |
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240 |
int decrypt(byte[] buf, int offset, int len) throws BadPaddingException { |
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241 |
if (cipher == null) { |
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242 |
return len; |
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243 |
} |
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244 |
try { |
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int newLen = cipher.update(buf, offset, len, buf, offset); |
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246 |
if (newLen != len) { |
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247 |
// catch BouncyCastle buffering error |
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248 |
throw new RuntimeException("Cipher buffering error " + |
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249 |
"in JCE provider " + cipher.getProvider().getName()); |
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250 |
} |
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251 |
if (debug != null && Debug.isOn("plaintext")) { |
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252 |
try { |
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253 |
HexDumpEncoder hd = new HexDumpEncoder(); |
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254 |
||
255 |
System.out.println( |
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256 |
"Padded plaintext after DECRYPTION: len = " |
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257 |
+ newLen); |
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hd.encodeBuffer( |
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new ByteArrayInputStream(buf, offset, newLen), |
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System.out); |
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261 |
} catch (IOException e) { } |
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262 |
} |
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263 |
if (blockSize != 0) { |
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264 |
newLen = removePadding(buf, offset, newLen, |
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265 |
blockSize, protocolVersion); |
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266 |
} |
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267 |
return newLen; |
|
268 |
} catch (ShortBufferException e) { |
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269 |
throw new ArrayIndexOutOfBoundsException(e.toString()); |
|
270 |
} |
|
271 |
} |
|
272 |
||
273 |
||
274 |
/* |
|
275 |
* Decrypts a block of data, returning the size of the |
|
276 |
* resulting block if padding was required. position and limit |
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277 |
* point to the end of the decrypted/depadded data. The initial |
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278 |
* limit and new limit may be different, given we may |
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279 |
* have stripped off some padding bytes. |
|
280 |
*/ |
|
281 |
int decrypt(ByteBuffer bb) throws BadPaddingException { |
|
282 |
||
283 |
int len = bb.remaining(); |
|
284 |
||
285 |
if (cipher == null) { |
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286 |
bb.position(bb.limit()); |
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287 |
return len; |
|
288 |
} |
|
289 |
||
290 |
try { |
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291 |
/* |
|
292 |
* Decrypt "in-place". |
|
293 |
*/ |
|
294 |
int pos = bb.position(); |
|
295 |
||
296 |
ByteBuffer dup = bb.duplicate(); |
|
297 |
int newLen = cipher.update(dup, bb); |
|
298 |
if (newLen != len) { |
|
299 |
// catch BouncyCastle buffering error |
|
300 |
throw new RuntimeException("Cipher buffering error " + |
|
301 |
"in JCE provider " + cipher.getProvider().getName()); |
|
302 |
} |
|
303 |
||
304 |
if (debug != null && Debug.isOn("plaintext")) { |
|
305 |
bb.position(pos); |
|
306 |
try { |
|
307 |
HexDumpEncoder hd = new HexDumpEncoder(); |
|
308 |
||
309 |
System.out.println( |
|
310 |
"Padded plaintext after DECRYPTION: len = " |
|
311 |
+ newLen); |
|
312 |
||
313 |
hd.encodeBuffer(bb, System.out); |
|
314 |
} catch (IOException e) { } |
|
315 |
} |
|
316 |
||
317 |
/* |
|
318 |
* Remove the block padding. |
|
319 |
*/ |
|
320 |
if (blockSize != 0) { |
|
321 |
bb.position(pos); |
|
322 |
newLen = removePadding(bb, blockSize, protocolVersion); |
|
323 |
} |
|
324 |
return newLen; |
|
325 |
} catch (ShortBufferException e) { |
|
326 |
RuntimeException exc = new RuntimeException(e.toString()); |
|
327 |
exc.initCause(e); |
|
328 |
throw exc; |
|
329 |
} |
|
330 |
} |
|
331 |
||
332 |
private static int addPadding(byte[] buf, int offset, int len, |
|
333 |
int blockSize) { |
|
334 |
int newlen = len + 1; |
|
335 |
byte pad; |
|
336 |
int i; |
|
337 |
||
338 |
if ((newlen % blockSize) != 0) { |
|
339 |
newlen += blockSize - 1; |
|
340 |
newlen -= newlen % blockSize; |
|
341 |
} |
|
342 |
pad = (byte) (newlen - len); |
|
343 |
||
344 |
if (buf.length < (newlen + offset)) { |
|
345 |
throw new IllegalArgumentException("no space to pad buffer"); |
|
346 |
} |
|
347 |
||
348 |
/* |
|
349 |
* TLS version of the padding works for both SSLv3 and TLSv1 |
|
350 |
*/ |
|
351 |
for (i = 0, offset += len; i < pad; i++) { |
|
352 |
buf [offset++] = (byte) (pad - 1); |
|
353 |
} |
|
354 |
return newlen; |
|
355 |
} |
|
356 |
||
357 |
/* |
|
358 |
* Apply the padding to the buffer. |
|
359 |
* |
|
360 |
* Limit is advanced to the new buffer length. |
|
361 |
* Position is equal to limit. |
|
362 |
*/ |
|
363 |
private static int addPadding(ByteBuffer bb, int blockSize) { |
|
364 |
||
365 |
int len = bb.remaining(); |
|
366 |
int offset = bb.position(); |
|
367 |
||
368 |
int newlen = len + 1; |
|
369 |
byte pad; |
|
370 |
int i; |
|
371 |
||
372 |
if ((newlen % blockSize) != 0) { |
|
373 |
newlen += blockSize - 1; |
|
374 |
newlen -= newlen % blockSize; |
|
375 |
} |
|
376 |
pad = (byte) (newlen - len); |
|
377 |
||
378 |
/* |
|
379 |
* Update the limit to what will be padded. |
|
380 |
*/ |
|
381 |
bb.limit(newlen + offset); |
|
382 |
||
383 |
/* |
|
384 |
* TLS version of the padding works for both SSLv3 and TLSv1 |
|
385 |
*/ |
|
386 |
for (i = 0, offset += len; i < pad; i++) { |
|
387 |
bb.put(offset++, (byte) (pad - 1)); |
|
388 |
} |
|
389 |
||
390 |
bb.position(offset); |
|
391 |
bb.limit(offset); |
|
392 |
||
393 |
return newlen; |
|
394 |
} |
|
395 |
||
396 |
||
397 |
/* |
|
398 |
* Typical TLS padding format for a 64 bit block cipher is as follows: |
|
399 |
* xx xx xx xx xx xx xx 00 |
|
400 |
* xx xx xx xx xx xx 01 01 |
|
401 |
* ... |
|
402 |
* xx 06 06 06 06 06 06 06 |
|
403 |
* 07 07 07 07 07 07 07 07 |
|
404 |
* TLS also allows any amount of padding from 1 and 256 bytes as long |
|
405 |
* as it makes the data a multiple of the block size |
|
406 |
*/ |
|
407 |
private static int removePadding(byte[] buf, int offset, int len, |
|
408 |
int blockSize, ProtocolVersion protocolVersion) |
|
409 |
throws BadPaddingException { |
|
410 |
// last byte is length byte (i.e. actual padding length - 1) |
|
411 |
int padOffset = offset + len - 1; |
|
412 |
int pad = buf[padOffset] & 0x0ff; |
|
413 |
||
414 |
int newlen = len - (pad + 1); |
|
415 |
if (newlen < 0) { |
|
416 |
throw new BadPaddingException("Padding length invalid: " + pad); |
|
417 |
} |
|
418 |
||
419 |
if (protocolVersion.v >= ProtocolVersion.TLS10.v) { |
|
420 |
for (int i = 1; i <= pad; i++) { |
|
421 |
int val = buf[padOffset - i] & 0xff; |
|
422 |
if (val != pad) { |
|
423 |
throw new BadPaddingException |
|
424 |
("Invalid TLS padding: " + val); |
|
425 |
} |
|
426 |
} |
|
427 |
} else { // SSLv3 |
|
428 |
// SSLv3 requires 0 <= length byte < block size |
|
429 |
// some implementations do 1 <= length byte <= block size, |
|
430 |
// so accept that as well |
|
431 |
// v3 does not require any particular value for the other bytes |
|
432 |
if (pad > blockSize) { |
|
433 |
throw new BadPaddingException("Invalid SSLv3 padding: " + pad); |
|
434 |
} |
|
435 |
} |
|
436 |
return newlen; |
|
437 |
} |
|
438 |
||
439 |
/* |
|
440 |
* Position/limit is equal the removed padding. |
|
441 |
*/ |
|
442 |
private static int removePadding(ByteBuffer bb, |
|
443 |
int blockSize, ProtocolVersion protocolVersion) |
|
444 |
throws BadPaddingException { |
|
445 |
||
446 |
int len = bb.remaining(); |
|
447 |
int offset = bb.position(); |
|
448 |
||
449 |
// last byte is length byte (i.e. actual padding length - 1) |
|
450 |
int padOffset = offset + len - 1; |
|
451 |
int pad = bb.get(padOffset) & 0x0ff; |
|
452 |
||
453 |
int newlen = len - (pad + 1); |
|
454 |
if (newlen < 0) { |
|
455 |
throw new BadPaddingException("Padding length invalid: " + pad); |
|
456 |
} |
|
457 |
||
458 |
/* |
|
459 |
* We could zero the padding area, but not much useful |
|
460 |
* information there. |
|
461 |
*/ |
|
462 |
if (protocolVersion.v >= ProtocolVersion.TLS10.v) { |
|
463 |
bb.put(padOffset, (byte)0); // zero the padding. |
|
464 |
for (int i = 1; i <= pad; i++) { |
|
465 |
int val = bb.get(padOffset - i) & 0xff; |
|
466 |
if (val != pad) { |
|
467 |
throw new BadPaddingException |
|
468 |
("Invalid TLS padding: " + val); |
|
469 |
} |
|
470 |
} |
|
471 |
} else { // SSLv3 |
|
472 |
// SSLv3 requires 0 <= length byte < block size |
|
473 |
// some implementations do 1 <= length byte <= block size, |
|
474 |
// so accept that as well |
|
475 |
// v3 does not require any particular value for the other bytes |
|
476 |
if (pad > blockSize) { |
|
477 |
throw new BadPaddingException("Invalid SSLv3 padding: " + pad); |
|
478 |
} |
|
479 |
} |
|
480 |
||
481 |
/* |
|
482 |
* Reset buffer limit to remove padding. |
|
483 |
*/ |
|
484 |
bb.position(offset + newlen); |
|
485 |
bb.limit(offset + newlen); |
|
486 |
||
487 |
return newlen; |
|
488 |
} |
|
1763
0a6b65d56746
6750401: SSL stress test with GF leads to 32 bit max process size in less than 5 minutes,with PCKS11 provider
wetmore
parents:
2
diff
changeset
|
489 |
|
0a6b65d56746
6750401: SSL stress test with GF leads to 32 bit max process size in less than 5 minutes,with PCKS11 provider
wetmore
parents:
2
diff
changeset
|
490 |
/* |
0a6b65d56746
6750401: SSL stress test with GF leads to 32 bit max process size in less than 5 minutes,with PCKS11 provider
wetmore
parents:
2
diff
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491 |
* Dispose of any intermediate state in the underlying cipher. |
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6750401: SSL stress test with GF leads to 32 bit max process size in less than 5 minutes,with PCKS11 provider
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492 |
* For PKCS11 ciphers, this will release any attached sessions, and |
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6750401: SSL stress test with GF leads to 32 bit max process size in less than 5 minutes,with PCKS11 provider
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493 |
* thus make finalization faster. |
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6750401: SSL stress test with GF leads to 32 bit max process size in less than 5 minutes,with PCKS11 provider
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494 |
*/ |
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6750401: SSL stress test with GF leads to 32 bit max process size in less than 5 minutes,with PCKS11 provider
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495 |
void dispose() { |
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6750401: SSL stress test with GF leads to 32 bit max process size in less than 5 minutes,with PCKS11 provider
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496 |
try { |
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6750401: SSL stress test with GF leads to 32 bit max process size in less than 5 minutes,with PCKS11 provider
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497 |
if (cipher != null) { |
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6750401: SSL stress test with GF leads to 32 bit max process size in less than 5 minutes,with PCKS11 provider
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498 |
// ignore return value. |
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6750401: SSL stress test with GF leads to 32 bit max process size in less than 5 minutes,with PCKS11 provider
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499 |
cipher.doFinal(); |
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6750401: SSL stress test with GF leads to 32 bit max process size in less than 5 minutes,with PCKS11 provider
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500 |
} |
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6750401: SSL stress test with GF leads to 32 bit max process size in less than 5 minutes,with PCKS11 provider
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501 |
} catch (GeneralSecurityException e) { |
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6750401: SSL stress test with GF leads to 32 bit max process size in less than 5 minutes,with PCKS11 provider
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502 |
// swallow for now. |
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6750401: SSL stress test with GF leads to 32 bit max process size in less than 5 minutes,with PCKS11 provider
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503 |
} |
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6750401: SSL stress test with GF leads to 32 bit max process size in less than 5 minutes,with PCKS11 provider
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504 |
} |
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505 |
|
2 | 506 |
} |