public override void ProcessCryptoVariant(long variant) { var key = prepareKey(variant); var s = prepareOIV(variant); var RC4 = new RC4(key); var gamma = RC4.getGamma(numOfOutBytes); if (gamma[0] == 1) { if ((variant & 1) > 0) { c1f++; } else { c1t++; } } calcResult(gamma, variant, key); }
/* * gg.prepareGamma(key, s, Gost28147Modified.CryptoProA, Gost28147Modified.CryptoProB, Gost28147Modified.CryptoProC, Gost28147Modified.CryptoProD, Gost28147Modified.ESbox_A, Gost28147Modified.ESbox_B); * var gamma = gg.getGamma(GC + 1, true);*/ /* * gs.prepareGamma(key, s); * var gamma = gs.getGamma(GC + 1); */ //var gamma = gg.getGOSTGamma(key, s, Gost28147Modified.ESbox_B, 8); /*gg.prepareGamma(key, s, Gost28147Modified.CryptoProA, Gost28147Modified.CryptoProB, Gost28147Modified.CryptoProC, Gost28147Modified.CryptoProD, Gost28147Modified.ESbox_A, Gost28147Modified.ESbox_B); * var gamma = gg.getGamma(512, true);*/ /*gs.prepareGamma(key, s); * var gamma = gs.getGamma();*/ //var gamma = gg.getGOSTGamma(key, s, Gost28147Modified.ESbox_B, 8); //var gamma = gs.getDerivatoKey(key, s, hashCount, ref pc, 512, regime); /*gg.prepareGamma(key, s, Gost28147Modified.CryptoProA, Gost28147Modified.CryptoProB, Gost28147Modified.CryptoProC, Gost28147Modified.CryptoProD, Gost28147Modified.ESbox_A, Gost28147Modified.ESbox_B); * var gamma = gg.getGamma(512, true);*/ /* * gs.prepareGamma(key, s); * var gamma = gs.getGamma(); * */ /* * var gamma = gg.getGOSTGamma(key, s, Gost28147Modified.ESbox_B, 8); * /* * byte[] gamma = new byte[72]; * SHA3.getMultiHash20(key, out gamma, ref pc, hashCount, gs); */ /* * var lk = gs.GetKeysFromKeyData(key, s, hashCount, 20, ref pc); * var ls = gs.GetOIVectorsFromKeyData(lk.Count, s, hashCount); * var gamma = gs.getMACHashMod(s, lk, ls, pc, hashCount); */ private static void testPermutation(object sync, int MC, int pc, int hashCount, int GC) { if (MC > 14) { throw new ArgumentOutOfRangeException("MC", "MC must be <= 14"); } #if !fillKey1 tgmgSuccess = 1; #else tgmgSuccess = 4; #endif tgmgResultInt = 0; #if AGOST || AD var SL = 32; #elif AGOSTM var SL = 160; #elif AGOSTM2 || AGOSTM2E var SL = 128; #elif APH var SL = 256; #else var SL = 64; #endif for (int counter = 0; counter < tgmgSuccess; counter++) { int CK = 0; if (counter == 1) { CK = SL - 4; } else if (counter == 2) { CK = SL >> 1; } else if (counter == 3) { CK = (SL >> 1) + (SL >> 2); } int counterA = counter; ThreadPool.QueueUserWorkItem ( delegate { var error = 0; int Max = 1 << (MC + 2); var key = new byte[SL]; var s = new byte[64]; var stat = new int[2, 16, 256, GC]; var stab = new int[2, 2, 16, 16, GC]; var gg = new Gost28147Modified(); var gs = new SHA3(0); for (int i = 0; i < Max; i++) { fillKey(CK, i, ref key); //byte[] gamma = MergePermutation.getGamma(key, 512, out t); #if AGOSTM gg.prepareGamma(key, s, Gost28147Modified.CryptoProA, Gost28147Modified.CryptoProB, Gost28147Modified.CryptoProC, Gost28147Modified.CryptoProD, Gost28147Modified.ESbox_A, Gost28147Modified.ESbox_B); var gamma = gg.getGamma(GC + 1, 33 - 21); #elif AGOSTM2 gg.prepareGamma(key, s, Gost28147Modified.CryptoProA, Gost28147Modified.CryptoProB, null, null, null, null, false); var gamma = gg.getGamma(GC + 1, false); #elif AGOSTM2E gg.prepareGamma(key, s, Gost28147Modified.CryptoProA, Gost28147Modified.CryptoProB, null, null, null, null, true); var gamma = gg.getGamma(GC + 1, 33 - 21); #elif AGOST var gamma = gg.getGOSTGamma(key, s, Gost28147Modified.ESbox_B, GC); #elif ASHA3 gs.prepareGamma(key, s); var gamma = gs.getGamma(GC); #elif AExHash var gamma = SHA3.getExHash(4, s, key); #elif AMH20 byte[] gamma = new byte[GC]; SHA3.getMultiHash20(key, out gamma, ref pc, hashCount, gs); #elif AMACHASHMOD var lk = gs.GetKeysFromKeyData(key, s, hashCount, 20, ref pc); var ls = gs.GetOIVectorsFromKeyData(lk.Count, s, hashCount); var gamma = gs.getMACHashMod(s, lk, ls, pc, hashCount); #elif ARC4 var RC4 = new RC4(key); var gamma = RC4.getGamma(GC); #elif ARC4Plus var RC4 = new RC4(key); var gamma = RC4.getGamma2(GC); #elif AMD5 var md5 = System.Security.Cryptography.MD5.Create(); var gamma = md5.ComputeHash(key); #elif APH var gamma = MergePermutation.getHash(key, GC); #elif AD var gamma = SHA3.generateRandomPwdByDerivatoKey(key, GC); #elif ADerivato var gamma = gs.getDerivatoKey(key, /*new UTF8Encoding().GetBytes("passwordJjVjRyjcWwo7761qPBQUb3Sx8DACNpassword")*/ Convert.FromBase64String("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"), 22 >= 20 ? 16 : 1024, ref pc, GC, 22 / 10); #elif A20 var gamma = new byte[GC]; gamma = gs.multiCryptLZMA(gamma, key, s, 20, false, 19, 4); gamma = BytesBuilder.CloneBytes(gamma, 4 + s.Length, GC + 4 + s.Length); #elif A22 var gamma = new byte[GC]; gamma = gs.multiCryptLZMA(gamma, key, s, 22, false, 19, 4); var L = gamma.Length - s.Length - 4; gamma = BytesBuilder.CloneBytes(gamma, gamma.Length - L, L); #elif ARC4Mod var RC4 = new RC4Mod(key); var gamma = RC4.getGamma(GC); #elif Perm int slen = 256; var gamma = MergePermutation.getGamma(key, GC, out slen); #else byte[] gamma = new byte[GC]; for (int gc = 0; gc < GC; gc++) { if ((i & 512) > 0) { gamma[gc] = (byte)i; } else { gamma[gc] = (byte)(i ^ 0xFFFF); } } #endif for (int gc = 0; gc < GC; gc++) { int C = 1; for (int j = 0; j < MC; j++, C <<= 1) { stat[(i & C) > 0 ? 1 : 0, j, gamma[gc], gc]++; } C = 1; for (int j = 0; j < MC; j++, C <<= 1) { int C2 = 1; for (int j2 = 0; j2 < 8; j2++, C2 <<= 1) { stab[(gamma[gc] & C2) > 0 ? 1 : 0, (i & C) > 0 ? 1 : 0, j, j2, gc]++; } } } } int max = 0; int min = int.MaxValue; int summ = 0; int max2 = 0; int min2 = int.MaxValue; int summ2 = 0; for (int k01 = 0; k01 <= 1; k01++) { for (int gc = 0; gc < GC; gc++) { for (int i = 0; i < MC; i++) { for (int j = 0; j < 256; j++) { if (stat[k01, i, j, gc] > max) { max = stat[k01, i, j, gc]; } if (stat[k01, i, j, gc] < min) { min = stat[k01, i, j, gc]; } summ += stat[k01, i, j, gc]; } for (int ib = 0; ib < 2; ib++) { for (int j2 = 0; j2 < 8; j2++) { if (stab[k01, ib, i, j2, gc] > max2) { max2 = stab[k01, ib, i, j2, gc]; } if (stab[k01, ib, i, j2, gc] < min2) { min2 = stab[k01, ib, i, j2, gc]; } summ2 += stab[k01, ib, i, j2, gc]; } } } } } /*summ /= Max*MC; * summ2 /= Max*MC*GC; * */ float ms1 = Max * GC * MC / (2f * GC * MC * 256f); float ms2 = Max * GC * MC * 8f / (2f * GC * MC * 2f * 8f); if (GC < 2) { if ((float)max / (float)min >= 4.7) { error++; } if ((float)max / ms1 >= 1.8) { error++; } if (ms1 / (float)min >= 2.7) { error++; } if ((float)max2 / (float)min2 >= 1.07) { error++; } if ((float)max2 / ms2 >= 1.04) { error++; } if ((float)ms2 / (float)min2 >= 1.04) { error++; } } else if (GC < 73) { if ((float)max / (float)min >= 8.89) { error++; } if ((float)max / ms1 >= 2.0) { error++; } if (ms1 / (float)min >= 4.58) { error++; } if ((float)max2 / (float)min2 >= 1.11) { error++; } if ((float)max2 / ms2 >= 1.06) { error++; } if ((float)ms2 / (float)min2 >= 1.06) { error++; } } else { if ((float)max / (float)min >= 11.51) { error++; } if ((float)max / ms1 >= 2.19) { error++; } if (ms1 / (float)min >= 5.34) { error++; } if ((float)max2 / (float)min2 >= 1.13) { error++; } if ((float)max2 / ms2 >= 1.07) { error++; } if ((float)ms2 / (float)min2 >= 1.07) { error++; } } // GOST 9,29 2,03 4,57 1,11 1,05 1,06 // // fillKey1 // GOSTM 7,11 2,00 3,56 1,11 1,05 1,05 // // SHA3 10,8 2,03 5,33 1,10 1,05 1,05 // 7,88 1,97 4,00 1,10 1,05 1,05 // 9,29 2,03 4,57 1,11 1,05 1,06 // 7,67 2,16 3,56 1,12 1,06 1,06 // // MH20 6,20 1,94 3,20 1,09 1,04 1,04 // 7,63 1,91 4,00 1,09 1,04 1,05 // 6,30 1,97 3,20 1,09 1,04 1,04 // MACHASHMOD // // // RC4 8.11 2.28 3.56 1.10 1.05 1.05 // 1500 // RC4+ -- // 44 lock (sync) { if (error == 0) { Console.WriteLine("success ({0}) EC 0 {1:F}\t{2:F}\t{3:F}\t{4:F}\t{5:F}\t{6:F}", counterA, ((float)max / (float)min), ((float)max / (float)ms1), ((float)ms1 / (float)min), ((float)max2 / (float)min2), ((float)max2 / (float)ms2), ((float)ms2 / (float)min2)); } else { Console.WriteLine("FAILED ({0}) EC {7} {1:F}\t{2:F}\t{3:F}\t{4:F}\t{5:F}\t{6:F}", counterA, ((float)max / (float)min), ((float)max / (float)ms1), ((float)ms1 / (float)min), ((float)max2 / (float)min2), ((float)max2 / (float)ms2), ((float)ms2 / (float)min2), error); tgmgResultInt++; } tgmgSuccess--; Monitor.Pulse(sync); System.Windows.Media.MediaPlayer player = new System.Windows.Media.MediaPlayer(); player.Open(new Uri("Resources/siren.wav", UriKind.Relative)); player.Position = new TimeSpan(0); player.Play(); } } ); } }