adminTk
/
FCCLite


			
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							using Edge.Core.Parser.BinaryParser;
using Edge.Core.Parser.BinaryParser.Util;
using Edge.Core.Parser.BinaryParser.MessageEntity;
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using AutoMapper.Execution;


namespace HengshanPaymentTerminal
{
    public class Parser : ParserBase
    {
        public Parser() : base(new MessageTemplateLookup())
        {
            IgnoreExtraTailBytesInDeserialize = true;
        }

        public override byte[] Serialize(MessageTemplateBase message)
        {
            var bytesWithoutCrc = base.Serialize(message).ToList();
            var validBytes = bytesWithoutCrc.Skip(1);
            string v = BitConverter.ToString(validBytes.ToArray());
            var crcBytes = HengshanCRC16.ComputeCrcBytes(validBytes.ToArray());
            List<byte> target = new List<byte>();
            target.AddRange(bytesWithoutCrc);
            target.Add(0xFF);
            target.AddRange(crcBytes.ToList());
            return target.ToArray();
        }

        public byte[] SerializeInnerElement(MessageTemplateBase message)
        {
            return base.Serialize(message);
        }

        private void ProcessXRLInMsgBody(ref List<byte> bytesWithXRL)
        {
            var bytesUsedToComputeXRL = bytesWithXRL.GetRange(2, bytesWithXRL.Count - 3).ToArray();
            byte XRL = 0;
            foreach (var b in bytesUsedToComputeXRL)
            {
                XRL = (byte)(XRL ^ b);
            }
            if (XRL == 0xFF)
                XRL = 0xEE;
            bytesWithXRL[bytesWithXRL.Count - 1] = XRL;
        }

        /// <summary>
        /// 转义字符：0FAH；在数据里每两个 0FAH 替换为一个 0FAH；在目标地址、源地址、帧号/控制、
        ///有效数据长度中不能出现 0FAH，转义字符不计入 CRC 中，CRC 中采用转义。 
        /// </summary>
        /// <param name="original"></param>
        /// <returns></returns>
        public static byte[] ProcessDoubleHexFAInMsgBody(List<byte> original)
        {
            //====record 0xFA position============
            var indexs = new List<int>();
            for (int i = 6; i < original.Count; i++)
            {
                if (original[i] == 0xFA)
                {
                    indexs.Add(i);
                }
            }
            //=====end=====

            if (!indexs.Any()) return original.ToArray();
            var originalLen = original.Skip(4).Take(2).GetBCD();
            var newLen = (originalLen).GetBCDBytes(2);
            original[4] = newLen[0];
            original[5] = newLen[1];
            byte[] _ = new byte[original.Count];
            original.CopyTo(_);
            var newList = _.ToList();
            for (int i = 0; i < indexs.Count; i++)
            {
                newList.Insert(indexs[i] + i, 0xFA);
            }

            return newList.ToArray();
        }

        public static byte[] ProcessDoubleHexFAInCRC(byte[] originalCrc)
        {
            var result = new List<byte>();
            result.Add(originalCrc[0]);
            if (originalCrc[0] == 0xFA)
            {
                result.Add(0xFA);
            }
            result.Add(originalCrc[1]);
            if (originalCrc[1] == 0xFA)
            {
                result.Add(0xFA);
            }

            return result.ToArray();
        }
    }

    public class HengshanCRC16
    {
        private static ushort[] CrcTable = {
        0X0000, 0XC0C1, 0XC181, 0X0140, 0XC301, 0X03C0, 0X0280, 0XC241,
        0XC601, 0X06C0, 0X0780, 0XC741, 0X0500, 0XC5C1, 0XC481, 0X0440,
        0XCC01, 0X0CC0, 0X0D80, 0XCD41, 0X0F00, 0XCFC1, 0XCE81, 0X0E40,
        0X0A00, 0XCAC1, 0XCB81, 0X0B40, 0XC901, 0X09C0, 0X0880, 0XC841,
        0XD801, 0X18C0, 0X1980, 0XD941, 0X1B00, 0XDBC1, 0XDA81, 0X1A40,
        0X1E00, 0XDEC1, 0XDF81, 0X1F40, 0XDD01, 0X1DC0, 0X1C80, 0XDC41,
        0X1400, 0XD4C1, 0XD581, 0X1540, 0XD701, 0X17C0, 0X1680, 0XD641,
        0XD201, 0X12C0, 0X1380, 0XD341, 0X1100, 0XD1C1, 0XD081, 0X1040,
        0XF001, 0X30C0, 0X3180, 0XF141, 0X3300, 0XF3C1, 0XF281, 0X3240,
        0X3600, 0XF6C1, 0XF781, 0X3740, 0XF501, 0X35C0, 0X3480, 0XF441,
        0X3C00, 0XFCC1, 0XFD81, 0X3D40, 0XFF01, 0X3FC0, 0X3E80, 0XFE41,
        0XFA01, 0X3AC0, 0X3B80, 0XFB41, 0X3900, 0XF9C1, 0XF881, 0X3840,
        0X2800, 0XE8C1, 0XE981, 0X2940, 0XEB01, 0X2BC0, 0X2A80, 0XEA41,
        0XEE01, 0X2EC0, 0X2F80, 0XEF41, 0X2D00, 0XEDC1, 0XEC81, 0X2C40,
        0XE401, 0X24C0, 0X2580, 0XE541, 0X2700, 0XE7C1, 0XE681, 0X2640,
        0X2200, 0XE2C1, 0XE381, 0X2340, 0XE101, 0X21C0, 0X2080, 0XE041,
        0XA001, 0X60C0, 0X6180, 0XA141, 0X6300, 0XA3C1, 0XA281, 0X6240,
        0X6600, 0XA6C1, 0XA781, 0X6740, 0XA501, 0X65C0, 0X6480, 0XA441,
        0X6C00, 0XACC1, 0XAD81, 0X6D40, 0XAF01, 0X6FC0, 0X6E80, 0XAE41,
        0XAA01, 0X6AC0, 0X6B80, 0XAB41, 0X6900, 0XA9C1, 0XA881, 0X6840,
        0X7800, 0XB8C1, 0XB981, 0X7940, 0XBB01, 0X7BC0, 0X7A80, 0XBA41,
        0XBE01, 0X7EC0, 0X7F80, 0XBF41, 0X7D00, 0XBDC1, 0XBC81, 0X7C40,
        0XB401, 0X74C0, 0X7580, 0XB541, 0X7700, 0XB7C1, 0XB681, 0X7640,
        0X7200, 0XB2C1, 0XB381, 0X7340, 0XB101, 0X71C0, 0X7080, 0XB041,
        0X5000, 0X90C1, 0X9181, 0X5140, 0X9301, 0X53C0, 0X5280, 0X9241,
        0X9601, 0X56C0, 0X5780, 0X9741, 0X5500, 0X95C1, 0X9481, 0X5440,
        0X9C01, 0X5CC0, 0X5D80, 0X9D41, 0X5F00, 0X9FC1, 0X9E81, 0X5E40,
        0X5A00, 0X9AC1, 0X9B81, 0X5B40, 0X9901, 0X59C0, 0X5880, 0X9841,
        0X8801, 0X48C0, 0X4980, 0X8941, 0X4B00, 0X8BC1, 0X8A81, 0X4A40,
        0X4E00, 0X8EC1, 0X8F81, 0X4F40, 0X8D01, 0X4DC0, 0X4C80, 0X8C41,
        0X4400, 0X84C1, 0X8581, 0X4540, 0X8701, 0X47C0, 0X4680, 0X8641,
        0X8201, 0X42C0, 0X4380, 0X8341, 0X4100, 0X81C1, 0X8081, 0X4040
        };

        // CRC-16/CCITT-FALSE多项式  
        private const ushort Polynomial = 0x1021;
        // 初始值  
        private const ushort InitialValue = 0xFFFF;

        public static ushort ComputeCrc(byte[] data)
        {
            ushort crc = 0x0001;
            ushort magic = 0x7F7F;

            foreach (byte datum in data)
            {
                crc = (ushort)(CrcTable[(crc ^ datum) & 0xFF] ^ (crc >> 8));
            }

            return (ushort)(crc & magic); //I don't know why Hengshan guys do this.
        }

        public static byte[] ComputeCrcBytes(byte[] data)
        {
            ushort result = ComputeCrc(data);
            return BitConverter.GetBytes(result).Reverse().ToArray();
        }

        // 计算CRC-16/CCITT-FALSE校验值  
        public static ushort ComputeChecksum(byte[] data)
        {
            ushort crc = InitialValue;

            foreach (byte b in data)
            {
                crc ^= (ushort)((b << 8) & 0xFF00); // 将字节数据左移8位并与0xFF00进行与操作  

                for (int i = 0; i < 8; i++)
                {
                    if ((crc & 0x8000) != 0) // 检查最高位是否为1  
                    {
                        crc = (ushort)((crc << 1) ^ Polynomial); // 左移1位并与多项式进行异或  
                    }
                    else
                    {
                        crc <<= 1; // 仅左移1位  
                    }
                }
            }

            return crc;
        }

        // 计算CRC-16/CCITT-FALSE校验值,返回数组
        public static byte[] ComputeChecksumToBytes(byte[] data)
        {
            byte[] result = new byte[2];
            ushort value = ComputeChecksum(data);
            result[0] = (byte)((value >> 8) & 0xFF); // 高8位  
            result[1] = (byte)(value & 0xFF); // 低8位  
            return result;
        }
    }
}