WaterFlush/Packages/com.tivadar.best.http/Runtime/3rdParty/BouncyCastle/crypto/engines/SerpentEngine.cs

#if !BESTHTTP_DISABLE_ALTERNATE_SSL && (!UNITY_WEBGL || UNITY_EDITOR)
#pragma warning disable
using System;

using Best.HTTP.SecureProtocol.Org.BouncyCastle.Crypto.Utilities;
using Best.HTTP.SecureProtocol.Org.BouncyCastle.Utilities;

namespace Best.HTTP.SecureProtocol.Org.BouncyCastle.Crypto.Engines
{
    /**
     * Serpent is a 128-bit 32-round block cipher with variable key lengths,
     * including 128, 192 and 256 bit keys conjectured to be at least as
     * secure as three-key triple-DES.
     * <p>
     * Serpent was designed by Ross Anderson, Eli Biham and Lars Knudsen as a
     * candidate algorithm for the NIST AES Quest.
	 * </p>
     * <p>
     * For full details see <a href="http://www.cl.cam.ac.uk/~rja14/serpent.html">The Serpent home page</a>
	 * </p>
    */
    public sealed class SerpentEngine
		:   SerpentEngineBase
    {
        /**
        * Expand a user-supplied key material into a session key.
        *
        * @param key  The user-key bytes (multiples of 4) to use.
        * @exception ArgumentException
        */
        internal override int[] MakeWorkingKey(byte[] key)
        {
            //
            // pad key to 256 bits
            //
            int[]   kPad = new int[16];
            int     off = 0;
            int     length = 0;

            for (off = 0; (off + 4) < key.Length; off += 4)
            {
                kPad[length++] = (int)Pack.LE_To_UInt32(key, off);
            }

            if (off % 4 == 0)
            {
                kPad[length++] = (int)Pack.LE_To_UInt32(key, off);
                if (length < 8)
                {
                    kPad[length] = 1;
                }
            }
            else
            {
                throw new ArgumentException("key must be a multiple of 4 bytes");
            }

            //
            // expand the padded key up to 33 x 128 bits of key material
            //
            int amount = (ROUNDS + 1) * 4;
            int[] w = new int[amount];

            //
            // compute w0 to w7 from w-8 to w-1
            //
            for (int i = 8; i < 16; i++)
            {
                kPad[i] = Integers.RotateLeft(kPad[i - 8] ^ kPad[i - 5] ^ kPad[i - 3] ^ kPad[i - 1] ^ PHI ^ (i - 8), 11);
            }

            Array.Copy(kPad, 8, w, 0, 8);

            //
            // compute w8 to w136
            //
            for (int i = 8; i < amount; i++)
            {
                w[i] = Integers.RotateLeft(w[i - 8] ^ w[i - 5] ^ w[i - 3] ^ w[i - 1] ^ PHI ^ i, 11);
            }

            //
            // create the working keys by processing w with the Sbox and IP
            //
            Sb3(w[0], w[1], w[2], w[3]);
            w[0] = X0; w[1] = X1; w[2] = X2; w[3] = X3;
            Sb2(w[4], w[5], w[6], w[7]);
            w[4] = X0; w[5] = X1; w[6] = X2; w[7] = X3;
            Sb1(w[8], w[9], w[10], w[11]);
            w[8] = X0; w[9] = X1; w[10] = X2; w[11] = X3;
            Sb0(w[12], w[13], w[14], w[15]);
            w[12] = X0; w[13] = X1; w[14] = X2; w[15] = X3;
            Sb7(w[16], w[17], w[18], w[19]);
            w[16] = X0; w[17] = X1; w[18] = X2; w[19] = X3;
            Sb6(w[20], w[21], w[22], w[23]);
            w[20] = X0; w[21] = X1; w[22] = X2; w[23] = X3;
            Sb5(w[24], w[25], w[26], w[27]);
            w[24] = X0; w[25] = X1; w[26] = X2; w[27] = X3;
            Sb4(w[28], w[29], w[30], w[31]);
            w[28] = X0; w[29] = X1; w[30] = X2; w[31] = X3;
            Sb3(w[32], w[33], w[34], w[35]);
            w[32] = X0; w[33] = X1; w[34] = X2; w[35] = X3;
            Sb2(w[36], w[37], w[38], w[39]);
            w[36] = X0; w[37] = X1; w[38] = X2; w[39] = X3;
            Sb1(w[40], w[41], w[42], w[43]);
            w[40] = X0; w[41] = X1; w[42] = X2; w[43] = X3;
            Sb0(w[44], w[45], w[46], w[47]);
            w[44] = X0; w[45] = X1; w[46] = X2; w[47] = X3;
            Sb7(w[48], w[49], w[50], w[51]);
            w[48] = X0; w[49] = X1; w[50] = X2; w[51] = X3;
            Sb6(w[52], w[53], w[54], w[55]);
            w[52] = X0; w[53] = X1; w[54] = X2; w[55] = X3;
            Sb5(w[56], w[57], w[58], w[59]);
            w[56] = X0; w[57] = X1; w[58] = X2; w[59] = X3;
            Sb4(w[60], w[61], w[62], w[63]);
            w[60] = X0; w[61] = X1; w[62] = X2; w[63] = X3;
            Sb3(w[64], w[65], w[66], w[67]);
            w[64] = X0; w[65] = X1; w[66] = X2; w[67] = X3;
            Sb2(w[68], w[69], w[70], w[71]);
            w[68] = X0; w[69] = X1; w[70] = X2; w[71] = X3;
            Sb1(w[72], w[73], w[74], w[75]);
            w[72] = X0; w[73] = X1; w[74] = X2; w[75] = X3;
            Sb0(w[76], w[77], w[78], w[79]);
            w[76] = X0; w[77] = X1; w[78] = X2; w[79] = X3;
            Sb7(w[80], w[81], w[82], w[83]);
            w[80] = X0; w[81] = X1; w[82] = X2; w[83] = X3;
            Sb6(w[84], w[85], w[86], w[87]);
            w[84] = X0; w[85] = X1; w[86] = X2; w[87] = X3;
            Sb5(w[88], w[89], w[90], w[91]);
            w[88] = X0; w[89] = X1; w[90] = X2; w[91] = X3;
            Sb4(w[92], w[93], w[94], w[95]);
            w[92] = X0; w[93] = X1; w[94] = X2; w[95] = X3;
            Sb3(w[96], w[97], w[98], w[99]);
            w[96] = X0; w[97] = X1; w[98] = X2; w[99] = X3;
            Sb2(w[100], w[101], w[102], w[103]);
            w[100] = X0; w[101] = X1; w[102] = X2; w[103] = X3;
            Sb1(w[104], w[105], w[106], w[107]);
            w[104] = X0; w[105] = X1; w[106] = X2; w[107] = X3;
            Sb0(w[108], w[109], w[110], w[111]);
            w[108] = X0; w[109] = X1; w[110] = X2; w[111] = X3;
            Sb7(w[112], w[113], w[114], w[115]);
            w[112] = X0; w[113] = X1; w[114] = X2; w[115] = X3;
            Sb6(w[116], w[117], w[118], w[119]);
            w[116] = X0; w[117] = X1; w[118] = X2; w[119] = X3;
            Sb5(w[120], w[121], w[122], w[123]);
            w[120] = X0; w[121] = X1; w[122] = X2; w[123] = X3;
            Sb4(w[124], w[125], w[126], w[127]);
            w[124] = X0; w[125] = X1; w[126] = X2; w[127] = X3;
            Sb3(w[128], w[129], w[130], w[131]);
            w[128] = X0; w[129] = X1; w[130] = X2; w[131] = X3;

            return w;
        }

#if NETCOREAPP2_1_OR_GREATER || NETSTANDARD2_1_OR_GREATER || UNITY_2021_2_OR_NEWER
        internal override void EncryptBlock(ReadOnlySpan<byte> input, Span<byte> output)
        {
            X0 = (int)Pack.LE_To_UInt32(input);
            X1 = (int)Pack.LE_To_UInt32(input[4..]);
            X2 = (int)Pack.LE_To_UInt32(input[8..]);
            X3 = (int)Pack.LE_To_UInt32(input[12..]);

            Sb0(wKey[0] ^ X0, wKey[1] ^ X1, wKey[2] ^ X2, wKey[3] ^ X3); LT();
            Sb1(wKey[4] ^ X0, wKey[5] ^ X1, wKey[6] ^ X2, wKey[7] ^ X3); LT();
            Sb2(wKey[8] ^ X0, wKey[9] ^ X1, wKey[10] ^ X2, wKey[11] ^ X3); LT();
            Sb3(wKey[12] ^ X0, wKey[13] ^ X1, wKey[14] ^ X2, wKey[15] ^ X3); LT();
            Sb4(wKey[16] ^ X0, wKey[17] ^ X1, wKey[18] ^ X2, wKey[19] ^ X3); LT();
            Sb5(wKey[20] ^ X0, wKey[21] ^ X1, wKey[22] ^ X2, wKey[23] ^ X3); LT();
            Sb6(wKey[24] ^ X0, wKey[25] ^ X1, wKey[26] ^ X2, wKey[27] ^ X3); LT();
            Sb7(wKey[28] ^ X0, wKey[29] ^ X1, wKey[30] ^ X2, wKey[31] ^ X3); LT();
            Sb0(wKey[32] ^ X0, wKey[33] ^ X1, wKey[34] ^ X2, wKey[35] ^ X3); LT();
            Sb1(wKey[36] ^ X0, wKey[37] ^ X1, wKey[38] ^ X2, wKey[39] ^ X3); LT();
            Sb2(wKey[40] ^ X0, wKey[41] ^ X1, wKey[42] ^ X2, wKey[43] ^ X3); LT();
            Sb3(wKey[44] ^ X0, wKey[45] ^ X1, wKey[46] ^ X2, wKey[47] ^ X3); LT();
            Sb4(wKey[48] ^ X0, wKey[49] ^ X1, wKey[50] ^ X2, wKey[51] ^ X3); LT();
            Sb5(wKey[52] ^ X0, wKey[53] ^ X1, wKey[54] ^ X2, wKey[55] ^ X3); LT();
            Sb6(wKey[56] ^ X0, wKey[57] ^ X1, wKey[58] ^ X2, wKey[59] ^ X3); LT();
            Sb7(wKey[60] ^ X0, wKey[61] ^ X1, wKey[62] ^ X2, wKey[63] ^ X3); LT();
            Sb0(wKey[64] ^ X0, wKey[65] ^ X1, wKey[66] ^ X2, wKey[67] ^ X3); LT();
            Sb1(wKey[68] ^ X0, wKey[69] ^ X1, wKey[70] ^ X2, wKey[71] ^ X3); LT();
            Sb2(wKey[72] ^ X0, wKey[73] ^ X1, wKey[74] ^ X2, wKey[75] ^ X3); LT();
            Sb3(wKey[76] ^ X0, wKey[77] ^ X1, wKey[78] ^ X2, wKey[79] ^ X3); LT();
            Sb4(wKey[80] ^ X0, wKey[81] ^ X1, wKey[82] ^ X2, wKey[83] ^ X3); LT();
            Sb5(wKey[84] ^ X0, wKey[85] ^ X1, wKey[86] ^ X2, wKey[87] ^ X3); LT();
            Sb6(wKey[88] ^ X0, wKey[89] ^ X1, wKey[90] ^ X2, wKey[91] ^ X3); LT();
            Sb7(wKey[92] ^ X0, wKey[93] ^ X1, wKey[94] ^ X2, wKey[95] ^ X3); LT();
            Sb0(wKey[96] ^ X0, wKey[97] ^ X1, wKey[98] ^ X2, wKey[99] ^ X3); LT();
            Sb1(wKey[100] ^ X0, wKey[101] ^ X1, wKey[102] ^ X2, wKey[103] ^ X3); LT();
            Sb2(wKey[104] ^ X0, wKey[105] ^ X1, wKey[106] ^ X2, wKey[107] ^ X3); LT();
            Sb3(wKey[108] ^ X0, wKey[109] ^ X1, wKey[110] ^ X2, wKey[111] ^ X3); LT();
            Sb4(wKey[112] ^ X0, wKey[113] ^ X1, wKey[114] ^ X2, wKey[115] ^ X3); LT();
            Sb5(wKey[116] ^ X0, wKey[117] ^ X1, wKey[118] ^ X2, wKey[119] ^ X3); LT();
            Sb6(wKey[120] ^ X0, wKey[121] ^ X1, wKey[122] ^ X2, wKey[123] ^ X3); LT();
            Sb7(wKey[124] ^ X0, wKey[125] ^ X1, wKey[126] ^ X2, wKey[127] ^ X3);

            Pack.UInt32_To_LE((uint)(wKey[128] ^ X0), output);
            Pack.UInt32_To_LE((uint)(wKey[129] ^ X1), output[4..]);
            Pack.UInt32_To_LE((uint)(wKey[130] ^ X2), output[8..]);
            Pack.UInt32_To_LE((uint)(wKey[131] ^ X3), output[12..]);
        }

        internal override void DecryptBlock(ReadOnlySpan<byte> input, Span<byte> output)
        {
            X0 = wKey[128] ^ (int)Pack.LE_To_UInt32(input);
            X1 = wKey[129] ^ (int)Pack.LE_To_UInt32(input[4..]);
            X2 = wKey[130] ^ (int)Pack.LE_To_UInt32(input[8..]);
            X3 = wKey[131] ^ (int)Pack.LE_To_UInt32(input[12..]);

            Ib7(X0, X1, X2, X3);
            X0 ^= wKey[124]; X1 ^= wKey[125]; X2 ^= wKey[126]; X3 ^= wKey[127];
            InverseLT(); Ib6(X0, X1, X2, X3);
            X0 ^= wKey[120]; X1 ^= wKey[121]; X2 ^= wKey[122]; X3 ^= wKey[123];
            InverseLT(); Ib5(X0, X1, X2, X3);
            X0 ^= wKey[116]; X1 ^= wKey[117]; X2 ^= wKey[118]; X3 ^= wKey[119];
            InverseLT(); Ib4(X0, X1, X2, X3);
            X0 ^= wKey[112]; X1 ^= wKey[113]; X2 ^= wKey[114]; X3 ^= wKey[115];
            InverseLT(); Ib3(X0, X1, X2, X3);
            X0 ^= wKey[108]; X1 ^= wKey[109]; X2 ^= wKey[110]; X3 ^= wKey[111];
            InverseLT(); Ib2(X0, X1, X2, X3);
            X0 ^= wKey[104]; X1 ^= wKey[105]; X2 ^= wKey[106]; X3 ^= wKey[107];
            InverseLT(); Ib1(X0, X1, X2, X3);
            X0 ^= wKey[100]; X1 ^= wKey[101]; X2 ^= wKey[102]; X3 ^= wKey[103];
            InverseLT(); Ib0(X0, X1, X2, X3);
            X0 ^= wKey[96]; X1 ^= wKey[97]; X2 ^= wKey[98]; X3 ^= wKey[99];
            InverseLT(); Ib7(X0, X1, X2, X3);
            X0 ^= wKey[92]; X1 ^= wKey[93]; X2 ^= wKey[94]; X3 ^= wKey[95];
            InverseLT(); Ib6(X0, X1, X2, X3);
            X0 ^= wKey[88]; X1 ^= wKey[89]; X2 ^= wKey[90]; X3 ^= wKey[91];
            InverseLT(); Ib5(X0, X1, X2, X3);
            X0 ^= wKey[84]; X1 ^= wKey[85]; X2 ^= wKey[86]; X3 ^= wKey[87];
            InverseLT(); Ib4(X0, X1, X2, X3);
            X0 ^= wKey[80]; X1 ^= wKey[81]; X2 ^= wKey[82]; X3 ^= wKey[83];
            InverseLT(); Ib3(X0, X1, X2, X3);
            X0 ^= wKey[76]; X1 ^= wKey[77]; X2 ^= wKey[78]; X3 ^= wKey[79];
            InverseLT(); Ib2(X0, X1, X2, X3);
            X0 ^= wKey[72]; X1 ^= wKey[73]; X2 ^= wKey[74]; X3 ^= wKey[75];
            InverseLT(); Ib1(X0, X1, X2, X3);
            X0 ^= wKey[68]; X1 ^= wKey[69]; X2 ^= wKey[70]; X3 ^= wKey[71];
            InverseLT(); Ib0(X0, X1, X2, X3);
            X0 ^= wKey[64]; X1 ^= wKey[65]; X2 ^= wKey[66]; X3 ^= wKey[67];
            InverseLT(); Ib7(X0, X1, X2, X3);
            X0 ^= wKey[60]; X1 ^= wKey[61]; X2 ^= wKey[62]; X3 ^= wKey[63];
            InverseLT(); Ib6(X0, X1, X2, X3);
            X0 ^= wKey[56]; X1 ^= wKey[57]; X2 ^= wKey[58]; X3 ^= wKey[59];
            InverseLT(); Ib5(X0, X1, X2, X3);
            X0 ^= wKey[52]; X1 ^= wKey[53]; X2 ^= wKey[54]; X3 ^= wKey[55];
            InverseLT(); Ib4(X0, X1, X2, X3);
            X0 ^= wKey[48]; X1 ^= wKey[49]; X2 ^= wKey[50]; X3 ^= wKey[51];
            InverseLT(); Ib3(X0, X1, X2, X3);
            X0 ^= wKey[44]; X1 ^= wKey[45]; X2 ^= wKey[46]; X3 ^= wKey[47];
            InverseLT(); Ib2(X0, X1, X2, X3);
            X0 ^= wKey[40]; X1 ^= wKey[41]; X2 ^= wKey[42]; X3 ^= wKey[43];
            InverseLT(); Ib1(X0, X1, X2, X3);
            X0 ^= wKey[36]; X1 ^= wKey[37]; X2 ^= wKey[38]; X3 ^= wKey[39];
            InverseLT(); Ib0(X0, X1, X2, X3);
            X0 ^= wKey[32]; X1 ^= wKey[33]; X2 ^= wKey[34]; X3 ^= wKey[35];
            InverseLT(); Ib7(X0, X1, X2, X3);
            X0 ^= wKey[28]; X1 ^= wKey[29]; X2 ^= wKey[30]; X3 ^= wKey[31];
            InverseLT(); Ib6(X0, X1, X2, X3);
            X0 ^= wKey[24]; X1 ^= wKey[25]; X2 ^= wKey[26]; X3 ^= wKey[27];
            InverseLT(); Ib5(X0, X1, X2, X3);
            X0 ^= wKey[20]; X1 ^= wKey[21]; X2 ^= wKey[22]; X3 ^= wKey[23];
            InverseLT(); Ib4(X0, X1, X2, X3);
            X0 ^= wKey[16]; X1 ^= wKey[17]; X2 ^= wKey[18]; X3 ^= wKey[19];
            InverseLT(); Ib3(X0, X1, X2, X3);
            X0 ^= wKey[12]; X1 ^= wKey[13]; X2 ^= wKey[14]; X3 ^= wKey[15];
            InverseLT(); Ib2(X0, X1, X2, X3);
            X0 ^= wKey[8]; X1 ^= wKey[9]; X2 ^= wKey[10]; X3 ^= wKey[11];
            InverseLT(); Ib1(X0, X1, X2, X3);
            X0 ^= wKey[4]; X1 ^= wKey[5]; X2 ^= wKey[6]; X3 ^= wKey[7];
            InverseLT(); Ib0(X0, X1, X2, X3);

            Pack.UInt32_To_LE((uint)(X0 ^ wKey[0]), output);
            Pack.UInt32_To_LE((uint)(X1 ^ wKey[1]), output[4..]);
            Pack.UInt32_To_LE((uint)(X2 ^ wKey[2]), output[8..]);
            Pack.UInt32_To_LE((uint)(X3 ^ wKey[3]), output[12..]);
        }
#else
        internal override void EncryptBlock(byte[] input, int inOff, byte[] output, int outOff)
        {
            X0 = (int)Pack.LE_To_UInt32(input, inOff);
            X1 = (int)Pack.LE_To_UInt32(input, inOff + 4);
            X2 = (int)Pack.LE_To_UInt32(input, inOff + 8);
            X3 = (int)Pack.LE_To_UInt32(input, inOff + 12);

            Sb0(wKey[0] ^ X0, wKey[1] ^ X1, wKey[2] ^ X2, wKey[3] ^ X3); LT();
            Sb1(wKey[4] ^ X0, wKey[5] ^ X1, wKey[6] ^ X2, wKey[7] ^ X3); LT();
            Sb2(wKey[8] ^ X0, wKey[9] ^ X1, wKey[10] ^ X2, wKey[11] ^ X3); LT();
            Sb3(wKey[12] ^ X0, wKey[13] ^ X1, wKey[14] ^ X2, wKey[15] ^ X3); LT();
            Sb4(wKey[16] ^ X0, wKey[17] ^ X1, wKey[18] ^ X2, wKey[19] ^ X3); LT();
            Sb5(wKey[20] ^ X0, wKey[21] ^ X1, wKey[22] ^ X2, wKey[23] ^ X3); LT();
            Sb6(wKey[24] ^ X0, wKey[25] ^ X1, wKey[26] ^ X2, wKey[27] ^ X3); LT();
            Sb7(wKey[28] ^ X0, wKey[29] ^ X1, wKey[30] ^ X2, wKey[31] ^ X3); LT();
            Sb0(wKey[32] ^ X0, wKey[33] ^ X1, wKey[34] ^ X2, wKey[35] ^ X3); LT();
            Sb1(wKey[36] ^ X0, wKey[37] ^ X1, wKey[38] ^ X2, wKey[39] ^ X3); LT();
            Sb2(wKey[40] ^ X0, wKey[41] ^ X1, wKey[42] ^ X2, wKey[43] ^ X3); LT();
            Sb3(wKey[44] ^ X0, wKey[45] ^ X1, wKey[46] ^ X2, wKey[47] ^ X3); LT();
            Sb4(wKey[48] ^ X0, wKey[49] ^ X1, wKey[50] ^ X2, wKey[51] ^ X3); LT();
            Sb5(wKey[52] ^ X0, wKey[53] ^ X1, wKey[54] ^ X2, wKey[55] ^ X3); LT();
            Sb6(wKey[56] ^ X0, wKey[57] ^ X1, wKey[58] ^ X2, wKey[59] ^ X3); LT();
            Sb7(wKey[60] ^ X0, wKey[61] ^ X1, wKey[62] ^ X2, wKey[63] ^ X3); LT();
            Sb0(wKey[64] ^ X0, wKey[65] ^ X1, wKey[66] ^ X2, wKey[67] ^ X3); LT();
            Sb1(wKey[68] ^ X0, wKey[69] ^ X1, wKey[70] ^ X2, wKey[71] ^ X3); LT();
            Sb2(wKey[72] ^ X0, wKey[73] ^ X1, wKey[74] ^ X2, wKey[75] ^ X3); LT();
            Sb3(wKey[76] ^ X0, wKey[77] ^ X1, wKey[78] ^ X2, wKey[79] ^ X3); LT();
            Sb4(wKey[80] ^ X0, wKey[81] ^ X1, wKey[82] ^ X2, wKey[83] ^ X3); LT();
            Sb5(wKey[84] ^ X0, wKey[85] ^ X1, wKey[86] ^ X2, wKey[87] ^ X3); LT();
            Sb6(wKey[88] ^ X0, wKey[89] ^ X1, wKey[90] ^ X2, wKey[91] ^ X3); LT();
            Sb7(wKey[92] ^ X0, wKey[93] ^ X1, wKey[94] ^ X2, wKey[95] ^ X3); LT();
            Sb0(wKey[96] ^ X0, wKey[97] ^ X1, wKey[98] ^ X2, wKey[99] ^ X3); LT();
            Sb1(wKey[100] ^ X0, wKey[101] ^ X1, wKey[102] ^ X2, wKey[103] ^ X3); LT();
            Sb2(wKey[104] ^ X0, wKey[105] ^ X1, wKey[106] ^ X2, wKey[107] ^ X3); LT();
            Sb3(wKey[108] ^ X0, wKey[109] ^ X1, wKey[110] ^ X2, wKey[111] ^ X3); LT();
            Sb4(wKey[112] ^ X0, wKey[113] ^ X1, wKey[114] ^ X2, wKey[115] ^ X3); LT();
            Sb5(wKey[116] ^ X0, wKey[117] ^ X1, wKey[118] ^ X2, wKey[119] ^ X3); LT();
            Sb6(wKey[120] ^ X0, wKey[121] ^ X1, wKey[122] ^ X2, wKey[123] ^ X3); LT();
            Sb7(wKey[124] ^ X0, wKey[125] ^ X1, wKey[126] ^ X2, wKey[127] ^ X3);

            Pack.UInt32_To_LE((uint)(wKey[128] ^ X0), output, outOff);
            Pack.UInt32_To_LE((uint)(wKey[129] ^ X1), output, outOff + 4);
            Pack.UInt32_To_LE((uint)(wKey[130] ^ X2), output, outOff + 8);
            Pack.UInt32_To_LE((uint)(wKey[131] ^ X3), output, outOff + 12);
        }

        internal override void DecryptBlock(byte[] input, int inOff, byte[] output, int outOff)
        {
            X0 = wKey[128] ^ (int)Pack.LE_To_UInt32(input, inOff);
            X1 = wKey[129] ^ (int)Pack.LE_To_UInt32(input, inOff + 4);
            X2 = wKey[130] ^ (int)Pack.LE_To_UInt32(input, inOff + 8);
            X3 = wKey[131] ^ (int)Pack.LE_To_UInt32(input, inOff + 12);

            Ib7(X0, X1, X2, X3);
            X0 ^= wKey[124]; X1 ^= wKey[125]; X2 ^= wKey[126]; X3 ^= wKey[127];
            InverseLT(); Ib6(X0, X1, X2, X3);
            X0 ^= wKey[120]; X1 ^= wKey[121]; X2 ^= wKey[122]; X3 ^= wKey[123];
            InverseLT(); Ib5(X0, X1, X2, X3);
            X0 ^= wKey[116]; X1 ^= wKey[117]; X2 ^= wKey[118]; X3 ^= wKey[119];
            InverseLT(); Ib4(X0, X1, X2, X3);
            X0 ^= wKey[112]; X1 ^= wKey[113]; X2 ^= wKey[114]; X3 ^= wKey[115];
            InverseLT(); Ib3(X0, X1, X2, X3);
            X0 ^= wKey[108]; X1 ^= wKey[109]; X2 ^= wKey[110]; X3 ^= wKey[111];
            InverseLT(); Ib2(X0, X1, X2, X3);
            X0 ^= wKey[104]; X1 ^= wKey[105]; X2 ^= wKey[106]; X3 ^= wKey[107];
            InverseLT(); Ib1(X0, X1, X2, X3);
            X0 ^= wKey[100]; X1 ^= wKey[101]; X2 ^= wKey[102]; X3 ^= wKey[103];
            InverseLT(); Ib0(X0, X1, X2, X3);
            X0 ^= wKey[96]; X1 ^= wKey[97]; X2 ^= wKey[98]; X3 ^= wKey[99];
            InverseLT(); Ib7(X0, X1, X2, X3);
            X0 ^= wKey[92]; X1 ^= wKey[93]; X2 ^= wKey[94]; X3 ^= wKey[95];
            InverseLT(); Ib6(X0, X1, X2, X3);
            X0 ^= wKey[88]; X1 ^= wKey[89]; X2 ^= wKey[90]; X3 ^= wKey[91];
            InverseLT(); Ib5(X0, X1, X2, X3);
            X0 ^= wKey[84]; X1 ^= wKey[85]; X2 ^= wKey[86]; X3 ^= wKey[87];
            InverseLT(); Ib4(X0, X1, X2, X3);
            X0 ^= wKey[80]; X1 ^= wKey[81]; X2 ^= wKey[82]; X3 ^= wKey[83];
            InverseLT(); Ib3(X0, X1, X2, X3);
            X0 ^= wKey[76]; X1 ^= wKey[77]; X2 ^= wKey[78]; X3 ^= wKey[79];
            InverseLT(); Ib2(X0, X1, X2, X3);
            X0 ^= wKey[72]; X1 ^= wKey[73]; X2 ^= wKey[74]; X3 ^= wKey[75];
            InverseLT(); Ib1(X0, X1, X2, X3);
            X0 ^= wKey[68]; X1 ^= wKey[69]; X2 ^= wKey[70]; X3 ^= wKey[71];
            InverseLT(); Ib0(X0, X1, X2, X3);
            X0 ^= wKey[64]; X1 ^= wKey[65]; X2 ^= wKey[66]; X3 ^= wKey[67];
            InverseLT(); Ib7(X0, X1, X2, X3);
            X0 ^= wKey[60]; X1 ^= wKey[61]; X2 ^= wKey[62]; X3 ^= wKey[63];
            InverseLT(); Ib6(X0, X1, X2, X3);
            X0 ^= wKey[56]; X1 ^= wKey[57]; X2 ^= wKey[58]; X3 ^= wKey[59];
            InverseLT(); Ib5(X0, X1, X2, X3);
            X0 ^= wKey[52]; X1 ^= wKey[53]; X2 ^= wKey[54]; X3 ^= wKey[55];
            InverseLT(); Ib4(X0, X1, X2, X3);
            X0 ^= wKey[48]; X1 ^= wKey[49]; X2 ^= wKey[50]; X3 ^= wKey[51];
            InverseLT(); Ib3(X0, X1, X2, X3);
            X0 ^= wKey[44]; X1 ^= wKey[45]; X2 ^= wKey[46]; X3 ^= wKey[47];
            InverseLT(); Ib2(X0, X1, X2, X3);
            X0 ^= wKey[40]; X1 ^= wKey[41]; X2 ^= wKey[42]; X3 ^= wKey[43];
            InverseLT(); Ib1(X0, X1, X2, X3);
            X0 ^= wKey[36]; X1 ^= wKey[37]; X2 ^= wKey[38]; X3 ^= wKey[39];
            InverseLT(); Ib0(X0, X1, X2, X3);
            X0 ^= wKey[32]; X1 ^= wKey[33]; X2 ^= wKey[34]; X3 ^= wKey[35];
            InverseLT(); Ib7(X0, X1, X2, X3);
            X0 ^= wKey[28]; X1 ^= wKey[29]; X2 ^= wKey[30]; X3 ^= wKey[31];
            InverseLT(); Ib6(X0, X1, X2, X3);
            X0 ^= wKey[24]; X1 ^= wKey[25]; X2 ^= wKey[26]; X3 ^= wKey[27];
            InverseLT(); Ib5(X0, X1, X2, X3);
            X0 ^= wKey[20]; X1 ^= wKey[21]; X2 ^= wKey[22]; X3 ^= wKey[23];
            InverseLT(); Ib4(X0, X1, X2, X3);
            X0 ^= wKey[16]; X1 ^= wKey[17]; X2 ^= wKey[18]; X3 ^= wKey[19];
            InverseLT(); Ib3(X0, X1, X2, X3);
            X0 ^= wKey[12]; X1 ^= wKey[13]; X2 ^= wKey[14]; X3 ^= wKey[15];
            InverseLT(); Ib2(X0, X1, X2, X3);
            X0 ^= wKey[8]; X1 ^= wKey[9]; X2 ^= wKey[10]; X3 ^= wKey[11];
            InverseLT(); Ib1(X0, X1, X2, X3);
            X0 ^= wKey[4]; X1 ^= wKey[5]; X2 ^= wKey[6]; X3 ^= wKey[7];
            InverseLT(); Ib0(X0, X1, X2, X3);

            Pack.UInt32_To_LE((uint)(X0 ^ wKey[0]), output, outOff);
            Pack.UInt32_To_LE((uint)(X1 ^ wKey[1]), output, outOff + 4);
            Pack.UInt32_To_LE((uint)(X2 ^ wKey[2]), output, outOff + 8);
            Pack.UInt32_To_LE((uint)(X3 ^ wKey[3]), output, outOff + 12);
        }
#endif
    }
}
#pragma warning restore
#endif