# Shamir secret sharing and Lagrange interpolation (OpenSSL BIGNUM)

I've posted similar questions before, so i apologize in advance, but i'm just not able to find where i'm going wrong here.

I am implementing Shamir secret sharing using OpenSSL's BIGNUM library in C.

After i do a round of Lagrange interpolation, i multiply `key * numerator` and then i need to divide by the denominator.

Because there is no `BN_mod_div` function, i instead use `BN_mod_inverse()` on the denominator, then multiply, like so:

`(key * numerator) * (inverse of denominator)`

What i've noticed is that if i use `BN_mod_inverse(denom, denom, q, ctx);` then the value that should be inverted remains the same:

``````Round Key: 2E
Numerator: 14
Denominator: 6  **<---- ORIGINAL DENOMINATOR**
Multiply key with numerator: 398 (POSITIVE)
Invert Denominator: 6 (POSITIVE) **<---------- INVERSE IS THE SAME???**
(Key*Numerator)*inv.Denom: 3FC (POSITIVE)

Round Key: 562
Numerator: A
Denominator: -2
Multiply key with numerator: 118 (POSITIVE)
Invert Denominator: -2 (NEGATIVE)
(Key*Numerator)*inv.Denom: 3AC (POSITIVE)

Round Key: 5D1
Numerator: 8
Denominator: 3
Multiply key with numerator: 584 (POSITIVE)
Invert Denominator: 3 (POSITIVE)
(Key*Numerator)*inv.Denom: 4D4 (POSITIVE)
Recovered Key: C4 (POSITIVE)
Key should = 4D2
``````

If I change that to `BN_mod_inverse(newBN, denom, q, ctx);` it just turns into a zero:

``````Round Key: 2E
Numerator: 14
Denominator: 6 **<---- ORIGINAL DENOMINATOR**
Multiply key with numerator: 398 (POSITIVE)
Invert Denominator: 0 (NEGATIVE)  **<------------ DENOMINATOR IS NOW ZERO??**
(Key*Numerator)*inv.Denom: 0 (NEGATIVE)

Round Key: 562
Numerator: A
Denominator: -2
Multiply key with numerator: 118 (POSITIVE)
Invert Denominator: 0 (NEGATIVE)
(Key*Numerator)*inv.Denom: 0 (NEGATIVE)

Round Key: 5D1
Numerator: 8
Denominator: 3
Multiply key with numerator: 584 (POSITIVE)
Invert Denominator: 0 (NEGATIVE)
(Key*Numerator)*inv.Denom: 0 (NEGATIVE)
Recovered Key: 0 (NEGATIVE)
Key should = 4D2
``````

In either case, the combined key is wrong. What's going on here? Is there a workaround for this?

Here is my code:

``````BIGNUM *int2BN(int i)
{
BIGNUM *tmp = BN_new();
BN_zero(tmp);

int g;
if(i < 0) { //If 'i' is negative
for (g = 0; g > i; g--) {
BN_sub(tmp, tmp, one);
}
} else { //If 'i' is positive
for (g = 0; g < i; g++) {
}
}
return(tmp);
}

static void
blah() {
int denomTmp, numTmp, numAccum, denomAccum;
int s, j;
BIGNUM *accum[3], *bnNum, *bnDenom;
bnNum = BN_new();
bnDenom = BN_new();

/* Lagrange Interpolation */
for (s = 0; s < 3; s++) {
numAccum = 1;
denomAccum = 1;
for (j = 0; j < 3; j++) {
if(s == j) continue;
else {
/* 0 - i[k] = numTmp */
numTmp = 0 - key[j].keynum;

/* share - i[k] = denomTmp */
denomTmp = key[s].keynum - key[j].keynum;

/* Numerator accumulation: */
numAccum *= numTmp;

/* Denominator accumulation: */
denomAccum *= denomTmp;
}
}
accum[s] = BN_new();
bnNum = int2BN(numAccum);
bnDenom = int2BN(denomAccum);

/* Multiply result by share */
BN_mod_mul(accum[s], key[s].key, bnNum, q, ctx);

/* Invert denominator */
BN_mod_inverse(bnDenom, bnDenom, q, ctx);

/* Multiply by inverted denominator */
BN_mod_mul(accum[s], accum[s], bnDenom, q, ctx);

}

int a;
BIGNUM *total = BN_new();
BN_zero(total);
for(a = 0; a < 3; a++) {
}

}
``````
-
It's as if you are showing us the output of a program -- but not the program -- and asking us questions about it. But that's impossible, isn't it? All I can do is suggest you examine the docs for BN_mod_inverse –  JamesKPolk Feb 15 '13 at 15:00
My question was a larger question of "can mod_inverse handle small and/or negative values?" (which the documentation doesn't cover), but i didn't really make that clear. I put my source in. –  Chris C Feb 15 '13 at 15:48
Where did you set your modulus `q`? Is the value correct? Have you solved this problem yet? –  ChiaraHsieh May 6 '13 at 9:24

Use `BN_div`. The remainder is the modulo. That is, `rem = a % d`.
``````int BN_div(BIGNUM *dv, BIGNUM *rem, const BIGNUM *a, const BIGNUM *d, BN_CTX *ctx);