public unsafe void Compress30Test() { int dataLen = 30; byte[] data = GetRandomBytes(dataLen); byte[] expected = ComputeSingleSha(data); using Sha256Fo sha = new Sha256Fo(); fixed(uint *hPt = &sha.hashState[0], wPt = &sha.w[0]) { int dIndex = 0; for (int i = 0; i < 7; i++, dIndex += 4) { wPt[i] = (uint)((data[dIndex] << 24) | (data[dIndex + 1] << 16) | (data[dIndex + 2] << 8) | data[dIndex + 3]); } wPt[7] = (uint)((data[28] << 24) | (data[29] << 16) | 0b00000000_00000000_10000000_00000000U); wPt[15] = (uint)dataLen * 8; sha.Init(hPt); sha.Compress30(hPt, wPt); byte[] actual = sha.GetBytes(hPt); Assert.Equal(expected, actual); } }
private unsafe bool Loop31() { var cartesian = CartesianProduct.Create(Enumerable.Repeat(Encoding.UTF8.GetBytes(ConstantsFO.Base58Chars), missCount)); using Sha256Fo sha = new Sha256Fo(); bool success = false; byte[] temp = new byte[precomputed.Length]; fixed(uint *hPt = &sha.hashState[0], wPt = &sha.w[0]) fixed(byte *pre = &precomputed[0], tmp = &temp[0]) fixed(int *mi = &missingIndexes[0]) { foreach (var item in cartesian) { Buffer.MemoryCopy(pre, tmp, 30, 30); int mis = 0; foreach (var keyItem in item) { tmp[mi[mis]] = keyItem; mis++; } // The added value below is the fixed first char(S)=0x53 shifted left 24 places wPt[0] = 0b01010011_00000000_00000000_00000000U | (uint)tmp[1] << 16 | (uint)tmp[2] << 8 | tmp[3]; wPt[1] = (uint)tmp[4] << 24 | (uint)tmp[5] << 16 | (uint)tmp[6] << 8 | tmp[7]; wPt[2] = (uint)tmp[8] << 24 | (uint)tmp[9] << 16 | (uint)tmp[10] << 8 | tmp[11]; wPt[3] = (uint)tmp[12] << 24 | (uint)tmp[13] << 16 | (uint)tmp[14] << 8 | tmp[15]; wPt[4] = (uint)tmp[16] << 24 | (uint)tmp[17] << 16 | (uint)tmp[18] << 8 | tmp[19]; wPt[5] = (uint)tmp[20] << 24 | (uint)tmp[21] << 16 | (uint)tmp[22] << 8 | tmp[23]; wPt[6] = (uint)tmp[24] << 24 | (uint)tmp[25] << 16 | (uint)tmp[26] << 8 | tmp[27]; // The added value below is the SHA padding and the last added ? char equal to 0x3f shifted right 8 places wPt[7] = (uint)tmp[28] << 24 | (uint)tmp[29] << 16 | 0b00000000_00000000_00111111_10000000U; // from 8 to 14 = 0 wPt[15] = 248; // 31 *8 = 184 sha.Init(hPt); sha.Compress31(hPt, wPt); if ((hPt[0] & 0b11111111_00000000_00000000_00000000U) == 0) { // Same as above wPt[7] ^= 0b00000000_00000000_10111111_10000000U; // from 8 to 14 (remain) = 0 wPt[15] = 240; // 30 *8 = 240 sha.Init(hPt); sha.Compress30(hPt, wPt); if (comparer.Compare(sha.GetBytes(hPt))) { SetResult(item); success = true; break; } } } } return(success); }