using Org.BouncyCastle.Math.Raw; using System; namespace Org.BouncyCastle.Math.EC.Custom.Sec { internal static class SecT233Field { private const ulong M41 = 2199023255551; private const ulong M59 = 576460752303423487; public static void Add(ulong[] x, ulong[] y, ulong[] z) { z[0] = (x[0] ^ y[0]); z[1] = (x[1] ^ y[1]); z[2] = (x[2] ^ y[2]); z[3] = (x[3] ^ y[3]); } public static void AddBothTo(ulong[] x, ulong[] y, ulong[] z) { z[0] ^= (x[0] ^ y[0]); z[1] ^= (x[1] ^ y[1]); z[2] ^= (x[2] ^ y[2]); z[3] ^= (x[3] ^ y[3]); } public static void AddExt(ulong[] xx, ulong[] yy, ulong[] zz) { zz[0] = (xx[0] ^ yy[0]); zz[1] = (xx[1] ^ yy[1]); zz[2] = (xx[2] ^ yy[2]); zz[3] = (xx[3] ^ yy[3]); zz[4] = (xx[4] ^ yy[4]); zz[5] = (xx[5] ^ yy[5]); zz[6] = (xx[6] ^ yy[6]); zz[7] = (xx[7] ^ yy[7]); } public static void AddOne(ulong[] x, ulong[] z) { z[0] = (x[0] ^ 1); z[1] = x[1]; z[2] = x[2]; z[3] = x[3]; } public static void AddTo(ulong[] x, ulong[] z) { z[0] ^= x[0]; z[1] ^= x[1]; z[2] ^= x[2]; z[3] ^= x[3]; } public static ulong[] FromBigInteger(BigInteger x) { return Nat.FromBigInteger64(233, x); } public static void HalfTrace(ulong[] x, ulong[] z) { ulong[] array = Nat256.CreateExt64(); Nat256.Copy64(x, z); for (int i = 1; i < 233; i += 2) { ImplSquare(z, array); Reduce(array, z); ImplSquare(z, array); Reduce(array, z); AddTo(x, z); } } public static void Invert(ulong[] x, ulong[] z) { if (Nat256.IsZero64(x)) throw new InvalidOperationException(); ulong[] array = Nat256.Create64(); ulong[] array2 = Nat256.Create64(); Square(x, array); Multiply(array, x, array); Square(array, array); Multiply(array, x, array); SquareN(array, 3, array2); Multiply(array2, array, array2); Square(array2, array2); Multiply(array2, x, array2); SquareN(array2, 7, array); Multiply(array, array2, array); SquareN(array, 14, array2); Multiply(array2, array, array2); Square(array2, array2); Multiply(array2, x, array2); SquareN(array2, 29, array); Multiply(array, array2, array); SquareN(array, 58, array2); Multiply(array2, array, array2); SquareN(array2, 116, array); Multiply(array, array2, array); Square(array, z); } public static void Multiply(ulong[] x, ulong[] y, ulong[] z) { ulong[] array = Nat256.CreateExt64(); ImplMultiply(x, y, array); Reduce(array, z); } public static void MultiplyAddToExt(ulong[] x, ulong[] y, ulong[] zz) { ulong[] array = Nat256.CreateExt64(); ImplMultiply(x, y, array); AddExt(zz, array, zz); } public static void MultiplyExt(ulong[] x, ulong[] y, ulong[] zz) { Array.Clear(zz, 0, 8); ImplMultiply(x, y, zz); } public static void Reduce(ulong[] xx, ulong[] z) { ulong num = xx[0]; ulong num2 = xx[1]; ulong num3 = xx[2]; ulong num4 = xx[3]; ulong num5 = xx[4]; ulong num6 = xx[5]; ulong num7 = xx[6]; ulong num8 = xx[7]; num4 ^= num8 << 23; num5 ^= ((num8 >> 41) ^ (num8 << 33)); num6 ^= num8 >> 31; num3 ^= num7 << 23; num4 ^= ((num7 >> 41) ^ (num7 << 33)); num5 ^= num7 >> 31; num2 ^= num6 << 23; num3 ^= ((num6 >> 41) ^ (num6 << 33)); num4 ^= num6 >> 31; num ^= num5 << 23; num2 ^= ((num5 >> 41) ^ (num5 << 33)); num3 ^= num5 >> 31; ulong num9 = num4 >> 41; z[0] = (num ^ num9); z[1] = (num2 ^ (num9 << 10)); z[2] = num3; z[3] = (num4 & 2199023255551); } public static void Reduce23(ulong[] z, int zOff) { ulong num = z[zOff + 3]; ulong num2 = num >> 41; z[zOff] ^= num2; z[zOff + 1] ^= num2 << 10; z[zOff + 3] = (num & 2199023255551); } public static void Sqrt(ulong[] x, ulong[] z) { ulong num = Interleave.Unshuffle(x[0], x[1], out ulong even); ulong num2 = Interleave.Unshuffle(x[2], x[3], out ulong even2); ulong num3 = num2 >> 27; num2 ^= ((num >> 27) | (num2 << 37)); num ^= num << 37; ulong[] array = Nat256.CreateExt64(); int[] array2 = new int[3] { 32, 117, 191 }; for (int i = 0; i < array2.Length; i++) { int num4 = array2[i] >> 6; int num5 = array2[i] & 63; array[num4] ^= num << num5; array[num4 + 1] ^= ((num2 << num5) | (num >> -num5)); array[num4 + 2] ^= ((num3 << num5) | (num2 >> -num5)); array[num4 + 3] ^= num3 >> -num5; } Reduce(array, z); z[0] ^= even; z[1] ^= even2; } public static void Square(ulong[] x, ulong[] z) { ulong[] array = Nat256.CreateExt64(); ImplSquare(x, array); Reduce(array, z); } public static void SquareAddToExt(ulong[] x, ulong[] zz) { ulong[] array = Nat256.CreateExt64(); ImplSquare(x, array); AddExt(zz, array, zz); } public static void SquareExt(ulong[] x, ulong[] zz) { ImplSquare(x, zz); } public static void SquareN(ulong[] x, int n, ulong[] z) { ulong[] array = Nat256.CreateExt64(); ImplSquare(x, array); Reduce(array, z); while (--n > 0) { ImplSquare(z, array); Reduce(array, z); } } public static uint Trace(ulong[] x) { return (uint)((int)(x[0] ^ (x[2] >> 31)) & 1); } private static void ImplCompactExt(ulong[] zz) { ulong num = zz[0]; ulong num2 = zz[1]; ulong num3 = zz[2]; ulong num4 = zz[3]; ulong num5 = zz[4]; ulong num6 = zz[5]; ulong num7 = zz[6]; ulong num8 = zz[7]; zz[0] = (num ^ (num2 << 59)); zz[1] = ((num2 >> 5) ^ (num3 << 54)); zz[2] = ((num3 >> 10) ^ (num4 << 49)); zz[3] = ((num4 >> 15) ^ (num5 << 44)); zz[4] = ((num5 >> 20) ^ (num6 << 39)); zz[5] = ((num6 >> 25) ^ (num7 << 34)); zz[6] = ((num7 >> 30) ^ (num8 << 29)); zz[7] = num8 >> 35; } private static void ImplExpand(ulong[] x, ulong[] z) { ulong num = x[0]; ulong num2 = x[1]; ulong num3 = x[2]; ulong num4 = x[3]; z[0] = (num & 576460752303423487); z[1] = (((num >> 59) ^ (num2 << 5)) & 576460752303423487); z[2] = (((num2 >> 54) ^ (num3 << 10)) & 576460752303423487); z[3] = ((num3 >> 49) ^ (num4 << 15)); } private static void ImplMultiply(ulong[] x, ulong[] y, ulong[] zz) { ulong[] array = new ulong[4]; ulong[] array2 = new ulong[4]; ImplExpand(x, array); ImplExpand(y, array2); ulong[] u = new ulong[8]; ImplMulwAcc(u, array[0], array2[0], zz, 0); ImplMulwAcc(u, array[1], array2[1], zz, 1); ImplMulwAcc(u, array[2], array2[2], zz, 2); ImplMulwAcc(u, array[3], array2[3], zz, 3); for (int num = 5; num > 0; num--) { zz[num] ^= zz[num - 1]; } ImplMulwAcc(u, array[0] ^ array[1], array2[0] ^ array2[1], zz, 1); ImplMulwAcc(u, array[2] ^ array[3], array2[2] ^ array2[3], zz, 3); for (int num2 = 7; num2 > 1; num2--) { zz[num2] ^= zz[num2 - 2]; } ulong num3 = array[0] ^ array[2]; ulong num4 = array[1] ^ array[3]; ulong num5 = array2[0] ^ array2[2]; ulong num6 = array2[1] ^ array2[3]; ImplMulwAcc(u, num3 ^ num4, num5 ^ num6, zz, 3); ulong[] array3 = new ulong[3]; ImplMulwAcc(u, num3, num5, array3, 0); ImplMulwAcc(u, num4, num6, array3, 1); ulong num7 = array3[0]; ulong num8 = array3[1]; ulong num9 = array3[2]; zz[2] ^= num7; zz[3] ^= (num7 ^ num8); zz[4] ^= (num9 ^ num8); zz[5] ^= num9; ImplCompactExt(zz); } private static void ImplMulwAcc(ulong[] u, ulong x, ulong y, ulong[] z, int zOff) { u[1] = y; u[2] = u[1] << 1; u[3] = (u[2] ^ y); u[4] = u[2] << 1; u[5] = (u[4] ^ y); u[6] = u[3] << 1; u[7] = (u[6] ^ y); uint num = (uint)x; ulong num2 = 0; ulong num3 = u[num & 7] ^ (u[(num >> 3) & 7] << 3); int num4 = 54; do { num = (uint)(x >> num4); ulong num5 = u[num & 7] ^ (u[(num >> 3) & 7] << 3); num3 ^= num5 << num4; num2 ^= num5 >> -num4; } while ((num4 -= 6) > 0); z[zOff] ^= (num3 & 576460752303423487); z[zOff + 1] ^= ((num3 >> 59) ^ (num2 << 5)); } private static void ImplSquare(ulong[] x, ulong[] zz) { Interleave.Expand64To128(x, 0, 4, zz, 0); } } }