c1_unity/Assets/Scripts/Common/Network/Encrypt/Impl/NetAesEncrypt.cs

using System;
using System.Collections.Generic;
using System.Security.Cryptography;
 
 namespace BF
{
    public class NetAesEncrypt : SymmetricAlgorithm
    {
        private readonly byte[] _counter;
        private readonly AesManaged _aes;

        private ICryptoTransform ict;

        public  byte[] aesKey { get; set; }
    
        public NetAesEncrypt(byte[] counter)
        {
            if (counter == null) throw new ArgumentNullException("counter");
            if (counter.Length != 16)
                throw new ArgumentException(String.Format("Counter size must be same as block size (actual: {0}, expected: {1})",
                    counter.Length, 16));
    
            _aes = new AesManaged
            {
                Mode = CipherMode.ECB,
                Padding = PaddingMode.None
            };
    
            _counter = counter;
        }
    
        public override ICryptoTransform CreateEncryptor(byte[] rgbKey, byte[] ignoredParameter)
        {
            return new CounterModeCryptoTransform(_aes, rgbKey, _counter);
        }
    
        public override ICryptoTransform CreateDecryptor(byte[] rgbKey, byte[] ignoredParameter)
        {
            return new CounterModeCryptoTransform(_aes, rgbKey, _counter);
        }
    
        public override void GenerateKey()
        {
            _aes.GenerateKey();
        }
    
        public override void GenerateIV()
        {
            // IV not needed in Counter Mode
        }

        public void Encrypt(byte[] inputBuffer, int inputOffset, int inputCount, byte[] outputBuffer, int outputOffset)
        {
            if(this.ict == null)
            {
                this.ict = CreateEncryptor(this.aesKey, null);
            }
            this.ict.TransformBlock(inputBuffer, inputOffset, inputCount, outputBuffer, outputOffset);
        }

        public void Decrypt(byte[] inputBuffer, int inputOffset, int inputCount, byte[] outputBuffer, int outputOffset)
        {
            if(this.ict == null)
            {
                this.ict = CreateDecryptor(this.aesKey, null);
            }
            this.ict.TransformBlock(inputBuffer, inputOffset, inputCount, outputBuffer, outputOffset);
        }
    }
    
    public class CounterModeCryptoTransform : ICryptoTransform
    {
        private readonly byte[] _counter;
        private readonly ICryptoTransform _counterEncryptor;
        private readonly Queue<byte> _xorMask = new Queue<byte>();
        private readonly SymmetricAlgorithm _symmetricAlgorithm;
    
        public CounterModeCryptoTransform(SymmetricAlgorithm symmetricAlgorithm, byte[] key, byte[] counter)
        {
            if (symmetricAlgorithm == null) throw new ArgumentNullException("symmetricAlgorithm");
            if (key == null) throw new ArgumentNullException("key");
            if (counter == null) throw new ArgumentNullException("counter");
            if (counter.Length != symmetricAlgorithm.BlockSize / 8)
                throw new ArgumentException(String.Format("Counter size must be same as block size (actual: {0}, expected: {1})",
                    counter.Length, symmetricAlgorithm.BlockSize / 8));
    
            _symmetricAlgorithm = symmetricAlgorithm;
            _counter = counter;
    
            var zeroIv = new byte[_symmetricAlgorithm.BlockSize / 8];
            _counterEncryptor = symmetricAlgorithm.CreateEncryptor(key, zeroIv);
        }
    
        public byte[] TransformFinalBlock(byte[] inputBuffer, int inputOffset, int inputCount)
        {
            var output = new byte[inputCount];
            TransformBlock(inputBuffer, inputOffset, inputCount, output, 0);
            return output;
        }
    
        public int TransformBlock(byte[] inputBuffer, int inputOffset, int inputCount, byte[] outputBuffer, int outputOffset)
        {
            for (var i = 0; i < inputCount; i++)
            {
                if (NeedMoreXorMaskBytes()) EncryptCounterThenIncrement();
    
                var mask = _xorMask.Dequeue();
                outputBuffer[outputOffset + i] = (byte)(inputBuffer[inputOffset + i] ^ mask);
            }
    
            return inputCount;
        }
    
        private bool NeedMoreXorMaskBytes()
        {
            return _xorMask.Count == 0;
        }
    
        private void EncryptCounterThenIncrement()
        {
            var counterModeBlock = new byte[_symmetricAlgorithm.BlockSize / 8];
    
            _counterEncryptor.TransformBlock(_counter, 0, _counter.Length, counterModeBlock, 0);
            IncrementCounter();
    
            foreach (var b in counterModeBlock)
            {
                _xorMask.Enqueue(b);
            }
        }
    
        private void IncrementCounter()
        {
            for (var i = _counter.Length - 1; i >= 0; i--)
            {
                if (++_counter[i] != 0)
                    break;
            }
        }
    
        public int InputBlockSize { get { return _symmetricAlgorithm.BlockSize / 8; } }
        public int OutputBlockSize { get { return _symmetricAlgorithm.BlockSize / 8; } }
        public bool CanTransformMultipleBlocks { get { return true; } }
        public bool CanReuseTransform { get { return false; } }
    
        public void Dispose()
        {
        }
    }
}