md5.java
来自「linux下建立JAVA虚拟机的源码KAFFE」· Java 代码 · 共 366 行
JAVA
366 行
/* MD5.java -- Copyright (C) 2001, 2002, 2006 Free Software Foundation, Inc.This file is a part of GNU Classpath.GNU Classpath is free software; you can redistribute it and/or modifyit under the terms of the GNU General Public License as published bythe Free Software Foundation; either version 2 of the License, or (atyour option) any later version.GNU Classpath is distributed in the hope that it will be useful, butWITHOUT ANY WARRANTY; without even the implied warranty ofMERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNUGeneral Public License for more details.You should have received a copy of the GNU General Public Licensealong with GNU Classpath; if not, write to the Free SoftwareFoundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301USALinking this library statically or dynamically with other modules ismaking a combined work based on this library. Thus, the terms andconditions of the GNU General Public License cover the wholecombination.As a special exception, the copyright holders of this library give youpermission to link this library with independent modules to produce anexecutable, regardless of the license terms of these independentmodules, and to copy and distribute the resulting executable underterms of your choice, provided that you also meet, for each linkedindependent module, the terms and conditions of the license of thatmodule. An independent module is a module which is not derived fromor based on this library. If you modify this library, you may extendthis exception to your version of the library, but you are notobligated to do so. If you do not wish to do so, delete thisexception statement from your version. */package gnu.java.security.hash;import gnu.java.security.Registry;import gnu.java.security.util.Util;/** * <p>The MD5 message-digest algorithm takes as input a message of arbitrary * length and produces as output a 128-bit "fingerprint" or "message digest" of * the input. It is conjectured that it is computationally infeasible to * produce two messages having the same message digest, or to produce any * message having a given prespecified target message digest.</p> * * <p>References:</p> * * <ol> * <li>The <a href="http://www.ietf.org/rfc/rfc1321.txt">MD5</a> Message- * Digest Algorithm.<br> * R. Rivest.</li> * </ol> */public class MD5 extends BaseHash{ // Constants and variables // ------------------------------------------------------------------------- private static final int BLOCK_SIZE = 64; // inner block size in bytes private static final String DIGEST0 = "D41D8CD98F00B204E9800998ECF8427E"; /** caches the result of the correctness test, once executed. */ private static Boolean valid; /** 128-bit interim result. */ private int h0, h1, h2, h3; // Constructor(s) // ------------------------------------------------------------------------- /** Trivial 0-arguments constructor. */ public MD5() { super(Registry.MD5_HASH, 16, BLOCK_SIZE); } /** * <p>Private constructor for cloning purposes.</p> * * @param md the instance to clone. */ private MD5(MD5 md) { this(); this.h0 = md.h0; this.h1 = md.h1; this.h2 = md.h2; this.h3 = md.h3; this.count = md.count; this.buffer = (byte[]) md.buffer.clone(); } // Class methods // ------------------------------------------------------------------------- // Instance methods // ------------------------------------------------------------------------- // java.lang.Cloneable interface implementation ---------------------------- public Object clone() { return new MD5(this); } // Implementation of concrete methods in BaseHash -------------------------- protected synchronized void transform(byte[] in, int i) { int X0 = (in[i++] & 0xFF) | (in[i++] & 0xFF) << 8 | (in[i++] & 0xFF) << 16 | in[i++] << 24; int X1 = (in[i++] & 0xFF) | (in[i++] & 0xFF) << 8 | (in[i++] & 0xFF) << 16 | in[i++] << 24; int X2 = (in[i++] & 0xFF) | (in[i++] & 0xFF) << 8 | (in[i++] & 0xFF) << 16 | in[i++] << 24; int X3 = (in[i++] & 0xFF) | (in[i++] & 0xFF) << 8 | (in[i++] & 0xFF) << 16 | in[i++] << 24; int X4 = (in[i++] & 0xFF) | (in[i++] & 0xFF) << 8 | (in[i++] & 0xFF) << 16 | in[i++] << 24; int X5 = (in[i++] & 0xFF) | (in[i++] & 0xFF) << 8 | (in[i++] & 0xFF) << 16 | in[i++] << 24; int X6 = (in[i++] & 0xFF) | (in[i++] & 0xFF) << 8 | (in[i++] & 0xFF) << 16 | in[i++] << 24; int X7 = (in[i++] & 0xFF) | (in[i++] & 0xFF) << 8 | (in[i++] & 0xFF) << 16 | in[i++] << 24; int X8 = (in[i++] & 0xFF) | (in[i++] & 0xFF) << 8 | (in[i++] & 0xFF) << 16 | in[i++] << 24; int X9 = (in[i++] & 0xFF) | (in[i++] & 0xFF) << 8 | (in[i++] & 0xFF) << 16 | in[i++] << 24; int X10 = (in[i++] & 0xFF) | (in[i++] & 0xFF) << 8 | (in[i++] & 0xFF) << 16 | in[i++] << 24; int X11 = (in[i++] & 0xFF) | (in[i++] & 0xFF) << 8 | (in[i++] & 0xFF) << 16 | in[i++] << 24; int X12 = (in[i++] & 0xFF) | (in[i++] & 0xFF) << 8 | (in[i++] & 0xFF) << 16 | in[i++] << 24; int X13 = (in[i++] & 0xFF) | (in[i++] & 0xFF) << 8 | (in[i++] & 0xFF) << 16 | in[i++] << 24; int X14 = (in[i++] & 0xFF) | (in[i++] & 0xFF) << 8 | (in[i++] & 0xFF) << 16 | in[i++] << 24; int X15 = (in[i++] & 0xFF) | (in[i++] & 0xFF) << 8 | (in[i++] & 0xFF) << 16 | in[i] << 24; int A = h0; int B = h1; int C = h2; int D = h3; // hex constants are from md5.c in FSF Gnu Privacy Guard 0.9.2 // round 1 A += ((B & C) | (~B & D)) + X0 + 0xD76AA478; A = B + (A << 7 | A >>> -7); D += ((A & B) | (~A & C)) + X1 + 0xE8C7B756; D = A + (D << 12 | D >>> -12); C += ((D & A) | (~D & B)) + X2 + 0x242070DB; C = D + (C << 17 | C >>> -17); B += ((C & D) | (~C & A)) + X3 + 0xC1BDCEEE; B = C + (B << 22 | B >>> -22); A += ((B & C) | (~B & D)) + X4 + 0xF57C0FAF; A = B + (A << 7 | A >>> -7); D += ((A & B) | (~A & C)) + X5 + 0x4787C62A; D = A + (D << 12 | D >>> -12); C += ((D & A) | (~D & B)) + X6 + 0xA8304613; C = D + (C << 17 | C >>> -17); B += ((C & D) | (~C & A)) + X7 + 0xFD469501; B = C + (B << 22 | B >>> -22); A += ((B & C) | (~B & D)) + X8 + 0x698098D8; A = B + (A << 7 | A >>> -7); D += ((A & B) | (~A & C)) + X9 + 0x8B44F7AF; D = A + (D << 12 | D >>> -12); C += ((D & A) | (~D & B)) + X10 + 0xFFFF5BB1; C = D + (C << 17 | C >>> -17); B += ((C & D) | (~C & A)) + X11 + 0x895CD7BE; B = C + (B << 22 | B >>> -22); A += ((B & C) | (~B & D)) + X12 + 0x6B901122; A = B + (A << 7 | A >>> -7); D += ((A & B) | (~A & C)) + X13 + 0xFD987193; D = A + (D << 12 | D >>> -12); C += ((D & A) | (~D & B)) + X14 + 0xA679438E; C = D + (C << 17 | C >>> -17); B += ((C & D) | (~C & A)) + X15 + 0x49B40821; B = C + (B << 22 | B >>> -22); // round 2 A += ((B & D) | (C & ~D)) + X1 + 0xF61E2562; A = B + (A << 5 | A >>> -5); D += ((A & C) | (B & ~C)) + X6 + 0xC040B340; D = A + (D << 9 | D >>> -9); C += ((D & B) | (A & ~B)) + X11 + 0x265E5A51; C = D + (C << 14 | C >>> -14); B += ((C & A) | (D & ~A)) + X0 + 0xE9B6C7AA; B = C + (B << 20 | B >>> -20); A += ((B & D) | (C & ~D)) + X5 + 0xD62F105D; A = B + (A << 5 | A >>> -5); D += ((A & C) | (B & ~C)) + X10 + 0x02441453; D = A + (D << 9 | D >>> -9); C += ((D & B) | (A & ~B)) + X15 + 0xD8A1E681; C = D + (C << 14 | C >>> -14); B += ((C & A) | (D & ~A)) + X4 + 0xE7D3FBC8; B = C + (B << 20 | B >>> -20); A += ((B & D) | (C & ~D)) + X9 + 0x21E1CDE6; A = B + (A << 5 | A >>> -5); D += ((A & C) | (B & ~C)) + X14 + 0xC33707D6; D = A + (D << 9 | D >>> -9); C += ((D & B) | (A & ~B)) + X3 + 0xF4D50D87; C = D + (C << 14 | C >>> -14); B += ((C & A) | (D & ~A)) + X8 + 0x455A14ED; B = C + (B << 20 | B >>> -20); A += ((B & D) | (C & ~D)) + X13 + 0xA9E3E905; A = B + (A << 5 | A >>> -5); D += ((A & C) | (B & ~C)) + X2 + 0xFCEFA3F8; D = A + (D << 9 | D >>> -9); C += ((D & B) | (A & ~B)) + X7 + 0x676F02D9; C = D + (C << 14 | C >>> -14); B += ((C & A) | (D & ~A)) + X12 + 0x8D2A4C8A; B = C + (B << 20 | B >>> -20); // round 3 A += (B ^ C ^ D) + X5 + 0xFFFA3942; A = B + (A << 4 | A >>> -4); D += (A ^ B ^ C) + X8 + 0x8771F681; D = A + (D << 11 | D >>> -11); C += (D ^ A ^ B) + X11 + 0x6D9D6122; C = D + (C << 16 | C >>> -16); B += (C ^ D ^ A) + X14 + 0xFDE5380C; B = C + (B << 23 | B >>> -23); A += (B ^ C ^ D) + X1 + 0xA4BEEA44; A = B + (A << 4 | A >>> -4); D += (A ^ B ^ C) + X4 + 0x4BDECFA9; D = A + (D << 11 | D >>> -11); C += (D ^ A ^ B) + X7 + 0xF6BB4B60; C = D + (C << 16 | C >>> -16); B += (C ^ D ^ A) + X10 + 0xBEBFBC70; B = C + (B << 23 | B >>> -23); A += (B ^ C ^ D) + X13 + 0x289B7EC6; A = B + (A << 4 | A >>> -4); D += (A ^ B ^ C) + X0 + 0xEAA127FA; D = A + (D << 11 | D >>> -11); C += (D ^ A ^ B) + X3 + 0xD4EF3085; C = D + (C << 16 | C >>> -16); B += (C ^ D ^ A) + X6 + 0x04881D05; B = C + (B << 23 | B >>> -23); A += (B ^ C ^ D) + X9 + 0xD9D4D039; A = B + (A << 4 | A >>> -4); D += (A ^ B ^ C) + X12 + 0xE6DB99E5; D = A + (D << 11 | D >>> -11); C += (D ^ A ^ B) + X15 + 0x1FA27CF8; C = D + (C << 16 | C >>> -16); B += (C ^ D ^ A) + X2 + 0xC4AC5665; B = C + (B << 23 | B >>> -23); // round 4 A += (C ^ (B | ~D)) + X0 + 0xF4292244; A = B + (A << 6 | A >>> -6); D += (B ^ (A | ~C)) + X7 + 0x432AFF97; D = A + (D << 10 | D >>> -10); C += (A ^ (D | ~B)) + X14 + 0xAB9423A7; C = D + (C << 15 | C >>> -15); B += (D ^ (C | ~A)) + X5 + 0xFC93A039; B = C + (B << 21 | B >>> -21); A += (C ^ (B | ~D)) + X12 + 0x655B59C3; A = B + (A << 6 | A >>> -6); D += (B ^ (A | ~C)) + X3 + 0x8F0CCC92; D = A + (D << 10 | D >>> -10); C += (A ^ (D | ~B)) + X10 + 0xFFEFF47D; C = D + (C << 15 | C >>> -15); B += (D ^ (C | ~A)) + X1 + 0x85845dd1; B = C + (B << 21 | B >>> -21); A += (C ^ (B | ~D)) + X8 + 0x6FA87E4F; A = B + (A << 6 | A >>> -6); D += (B ^ (A | ~C)) + X15 + 0xFE2CE6E0; D = A + (D << 10 | D >>> -10); C += (A ^ (D | ~B)) + X6 + 0xA3014314; C = D + (C << 15 | C >>> -15); B += (D ^ (C | ~A)) + X13 + 0x4E0811A1; B = C + (B << 21 | B >>> -21); A += (C ^ (B | ~D)) + X4 + 0xF7537E82; A = B + (A << 6 | A >>> -6); D += (B ^ (A | ~C)) + X11 + 0xBD3AF235; D = A + (D << 10 | D >>> -10); C += (A ^ (D | ~B)) + X2 + 0x2AD7D2BB; C = D + (C << 15 | C >>> -15); B += (D ^ (C | ~A)) + X9 + 0xEB86D391; B = C + (B << 21 | B >>> -21); h0 += A; h1 += B; h2 += C; h3 += D; } protected byte[] padBuffer() { int n = (int) (count % BLOCK_SIZE); int padding = (n < 56) ? (56 - n) : (120 - n); byte[] result = new byte[padding + 8]; // padding is always binary 1 followed by binary 0s result[0] = (byte) 0x80; // save number of bits, casting the long to an array of 8 bytes long bits = count << 3; result[padding++] = (byte) bits; result[padding++] = (byte) (bits >>> 8); result[padding++] = (byte) (bits >>> 16); result[padding++] = (byte) (bits >>> 24); result[padding++] = (byte) (bits >>> 32); result[padding++] = (byte) (bits >>> 40); result[padding++] = (byte) (bits >>> 48); result[padding] = (byte) (bits >>> 56); return result; } protected byte[] getResult() { byte[] result = new byte[] { (byte) h0, (byte) (h0 >>> 8), (byte) (h0 >>> 16), (byte) (h0 >>> 24), (byte) h1, (byte) (h1 >>> 8), (byte) (h1 >>> 16), (byte) (h1 >>> 24), (byte) h2, (byte) (h2 >>> 8), (byte) (h2 >>> 16), (byte) (h2 >>> 24), (byte) h3, (byte) (h3 >>> 8), (byte) (h3 >>> 16), (byte) (h3 >>> 24) }; return result; } protected void resetContext() { // magic MD5/RIPEMD128 initialisation constants h0 = 0x67452301; h1 = 0xEFCDAB89; h2 = 0x98BADCFE; h3 = 0x10325476; } public boolean selfTest() { if (valid == null) { valid = new Boolean(DIGEST0.equals(Util.toString(new MD5().digest()))); } return valid.booleanValue(); }}⌨️ 快捷键说明
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