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CRC1.C
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1985-07-26
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6KB
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133 lines
/******************************************************************************
* *
* Cyclic Redundancy Check (CRC) functions *
* *
******************************************************************************/
/*
* crc_clear:
* This function clears the CRC to zero. It should be called prior to
* the start of the processing of a block for both received messages,
* and messages to be transmitted.
*
* Calling sequence:
*
* short crc;
* crc = crc_clear();
*/
short crc_clear()
{
return(0);
}
/*
* crc_update:
* this function must be called once for each character which is
* to be included in the CRC for messages to be transmitted.
* This function is called once for each character which is included
* in the CRC of a received message, AND once for each of the two CRC
* characters at the end of the received message. If the resulting
* CRC is zero, then the message has been correctly received.
*
* Calling sequence:
*
* crc = crc_update(crc,next_char);
*/
short crc_update(crc,crc_char)
short crc;
char crc_char;
{
long x;
short i;
/* "x" will contain the character to be processed in bits 0-7 and the CRC */
/* in bits 8-23. Bit 24 will be used to test for overflow, and then cleared */
/* to prevent the sign bit of "x" from being set to 1. Bits 25-31 are not */
/* used. ("x" is treated as though it is a 32 bit register). */
x = ((long)crc << 8) + crc_char; /* Get the CRC and the character */
/* Repeat the following loop 8 times (for the 8 bits of the character). */
for(i = 0;i < 8;i++)
{
/* Shift the high-order bit of the character into the low-order bit of the */
/* CRC, and shift the high-order bit of the CRC into bit 24. */
x = x << 1; /* Shift "x" left one bit */
/* Test to see if the old high-order bit of the CRC was a 1. */
if(x & 0x01000000) /* Test bit 24 of "x" */
/* If the old high-order bit of the CRC was a 1, exclusive-or it with a one */
/* to set it to 0, and exclusive-or the CRC with hex 1021 to produce the */
/* CCITT-recommended CRC generator of: X**16 + X**12 + X**5 + 1. To produce */
/* the CRC generator of: X**16 + X**15 + X**2 + 1, change the constant from */
/* 0x01102100 to 0x01800500. This will exclusive-or the CRC with hex 8005 */
/* and produce the same CRC that IBM uses for their synchronous transmission */
/* protocols. */
x = x ^ 0x01102100; /* Exclusive-or "x" with a...*/
/* ...constant of hex 01102100 */
/* And repeat 8 times. */
} /* End of "for" loop */
/* Return the CRC as the 16 low-order bits of this function's value. */
return(((x & 0x00ffff00) >> 8)); /* AND off the unneeded bits and... */
/* ...shift the result 8 bits to the right */
}
/*
* crc_finish:
* This function must be called once after all the characters in a block
* have been processed for a message which is to be TRANSMITTED. It
* returns the calculated CRC bytes, which should be transmitted as the
* two characters following the block. The first of these 2 bytes
* must be taken from the high-order byte of the CRC, and the second
* must be taken from the low-order byte of the CRC. This routine is NOT
* called for a message which has been RECEIVED.
*
* Calling sequence:
*
* crc = crc_finish(crc);
*/
short crc_finish(crc)
short crc;
{
/* Call crc_update twice, passing it a character of hex 00 each time, to */
/* flush out the last 16 bits from the CRC calculation, and return the */
/* result as the value of this function. */
return(crc_update(crc_update(crc,'\0'),'\0'));
}
/*
* This is a sample of the use of the CRC functions, which calculates the
* CRC for a 1-character message block, and then passes the resulting CRC back
* into the CRC functions to see if the "received" 1-character message and CRC
* are correct.
*/
main()
{
short crc; /* The calculated CRC */
char crc_char; /* The 1-character message */
char x, y; /* 2 places to hold the 2 "received" CRC bytes */
crc_char = 'A'; /* Define the 1-character message */
crc = crc_clear(); /* Reset the CRC to "transmit" a new message */
crc = crc_update(crc,crc_char); /* Update the CRC for the first... */
/* ...(and only) character of the message */
crc = crc_finish(crc); /* Finish the transmission calculation */
x = (char)((crc & 0xff00) >> 8); /* Extract the high-order CRC byte */
y = (char)(crc & 0x00ff); /* And extract the low-order byte */
printf("%04x\n",crc); /* Print the results */
crc = crc_clear(); /* Prepare to "receive" a message */
crc = crc_update(crc,crc_char); /* Update the CRC for the first... */
/* ...(and only) character of the message */
crc = crc_update(crc,x); /* Pass both bytes of the "received"... */
crc = crc_update(crc,y); /* ...CRC through crc_update, too */
printf("%04x\n",crc); /* If the result was 0, then the message... */
/* ...was received without error */
}