首页 > 学术百科

循环冗余校验（CRC）计算的C++代码

上⾯的代码可以⽤ git 下载。

这⾥把代码也贴了⼀份，⽅便不会使⽤ git 的同学下载。

#ifndef CRCCOMPUTE_H

#define CRCCOMPUTE_H

#include <stdint.h>

template <typename TYPE> class CRC

{

public:

CRC();

CRC(TYPE polynomial, TYPE init_remainder, TYPE final_xor_value);

void build(TYPE polynomial, TYPE init_remainder, TYPE final_xor_value);

/**

* Compute the CRC checksum of a binary message block.

* @para message, ⽤来计算的数据

* @para nBytes, 数据的长度

TYPE crcCompute(char * message, unsigned int nBytes);

TYPE crcCompute(char * message, unsigned int nBytes, bool reinit);

protected:

TYPE m_polynomial;

TYPE m_initial_remainder;

TYPE m_final_xor_value;

TYPE m_remainder;

emme

TYPE crcTable[256];

int m_width;

int m_topbit;

/**

* Initialize the CRC lookup table.

* This table is used by crcCompute() to make CRC computation faster.

void crcInit(void);

};

template <typename TYPE>

CRC<TYPE>::CRC()

{

m_width = 8 * sizeof(TYPE);

m_topbit = 1 << (m_width - 1);

}

template <typename TYPE>

CRC<TYPE>::CRC(TYPE polynomial, TYPE init_remainder, TYPE final_xor_value)

{

m_width = 8 * sizeof(TYPE);

m_topbit = 1 << (m_width - 1);

m_polynomial = polynomial;

m_initial_remainder = init_remainder;

m_final_xor_value = final_xor_value;

crcInit();

}

template <typename TYPE>

void CRC<TYPE>::build(TYPE polynomial, TYPE init_remainder, TYPE final_xor_value)

{

m_polynomial = polynomial;

口袋西游蓝龙m_initial_remainder = init_remainder;

m_final_xor_value = final_xor_value;

crcInit();

}

template <typename TYPE>

TYPE CRC<TYPE>::crcCompute(char * message, unsigned int nBytes)

{

unsigned int offset;

unsigned char byte;

TYPE remainder = m_initial_remainder;

/* Divide the message by the polynomial, a byte at a time. */

for( offset = 0; offset < nBytes; offset++)

{

byte = (remainder >> (m_width - 8)) ^ message[offset];

remainder = crcTable[byte] ^ (remainder << 8);

}

/* The final remainder is the CRC result. */

return (remainder ^ m_final_xor_value);

}

template <typename TYPE>

TYPE CRC<TYPE>::crcCompute(char * message, unsigned int nBytes, bool reinit)

{

unsigned int offset;

unsigned char byte;

if(reinit)

{

m_remainder = m_initial_remainder;

}

/* Divide the message by the polynomial, a byte at a time. */

for( offset = 0; offset < nBytes; offset++)

{

byte = (m_remainder >> (m_width - 8)) ^ message[offset];

m_remainder = crcTable[byte] ^ (m_remainder << 8);

}

/* The final remainder is the CRC result. */

return (m_remainder ^ m_final_xor_value);

}

class CRC8 : public CRC<uint8_t>

{

public:

enum CRC8_TYPE {eCRC8, eAUTOSAR, eCDMA2000, eDARC, eDVB_S2, eEBU, eAES, eGSM_A, eGSM_B, eI_CODE, eITU, eLTE, eMAXIM, eOPENSAFETY, eROHC, eSAE_J1850, eWCDMA};

CRC8(CRC8_TYPE type);

CRC8(uint8_t polynomial, uint8_t init_remainder, uint8_t final_xor_value)

:CRC<uint8_t>(polynomial, init_remainder, final_xor_value){}

};

class CRC16 : public CRC<uint16_t>

{

public:

enum CRC16_TYPE {eCCITT, eKERMIT, eCCITT_FALSE, eIBM, eARC, eLHA, eSPI_FUJITSU,

eBUYPASS, eVERIFONE, eUMTS, eCDMA2000, eCMS, eDDS_110, eDECT_R,

eDECT_X, eDNP, eEN_13757, eGENIBUS, eEPC, eDARC, eI_CODE, eGSM,

eLJ1200, eMAXIM, eMCRF4XX, eOPENSAFETY_A, eOPENSAFETY_B, ePROFIBUS,

eIEC_61158_2, eRIELLO, eT10_DIF, eTELEDISK, eTMS37157, eUSB,

eCRC_A, eMODBUS, eX_25, eCRC_B, eISO_HDLC, eIBM_SDLC, eXMODEM,

eZMODEM, eACORN, eLTE};

CRC16(CRC16_TYPE type);

CRC16(uint16_t polynomial, uint16_t init_remainder, uint16_t final_xor_value)

:CRC<uint16_t>(polynomial, init_remainder, final_xor_value){}

};

class CRC32 : public CRC<uint32_t>

{

public:

enum CRC32_TYPE {eADCCP, ePKZIP, eCRC32, eAAL5, eDECT_B, eB_CRC32, eBZIP2, eAUTOSAR, eCRC32C, eCRC32D, eMPEG2, ePOSIX, eCKSUM, eCRC32Q, eJAMCRC, eXFER};

CRC32(CRC32_TYPE type);

};

#endif // CRCCOMPUTE_H

#include "crcCompute.h"

template <typename TYPE>

void CRC<TYPE>::crcInit(void)

{

TYPE remainder;

TYPE dividend;

int bit;

/* Perform binary long division, a bit at a time. */

for(dividend = 0; dividend < 256; dividend++)

{

* Initialize the remainder. */

remainder = dividend << (m_width - 8);

/* Shift and XOR with the polynomial. */

for(bit = 0; bit < 8; bit++)

{

/* Try to divide the current data bit. */

if(remainder & m_topbit)

{

remainder = (remainder << 1) ^ m_polynomial;

}

else

{

remainder = remainder << 1;

}

/* Save the result in the table. */

crcTable[dividend] = remainder;

}

CRC8::CRC8(CRC8_TYPE type)

{

switch (type)

{

case eCRC8:

m_polynomial = 0x07; //reveng.sourceforge/crc-catalogue/all.htm

m_initial_remainder = 0x00;

m_final_xor_value = 0x00;

break;CUTTING POINT

case eAUTOSAR:

m_polynomial = 0x2f;

m_initial_remainder = 0xff;

m_final_xor_value = 0xff;

break;

case eCDMA2000:

m_polynomial = 0x9b;

m_initial_remainder = 0xFF;

m_final_xor_value = 0x00;

break;

case eDARC:

m_polynomial = 0x39;

m_initial_remainder = 0x00;

m_final_xor_value = 0x00;

break;

case eDVB_S2:

m_polynomial = 0xd5;

m_initial_remainder = 0x00; m_final_xor_value = 0x00;

break;

case eEBU:

case eAES:

m_polynomial = 0x1d;

m_initial_remainder = 0xFF; m_final_xor_value = 0x00;

break;

case eGSM_A:

m_polynomial = 0x1d;

m_initial_remainder = 0x00; m_final_xor_value = 0x00;

break;

case eGSM_B:

m_polynomial = 0x49;

m_initial_remainder = 0x00; m_final_xor_value = 0xFF;

break;

case eI_CODE:

m_polynomial = 0x1d;

m_initial_remainder = 0xFD; m_final_xor_value = 0x00;

break;

case eITU:

m_polynomial = 0x07;

m_initial_remainder = 0x00; m_final_xor_value = 0x55;

break;

case eLTE:

m_polynomial = 0x9b;

m_initial_remainder = 0x00; m_final_xor_value = 0x00;

break;

case eMAXIM:

m_polynomial = 0x31;

m_initial_remainder = 0x00; m_final_xor_value = 0x00;

break;

case eOPENSAFETY:

m_polynomial = 0x2f;

m_initial_remainder = 0x00; m_final_xor_value = 0x00;

break;

case eROHC:

m_polynomial = 0x07;

m_initial_remainder = 0xff; m_final_xor_value = 0x00;

break;

case eSAE_J1850:

m_polynomial = 0x1d;

m_initial_remainder = 0xff; m_final_xor_value = 0xff;

break;

case eWCDMA:

m_polynomial = 0x9b;台海局势

m_initial_remainder = 0x00; m_final_xor_value = 0x00;

break;

default:

m_polynomial = 0x07;

m_initial_remainder = 0x00; m_final_xor_value = 0x00;

break;

}

crcInit();

}

CRC16::CRC16(CRC16_TYPE type) {

switch (type)

{

case eCCITT_FALSE:

case eMCRF4XX:

风力摆m_polynomial = 0x1021;

m_initial_remainder = 0xFFFF; m_final_xor_value = 0x0000;

break;

case eIBM:

case eARC:

case eLHA:

case eBUYPASS:

case eVERIFONE:

case eUMTS:

m_polynomial = 0x8005;

m_initial_remainder = 0x0000; m_final_xor_value = 0x0000;

break;

case eSPI_FUJITSU:

m_polynomial = 0x1021;

m_initial_remainder = 0x1d0f; m_final_xor_value = 0x0000;

break;

北京农学院信息平台

case eCCITT:

case eKERMIT:

case eXMODEM:

case eZMODEM:

case eACORN:

case eLTE:

m_polynomial = 0x1021;

m_initial_remainder = 0x0000; m_final_xor_value = 0x0000;

break;

case eCDMA2000:

m_polynomial = 0xc867;

m_initial_remainder = 0xffff;

m_final_xor_value = 0x0000;

break;

case eCMS:

case eMODBUS:

m_polynomial = 0x8005;

m_initial_remainder = 0xffff;

m_final_xor_value = 0x0000;

break;

case eDDS_110:

m_polynomial = 0x8005;

m_initial_remainder = 0x800d; m_final_xor_value = 0x0000;

break;

case eDECT_R:

m_polynomial = 0x0589;

m_initial_remainder = 0x0000; m_final_xor_value = 0x0001;

break;

case eDECT_X:

m_polynomial = 0x0589;

m_initial_remainder = 0x0000; m_final_xor_value = 0x0000;

本文发布于:2024-09-22 09:28:13，感谢您对本站的认可！

本文链接：https://www.17tex.com/xueshu/173200.html

上一篇：【快递100】物流公司对应编码分享（截止到2021-09-19最新数据）

下一篇：火电厂DCS系统网络安全防护

标签：计算校验数据平台同学局势北京下载

留言与评论（共有 0 条评论）