# Binary Adding Large Char arrays?

so i have an array of 16 char's defined as follows..

``````char CBlock[16];
``````

in my program, I'm implementing CTR mode encryption (not really important, just saying), and CBlock gets initialized to a random 128-bit hex value. What my program needs to do is increment this block by 1 a number of times while it loops over a message block doing encryption. i.e.

``````for (i = 0; i < SOME_BIG_NUMBER; i++){
CBlock = CBlock + 1; /*i know this isn't legal*/
/*do some stuff*/
}
``````

is there an easy way to do this addition? is there a way i can simply treat CBlock as one contiguous data block? or do i have to manually implement binary (hex) addition with carry's etc..

EDIT: sorry the CBlock declaration was wrong.

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That's not an array of 16 chars, thats an array of 16 strings... –  Richard J. Ross III Feb 20 '12 at 16:17
that was just a typo on my part. just fixed the original post –  Robert Toth Feb 20 '12 at 16:21

In general, you can implement the addition yourself by keeping track of the carries.

``````unsigned char CBlock[16]; /* unsigned char is assumed to be at least an 8 bit type. */
/* Increment CBlock by 1. */

int carry = 1;
int i;

for (i=0; i<16; i++) {
int sum = CBlock[i] + carry;
CBlock[i] = (unsigned char) (sum & 0xff);
carry = sum >> 8;
if (carry == 0) {
break;
}
}

/* if (carry > 0) { we have overflowed} */
``````
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Does your version of C have native 128 bit numbers, `int128`? Otherwise perhaps try making your 128 bit block from two `int64`s. That would reduce the carry problem by a large factor.

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C does not have intrinsic support for data types larger than the machine registers on (most) microprocessors.

While 128 bits is becoming "close", it's still not a type commonly supported. So your best bet is to either use an existing "bignum" library, or code your own.

If you only need to increment it, that's not too hard to do yourself. For this special case, you could perhaps just use a pair of `uint64_t` from `<stdint.h>`.

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If you can assume that `SOME_BIG_NUMBER` is small enough to fit in a `uint64_t`, and that your system is little endian (which it almost certainly is), then you can just do:

``````*(uint64_t *)&CBlock += 1;
``````

or

``````*(uint64_t *)&CBlock = i;
``````
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