#if NET20

using System;
using System.Security;
using System.Security.Cryptography;

namespace Apewer.Internals
{

    internal class SHA256CryptoServiceProvider : HashAlgorithm
    {

        private byte[] _buffer;

        private long _count;

        private uint[] _stateSHA256;

        private uint[] _W;

        private static readonly uint[] _K = new uint[64]
        {
            1116352408u, 1899447441u, 3049323471u, 3921009573u, 961987163u, 1508970993u, 2453635748u, 2870763221u,
            3624381080u, 310598401u, 607225278u, 1426881987u, 1925078388u, 2162078206u, 2614888103u, 3248222580u,
            3835390401u, 4022224774u, 264347078u, 604807628u, 770255983u, 1249150122u, 1555081692u, 1996064986u,
            2554220882u, 2821834349u, 2952996808u, 3210313671u, 3336571891u, 3584528711u, 113926993u, 338241895u,
            666307205u, 773529912u, 1294757372u, 1396182291u, 1695183700u, 1986661051u, 2177026350u, 2456956037u,
            2730485921u, 2820302411u, 3259730800u, 3345764771u, 3516065817u, 3600352804u, 4094571909u, 275423344u,
            430227734u, 506948616u, 659060556u, 883997877u, 958139571u, 1322822218u, 1537002063u, 1747873779u,
            1955562222u, 2024104815u, 2227730452u, 2361852424u, 2428436474u, 2756734187u, 3204031479u, 3329325298u
        };

        public SHA256CryptoServiceProvider()
        {
            HashSizeValue = 256;
            _stateSHA256 = new uint[8];
            _buffer = new byte[64];
            _W = new uint[64];
            InitializeState();
        }

        public override void Initialize()
        {
            InitializeState();
            Array.Clear(_buffer, 0, _buffer.Length);
            Array.Clear(_W, 0, _W.Length);
        }

        protected override void HashCore(byte[] rgb, int ibStart, int cbSize)
        {
            _HashData(rgb, ibStart, cbSize);
        }

        protected override byte[] HashFinal()
        {
            return _EndHash();
        }

        private void InitializeState()
        {
            _count = 0L;
            _stateSHA256[0] = 1779033703u;
            _stateSHA256[1] = 3144134277u;
            _stateSHA256[2] = 1013904242u;
            _stateSHA256[3] = 2773480762u;
            _stateSHA256[4] = 1359893119u;
            _stateSHA256[5] = 2600822924u;
            _stateSHA256[6] = 528734635u;
            _stateSHA256[7] = 1541459225u;
        }

        [SecuritySafeCritical]
        private unsafe void _HashData(byte[] partIn, int ibStart, int cbSize)
        {
            int num = cbSize;
            int num2 = ibStart;
            int num3 = (int)(_count & 0x3F);
            _count += num;
            fixed (uint* state = _stateSHA256)
            {
                fixed (byte* block = _buffer)
                {
                    fixed (uint* expandedBuffer = _W)
                    {
                        if (num3 > 0 && num3 + num >= 64)
                        {
                            Array.Copy(partIn, num2, _buffer, num3, 64 - num3);
                            num2 += 64 - num3;
                            num -= 64 - num3;
                            SHATransform(expandedBuffer, state, block);
                            num3 = 0;
                        }
                        while (num >= 64)
                        {
                            Array.Copy(partIn, num2, _buffer, 0, 64);
                            num2 += 64;
                            num -= 64;
                            SHATransform(expandedBuffer, state, block);
                        }
                        if (num > 0)
                        {
                            Array.Copy(partIn, num2, _buffer, num3, num);
                        }
                    }
                }
            }
        }

        private byte[] _EndHash()
        {
            byte[] array = new byte[32];
            int num = 64 - (int)(_count & 0x3F);
            if (num <= 8)
            {
                num += 64;
            }
            byte[] array2 = new byte[num];
            array2[0] = 128;
            long num2 = _count * 8;
            array2[num - 8] = (byte)((num2 >> 56) & 0xFF);
            array2[num - 7] = (byte)((num2 >> 48) & 0xFF);
            array2[num - 6] = (byte)((num2 >> 40) & 0xFF);
            array2[num - 5] = (byte)((num2 >> 32) & 0xFF);
            array2[num - 4] = (byte)((num2 >> 24) & 0xFF);
            array2[num - 3] = (byte)((num2 >> 16) & 0xFF);
            array2[num - 2] = (byte)((num2 >> 8) & 0xFF);
            array2[num - 1] = (byte)(num2 & 0xFF);
            _HashData(array2, 0, array2.Length);
            DWORDToBigEndian(array, _stateSHA256, 8);
            HashValue = array;
            return array;
        }

        [SecurityCritical]
        private unsafe static void SHATransform(uint* expandedBuffer, uint* state, byte* block)
        {
            uint num = *state;
            uint num2 = state[1];
            uint num3 = state[2];
            uint num4 = state[3];
            uint num5 = state[4];
            uint num6 = state[5];
            uint num7 = state[6];
            uint num8 = state[7];
            DWORDFromBigEndian(expandedBuffer, 16, block);
            SHA256Expand(expandedBuffer);
            int num9;
            for (num9 = 0; num9 < 64; num9++)
            {
                uint num10 = num8 + Sigma_1(num5) + Ch(num5, num6, num7) + _K[num9] + expandedBuffer[num9];
                uint num11 = num4 + num10;
                uint num12 = num10 + Sigma_0(num) + Maj(num, num2, num3);
                num9++;
                num10 = num7 + Sigma_1(num11) + Ch(num11, num5, num6) + _K[num9] + expandedBuffer[num9];
                uint num13 = num3 + num10;
                uint num14 = num10 + Sigma_0(num12) + Maj(num12, num, num2);
                num9++;
                num10 = num6 + Sigma_1(num13) + Ch(num13, num11, num5) + _K[num9] + expandedBuffer[num9];
                uint num15 = num2 + num10;
                uint num16 = num10 + Sigma_0(num14) + Maj(num14, num12, num);
                num9++;
                num10 = num5 + Sigma_1(num15) + Ch(num15, num13, num11) + _K[num9] + expandedBuffer[num9];
                uint num17 = num + num10;
                uint num18 = num10 + Sigma_0(num16) + Maj(num16, num14, num12);
                num9++;
                num10 = num11 + Sigma_1(num17) + Ch(num17, num15, num13) + _K[num9] + expandedBuffer[num9];
                num8 = num12 + num10;
                num4 = num10 + Sigma_0(num18) + Maj(num18, num16, num14);
                num9++;
                num10 = num13 + Sigma_1(num8) + Ch(num8, num17, num15) + _K[num9] + expandedBuffer[num9];
                num7 = num14 + num10;
                num3 = num10 + Sigma_0(num4) + Maj(num4, num18, num16);
                num9++;
                num10 = num15 + Sigma_1(num7) + Ch(num7, num8, num17) + _K[num9] + expandedBuffer[num9];
                num6 = num16 + num10;
                num2 = num10 + Sigma_0(num3) + Maj(num3, num4, num18);
                num9++;
                num10 = num17 + Sigma_1(num6) + Ch(num6, num7, num8) + _K[num9] + expandedBuffer[num9];
                num5 = num18 + num10;
                num = num10 + Sigma_0(num2) + Maj(num2, num3, num4);
            }
            *state += num;
            state[1] += num2;
            state[2] += num3;
            state[3] += num4;
            state[4] += num5;
            state[5] += num6;
            state[6] += num7;
            state[7] += num8;
        }

        private static uint RotateRight(uint x, int n)
        {
            return (x >> n) | (x << 32 - n);
        }

        private static uint Ch(uint x, uint y, uint z)
        {
            return (x & y) ^ (uint)(((int)x ^ -1) & (int)z);
        }

        private static uint Maj(uint x, uint y, uint z)
        {
            return (x & y) ^ (x & z) ^ (y & z);
        }

        private static uint sigma_0(uint x)
        {
            return RotateRight(x, 7) ^ RotateRight(x, 18) ^ (x >> 3);
        }

        private static uint sigma_1(uint x)
        {
            return RotateRight(x, 17) ^ RotateRight(x, 19) ^ (x >> 10);
        }

        private static uint Sigma_0(uint x)
        {
            return RotateRight(x, 2) ^ RotateRight(x, 13) ^ RotateRight(x, 22);
        }

        private static uint Sigma_1(uint x)
        {
            return RotateRight(x, 6) ^ RotateRight(x, 11) ^ RotateRight(x, 25);
        }

        [SecurityCritical]
        private unsafe static void SHA256Expand(uint* x)
        {
            for (int i = 16; i < 64; i++)
            {
                x[i] = sigma_1(x[i - 2]) + x[i - 7] + sigma_0(x[i - 15]) + x[i - 16];
            }
        }

        private static void DWORDToBigEndian(byte[] block, uint[] x, int digits)
        {
            int num = 0;
            int num2 = 0;
            while (num < digits)
            {
                block[num2] = (byte)((x[num] >> 24) & 0xFF);
                block[num2 + 1] = (byte)((x[num] >> 16) & 0xFF);
                block[num2 + 2] = (byte)((x[num] >> 8) & 0xFF);
                block[num2 + 3] = (byte)(x[num] & 0xFF);
                num++;
                num2 += 4;
            }
        }

        [SecurityCritical]
        private unsafe static void DWORDFromBigEndian(uint* x, int digits, byte* block)
        {
            int num = 0;
            int num2 = 0;
            while (num < digits)
            {
                x[num] = (uint)((block[num2] << 24) | (block[num2 + 1] << 16) | (block[num2 + 2] << 8) | block[num2 + 3]);
                num++;
                num2 += 4;
            }
        }

    }

}

#endif