#if !BESTHTTP_DISABLE_ALTERNATE_SSL && (!UNITY_WEBGL || UNITY_EDITOR) #pragma warning disable using System; using BestHTTP.SecureProtocol.Org.BouncyCastle.Crypto.Parameters; namespace BestHTTP.SecureProtocol.Org.BouncyCastle.Crypto.Macs { public class VmpcMac : IMac { private byte g; private byte n = 0; private byte[] P = null; private byte s = 0; private byte[] T; private byte[] workingIV; private byte[] workingKey; private byte x1, x2, x3, x4; public virtual int DoFinal(byte[] output, int outOff) { // Execute the Post-Processing Phase for (int r = 1; r < 25; r++) { s = P[(s + P[n & 0xff]) & 0xff]; x4 = P[(x4 + x3 + r) & 0xff]; x3 = P[(x3 + x2 + r) & 0xff]; x2 = P[(x2 + x1 + r) & 0xff]; x1 = P[(x1 + s + r) & 0xff]; T[g & 0x1f] = (byte) (T[g & 0x1f] ^ x1); T[(g + 1) & 0x1f] = (byte) (T[(g + 1) & 0x1f] ^ x2); T[(g + 2) & 0x1f] = (byte) (T[(g + 2) & 0x1f] ^ x3); T[(g + 3) & 0x1f] = (byte) (T[(g + 3) & 0x1f] ^ x4); g = (byte) ((g + 4) & 0x1f); byte temp = P[n & 0xff]; P[n & 0xff] = P[s & 0xff]; P[s & 0xff] = temp; n = (byte) ((n + 1) & 0xff); } // Input T to the IV-phase of the VMPC KSA for (int m = 0; m < 768; m++) { s = P[(s + P[m & 0xff] + T[m & 0x1f]) & 0xff]; byte temp = P[m & 0xff]; P[m & 0xff] = P[s & 0xff]; P[s & 0xff] = temp; } // Store 20 new outputs of the VMPC Stream Cipher input table M byte[] M = new byte[20]; for (int i = 0; i < 20; i++) { s = P[(s + P[i & 0xff]) & 0xff]; M[i] = P[(P[(P[s & 0xff]) & 0xff] + 1) & 0xff]; byte temp = P[i & 0xff]; P[i & 0xff] = P[s & 0xff]; P[s & 0xff] = temp; } Array.Copy(M, 0, output, outOff, M.Length); Reset(); return M.Length; } public virtual string AlgorithmName { get { return "VMPC-MAC"; } } public virtual int GetMacSize() { return 20; } public virtual void Init(ICipherParameters parameters) { if (!(parameters is ParametersWithIV)) throw new ArgumentException("VMPC-MAC Init parameters must include an IV", "parameters"); ParametersWithIV ivParams = (ParametersWithIV) parameters; KeyParameter key = (KeyParameter) ivParams.Parameters; if (!(ivParams.Parameters is KeyParameter)) throw new ArgumentException("VMPC-MAC Init parameters must include a key", "parameters"); this.workingIV = ivParams.GetIV(); if (workingIV == null || workingIV.Length < 1 || workingIV.Length > 768) throw new ArgumentException("VMPC-MAC requires 1 to 768 bytes of IV", "parameters"); this.workingKey = key.GetKey(); Reset(); } private void initKey(byte[] keyBytes, byte[] ivBytes) { s = 0; P = new byte[256]; for (int i = 0; i < 256; i++) { P[i] = (byte) i; } for (int m = 0; m < 768; m++) { s = P[(s + P[m & 0xff] + keyBytes[m % keyBytes.Length]) & 0xff]; byte temp = P[m & 0xff]; P[m & 0xff] = P[s & 0xff]; P[s & 0xff] = temp; } for (int m = 0; m < 768; m++) { s = P[(s + P[m & 0xff] + ivBytes[m % ivBytes.Length]) & 0xff]; byte temp = P[m & 0xff]; P[m & 0xff] = P[s & 0xff]; P[s & 0xff] = temp; } n = 0; } public virtual void Reset() { initKey(this.workingKey, this.workingIV); g = x1 = x2 = x3 = x4 = n = 0; T = new byte[32]; for (int i = 0; i < 32; i++) { T[i] = 0; } } public virtual void Update(byte input) { s = P[(s + P[n & 0xff]) & 0xff]; byte c = (byte) (input ^ P[(P[(P[s & 0xff]) & 0xff] + 1) & 0xff]); x4 = P[(x4 + x3) & 0xff]; x3 = P[(x3 + x2) & 0xff]; x2 = P[(x2 + x1) & 0xff]; x1 = P[(x1 + s + c) & 0xff]; T[g & 0x1f] = (byte) (T[g & 0x1f] ^ x1); T[(g + 1) & 0x1f] = (byte) (T[(g + 1) & 0x1f] ^ x2); T[(g + 2) & 0x1f] = (byte) (T[(g + 2) & 0x1f] ^ x3); T[(g + 3) & 0x1f] = (byte) (T[(g + 3) & 0x1f] ^ x4); g = (byte) ((g + 4) & 0x1f); byte temp = P[n & 0xff]; P[n & 0xff] = P[s & 0xff]; P[s & 0xff] = temp; n = (byte) ((n + 1) & 0xff); } public virtual void BlockUpdate(byte[] input, int inOff, int len) { if ((inOff + len) > input.Length) throw new DataLengthException("input buffer too short"); for (int i = 0; i < len; i++) { Update(input[inOff + i]); } } } } #pragma warning restore #endif