using Org.BouncyCastle.Crypto; using Org.BouncyCastle.Crypto.Digests; using Org.BouncyCastle.Crypto.Generators; using Org.BouncyCastle.Crypto.Parameters; using Org.BouncyCastle.Math; using Org.BouncyCastle.Math.EC; using Org.BouncyCastle.Security; using Org.BouncyCastle.Utilities.Encoders; using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Threading.Tasks; namespace AnHuiMI.Common { ///

/// 密码计算 ///

public class Cipher { private int ct = 1; ///

/// 椭圆曲线E上点P2 ///

private ECPoint p2; private SM3Digest sm3keybase; private SM3Digest sm3c3; private readonly byte[] key = new byte[32]; private byte keyOff = 0; public Cipher() { } private void Reset() { sm3keybase = new SM3Digest(); sm3c3 = new SM3Digest(); byte[] p; p = p2.Normalize().XCoord.ToBigInteger().ToByteArray(); sm3keybase.BlockUpdate(p, 0, p.Length); sm3c3.BlockUpdate(p, 0, p.Length); p = p2.Normalize().YCoord.ToBigInteger().ToByteArray(); sm3keybase.BlockUpdate(p, 0, p.Length); ct = 1; NextKey(); } private void NextKey() { SM3Digest sm3keycur = new SM3Digest(sm3keybase); sm3keycur.Update((byte)(ct >> 24 & 0x00ff)); sm3keycur.Update((byte)(ct >> 16 & 0x00ff)); sm3keycur.Update((byte)(ct >> 8 & 0x00ff)); sm3keycur.Update((byte)(ct & 0x00ff)); sm3keycur.DoFinal(key, 0); keyOff = 0; ct++; } public virtual ECPoint InitEnc(SM2 sm2, ECPoint userKey) { AsymmetricCipherKeyPair key = sm2.EccKeyPairGenerator.GenerateKeyPair(); ECPrivateKeyParameters ecpriv = (ECPrivateKeyParameters)key.Private; ECPublicKeyParameters ecpub = (ECPublicKeyParameters)key.Public; BigInteger k = ecpriv.D; ECPoint c1 = ecpub.Q; p2 = userKey.Multiply(k); Reset(); return c1; } public virtual void Encrypt(byte[] data) { //p2.Normalize(); sm3c3.BlockUpdate(data, 0, data.Length); for (int i = 0; i < data.Length; i++) { if (keyOff == key.Length) NextKey(); data[i] ^= key[keyOff++]; } } public virtual void InitDec(BigInteger userD, ECPoint c1) { p2 = c1.Multiply(userD); Reset(); } public virtual void Decrypt(byte[] data) { for (int i = 0; i < data.Length; i++) { if (keyOff == key.Length) NextKey(); data[i] ^= key[keyOff++]; } sm3c3.BlockUpdate(data, 0, data.Length); } public virtual void Dofinal(byte[] c3) { byte[] p = p2.Normalize().YCoord.ToBigInteger().ToByteArray(); sm3c3.BlockUpdate(p, 0, p.Length); sm3c3.DoFinal(c3, 0); Reset(); } } ///

/// 加密处理中心 ///

public class SM2 { public static SM2 Instance { get { return new SM2(); } } public static SM2 InstanceTest { get { return new SM2(); } } #region 曲线参数 ///

/// 曲线参数 ///

public static readonly string[] CurveParameter = { "FFFFFFFEFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF00000000FFFFFFFFFFFFFFFF",// p,0 "FFFFFFFEFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF00000000FFFFFFFFFFFFFFFC",// a,1 "28E9FA9E9D9F5E344D5A9E4BCF6509A7F39789F515AB8F92DDBCBD414D940E93",// b,2 "FFFFFFFEFFFFFFFFFFFFFFFFFFFFFFFF7203DF6B21C6052B53BBF40939D54123",// n,3 "32C4AE2C1F1981195F9904466A39C9948FE30BBFF2660BE1715A4589334C74C7",// gx,4 "BC3736A2F4F6779C59BDCEE36B692153D0A9877CC62A474002DF32E52139F0A0" // gy,5 }; ///

/// 椭圆曲线参数 ///

public string[] EccParam = CurveParameter; ///

/// 椭圆曲线参数P ///

public readonly BigInteger EccP; ///

/// 椭圆曲线参数A ///

public readonly BigInteger EccA; ///

/// 椭圆曲线参数B ///

public readonly BigInteger EccB; ///

/// 椭圆曲线参数N ///

public readonly BigInteger EccN; ///

/// 椭圆曲线参数Gx ///

public readonly BigInteger EccGx; ///

/// 椭圆曲线参数Gy ///

public readonly BigInteger EccGy; #endregion ///

/// 椭圆曲线 ///

public readonly ECCurve EccCurve; ///

/// 椭圆曲线的点G ///

public readonly ECPoint EccPointG; ///

/// 椭圆曲线 bc规范 ///

public readonly ECDomainParameters EccBcSpec; ///

/// 椭圆曲线密钥对生成器 ///

public readonly ECKeyPairGenerator EccKeyPairGenerator; private SM2() { EccParam = CurveParameter; EccP = new BigInteger(EccParam[0], 16); EccA = new BigInteger(EccParam[1], 16); EccB = new BigInteger(EccParam[2], 16); EccN = new BigInteger(EccParam[3], 16); EccGx = new BigInteger(EccParam[4], 16); EccGy = new BigInteger(EccParam[5], 16); ECFieldElement ecc_gx_fieldelement = new FpFieldElement(EccP, EccGx); ECFieldElement ecc_gy_fieldelement = new FpFieldElement(EccP, EccGy); EccCurve = new FpCurve(EccP, EccA, EccB); EccPointG = new FpPoint(EccCurve, ecc_gx_fieldelement, ecc_gy_fieldelement); EccBcSpec = new ECDomainParameters(EccCurve, EccPointG, EccN); ECKeyGenerationParameters ecc_ecgenparam; ecc_ecgenparam = new ECKeyGenerationParameters(EccBcSpec, new SecureRandom()); EccKeyPairGenerator = new ECKeyPairGenerator(); EccKeyPairGenerator.Init(ecc_ecgenparam); } ///

/// 获取杂凑值H ///

/// Z值 /// 待签名消息 /// public virtual byte[] Sm2GetH(byte[] z, byte[] data) { SM3Digest sm3 = new SM3Digest(); //Z sm3.BlockUpdate(z, 0, z.Length); //待签名消息 sm3.BlockUpdate(data, 0, data.Length); // H byte[] md = new byte[sm3.GetDigestSize()]; sm3.DoFinal(md, 0); return md; } ///

/// 获取Z值 /// Z=SM3(ENTL∣∣userId∣∣a∣∣b∣∣gx∣∣gy ∣∣x∣∣y) ///

/// 签名方的用户身份标识 /// 签名方公钥 /// public virtual byte[] Sm2GetZ(byte[] userId, ECPoint userKey) { SM3Digest sm3 = new SM3Digest(); byte[] p; // ENTL由2个字节标识的ID的比特长度 int len = userId.Length * 8; sm3.Update((byte)(len >> 8 & 0x00ff)); sm3.Update((byte)(len & 0x00ff)); // userId用户身份标识ID sm3.BlockUpdate(userId, 0, userId.Length); // a,b为系统曲线参数； p = EccA.ToByteArray(); sm3.BlockUpdate(p, 0, p.Length); p = EccB.ToByteArray(); sm3.BlockUpdate(p, 0, p.Length); // gx、gy为基点 p = EccGx.ToByteArray(); sm3.BlockUpdate(p, 0, p.Length); p = EccGy.ToByteArray(); sm3.BlockUpdate(p, 0, p.Length); // x,y用户的公钥的X和Y p = userKey.Normalize().XCoord.ToBigInteger().ToByteArray(); sm3.BlockUpdate(p, 0, p.Length); p = userKey.Normalize().YCoord.ToBigInteger().ToByteArray(); sm3.BlockUpdate(p, 0, p.Length); // Z byte[] md = new byte[sm3.GetDigestSize()]; sm3.DoFinal(md, 0); return md; } } ///

/// Sm2算法 /// 对标国际RSA算法 ///

public class Sm2Crypto { ///

/// 数据 ///

public string Str { get; set; } ///

/// 数据 ///

public byte[] Data { get; set; } ///

/// 公钥 ///

public string PublicKey { get; set; } ///

/// 私钥 ///

public string PrivateKey { get; set; } ///

/// 获取密钥 ///

/// 私钥 /// 公钥 public static void GetKey(out string privateKey, out string publicKey) { SM2 sm2 = SM2.Instance; AsymmetricCipherKeyPair key = sm2.EccKeyPairGenerator.GenerateKeyPair(); ECPrivateKeyParameters ecpriv = (ECPrivateKeyParameters)key.Private; ECPublicKeyParameters ecpub = (ECPublicKeyParameters)key.Public; publicKey = Encoding.Default.GetString(Hex.Encode(ecpub.Q.GetEncoded())).ToUpper(); privateKey = Encoding.Default.GetString(Hex.Encode(ecpriv.D.ToByteArray())).ToUpper(); } #region 解密 public object Decrypt(Sm2Crypto entity) { var data = !string.IsNullOrEmpty(entity.Str) ? Hex.Decode(entity.Str) : entity.Data; return Encoding.Default.GetString(Decrypt(Hex.Decode(entity.PrivateKey), data)); } ///

/// 解密 ///

/// /// /// private static byte[] Decrypt(byte[] privateKey, byte[] encryptedData) { if (null == privateKey || privateKey.Length == 0) { return null; } if (encryptedData == null || encryptedData.Length == 0) { return null; } string data = Encoding.Default.GetString(Hex.Encode(encryptedData)); byte[] c1Bytes = Hex.Decode(Encoding.Default.GetBytes(data.Substring(0, 130))); int c2Len = encryptedData.Length - 97; byte[] c2 = Hex.Decode(Encoding.Default.GetBytes(data.Substring(130, 2 * c2Len))); byte[] c3 = Hex.Decode(Encoding.Default.GetBytes(data.Substring(130 + 2 * c2Len, 64))); SM2 sm2 = SM2.Instance; BigInteger userD = new BigInteger(1, privateKey); ECPoint c1 = sm2.EccCurve.DecodePoint(c1Bytes); //c1.Normalize(); Cipher cipher = new Cipher(); cipher.InitDec(userD, c1); cipher.Decrypt(c2); cipher.Dofinal(c3); return c2; } #endregion #region 加密 public string Encrypt(Sm2Crypto entity) { var data = !string.IsNullOrEmpty(entity.Str) ? Encoding.Default.GetBytes(entity.Str) : entity.Data; return Encrypt(Hex.Decode(entity.PublicKey), data); } ///

/// 默认加密 ///

/// public string Encrypt() { var data = !string.IsNullOrEmpty(this.Str) ? Encoding.Default.GetBytes(this.Str) : this.Data; return Encrypt(Hex.Decode(this.PublicKey), data); } ///

/// 加密 ///

/// /// /// private static string Encrypt(byte[] publicKey, byte[] data) { if (null == publicKey || publicKey.Length == 0) { return null; } if (data == null || data.Length == 0) { return null; } byte[] source = new byte[data.Length]; Array.Copy(data, 0, source, 0, data.Length); Cipher cipher = new Cipher(); SM2 sm2 = SM2.Instance; ECPoint userKey = sm2.EccCurve.DecodePoint(publicKey); //userKey.Normalize(); ECPoint c1 = cipher.InitEnc(sm2, userKey); cipher.Encrypt(source); byte[] c3 = new byte[32]; cipher.Dofinal(c3); string sc1 = Encoding.Default.GetString(Hex.Encode(c1.GetEncoded())); string sc2 = Encoding.Default.GetString(Hex.Encode(source)); string sc3 = Encoding.Default.GetString(Hex.Encode(c3)); return (sc1 + sc2 + sc3).ToUpper(); } #endregion } class SM4 { public const int SM4_ENCRYPT = 1; public const int SM4_DECRYPT = 0; private long GET_ULONG_BE(byte[] b, int i) { long n = (long)(b[i] & 0xff) << 24 | (long)((b[i + 1] & 0xff) << 16) | (long)((b[i + 2] & 0xff) << 8) | (long)(b[i + 3] & 0xff) & 0xffffffffL; return n; } private void PUT_ULONG_BE(long n, byte[] b, int i) { b[i] = (byte)(int)(0xFF & n >> 24); b[i + 1] = (byte)(int)(0xFF & n >> 16); b[i + 2] = (byte)(int)(0xFF & n >> 8); b[i + 3] = (byte)(int)(0xFF & n); } private long SHL(long x, int n) { return (x & 0xFFFFFFFF) << n; } private long ROTL(long x, int n) { return SHL(x, n) | x >> (32 - n); } private void SWAP(long[] sk, int i) { long t = sk[i]; sk[i] = sk[(31 - i)]; sk[(31 - i)] = t; } public byte[] SboxTable = new byte[] { (byte) 0xd6, (byte) 0x90, (byte) 0xe9, (byte) 0xfe, (byte) 0xcc, (byte) 0xe1, 0x3d, (byte) 0xb7, 0x16, (byte) 0xb6, 0x14, (byte) 0xc2, 0x28, (byte) 0xfb, 0x2c, 0x05, 0x2b, 0x67, (byte) 0x9a, 0x76, 0x2a, (byte) 0xbe, 0x04, (byte) 0xc3, (byte) 0xaa, 0x44, 0x13, 0x26, 0x49, (byte) 0x86, 0x06, (byte) 0x99, (byte) 0x9c, 0x42, 0x50, (byte) 0xf4, (byte) 0x91, (byte) 0xef, (byte) 0x98, 0x7a, 0x33, 0x54, 0x0b, 0x43, (byte) 0xed, (byte) 0xcf, (byte) 0xac, 0x62, (byte) 0xe4, (byte) 0xb3, 0x1c, (byte) 0xa9, (byte) 0xc9, 0x08, (byte) 0xe8, (byte) 0x95, (byte) 0x80, (byte) 0xdf, (byte) 0x94, (byte) 0xfa, 0x75, (byte) 0x8f, 0x3f, (byte) 0xa6, 0x47, 0x07, (byte) 0xa7, (byte) 0xfc, (byte) 0xf3, 0x73, 0x17, (byte) 0xba, (byte) 0x83, 0x59, 0x3c, 0x19, (byte) 0xe6, (byte) 0x85, 0x4f, (byte) 0xa8, 0x68, 0x6b, (byte) 0x81, (byte) 0xb2, 0x71, 0x64, (byte) 0xda, (byte) 0x8b, (byte) 0xf8, (byte) 0xeb, 0x0f, 0x4b, 0x70, 0x56, (byte) 0x9d, 0x35, 0x1e, 0x24, 0x0e, 0x5e, 0x63, 0x58, (byte) 0xd1, (byte) 0xa2, 0x25, 0x22, 0x7c, 0x3b, 0x01, 0x21, 0x78, (byte) 0x87, (byte) 0xd4, 0x00, 0x46, 0x57, (byte) 0x9f, (byte) 0xd3, 0x27, 0x52, 0x4c, 0x36, 0x02, (byte) 0xe7, (byte) 0xa0, (byte) 0xc4, (byte) 0xc8, (byte) 0x9e, (byte) 0xea, (byte) 0xbf, (byte) 0x8a, (byte) 0xd2, 0x40, (byte) 0xc7, 0x38, (byte) 0xb5, (byte) 0xa3, (byte) 0xf7, (byte) 0xf2, (byte) 0xce, (byte) 0xf9, 0x61, 0x15, (byte) 0xa1, (byte) 0xe0, (byte) 0xae, 0x5d, (byte) 0xa4, (byte) 0x9b, 0x34, 0x1a, 0x55, (byte) 0xad, (byte) 0x93, 0x32, 0x30, (byte) 0xf5, (byte) 0x8c, (byte) 0xb1, (byte) 0xe3, 0x1d, (byte) 0xf6, (byte) 0xe2, 0x2e, (byte) 0x82, 0x66, (byte) 0xca, 0x60, (byte) 0xc0, 0x29, 0x23, (byte) 0xab, 0x0d, 0x53, 0x4e, 0x6f, (byte) 0xd5, (byte) 0xdb, 0x37, 0x45, (byte) 0xde, (byte) 0xfd, (byte) 0x8e, 0x2f, 0x03, (byte) 0xff, 0x6a, 0x72, 0x6d, 0x6c, 0x5b, 0x51, (byte) 0x8d, 0x1b, (byte) 0xaf, (byte) 0x92, (byte) 0xbb, (byte) 0xdd, (byte) 0xbc, 0x7f, 0x11, (byte) 0xd9, 0x5c, 0x41, 0x1f, 0x10, 0x5a, (byte) 0xd8, 0x0a, (byte) 0xc1, 0x31, (byte) 0x88, (byte) 0xa5, (byte) 0xcd, 0x7b, (byte) 0xbd, 0x2d, 0x74, (byte) 0xd0, 0x12, (byte) 0xb8, (byte) 0xe5, (byte) 0xb4, (byte) 0xb0, (byte) 0x89, 0x69, (byte) 0x97, 0x4a, 0x0c, (byte) 0x96, 0x77, 0x7e, 0x65, (byte) 0xb9, (byte) 0xf1, 0x09, (byte) 0xc5, 0x6e, (byte) 0xc6, (byte) 0x84, 0x18, (byte) 0xf0, 0x7d, (byte) 0xec, 0x3a, (byte) 0xdc, 0x4d, 0x20, 0x79, (byte) 0xee, 0x5f, 0x3e, (byte) 0xd7, (byte) 0xcb, 0x39, 0x48 }; public uint[] FK = { 0xa3b1bac6, 0x56aa3350, 0x677d9197, 0xb27022dc }; public uint[] CK = { 0x00070e15,0x1c232a31,0x383f464d,0x545b6269, 0x70777e85,0x8c939aa1,0xa8afb6bd,0xc4cbd2d9, 0xe0e7eef5,0xfc030a11,0x181f262d,0x343b4249, 0x50575e65,0x6c737a81,0x888f969d,0xa4abb2b9, 0xc0c7ced5,0xdce3eaf1,0xf8ff060d,0x141b2229, 0x30373e45,0x4c535a61,0x686f767d,0x848b9299, 0xa0a7aeb5,0xbcc3cad1,0xd8dfe6ed,0xf4fb0209, 0x10171e25,0x2c333a41,0x484f565d,0x646b7279 }; private byte sm4Sbox(byte inch) { int i = inch & 0xFF; byte retVal = SboxTable[i]; return retVal; } private long sm4Lt(long ka) { long bb = 0L; long c = 0L; byte[] a = new byte[4]; byte[] b = new byte[4]; PUT_ULONG_BE(ka, a, 0); b[0] = sm4Sbox(a[0]); b[1] = sm4Sbox(a[1]); b[2] = sm4Sbox(a[2]); b[3] = sm4Sbox(a[3]); bb = GET_ULONG_BE(b, 0); c = bb ^ ROTL(bb, 2) ^ ROTL(bb, 10) ^ ROTL(bb, 18) ^ ROTL(bb, 24); return c; } private long sm4F(long x0, long x1, long x2, long x3, long rk) { return x0 ^ sm4Lt(x1 ^ x2 ^ x3 ^ rk); } private long sm4CalciRK(long ka) { long bb = 0L; long rk = 0L; byte[] a = new byte[4]; byte[] b = new byte[4]; PUT_ULONG_BE(ka, a, 0); b[0] = sm4Sbox(a[0]); b[1] = sm4Sbox(a[1]); b[2] = sm4Sbox(a[2]); b[3] = sm4Sbox(a[3]); bb = GET_ULONG_BE(b, 0); rk = bb ^ ROTL(bb, 13) ^ ROTL(bb, 23); return rk; } private void sm4_setkey(long[] SK, byte[] key) { long[] MK = new long[4]; long[] k = new long[36]; int i = 0; MK[0] = GET_ULONG_BE(key, 0); MK[1] = GET_ULONG_BE(key, 4); MK[2] = GET_ULONG_BE(key, 8); MK[3] = GET_ULONG_BE(key, 12); k[0] = MK[0] ^ (long)FK[0]; k[1] = MK[1] ^ (long)FK[1]; k[2] = MK[2] ^ (long)FK[2]; k[3] = MK[3] ^ (long)FK[3]; for (; i < 32; i++) { k[(i + 4)] = (k[i] ^ sm4CalciRK(k[(i + 1)] ^ k[(i + 2)] ^ k[(i + 3)] ^ (long)CK[i])); SK[i] = k[(i + 4)]; } } private void sm4_one_round(long[] sk, byte[] input, byte[] output) { int i = 0; long[] ulbuf = new long[36]; ulbuf[0] = GET_ULONG_BE(input, 0); ulbuf[1] = GET_ULONG_BE(input, 4); ulbuf[2] = GET_ULONG_BE(input, 8); ulbuf[3] = GET_ULONG_BE(input, 12); while (i < 32) { ulbuf[(i + 4)] = sm4F(ulbuf[i], ulbuf[(i + 1)], ulbuf[(i + 2)], ulbuf[(i + 3)], sk[i]); i++; } PUT_ULONG_BE(ulbuf[35], output, 0); PUT_ULONG_BE(ulbuf[34], output, 4); PUT_ULONG_BE(ulbuf[33], output, 8); PUT_ULONG_BE(ulbuf[32], output, 12); } private byte[] padding(byte[] input, int mode) { if (input == null) { return null; } byte[] ret = (byte[])null; if (mode == SM4_ENCRYPT) { int p = 16 - input.Length % 16; ret = new byte[input.Length + p]; Array.Copy(input, 0, ret, 0, input.Length); for (int i = 0; i < p; i++) { ret[input.Length + i] = (byte)p; } } else { int p = input[input.Length - 1]; ret = new byte[input.Length - p]; Array.Copy(input, 0, ret, 0, input.Length - p); } return ret; } public void sm4_setkey_enc(SM4_Context ctx, byte[] key) { ctx.mode = SM4_ENCRYPT; sm4_setkey(ctx.sk, key); } public void sm4_setkey_dec(SM4_Context ctx, byte[] key) { int i = 0; ctx.mode = SM4_DECRYPT; sm4_setkey(ctx.sk, key); for (i = 0; i < 16; i++) { SWAP(ctx.sk, i); } } public byte[] sm4_crypt_ecb(SM4_Context ctx, byte[] input) { if ((ctx.isPadding) && (ctx.mode == SM4_ENCRYPT)) { input = padding(input, SM4_ENCRYPT); } int length = input.Length; byte[] bins = new byte[length]; Array.Copy(input, 0, bins, 0, length); byte[] bous = new byte[length]; for (int i = 0; length > 0; length -= 16, i++) { byte[] inBytes = new byte[16]; byte[] outBytes = new byte[16]; Array.Copy(bins, i * 16, inBytes, 0, length > 16 ? 16 : length); sm4_one_round(ctx.sk, inBytes, outBytes); Array.Copy(outBytes, 0, bous, i * 16, length > 16 ? 16 : length); } if (ctx.isPadding && ctx.mode == SM4_DECRYPT) { bous = padding(bous, SM4_DECRYPT); } return bous; } public byte[] sm4_crypt_cbc(SM4_Context ctx, byte[] iv, byte[] input) { if (ctx.isPadding && ctx.mode == SM4_ENCRYPT) { input = padding(input, SM4_ENCRYPT); } int i = 0; int length = input.Length; byte[] bins = new byte[length]; Array.Copy(input, 0, bins, 0, length); byte[] bous = null; List bousList = new List(); if (ctx.mode == SM4_ENCRYPT) { for (int j = 0; length > 0; length -= 16, j++) { byte[] inBytes = new byte[16]; byte[] outBytes = new byte[16]; byte[] out1 = new byte[16]; Array.Copy(bins, i * 16, inBytes, 0, length > 16 ? 16 : length); for (i = 0; i < 16; i++) { outBytes[i] = ((byte)(inBytes[i] ^ iv[i])); } sm4_one_round(ctx.sk, outBytes, out1); Array.Copy(out1, 0, iv, 0, 16); for (int k = 0; k < 16; k++) { bousList.Add(out1[k]); } } } else { byte[] temp = new byte[16]; for (int j = 0; length > 0; length -= 16, j++) { byte[] inBytes = new byte[16]; byte[] outBytes = new byte[16]; byte[] out1 = new byte[16]; Array.Copy(bins, i * 16, inBytes, 0, length > 16 ? 16 : length); Array.Copy(inBytes, 0, temp, 0, 16); sm4_one_round(ctx.sk, inBytes, outBytes); for (i = 0; i < 16; i++) { out1[i] = ((byte)(outBytes[i] ^ iv[i])); } Array.Copy(temp, 0, iv, 0, 16); for (int k = 0; k < 16; k++) { bousList.Add(out1[k]); } } } if (ctx.isPadding && ctx.mode == SM4_DECRYPT) { bous = padding(bousList.ToArray(), SM4_DECRYPT); return bous; } else { return bousList.ToArray(); } } } class SM4_Context { public int mode; public long[] sk; public bool isPadding; public SM4_Context() { this.mode = 1; this.isPadding = true; this.sk = new long[32]; } } class SM4Utils { public string secretKey = ""; public string iv = ""; public bool hexstring = false; public string Encrypt_ECB(string plainText,string key) { this.secretKey = key; return Encrypt_ECB(plainText); } public string Encrypt_ECB(string plainText) { SM4_Context ctx = new SM4_Context(); ctx.isPadding = true; ctx.mode = SM4.SM4_ENCRYPT; byte[] keyBytes; if (hexstring) { keyBytes = Hex.Decode(secretKey); } else { keyBytes = Encoding.Default.GetBytes(secretKey); } SM4 sm4 = new SM4(); sm4.sm4_setkey_enc(ctx, keyBytes); byte[] encrypted = sm4.sm4_crypt_ecb(ctx, Encoding.Default.GetBytes(plainText)); string cipherText = Encoding.Default.GetString(Hex.Encode(encrypted)); return cipherText; } public string Decrypt_ECB(string cipherText,string key) { this.secretKey = key; return Decrypt_ECB(cipherText); } public string Decrypt_ECB(string cipherText) { SM4_Context ctx = new SM4_Context(); ctx.isPadding = true; ctx.mode = SM4.SM4_DECRYPT; byte[] keyBytes; if (hexstring) { keyBytes = Hex.Decode(secretKey); } else { keyBytes = Encoding.Default.GetBytes(secretKey); } SM4 sm4 = new SM4(); sm4.sm4_setkey_dec(ctx, keyBytes); byte[] decrypted = sm4.sm4_crypt_ecb(ctx, Hex.Decode(cipherText)); return Encoding.Default.GetString(decrypted); } public string Encrypt_CBC(string plainText) { SM4_Context ctx = new SM4_Context(); ctx.isPadding = true; ctx.mode = SM4.SM4_ENCRYPT; byte[] keyBytes; byte[] ivBytes; if (hexstring) { keyBytes = Hex.Decode(secretKey); ivBytes = Hex.Decode(iv); } else { keyBytes = Encoding.Default.GetBytes(secretKey); ivBytes = Encoding.Default.GetBytes(iv); } SM4 sm4 = new SM4(); sm4.sm4_setkey_enc(ctx, keyBytes); byte[] encrypted = sm4.sm4_crypt_cbc(ctx, ivBytes, Encoding.Default.GetBytes(plainText)); string cipherText = Encoding.Default.GetString(Hex.Encode(encrypted)); return cipherText; } public string Decrypt_CBC(string cipherText) { SM4_Context ctx = new SM4_Context(); ctx.isPadding = true; ctx.mode = SM4.SM4_DECRYPT; byte[] keyBytes; byte[] ivBytes; if (hexstring) { keyBytes = Hex.Decode(secretKey); ivBytes = Hex.Decode(iv); } else { keyBytes = Encoding.Default.GetBytes(secretKey); ivBytes = Encoding.Default.GetBytes(iv); } SM4 sm4 = new SM4(); sm4.sm4_setkey_dec(ctx, keyBytes); byte[] decrypted = sm4.sm4_crypt_cbc(ctx, ivBytes, Hex.Decode(cipherText)); return Encoding.Default.GetString(decrypted); } } }