# Compare part of sha1 digest with hex string in C

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I have a string for which I compute a sha1 digest like this:

SHA1(sn, snLength, sha1Bin);

If I'm correct this results in a 20 byte char (with binary data). I want to compare the last 3 bytes of this char with another char. This char contains the string "6451E6". 64, 51 & E6 are hex values. How do I convert "6451E6" so that I can compare it via:

if(memcmp(&sha1Bin[(20 - 3)], theVarWithHexValues, 3) == 0)

{

}

I have this function:

/*
* convert hexadecimal ssid string to binary
* return 0 on error or binary length of string
*
*/
u32 str2ssid(u8 ssid[],u8 *str) {
u8 *p,*q = ssid;
u32 len = strlen(str);

if( (len % 2) || (len > MAX_SSID_OCTETS) )
return(0);

for(p = str;(*p = toupper(*p)) && (strchr(hexTable,*p)) != 0;) {

if(--len % 2) {
*q = ((u8*)strchr(hexTable,*p++) - hexTable);
*q <<= 4;
} else {
*q++ |= ((u8*)strchr(hexTable,*p++) - hexTable);
}
}
return( (len) ? 0 : (p - str) / 2);
}

which does the same but I'm new to C and don't understand it :-(

-
 It's char *, not char. – Marcelo Cantos Dec 7 '10 at 21:21

Fix for AShelly's code:

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

int hashequal(const unsigned char *sha1Bin, const char *hexstr) {
unsigned long hexvar = strtoul(hexstr, NULL, 16);
unsigned char theVarWithHexValues[] = { hexvar >> 16, hexvar >> 8, hexvar };
return memcmp(sha1Bin + 17, theVarWithHexValues, 3) == 0;
}

int main() {
unsigned char sha1Bin[20];
sha1Bin[17] = 0x64;
sha1Bin[18] = 0x51;
sha1Bin[19] = 0xE6;
printf("%d\n", hashequal(sha1Bin, "6451E6"));
printf("%d\n", hashequal(sha1Bin, "6451E7"));
}
-
This works like a charm! Can you explain to me what happens here: unsigned char theVarWithHexValues[] = { hexvar >> 16, hexvar >> 8, hexvar }; – tersmitten Dec 8 '10 at 11:56
@tersmitten: the {} introduce an array initializer - each comma-separated term in the list becomes one unsigned char value in the array. When an unsigned int is converted to unsigned char, it is simply taken modulo 256 (assuming an 8 bit char), so hexvar converted to unsigned char is the least significant 8 bits of hexvar, i.e. the last two hex digits. The least significant 8 bits of hexvar >> 8 is the 9-16th bits of hexvar, and the same for hexvar >> 16. This code doesn't work if there are more than 8 bits in a byte, but that's rare (some DSPs and some mainframes, basically). – Steve Jessop Dec 8 '10 at 21:10
... if needed, it can be fixed by changing hexvar >> 16 to (hexvar >> 16) & 0xff, and the same for the other two, presuming that the sha1 hash on that system is presented as 20 bytes, each containing 8 bits of hash value with any additional bits in the byte set to 0. – Steve Jessop Dec 8 '10 at 21:12
Thanks a lot for the explanation! – tersmitten Dec 10 '10 at 22:56

It's easier to go the other way — convert the binary data to a hex string for comparison:

char suffix[7];
sprintf(suffix, "%02x%02x%02x", sha1Bin[17], sha1Bin[18], sha1Bin[19]);
return stricmp(suffix, theVarWithHexValues) == 0;

Even if you prefer converting to binary, sscanf(...%2x...) is better than manually parsing hex numbers.

-
Maybe that's true but speed is very important (19000000 iterations) and I would like not to touch the sha1Bin part. theVarWithHexValues on the other side is const. Any other suggestions? – tersmitten Dec 7 '10 at 21:27
I suspect that memory bandwidth will dominate, so this version might surprise you. Or it might not, just don't assume anything. Also, I don't know what you mean by "touch the sha1Bin part". My code doesn't modify sha1Bin in any way. – Marcelo Cantos Dec 7 '10 at 21:32

If theVarWithHexValues is indeed a constant of some sort, then the easiest thing would be to put it into binary form directly. Instead of:

const char *theVarWithHexValues = "6451E6";

use:

const char *theVarWithHexValues = "\x64\x51\xE6";

...then you can just memcmp() directly.

-
char* hexstr = "6451E6";
unsigned long hexvar = strtoul(hexstr, NULL, 16);
hexvar = htonl(hexvar)<<8;  //convert to big-endian and get rid of zero byte.

memcmp(&sha1Bin[(20 - 3)], (char*)hexvar, 3)
-
 This is wrong on a big-endian architecture because the first byte will be the high-byte with value zero, and wrong on a little-endian architecture because the bytes will be reversed. – Marcelo Cantos Dec 7 '10 at 21:46 good point. 2nd attempt. – AShelly Dec 7 '10 at 21:54