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In my code i need to calculate CRC-16 16 bit values for the HEX values stored as NSdata, below is the code snippet to calculate CRC-16 in c.

   void UpdateCRC(unsigned short int *CRC, unsigned char x)
{
  // This function uses the initial CRC value passed in the first
  // argument, then modifies it using the single character passed
  // as the second argument, according to a CRC-16 polynomial
  // Arguments:
  //   CRC -- pointer to starting CRC value
  //   x   -- new character to be processed
  // Returns:
  // The function does not return any values, but updates the variable
  // pointed to by CRC
static int const Poly = 0xA001;
int i;
bool flag;
*CRC ^= x;
for (i=0; i<8; i++)
// CRC-16 polynomial
{
  flag = ((*CRC & 1) == 1);
  *CRC = (unsigned short int)(*CRC >> 1);
  if (flag)
      *CRC ^= Poly;
  }
return; 
}

NSdata which holds the hex values like below

const char connectByteArray[] = {
    0x21,0x01,0x90,0x80,0x5F
};
NSData* data = [NSData dataWithBytes: connectByteArray length:sizeof(connectByteArray)];
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First thing you need to do is store your data in the appropriate data type, which isn't NSString. Convert the data to NSData and try this code to get the CRC16 value: svn.mulle-kybernetik.com/edframeworks/edcommon/trunk/… –  trojanfoe Jul 14 '12 at 10:22
    
Thanks for your answer i tried converting it in appropriate data types but i was not getting correct response, i can get mod bus and modem CCITT CRC but not CRC 16 with 0xA001 polynomial...any example or code snippets will help me a lot?? –  Satheesh Jul 17 '12 at 5:24

1 Answer 1

up vote 1 down vote accepted

I solved using the following C program, I hope it may help someone ..cheers!!!

#include <string.h>
#include <stdio.h>


const int order = 16;
const unsigned long polynom = 0x8005;
const int direct = 1;
const unsigned long crcinit = 0;
const unsigned long crcxor = 0;
const int refin = 1;
const int refout = 1;

// 'order' [1..32] is the CRC polynom order, counted without the leading '1' bit
// 'polynom' is the CRC polynom without leading '1' bit
// 'direct' [0,1] specifies the kind of algorithm: 1=direct, no augmented zero bits
// 'crcinit' is the initial CRC value belonging to that algorithm
// 'crcxor' is the final XOR value
// 'refin' [0,1] specifies if a data byte is reflected before processing (UART) or not
// 'refout' [0,1] specifies if the CRC will be reflected before XOR


// Data character string

const unsigned char string[] = {0x05,0x0f,0x01,0x00,0x00,0x99};

// internal global values:

unsigned long crcmask;
unsigned long crchighbit;
unsigned long crcinit_direct;
unsigned long crcinit_nondirect;
unsigned long crctab[256];


// subroutines

unsigned long reflect (unsigned long crc, int bitnum) {

    // reflects the lower 'bitnum' bits of 'crc'

    unsigned long i, j=1, crcout=0;

    for (i=(unsigned long)1<<(bitnum-1); i; i>>=1) {
        if (crc & i) crcout|=j;
        j<<= 1;
    }
    return (crcout);
}



void generate_crc_table() {

    // make CRC lookup table used by table algorithms

    int i, j;
    unsigned long bit, crc;

    for (i=0; i<256; i++) {

        crc=(unsigned long)i;
        if (refin) crc=reflect(crc, 8);
        crc<<= order-8;

        for (j=0; j<8; j++) {

            bit = crc & crchighbit;
            crc<<= 1;
            if (bit) crc^= polynom;
        }           

        if (refin) crc = reflect(crc, order);
        crc&= crcmask;
        crctab[i]= crc;
    }
}



unsigned long crctablefast (unsigned char* p, unsigned long len) {

    // fast lookup table algorithm without augmented zero bytes, e.g. used in pkzip.
    // only usable with polynom orders of 8, 16, 24 or 32.

    unsigned long crc = crcinit_direct;

    if (refin) crc = reflect(crc, order);

    if (!refin) while (len--) crc = (crc << 8) ^ crctab[ ((crc >> (order-8)) & 0xff) ^ *p++];
    else while (len--) crc = (crc >> 8) ^ crctab[ (crc & 0xff) ^ *p++];

    if (refout^refin) crc = reflect(crc, order);
    crc^= crcxor;
    crc&= crcmask;

    return(crc);
}



unsigned long crctable (unsigned char* p, unsigned long len) {

    // normal lookup table algorithm with augmented zero bytes.
    // only usable with polynom orders of 8, 16, 24 or 32.

    unsigned long crc = crcinit_nondirect;

    if (refin) crc = reflect(crc, order);

    if (!refin) while (len--) crc = ((crc << 8) | *p++) ^ crctab[ (crc >> (order-8))  & 0xff];
    else while (len--) crc = ((crc >> 8) | (*p++ << (order-8))) ^ crctab[ crc & 0xff];

    if (!refin) while (++len < order/8) crc = (crc << 8) ^ crctab[ (crc >> (order-8))  & 0xff];
    else while (++len < order/8) crc = (crc >> 8) ^ crctab[crc & 0xff];

    if (refout^refin) crc = reflect(crc, order);
    crc^= crcxor;
    crc&= crcmask;

    return(crc);
}



unsigned long crcbitbybit(unsigned char* p, unsigned long len) {

    // bit by bit algorithm with augmented zero bytes.
    // does not use lookup table, suited for polynom orders between 1...32.

    unsigned long i, j, c, bit;
    unsigned long crc = crcinit_nondirect;

    for (i=0; i<len; i++) {

        c = (unsigned long)*p++;
        if (refin) c = reflect(c, 8);

        for (j=0x80; j; j>>=1) {

            bit = crc & crchighbit;
            crc<<= 1;
            if (c & j) crc|= 1;
            if (bit) crc^= polynom;
        }
    }   

    for (i=0; i<order; i++) {

        bit = crc & crchighbit;
        crc<<= 1;
        if (bit) crc^= polynom;
    }

    if (refout) crc=reflect(crc, order);
    crc^= crcxor;
    crc&= crcmask;

    return(crc);
}



unsigned long crcbitbybitfast(unsigned char* p, unsigned long len) {

    // fast bit by bit algorithm without augmented zero bytes.
    // does not use lookup table, suited for polynom orders between 1...32.

    unsigned long i, j, c, bit;
    unsigned long crc = crcinit_direct;

    for (i=0; i<len; i++) {

        c = (unsigned long)*p++;
        if (refin) c = reflect(c, 8);

        for (j=0x80; j; j>>=1) {

            bit = crc & crchighbit;
            crc<<= 1;
            if (c & j) bit^= crchighbit;
            if (bit) crc^= polynom;
        }
    }   

    if (refout) crc=reflect(crc, order);
    crc^= crcxor;
    crc&= crcmask;

    return(crc);
}



int main() {

    // test program for checking four different CRC computing types that are:
    // crcbit(), crcbitfast(), crctable() and crctablefast(), see above.
    // parameters are at the top of this program.
    // Result will be printed on the console.

    int i;
    unsigned long bit, crc;


    // at first, compute constant bit masks for whole CRC and CRC high bit

    crcmask = ((((unsigned long)1<<(order-1))-1)<<1)|1;
    crchighbit = (unsigned long)1<<(order-1);


    // check parameters

    if (order < 1 || order > 32) {
        printf("ERROR, invalid order, it must be between 1..32.\n");
        return(0);
    }

    if (polynom != (polynom & crcmask)) {
        printf("ERROR, invalid polynom.\n");
        return(0);
    }

    if (crcinit != (crcinit & crcmask)) {
        printf("ERROR, invalid crcinit.\n");
        return(0);
    }

    if (crcxor != (crcxor & crcmask)) {
        printf("ERROR, invalid crcxor.\n");
        return(0);
    }


    // generate lookup table

    generate_crc_table();


    // compute missing initial CRC value

    if (!direct) {

        crcinit_nondirect = crcinit;
        crc = crcinit;
        for (i=0; i<order; i++) {

            bit = crc & crchighbit;
            crc<<= 1;
            if (bit) crc^= polynom;
        }
        crc&= crcmask;
        crcinit_direct = crc;
    }

    else {

        crcinit_direct = crcinit;
        crc = crcinit;
        for (i=0; i<order; i++) {

            bit = crc & 1;
            if (bit) crc^= polynom;
            crc >>= 1;
            if (bit) crc|= crchighbit;
        }   
        crcinit_nondirect = crc;
    }


    // call CRC algorithms using the CRC parameters above and print result to the console

    printf("\n");
    printf("CRC tester v1.1 written on 13/01/2003 by Sven Reifegerste (zorc/reflex)\n");
    printf("-----------------------------------------------------------------------\n");
    printf("\n");
    printf("Parameters:\n");
    printf("\n");
    printf(" polynom             :  0x%x\n", polynom);
    printf(" order               :  %d\n", order);
    printf(" crcinit             :  0x%x direct, 0x%x nondirect\n", crcinit_direct, crcinit_nondirect);
    printf(" crcxor              :  0x%x\n", crcxor);
    printf(" refin               :  %d\n", refin);
    printf(" refout              :  %d\n", refout);
    printf("\n");
    printf(" data string         :  '%s' (%d bytes)\n", string, strlen(string));
    printf("\n");
    printf("Results:\n");
    printf("\n");

    printf(" crc bit by bit      :  0x%x\n", crcbitbybit((unsigned char *)string, 6));
    printf(" crc bit by bit fast :  0x%x\n", crcbitbybitfast((unsigned char *)string, strlen(string)));
    if (!(order&7)) printf(" crc table           :  0x%x\n", crctable((unsigned char *)string, strlen(string)));
    if (!(order&7)) printf(" crc table fast      :  0x%x\n", crctablefast((unsigned char *)string, strlen(string)));

    return(0);
}
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