// This code is derived from jcifs smb client library // Ported by J. Arturo // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2.1 of the License, or (at your option) any later version. // // This library 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 // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA using System; namespace SharpCifs.Util { ///

/// This code is derived from the above source /// JCIFS API /// Norbert Hranitzky ///

and modified again by Michael B. ///

/// /// This code is derived from the above source /// JCIFS API /// Norbert Hranitzky ///

and modified again by Michael B. Allen /// public class DES { private int[] _encryptKeys = new int[32]; private int[] _decryptKeys = new int[32]; private int[] _tempInts = new int[2]; public DES() { } public DES(byte[] key) { // DesCipher - the DES encryption method // // The meat of this code is by Dave Zimmerman , and is: // // Copyright (c) 1996 Widget Workshop, Inc. All Rights Reserved. // // Permission to use, copy, modify, and distribute this software // and its documentation for NON-COMMERCIAL or COMMERCIAL purposes and // without fee is hereby granted, provided that this copyright notice is kept // intact. // // WIDGET WORKSHOP MAKES NO REPRESENTATIONS OR WARRANTIES ABOUT THE SUITABILITY // OF THE SOFTWARE, EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED // TO THE IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A // PARTICULAR PURPOSE, OR NON-INFRINGEMENT. WIDGET WORKSHOP SHALL NOT BE LIABLE // FOR ANY DAMAGES SUFFERED BY LICENSEE AS A RESULT OF USING, MODIFYING OR // DISTRIBUTING THIS SOFTWARE OR ITS DERIVATIVES. // // THIS SOFTWARE IS NOT DESIGNED OR INTENDED FOR USE OR RESALE AS ON-LINE // CONTROL EQUIPMENT IN HAZARDOUS ENVIRONMENTS REQUIRING FAIL-SAFE // PERFORMANCE, SUCH AS IN THE OPERATION OF NUCLEAR FACILITIES, AIRCRAFT // NAVIGATION OR COMMUNICATION SYSTEMS, AIR TRAFFIC CONTROL, DIRECT LIFE // SUPPORT MACHINES, OR WEAPONS SYSTEMS, IN WHICH THE FAILURE OF THE // SOFTWARE COULD LEAD DIRECTLY TO DEATH, PERSONAL INJURY, OR SEVERE // PHYSICAL OR ENVIRONMENTAL DAMAGE ("HIGH RISK ACTIVITIES"). WIDGET WORKSHOP // SPECIFICALLY DISCLAIMS ANY EXPRESS OR IMPLIED WARRANTY OF FITNESS FOR // HIGH RISK ACTIVITIES. // // // The rest is: // // Copyright (C) 1996 by Jef Poskanzer . All rights reserved. // // Copyright (C) 1996 by Wolfgang Platzer // email: wplatzer@iaik.tu-graz.ac.at // // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions // are met: // 1. Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // 2. Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimer in the // documentation and/or other materials provided with the distribution. // // THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND // ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE // IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE // ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE // FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL // DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS // OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) // HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT // LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY // OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF // SUCH DAMAGE. // // Constructor, byte-array key. if (key.Length == 7) { byte[] key8 = new byte[8]; MakeSmbKey(key, key8); SetKey(key8); } else { SetKey(key); } } public static void MakeSmbKey(byte[] key7, byte[] key8) { int i; key8[0] = unchecked((byte)((key7[0] >> 1) & unchecked(0xff))); key8[1] = unchecked((byte)((((key7[0] & unchecked(0x01)) << 6) | (((key7[1] & unchecked(0xff)) >> 2) & unchecked(0xff))) & unchecked(0xff))); key8[2] = unchecked((byte)((((key7[1] & unchecked(0x03)) << 5) | (((key7[2] & unchecked(0xff)) >> 3) & unchecked(0xff))) & unchecked(0xff))); key8[3] = unchecked((byte)((((key7[2] & unchecked(0x07)) << 4) | (((key7[3] & unchecked(0xff)) >> 4) & unchecked(0xff))) & unchecked(0xff))); key8[4] = unchecked((byte)((((key7[3] & unchecked(0x0F)) << 3) | (((key7[4] & unchecked(0xff)) >> 5) & unchecked(0xff))) & unchecked(0xff))); key8[5] = unchecked((byte)((((key7[4] & unchecked(0x1F)) << 2) | (((key7[5] & unchecked(0xff)) >> 6) & unchecked(0xff))) & unchecked(0xff))); key8[6] = unchecked((byte)((((key7[5] & unchecked(0x3F)) << 1) | (((key7[6] & unchecked(0xff)) >> 7) & unchecked(0xff))) & unchecked(0xff))); key8[7] = unchecked((byte)(key7[6] & unchecked(0x7F))); for (i = 0; i < 8; i++) { key8[i] = unchecked((byte)(key8[i] << 1)); } } /// Set the key. public virtual void SetKey(byte[] key) { // CHECK PAROTY TBD Deskey(key, true, _encryptKeys); Deskey(key, false, _decryptKeys); } // Turn an 8-byte key into internal keys. private void Deskey(byte[] keyBlock, bool encrypting, int[] knL) { int i; int j; int l; int m; int n; int[] pc1M = new int[56]; int[] pcr = new int[56]; int[] kn = new int[32]; for (j = 0; j < 56; ++j) { l = _pc1[j]; m = l & 0x7; pc1M[j] = ((keyBlock[(int)(((uint)l) >> 3)] & _bytebit[m]) != 0) ? 1 : 0; } for (i = 0; i < 16; ++i) { if (encrypting) { m = i << 1; } else { m = (15 - i) << 1; } n = m + 1; kn[m] = kn[n] = 0; for (j = 0; j < 28; ++j) { l = j + _totrot[i]; if (l < 28) { pcr[j] = pc1M[l]; } else { pcr[j] = pc1M[l - 28]; } } for (j = 28; j < 56; ++j) { l = j + _totrot[i]; if (l < 56) { pcr[j] = pc1M[l]; } else { pcr[j] = pc1M[l - 28]; } } for (j = 0; j < 24; ++j) { if (pcr[_pc2[j]] != 0) { kn[m] |= _bigbyte[j]; } if (pcr[_pc2[j + 24]] != 0) { kn[n] |= _bigbyte[j]; } } } Cookey(kn, knL); } private void Cookey(int[] raw, int[] knL) { int raw0; int raw1; int rawi; int knLi; int i; for (i = 0, rawi = 0, knLi = 0; i < 16; ++i) { raw0 = raw[rawi++]; raw1 = raw[rawi++]; knL[knLi] = (raw0 & unchecked(0x00fc0000)) << 6; knL[knLi] |= (raw0 & unchecked(0x00000fc0)) << 10; knL[knLi] |= (int)(((uint)(raw1 & unchecked(0x00fc0000))) >> 10); knL[knLi] |= (int)(((uint)(raw1 & unchecked(0x00000fc0))) >> 6); ++knLi; knL[knLi] = (raw0 & unchecked(0x0003f000)) << 12; knL[knLi] |= (raw0 & unchecked(0x0000003f)) << 16; knL[knLi] |= (int)(((uint)(raw1 & unchecked(0x0003f000))) >> 4); knL[knLi] |= (raw1 & unchecked(0x0000003f)); ++knLi; } } /// Encrypt a block of eight bytes. private void Encrypt(byte[] clearText, int clearOff, byte[] cipherText, int cipherOff) { SquashBytesToInts(clearText, clearOff, _tempInts, 0, 2); Des(_tempInts, _tempInts, _encryptKeys); SpreadIntsToBytes(_tempInts, 0, cipherText, cipherOff, 2); } /// Decrypt a block of eight bytes. private void Decrypt(byte[] cipherText, int cipherOff, byte[] clearText, int clearOff) { SquashBytesToInts(cipherText, cipherOff, _tempInts, 0, 2); Des(_tempInts, _tempInts, _decryptKeys); SpreadIntsToBytes(_tempInts, 0, clearText, clearOff, 2); } // The DES function. private void Des(int[] inInts, int[] outInts, int[] keys) { int fval; int work; int right; int leftt; int round; int keysi = 0; leftt = inInts[0]; right = inInts[1]; work = (((int)(((uint)leftt) >> 4)) ^ right) & unchecked(0x0f0f0f0f); right ^= work; leftt ^= (work << 4); work = (((int)(((uint)leftt) >> 16)) ^ right) & unchecked(0x0000ffff); right ^= work; leftt ^= (work << 16); work = (((int)(((uint)right) >> 2)) ^ leftt) & unchecked(0x33333333); leftt ^= work; right ^= (work << 2); work = (((int)(((uint)right) >> 8)) ^ leftt) & unchecked(0x00ff00ff); leftt ^= work; right ^= (work << 8); right = (right << 1) | (((int)(((uint)right) >> 31)) & 1); work = (leftt ^ right) & unchecked((int)(0xaaaaaaaa)); leftt ^= work; right ^= work; leftt = (leftt << 1) | (((int)(((uint)leftt) >> 31)) & 1); for (round = 0; round < 8; ++round) { work = (right << 28) | ((int)(((uint)right) >> 4)); work ^= keys[keysi++]; fval = _sp7[work & unchecked(0x0000003f)]; fval |= _sp5[((int)(((uint)work) >> 8)) & unchecked(0x0000003f)]; fval |= _sp3[((int)(((uint)work) >> 16)) & unchecked(0x0000003f)]; fval |= _sp1[((int)(((uint)work) >> 24)) & unchecked(0x0000003f)]; work = right ^ keys[keysi++]; fval |= _sp8[work & unchecked(0x0000003f)]; fval |= _sp6[((int)(((uint)work) >> 8)) & unchecked(0x0000003f)]; fval |= _sp4[((int)(((uint)work) >> 16)) & unchecked(0x0000003f)]; fval |= _sp2[((int)(((uint)work) >> 24)) & unchecked(0x0000003f)]; leftt ^= fval; work = (leftt << 28) | ((int)(((uint)leftt) >> 4)); work ^= keys[keysi++]; fval = _sp7[work & unchecked(0x0000003f)]; fval |= _sp5[((int)(((uint)work) >> 8)) & unchecked(0x0000003f)]; fval |= _sp3[((int)(((uint)work) >> 16)) & unchecked(0x0000003f)]; fval |= _sp1[((int)(((uint)work) >> 24)) & unchecked(0x0000003f)]; work = leftt ^ keys[keysi++]; fval |= _sp8[work & unchecked(0x0000003f)]; fval |= _sp6[((int)(((uint)work) >> 8)) & unchecked(0x0000003f)]; fval |= _sp4[((int)(((uint)work) >> 16)) & unchecked(0x0000003f)]; fval |= _sp2[((int)(((uint)work) >> 24)) & unchecked(0x0000003f)]; right ^= fval; } right = (right << 31) | ((int)(((uint)right) >> 1)); work = (leftt ^ right) & unchecked((int)(0xaaaaaaaa)); leftt ^= work; right ^= work; leftt = (leftt << 31) | ((int)(((uint)leftt) >> 1)); work = (((int)(((uint)leftt) >> 8)) ^ right) & unchecked(0x00ff00ff); right ^= work; leftt ^= (work << 8); work = (((int)(((uint)leftt) >> 2)) ^ right) & unchecked(0x33333333); right ^= work; leftt ^= (work << 2); work = (((int)(((uint)right) >> 16)) ^ leftt) & unchecked(0x0000ffff); leftt ^= work; right ^= (work << 16); work = (((int)(((uint)right) >> 4)) ^ leftt) & unchecked(0x0f0f0f0f); leftt ^= work; right ^= (work << 4); outInts[0] = right; outInts[1] = leftt; } /// Encrypt a block of bytes. public virtual void Encrypt(byte[] clearText, byte[] cipherText) { Encrypt(clearText, 0, cipherText, 0); } /// Decrypt a block of bytes. public virtual void Decrypt(byte[] cipherText, byte[] clearText) { Decrypt(cipherText, 0, clearText, 0); } ///

encrypts an array where the length must be a multiple of 8

public virtual byte[] Encrypt(byte[] clearText) { int length = clearText.Length; if (length % 8 != 0) { Console.Out.WriteLine("Array must be a multiple of 8"); return null; } byte[] cipherText = new byte[length]; int count = length / 8; for (int i = 0; i < count; i++) { Encrypt(clearText, i * 8, cipherText, i * 8); } return cipherText; } ///

decrypts an array where the length must be a multiple of 8

public virtual byte[] Decrypt(byte[] cipherText) { int length = cipherText.Length; if (length % 8 != 0) { Console.Out.WriteLine("Array must be a multiple of 8"); return null; } byte[] clearText = new byte[length]; int count = length / 8; for (int i = 0; i < count; i++) { Encrypt(cipherText, i * 8, clearText, i * 8); } return clearText; } private static byte[] _bytebit = { unchecked(unchecked(0x80)), unchecked(unchecked(0x40)), unchecked(unchecked(0x20)), unchecked(unchecked(0x10)), unchecked(unchecked(0x08)), unchecked(unchecked(0x04)), unchecked(unchecked(0x02)), unchecked(unchecked(0x01)) }; private static int[] _bigbyte = { unchecked(0x800000), unchecked(0x400000), unchecked(0x200000), unchecked(0x100000), unchecked(0x080000), unchecked(0x040000), unchecked(0x020000), unchecked(0x010000), unchecked(0x008000), unchecked(0x004000), unchecked(0x002000), unchecked(0x001000), unchecked(0x000800), unchecked(0x000400), unchecked(0x000200), unchecked(0x000100), unchecked(0x000080), unchecked(0x000040), unchecked(0x000020), unchecked(0x000010), unchecked(0x000008), unchecked(0x000004), unchecked(0x000002), unchecked(0x000001) }; private static byte[] _pc1 = { unchecked(56), unchecked(48), unchecked(40), unchecked(32), unchecked(24), unchecked(16), unchecked(8), unchecked(0), unchecked(57), unchecked(49), unchecked(41), unchecked(33), unchecked(25), unchecked(17), unchecked(9), unchecked(1), unchecked(58), unchecked(50), unchecked(42), unchecked(34), unchecked(26), unchecked(18), unchecked(10), unchecked(2), unchecked(59), unchecked(51), unchecked(43), unchecked(35), unchecked(62), unchecked(54), unchecked(46), unchecked(38), unchecked(30), unchecked(22), unchecked(14), unchecked(6), unchecked(61), unchecked(53), unchecked(45), unchecked(37), unchecked(29), unchecked(21), unchecked(13), unchecked(5), unchecked(60), unchecked(52), unchecked(44), unchecked(36), unchecked(28), unchecked(20), unchecked(12), unchecked(4), unchecked(27), unchecked(19), unchecked(11), unchecked(3) }; private static int[] _totrot = { 1, 2, 4, 6, 8, 10, 12, 14, 15, 17, 19, 21, 23, 25, 27, 28 }; private static byte[] _pc2 = { unchecked(13), unchecked(16), unchecked(10), unchecked(23), unchecked(0), unchecked(4), unchecked(2), unchecked(27), unchecked(14), unchecked(5), unchecked(20), unchecked(9), unchecked(22), unchecked(18), unchecked(11), unchecked(3), unchecked(25), unchecked(7), unchecked(15), unchecked(6), unchecked(26), unchecked(19), unchecked(12), unchecked(1), unchecked(40), unchecked(51), unchecked(30), unchecked(36), unchecked(46), unchecked(54), unchecked(29), unchecked(39), unchecked(50), unchecked(44), unchecked(32), unchecked(47), unchecked(43), unchecked(48), unchecked(38), unchecked(55), unchecked(33), unchecked(52), unchecked(45), unchecked(41), unchecked(49), unchecked(35), unchecked(28), unchecked(31) }; private static int[] _sp1 = { unchecked(0x01010400), unchecked(0x00000000), unchecked(0x00010000), unchecked(0x01010404), unchecked(0x01010004), unchecked(0x00010404), unchecked(0x00000004), unchecked(0x00010000), unchecked(0x00000400), unchecked(0x01010400), unchecked(0x01010404), unchecked(0x00000400), unchecked(0x01000404), unchecked(0x01010004), unchecked(0x01000000), unchecked(0x00000004), unchecked(0x00000404), unchecked(0x01000400), unchecked(0x01000400), unchecked(0x00010400), unchecked(0x00010400), unchecked(0x01010000), unchecked(0x01010000), unchecked(0x01000404), unchecked(0x00010004), unchecked(0x01000004), unchecked(0x01000004), unchecked(0x00010004), unchecked(0x00000000), unchecked(0x00000404), unchecked(0x00010404), unchecked(0x01000000), unchecked(0x00010000), unchecked(0x01010404), unchecked(0x00000004), unchecked(0x01010000), unchecked(0x01010400), unchecked(0x01000000), unchecked(0x01000000), unchecked(0x00000400), unchecked(0x01010004), unchecked(0x00010000), unchecked(0x00010400), unchecked(0x01000004), unchecked(0x00000400), unchecked(0x00000004), unchecked(0x01000404), unchecked(0x00010404), unchecked(0x01010404), unchecked(0x00010004), unchecked(0x01010000), unchecked(0x01000404), unchecked(0x01000004), unchecked(0x00000404), unchecked(0x00010404), unchecked(0x01010400), unchecked(0x00000404), unchecked(0x01000400), unchecked(0x01000400), unchecked(0x00000000), unchecked(0x00010004), unchecked(0x00010400), unchecked(0x00000000), unchecked(0x01010004) }; private static int[] _sp2 = { unchecked((int)(0x80108020)), unchecked((int)(0x80008000)), unchecked(0x00008000), unchecked(0x00108020), unchecked(0x00100000), unchecked(0x00000020), unchecked((int)(0x80100020)), unchecked((int)(0x80008020)), unchecked((int)(0x80000020)), unchecked((int)(0x80108020)), unchecked((int)(0x80108000)), unchecked((int)(0x80000000)), unchecked((int)(0x80008000)), unchecked(0x00100000), unchecked(0x00000020), unchecked((int)(0x80100020)), unchecked(0x00108000), unchecked(0x00100020), unchecked((int)(0x80008020)), unchecked(0x00000000), unchecked((int)(0x80000000)), unchecked(0x00008000), unchecked(0x00108020), unchecked((int)(0x80100000)), unchecked(0x00100020), unchecked((int)(0x80000020)), unchecked(0x00000000), unchecked(0x00108000), unchecked(0x00008020), unchecked((int)(0x80108000)), unchecked((int)(0x80100000)), unchecked(0x00008020), unchecked(0x00000000), unchecked(0x00108020), unchecked((int)(0x80100020)), unchecked(0x00100000), unchecked((int)(0x80008020)), unchecked((int)(0x80100000)), unchecked((int)(0x80108000)), unchecked(0x00008000), unchecked((int)(0x80100000)), unchecked((int)(0x80008000)), unchecked(0x00000020), unchecked((int)(0x80108020)), unchecked(0x00108020), unchecked(0x00000020), unchecked(0x00008000), unchecked((int)(0x80000000)), unchecked(0x00008020), unchecked((int)(0x80108000)), unchecked(0x00100000), unchecked((int)(0x80000020)), unchecked(0x00100020), unchecked((int)(0x80008020)), unchecked((int)(0x80000020)), unchecked(0x00100020), unchecked(0x00108000), unchecked(0x00000000), unchecked((int)(0x80008000)), unchecked(0x00008020), unchecked((int)(0x80000000)), unchecked((int)(0x80100020)), unchecked((int)(0x80108020)), unchecked(0x00108000) }; private static int[] _sp3 = { unchecked(0x00000208), unchecked(0x08020200), unchecked(0x00000000), unchecked(0x08020008), unchecked(0x08000200), unchecked(0x00000000), unchecked(0x00020208), unchecked(0x08000200), unchecked(0x00020008), unchecked(0x08000008), unchecked(0x08000008), unchecked(0x00020000), unchecked(0x08020208), unchecked(0x00020008), unchecked(0x08020000), unchecked(0x00000208), unchecked(0x08000000), unchecked(0x00000008), unchecked(0x08020200), unchecked(0x00000200), unchecked(0x00020200), unchecked(0x08020000), unchecked(0x08020008), unchecked(0x00020208), unchecked(0x08000208), unchecked(0x00020200), unchecked(0x00020000), unchecked(0x08000208), unchecked(0x00000008), unchecked(0x08020208), unchecked(0x00000200), unchecked(0x08000000), unchecked(0x08020200), unchecked(0x08000000), unchecked(0x00020008), unchecked(0x00000208), unchecked(0x00020000), unchecked(0x08020200), unchecked(0x08000200), unchecked(0x00000000), unchecked(0x00000200), unchecked(0x00020008), unchecked(0x08020208), unchecked(0x08000200), unchecked(0x08000008), unchecked(0x00000200), unchecked(0x00000000), unchecked(0x08020008), unchecked(0x08000208), unchecked(0x00020000), unchecked(0x08000000), unchecked(0x08020208), unchecked(0x00000008), unchecked(0x00020208), unchecked(0x00020200), unchecked(0x08000008), unchecked(0x08020000), unchecked(0x08000208), unchecked(0x00000208), unchecked(0x08020000), unchecked(0x00020208), unchecked(0x00000008),unchecked(0x08020008), unchecked(0x00020200) }; private static int[] _sp4 = { unchecked(0x00802001), unchecked(0x00002081), unchecked(0x00002081), unchecked(0x00000080), unchecked(0x00802080), unchecked(0x00800081), unchecked(0x00800001), unchecked(0x00002001), unchecked(0x00000000), unchecked(0x00802000), unchecked(0x00802000), unchecked(0x00802081), unchecked(0x00000081), unchecked(0x00000000), unchecked(0x00800080), unchecked(0x00800001), unchecked(0x00000001), unchecked(0x00002000), unchecked(0x00800000), unchecked(0x00802001), unchecked(0x00000080), unchecked(0x00800000), unchecked(0x00002001), unchecked(0x00002080), unchecked(0x00800081), unchecked(0x00000001), unchecked(0x00002080), unchecked(0x00800080), unchecked(0x00002000), unchecked(0x00802080), unchecked(0x00802081), unchecked(0x00000081), unchecked(0x00800080), unchecked(0x00800001), unchecked(0x00802000), unchecked(0x00802081), unchecked(0x00000081), unchecked(0x00000000), unchecked(0x00000000), unchecked(0x00802000), unchecked(0x00002080), unchecked(0x00800080), unchecked(0x00800081), unchecked(0x00000001), unchecked(0x00802001), unchecked(0x00002081), unchecked(0x00002081), unchecked(0x00000080), unchecked(0x00802081), unchecked(0x00000081), unchecked(0x00000001), unchecked(0x00002000), unchecked(0x00800001), unchecked(0x00002001), unchecked(0x00802080), unchecked(0x00800081), unchecked(0x00002001), unchecked(0x00002080), unchecked(0x00800000), unchecked(0x00802001), unchecked(0x00000080), unchecked(0x00800000), unchecked(0x00002000), unchecked(0x00802080) }; private static int[] _sp5 = { unchecked(0x00000100), unchecked(0x02080100), unchecked(0x02080000), unchecked(0x42000100), unchecked(0x00080000), unchecked(0x00000100), unchecked(0x40000000), unchecked(0x02080000), unchecked(0x40080100), unchecked(0x00080000), unchecked(0x02000100), unchecked(0x40080100), unchecked(0x42000100), unchecked(0x42080000), unchecked(0x00080100), unchecked(0x40000000), unchecked(0x02000000), unchecked(0x40080000), unchecked(0x40080000), unchecked(0x00000000), unchecked(0x40000100), unchecked(0x42080100), unchecked(0x42080100), unchecked(0x02000100), unchecked(0x42080000), unchecked(0x40000100), unchecked(0x00000000), unchecked(0x42000000), unchecked(0x02080100), unchecked(0x02000000), unchecked(0x42000000), unchecked(0x00080100), unchecked(0x00080000), unchecked(0x42000100), unchecked(0x00000100), unchecked(0x02000000), unchecked(0x40000000), unchecked(0x02080000), unchecked(0x42000100), unchecked(0x40080100), unchecked(0x02000100), unchecked(0x40000000), unchecked(0x42080000), unchecked(0x02080100), unchecked(0x40080100), unchecked(0x00000100), unchecked(0x02000000), unchecked(0x42080000), unchecked(0x42080100), unchecked(0x00080100), unchecked(0x42000000), unchecked(0x42080100), unchecked(0x02080000), unchecked(0x00000000), unchecked(0x40080000), unchecked(0x42000000), unchecked(0x00080100), unchecked(0x02000100), unchecked(0x40000100), unchecked(0x00080000), unchecked(0x00000000), unchecked(0x40080000), unchecked(0x02080100), unchecked(0x40000100) }; private static int[] _sp6 = { unchecked(0x20000010), unchecked(0x20400000), unchecked(0x00004000), unchecked(0x20404010), unchecked(0x20400000), unchecked(0x00000010), unchecked(0x20404010), unchecked(0x00400000), unchecked(0x20004000), unchecked(0x00404010), unchecked(0x00400000), unchecked(0x20000010), unchecked(0x00400010), unchecked(0x20004000), unchecked(0x20000000), unchecked(0x00004010), unchecked(0x00000000), unchecked(0x00400010), unchecked(0x20004010), unchecked(0x00004000), unchecked(0x00404000), unchecked(0x20004010), unchecked(0x00000010), unchecked(0x20400010), unchecked(0x20400010), unchecked(0x00000000), unchecked(0x00404010), unchecked(0x20404000), unchecked(0x00004010), unchecked(0x00404000), unchecked(0x20404000), unchecked(0x20000000), unchecked(0x20004000), unchecked(0x00000010), unchecked(0x20400010), unchecked(0x00404000), unchecked(0x20404010), unchecked(0x00400000), unchecked(0x00004010), unchecked(0x20000010), unchecked(0x00400000), unchecked(0x20004000), unchecked(0x20000000), unchecked(0x00004010), unchecked(0x20000010), unchecked(0x20404010), unchecked(0x00404000), unchecked(0x20400000), unchecked(0x00404010), unchecked(0x20404000), unchecked(0x00000000), unchecked(0x20400010), unchecked(0x00000010), unchecked(0x00004000), unchecked(0x20400000), unchecked(0x00404010), unchecked(0x00004000), unchecked(0x00400010), unchecked(0x20004010), unchecked(0x00000000), unchecked(0x20404000), unchecked(0x20000000), unchecked(0x00400010), unchecked(0x20004010) }; private static int[] _sp7 = { unchecked(0x00200000), unchecked(0x04200002), unchecked(0x04000802), unchecked(0x00000000), unchecked(0x00000800), unchecked(0x04000802), unchecked(0x00200802), unchecked(0x04200800), unchecked(0x04200802), unchecked(0x00200000), unchecked(0x00000000), unchecked(0x04000002), unchecked(0x00000002), unchecked(0x04000000), unchecked(0x04200002), unchecked(0x00000802), unchecked(0x04000800), unchecked(0x00200802), unchecked(0x00200002), unchecked(0x04000800), unchecked(0x04000002), unchecked(0x04200000), unchecked(0x04200800), unchecked(0x00200002), unchecked(0x04200000), unchecked(0x00000800), unchecked(0x00000802), unchecked(0x04200802), unchecked(0x00200800), unchecked(0x00000002), unchecked(0x04000000), unchecked(0x00200800), unchecked(0x04000000), unchecked(0x00200800), unchecked(0x00200000), unchecked(0x04000802), unchecked(0x04000802), unchecked(0x04200002), unchecked(0x04200002), unchecked(0x00000002), unchecked(0x00200002), unchecked(0x04000000), unchecked(0x04000800), unchecked(0x00200000), unchecked(0x04200800), unchecked(0x00000802), unchecked(0x00200802), unchecked(0x04200800), unchecked(0x00000802), unchecked(0x04000002), unchecked(0x04200802), unchecked(0x04200000), unchecked(0x00200800), unchecked(0x00000000), unchecked(0x00000002), unchecked(0x04200802), unchecked(0x00000000), unchecked(0x00200802), unchecked(0x04200000), unchecked(0x00000800), unchecked(0x04000002), unchecked(0x04000800), unchecked(0x00000800), unchecked(0x00200002) }; private static int[] _sp8 = { unchecked(0x10001040), unchecked(0x00001000), unchecked(0x00040000), unchecked(0x10041040), unchecked(0x10000000), unchecked(0x10001040), unchecked(0x00000040), unchecked(0x10000000), unchecked(0x00040040), unchecked(0x10040000), unchecked(0x10041040), unchecked(0x00041000), unchecked(0x10041000), unchecked(0x00041040), unchecked(0x00001000), unchecked(0x00000040), unchecked(0x10040000), unchecked(0x10000040), unchecked(0x10001000), unchecked(0x00001040), unchecked(0x00041000), unchecked(0x00040040), unchecked(0x10040040), unchecked(0x10041000), unchecked(0x00001040), unchecked(0x00000000), unchecked(0x00000000), unchecked(0x10040040), unchecked(0x10000040), unchecked(0x10001000), unchecked(0x00041040), unchecked(0x00040000), unchecked(0x00041040), unchecked(0x00040000), unchecked(0x10041000), unchecked(0x00001000), unchecked(0x00000040), unchecked(0x10040040), unchecked(0x00001000), unchecked(0x00041040), unchecked(0x10001000), unchecked(0x00000040), unchecked(0x10000040), unchecked(0x10040000), unchecked(0x10040040), unchecked(0x10000000), unchecked(0x00040000), unchecked(0x10001040), unchecked(0x00000000), unchecked(0x10041040), unchecked(0x00040040), unchecked(0x10000040), unchecked(0x10040000), unchecked(0x10001000), unchecked(0x10001040), unchecked(0x00000000), unchecked(0x10041040), unchecked(0x00041000), unchecked(0x00041000), unchecked(0x00001040), unchecked(0x00001040), unchecked(0x00040040), unchecked(0x10000000), unchecked(0x10041000) }; // Tables, permutations, S-boxes, etc. /// Squash bytes down to ints. public static void SquashBytesToInts(byte[] inBytes, int inOff, int[] outInts, int outOff, int intLen) { for (int i = 0; i < intLen; ++i) { outInts[outOff + i] = ((inBytes[inOff + i * 4] & unchecked(0xff)) << 24) | ((inBytes[inOff + i * 4 + 1] & unchecked(0xff)) << 16) | ((inBytes[inOff + i * 4 + 2] & unchecked(0xff)) << 8) | (inBytes[inOff + i * 4 + 3] & unchecked(0xff)); } } /// Spread ints into bytes. public static void SpreadIntsToBytes(int[] inInts, int inOff, byte[] outBytes, int outOff, int intLen) { for (int i = 0; i < intLen; ++i) { outBytes[outOff + i * 4] = unchecked((byte)((int)(((uint)inInts[inOff + i]) >> 24))); outBytes[outOff + i * 4 + 1] = unchecked((byte)((int)(((uint)inInts[inOff + i]) >> 16))); outBytes[outOff + i * 4 + 2] = unchecked((byte)((int)(((uint)inInts[inOff + i]) >> 8))); outBytes[outOff + i * 4 + 3] = unchecked((byte)inInts[inOff + i]); } } } }