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Brooklyn/crypto/java/SHA1.java

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// $Id: SHA1.java 214 2010-06-03 17:25:08Z tp $
package fr.cryptohash;
/**
* <p>This class implements the SHA-1 digest algorithm under the
* {@link Digest} API. SHA-1 is defined by FIPS 180-2.</p>
*
* <pre>
* ==========================(LICENSE BEGIN)============================
*
* Copyright (c) 2007-2010 Projet RNRT SAPHIR
*
* Permission is hereby granted, free of charge, to any person obtaining
* a copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sublicense, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to
* the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*
* ===========================(LICENSE END)=============================
* </pre>
*
* @version $Revision: 214 $
* @author Thomas Pornin &lt;[email protected]&gt;
*/
public class SHA1 extends MDHelper {
/**
* Build the object.
*/
public SHA1()
{
super(false, 8);
}
private int[] currentVal;
/** @see Digest */
public Digest copy()
{
SHA1 d = new SHA1();
System.arraycopy(currentVal, 0, d.currentVal, 0,
currentVal.length);
return copyState(d);
}
/** @see Digest */
public int getDigestLength()
{
return 20;
}
/** @see Digest */
public int getBlockLength()
{
return 64;
}
/** @see DigestEngine */
protected void engineReset()
{
currentVal[0] = (int)0x67452301;
currentVal[1] = (int)0xEFCDAB89;
currentVal[2] = (int)0x98BADCFE;
currentVal[3] = (int)0x10325476;
currentVal[4] = (int)0xC3D2E1F0;
}
/** @see DigestEngine */
protected void doPadding(byte[] output, int outputOffset)
{
makeMDPadding();
for (int i = 0; i < 5; i ++)
encodeBEInt(currentVal[i],
output, outputOffset + 4 * i);
}
/** @see DigestEngine */
protected void doInit()
{
currentVal = new int[5];
engineReset();
}
/**
* Encode the 32-bit word {@code val} into the array
* {@code buf} at offset {@code off}, in big-endian
* convention (most significant byte first).
*
* @param val the value to encode
* @param buf the destination buffer
* @param off the destination offset
*/
private static final void encodeBEInt(int val, byte[] buf, int off)
{
buf[off + 0] = (byte)(val >>> 24);
buf[off + 1] = (byte)(val >>> 16);
buf[off + 2] = (byte)(val >>> 8);
buf[off + 3] = (byte)val;
}
/**
* Decode a 32-bit big-endian word from the array {@code buf}
* at offset {@code off}.
*
* @param buf the source buffer
* @param off the source offset
* @return the decoded value
*/
private static final int decodeBEInt(byte[] buf, int off)
{
return ((buf[off] & 0xFF) << 24)
| ((buf[off + 1] & 0xFF) << 16)
| ((buf[off + 2] & 0xFF) << 8)
| (buf[off + 3] & 0xFF);
}
/** @see DigestEngine */
protected void processBlock(byte[] data)
{
int A = currentVal[0], B = currentVal[1];
int C = currentVal[2], D = currentVal[3], E = currentVal[4];
int U;
int W0 = decodeBEInt(data, 0);
E = ((A << 5) | (A >>> 27)) + ((B & C) | (~B & D))
+ E + W0 + 0x5A827999;
B = (B << 30) | (B >>> 2);
int W1 = decodeBEInt(data, 4);
D = ((E << 5) | (E >>> 27)) + ((A & B) | (~A & C))
+ D + W1 + 0x5A827999;
A = (A << 30) | (A >>> 2);
int W2 = decodeBEInt(data, 8);
C = ((D << 5) | (D >>> 27)) + ((E & A) | (~E & B))
+ C + W2 + 0x5A827999;
E = (E << 30) | (E >>> 2);
int W3 = decodeBEInt(data, 12);
B = ((C << 5) | (C >>> 27)) + ((D & E) | (~D & A))
+ B + W3 + 0x5A827999;
D = (D << 30) | (D >>> 2);
int W4 = decodeBEInt(data, 16);
A = ((B << 5) | (B >>> 27)) + ((C & D) | (~C & E))
+ A + W4 + 0x5A827999;
C = (C << 30) | (C >>> 2);
int W5 = decodeBEInt(data, 20);
E = ((A << 5) | (A >>> 27)) + ((B & C) | (~B & D))
+ E + W5 + 0x5A827999;
B = (B << 30) | (B >>> 2);
int W6 = decodeBEInt(data, 24);
D = ((E << 5) | (E >>> 27)) + ((A & B) | (~A & C))
+ D + W6 + 0x5A827999;
A = (A << 30) | (A >>> 2);
int W7 = decodeBEInt(data, 28);
C = ((D << 5) | (D >>> 27)) + ((E & A) | (~E & B))
+ C + W7 + 0x5A827999;
E = (E << 30) | (E >>> 2);
int W8 = decodeBEInt(data, 32);
B = ((C << 5) | (C >>> 27)) + ((D & E) | (~D & A))
+ B + W8 + 0x5A827999;
D = (D << 30) | (D >>> 2);
int W9 = decodeBEInt(data, 36);
A = ((B << 5) | (B >>> 27)) + ((C & D) | (~C & E))
+ A + W9 + 0x5A827999;
C = (C << 30) | (C >>> 2);
int Wa = decodeBEInt(data, 40);
E = ((A << 5) | (A >>> 27)) + ((B & C) | (~B & D))
+ E + Wa + 0x5A827999;
B = (B << 30) | (B >>> 2);
int Wb = decodeBEInt(data, 44);
D = ((E << 5) | (E >>> 27)) + ((A & B) | (~A & C))
+ D + Wb + 0x5A827999;
A = (A << 30) | (A >>> 2);
int Wc = decodeBEInt(data, 48);
C = ((D << 5) | (D >>> 27)) + ((E & A) | (~E & B))
+ C + Wc + 0x5A827999;
E = (E << 30) | (E >>> 2);
int Wd = decodeBEInt(data, 52);
B = ((C << 5) | (C >>> 27)) + ((D & E) | (~D & A))
+ B + Wd + 0x5A827999;
D = (D << 30) | (D >>> 2);
int We = decodeBEInt(data, 56);
A = ((B << 5) | (B >>> 27)) + ((C & D) | (~C & E))
+ A + We + 0x5A827999;
C = (C << 30) | (C >>> 2);
int Wf = decodeBEInt(data, 60);
E = ((A << 5) | (A >>> 27)) + ((B & C) | (~B & D))
+ E + Wf + 0x5A827999;
B = (B << 30) | (B >>> 2);
U = Wd ^ W8 ^ W2 ^ W0;
W0 = (U << 1) | (U >>> 31);
D = ((E << 5) | (E >>> 27)) + ((A & B) | (~A & C))
+ D + W0 + 0x5A827999;
A = (A << 30) | (A >>> 2);
U = We ^ W9 ^ W3 ^ W1;
W1 = (U << 1) | (U >>> 31);
C = ((D << 5) | (D >>> 27)) + ((E & A) | (~E & B))
+ C + W1 + 0x5A827999;
E = (E << 30) | (E >>> 2);
U = Wf ^ Wa ^ W4 ^ W2;
W2 = (U << 1) | (U >>> 31);
B = ((C << 5) | (C >>> 27)) + ((D & E) | (~D & A))
+ B + W2 + 0x5A827999;
D = (D << 30) | (D >>> 2);
U = W0 ^ Wb ^ W5 ^ W3;
W3 = (U << 1) | (U >>> 31);
A = ((B << 5) | (B >>> 27)) + ((C & D) | (~C & E))
+ A + W3 + 0x5A827999;
C = (C << 30) | (C >>> 2);
U = W1 ^ Wc ^ W6 ^ W4;
W4 = (U << 1) | (U >>> 31);
E = ((A << 5) | (A >>> 27)) + (B ^ C ^ D)
+ E + W4 + 0x6ED9EBA1;
B = (B << 30) | (B >>> 2);
U = W2 ^ Wd ^ W7 ^ W5;
W5 = (U << 1) | (U >>> 31);
D = ((E << 5) | (E >>> 27)) + (A ^ B ^ C)
+ D + W5 + 0x6ED9EBA1;
A = (A << 30) | (A >>> 2);
U = W3 ^ We ^ W8 ^ W6;
W6 = (U << 1) | (U >>> 31);
C = ((D << 5) | (D >>> 27)) + (E ^ A ^ B)
+ C + W6 + 0x6ED9EBA1;
E = (E << 30) | (E >>> 2);
U = W4 ^ Wf ^ W9 ^ W7;
W7 = (U << 1) | (U >>> 31);
B = ((C << 5) | (C >>> 27)) + (D ^ E ^ A)
+ B + W7 + 0x6ED9EBA1;
D = (D << 30) | (D >>> 2);
U = W5 ^ W0 ^ Wa ^ W8;
W8 = (U << 1) | (U >>> 31);
A = ((B << 5) | (B >>> 27)) + (C ^ D ^ E)
+ A + W8 + 0x6ED9EBA1;
C = (C << 30) | (C >>> 2);
U = W6 ^ W1 ^ Wb ^ W9;
W9 = (U << 1) | (U >>> 31);
E = ((A << 5) | (A >>> 27)) + (B ^ C ^ D)
+ E + W9 + 0x6ED9EBA1;
B = (B << 30) | (B >>> 2);
U = W7 ^ W2 ^ Wc ^ Wa;
Wa = (U << 1) | (U >>> 31);
D = ((E << 5) | (E >>> 27)) + (A ^ B ^ C)
+ D + Wa + 0x6ED9EBA1;
A = (A << 30) | (A >>> 2);
U = W8 ^ W3 ^ Wd ^ Wb;
Wb = (U << 1) | (U >>> 31);
C = ((D << 5) | (D >>> 27)) + (E ^ A ^ B)
+ C + Wb + 0x6ED9EBA1;
E = (E << 30) | (E >>> 2);
U = W9 ^ W4 ^ We ^ Wc;
Wc = (U << 1) | (U >>> 31);
B = ((C << 5) | (C >>> 27)) + (D ^ E ^ A)
+ B + Wc + 0x6ED9EBA1;
D = (D << 30) | (D >>> 2);
U = Wa ^ W5 ^ Wf ^ Wd;
Wd = (U << 1) | (U >>> 31);
A = ((B << 5) | (B >>> 27)) + (C ^ D ^ E)
+ A + Wd + 0x6ED9EBA1;
C = (C << 30) | (C >>> 2);
U = Wb ^ W6 ^ W0 ^ We;
We = (U << 1) | (U >>> 31);
E = ((A << 5) | (A >>> 27)) + (B ^ C ^ D)
+ E + We + 0x6ED9EBA1;
B = (B << 30) | (B >>> 2);
U = Wc ^ W7 ^ W1 ^ Wf;
Wf = (U << 1) | (U >>> 31);
D = ((E << 5) | (E >>> 27)) + (A ^ B ^ C)
+ D + Wf + 0x6ED9EBA1;
A = (A << 30) | (A >>> 2);
U = Wd ^ W8 ^ W2 ^ W0;
W0 = (U << 1) | (U >>> 31);
C = ((D << 5) | (D >>> 27)) + (E ^ A ^ B)
+ C + W0 + 0x6ED9EBA1;
E = (E << 30) | (E >>> 2);
U = We ^ W9 ^ W3 ^ W1;
W1 = (U << 1) | (U >>> 31);
B = ((C << 5) | (C >>> 27)) + (D ^ E ^ A)
+ B + W1 + 0x6ED9EBA1;
D = (D << 30) | (D >>> 2);
U = Wf ^ Wa ^ W4 ^ W2;
W2 = (U << 1) | (U >>> 31);
A = ((B << 5) | (B >>> 27)) + (C ^ D ^ E)
+ A + W2 + 0x6ED9EBA1;
C = (C << 30) | (C >>> 2);
U = W0 ^ Wb ^ W5 ^ W3;
W3 = (U << 1) | (U >>> 31);
E = ((A << 5) | (A >>> 27)) + (B ^ C ^ D)
+ E + W3 + 0x6ED9EBA1;
B = (B << 30) | (B >>> 2);
U = W1 ^ Wc ^ W6 ^ W4;
W4 = (U << 1) | (U >>> 31);
D = ((E << 5) | (E >>> 27)) + (A ^ B ^ C)
+ D + W4 + 0x6ED9EBA1;
A = (A << 30) | (A >>> 2);
U = W2 ^ Wd ^ W7 ^ W5;
W5 = (U << 1) | (U >>> 31);
C = ((D << 5) | (D >>> 27)) + (E ^ A ^ B)
+ C + W5 + 0x6ED9EBA1;
E = (E << 30) | (E >>> 2);
U = W3 ^ We ^ W8 ^ W6;
W6 = (U << 1) | (U >>> 31);
B = ((C << 5) | (C >>> 27)) + (D ^ E ^ A)
+ B + W6 + 0x6ED9EBA1;
D = (D << 30) | (D >>> 2);
U = W4 ^ Wf ^ W9 ^ W7;
W7 = (U << 1) | (U >>> 31);
A = ((B << 5) | (B >>> 27)) + (C ^ D ^ E)
+ A + W7 + 0x6ED9EBA1;
C = (C << 30) | (C >>> 2);
U = W5 ^ W0 ^ Wa ^ W8;
W8 = (U << 1) | (U >>> 31);
E = ((A << 5) | (A >>> 27)) + ((B & C) | (B & D) | (C & D))
+ E + W8 + 0x8F1BBCDC;
B = (B << 30) | (B >>> 2);
U = W6 ^ W1 ^ Wb ^ W9;
W9 = (U << 1) | (U >>> 31);
D = ((E << 5) | (E >>> 27)) + ((A & B) | (A & C) | (B & C))
+ D + W9 + 0x8F1BBCDC;
A = (A << 30) | (A >>> 2);
U = W7 ^ W2 ^ Wc ^ Wa;
Wa = (U << 1) | (U >>> 31);
C = ((D << 5) | (D >>> 27)) + ((E & A) | (E & B) | (A & B))
+ C + Wa + 0x8F1BBCDC;
E = (E << 30) | (E >>> 2);
U = W8 ^ W3 ^ Wd ^ Wb;
Wb = (U << 1) | (U >>> 31);
B = ((C << 5) | (C >>> 27)) + ((D & E) | (D & A) | (E & A))
+ B + Wb + 0x8F1BBCDC;
D = (D << 30) | (D >>> 2);
U = W9 ^ W4 ^ We ^ Wc;
Wc = (U << 1) | (U >>> 31);
A = ((B << 5) | (B >>> 27)) + ((C & D) | (C & E) | (D & E))
+ A + Wc + 0x8F1BBCDC;
C = (C << 30) | (C >>> 2);
U = Wa ^ W5 ^ Wf ^ Wd;
Wd = (U << 1) | (U >>> 31);
E = ((A << 5) | (A >>> 27)) + ((B & C) | (B & D) | (C & D))
+ E + Wd + 0x8F1BBCDC;
B = (B << 30) | (B >>> 2);
U = Wb ^ W6 ^ W0 ^ We;
We = (U << 1) | (U >>> 31);
D = ((E << 5) | (E >>> 27)) + ((A & B) | (A & C) | (B & C))
+ D + We + 0x8F1BBCDC;
A = (A << 30) | (A >>> 2);
U = Wc ^ W7 ^ W1 ^ Wf;
Wf = (U << 1) | (U >>> 31);
C = ((D << 5) | (D >>> 27)) + ((E & A) | (E & B) | (A & B))
+ C + Wf + 0x8F1BBCDC;
E = (E << 30) | (E >>> 2);
U = Wd ^ W8 ^ W2 ^ W0;
W0 = (U << 1) | (U >>> 31);
B = ((C << 5) | (C >>> 27)) + ((D & E) | (D & A) | (E & A))
+ B + W0 + 0x8F1BBCDC;
D = (D << 30) | (D >>> 2);
U = We ^ W9 ^ W3 ^ W1;
W1 = (U << 1) | (U >>> 31);
A = ((B << 5) | (B >>> 27)) + ((C & D) | (C & E) | (D & E))
+ A + W1 + 0x8F1BBCDC;
C = (C << 30) | (C >>> 2);
U = Wf ^ Wa ^ W4 ^ W2;
W2 = (U << 1) | (U >>> 31);
E = ((A << 5) | (A >>> 27)) + ((B & C) | (B & D) | (C & D))
+ E + W2 + 0x8F1BBCDC;
B = (B << 30) | (B >>> 2);
U = W0 ^ Wb ^ W5 ^ W3;
W3 = (U << 1) | (U >>> 31);
D = ((E << 5) | (E >>> 27)) + ((A & B) | (A & C) | (B & C))
+ D + W3 + 0x8F1BBCDC;
A = (A << 30) | (A >>> 2);
U = W1 ^ Wc ^ W6 ^ W4;
W4 = (U << 1) | (U >>> 31);
C = ((D << 5) | (D >>> 27)) + ((E & A) | (E & B) | (A & B))
+ C + W4 + 0x8F1BBCDC;
E = (E << 30) | (E >>> 2);
U = W2 ^ Wd ^ W7 ^ W5;
W5 = (U << 1) | (U >>> 31);
B = ((C << 5) | (C >>> 27)) + ((D & E) | (D & A) | (E & A))
+ B + W5 + 0x8F1BBCDC;
D = (D << 30) | (D >>> 2);
U = W3 ^ We ^ W8 ^ W6;
W6 = (U << 1) | (U >>> 31);
A = ((B << 5) | (B >>> 27)) + ((C & D) | (C & E) | (D & E))
+ A + W6 + 0x8F1BBCDC;
C = (C << 30) | (C >>> 2);
U = W4 ^ Wf ^ W9 ^ W7;
W7 = (U << 1) | (U >>> 31);
E = ((A << 5) | (A >>> 27)) + ((B & C) | (B & D) | (C & D))
+ E + W7 + 0x8F1BBCDC;
B = (B << 30) | (B >>> 2);
U = W5 ^ W0 ^ Wa ^ W8;
W8 = (U << 1) | (U >>> 31);
D = ((E << 5) | (E >>> 27)) + ((A & B) | (A & C) | (B & C))
+ D + W8 + 0x8F1BBCDC;
A = (A << 30) | (A >>> 2);
U = W6 ^ W1 ^ Wb ^ W9;
W9 = (U << 1) | (U >>> 31);
C = ((D << 5) | (D >>> 27)) + ((E & A) | (E & B) | (A & B))
+ C + W9 + 0x8F1BBCDC;
E = (E << 30) | (E >>> 2);
U = W7 ^ W2 ^ Wc ^ Wa;
Wa = (U << 1) | (U >>> 31);
B = ((C << 5) | (C >>> 27)) + ((D & E) | (D & A) | (E & A))
+ B + Wa + 0x8F1BBCDC;
D = (D << 30) | (D >>> 2);
U = W8 ^ W3 ^ Wd ^ Wb;
Wb = (U << 1) | (U >>> 31);
A = ((B << 5) | (B >>> 27)) + ((C & D) | (C & E) | (D & E))
+ A + Wb + 0x8F1BBCDC;
C = (C << 30) | (C >>> 2);
U = W9 ^ W4 ^ We ^ Wc;
Wc = (U << 1) | (U >>> 31);
E = ((A << 5) | (A >>> 27)) + (B ^ C ^ D)
+ E + Wc + 0xCA62C1D6;
B = (B << 30) | (B >>> 2);
U = Wa ^ W5 ^ Wf ^ Wd;
Wd = (U << 1) | (U >>> 31);
D = ((E << 5) | (E >>> 27)) + (A ^ B ^ C)
+ D + Wd + 0xCA62C1D6;
A = (A << 30) | (A >>> 2);
U = Wb ^ W6 ^ W0 ^ We;
We = (U << 1) | (U >>> 31);
C = ((D << 5) | (D >>> 27)) + (E ^ A ^ B)
+ C + We + 0xCA62C1D6;
E = (E << 30) | (E >>> 2);
U = Wc ^ W7 ^ W1 ^ Wf;
Wf = (U << 1) | (U >>> 31);
B = ((C << 5) | (C >>> 27)) + (D ^ E ^ A)
+ B + Wf + 0xCA62C1D6;
D = (D << 30) | (D >>> 2);
U = Wd ^ W8 ^ W2 ^ W0;
W0 = (U << 1) | (U >>> 31);
A = ((B << 5) | (B >>> 27)) + (C ^ D ^ E)
+ A + W0 + 0xCA62C1D6;
C = (C << 30) | (C >>> 2);
U = We ^ W9 ^ W3 ^ W1;
W1 = (U << 1) | (U >>> 31);
E = ((A << 5) | (A >>> 27)) + (B ^ C ^ D)
+ E + W1 + 0xCA62C1D6;
B = (B << 30) | (B >>> 2);
U = Wf ^ Wa ^ W4 ^ W2;
W2 = (U << 1) | (U >>> 31);
D = ((E << 5) | (E >>> 27)) + (A ^ B ^ C)
+ D + W2 + 0xCA62C1D6;
A = (A << 30) | (A >>> 2);
U = W0 ^ Wb ^ W5 ^ W3;
W3 = (U << 1) | (U >>> 31);
C = ((D << 5) | (D >>> 27)) + (E ^ A ^ B)
+ C + W3 + 0xCA62C1D6;
E = (E << 30) | (E >>> 2);
U = W1 ^ Wc ^ W6 ^ W4;
W4 = (U << 1) | (U >>> 31);
B = ((C << 5) | (C >>> 27)) + (D ^ E ^ A)
+ B + W4 + 0xCA62C1D6;
D = (D << 30) | (D >>> 2);
U = W2 ^ Wd ^ W7 ^ W5;
W5 = (U << 1) | (U >>> 31);
A = ((B << 5) | (B >>> 27)) + (C ^ D ^ E)
+ A + W5 + 0xCA62C1D6;
C = (C << 30) | (C >>> 2);
U = W3 ^ We ^ W8 ^ W6;
W6 = (U << 1) | (U >>> 31);
E = ((A << 5) | (A >>> 27)) + (B ^ C ^ D)
+ E + W6 + 0xCA62C1D6;
B = (B << 30) | (B >>> 2);
U = W4 ^ Wf ^ W9 ^ W7;
W7 = (U << 1) | (U >>> 31);
D = ((E << 5) | (E >>> 27)) + (A ^ B ^ C)
+ D + W7 + 0xCA62C1D6;
A = (A << 30) | (A >>> 2);
U = W5 ^ W0 ^ Wa ^ W8;
W8 = (U << 1) | (U >>> 31);
C = ((D << 5) | (D >>> 27)) + (E ^ A ^ B)
+ C + W8 + 0xCA62C1D6;
E = (E << 30) | (E >>> 2);
U = W6 ^ W1 ^ Wb ^ W9;
W9 = (U << 1) | (U >>> 31);
B = ((C << 5) | (C >>> 27)) + (D ^ E ^ A)
+ B + W9 + 0xCA62C1D6;
D = (D << 30) | (D >>> 2);
U = W7 ^ W2 ^ Wc ^ Wa;
Wa = (U << 1) | (U >>> 31);
A = ((B << 5) | (B >>> 27)) + (C ^ D ^ E)
+ A + Wa + 0xCA62C1D6;
C = (C << 30) | (C >>> 2);
U = W8 ^ W3 ^ Wd ^ Wb;
Wb = (U << 1) | (U >>> 31);
E = ((A << 5) | (A >>> 27)) + (B ^ C ^ D)
+ E + Wb + 0xCA62C1D6;
B = (B << 30) | (B >>> 2);
U = W9 ^ W4 ^ We ^ Wc;
Wc = (U << 1) | (U >>> 31);
D = ((E << 5) | (E >>> 27)) + (A ^ B ^ C)
+ D + Wc + 0xCA62C1D6;
A = (A << 30) | (A >>> 2);
U = Wa ^ W5 ^ Wf ^ Wd;
Wd = (U << 1) | (U >>> 31);
C = ((D << 5) | (D >>> 27)) + (E ^ A ^ B)
+ C + Wd + 0xCA62C1D6;
E = (E << 30) | (E >>> 2);
U = Wb ^ W6 ^ W0 ^ We;
We = (U << 1) | (U >>> 31);
B = ((C << 5) | (C >>> 27)) + (D ^ E ^ A)
+ B + We + 0xCA62C1D6;
D = (D << 30) | (D >>> 2);
U = Wc ^ W7 ^ W1 ^ Wf;
Wf = (U << 1) | (U >>> 31);
A = ((B << 5) | (B >>> 27)) + (C ^ D ^ E)
+ A + Wf + 0xCA62C1D6;
C = (C << 30) | (C >>> 2);
currentVal[0] += A;
currentVal[1] += B;
currentVal[2] += C;
currentVal[3] += D;
currentVal[4] += E;
}
/** @see Digest */
public String toString()
{
return "SHA-1";
}
}