return 0;
}
+ if (!bignum_cmp(s, Zero)) {
+ freebn(r);
+ freebn(s);
+ return 0;
+ }
+
/*
* Step 1. w <- s^-1 mod q.
*/
w = modinv(s, dss->q);
+ if (!w) {
+ freebn(r);
+ freebn(s);
+ return 0;
+ }
/*
* Step 2. u1 <- SHA(message) * w mod q.
SHA512_Init(&ss);
SHA512_Bytes(&ss, digest512, sizeof(digest512));
SHA512_Bytes(&ss, digest, sizeof(digest));
- SHA512_Final(&ss, digest512);
- smemclr(&ss, sizeof(ss));
+ while (1) {
+ SHA512_State ss2 = ss; /* structure copy */
+ SHA512_Final(&ss2, digest512);
+
+ smemclr(&ss2, sizeof(ss2));
+
+ /*
+ * Now convert the result into a bignum, and reduce it mod q.
+ */
+ proto_k = bignum_from_bytes(digest512, 64);
+ k = bigmod(proto_k, dss->q);
+ freebn(proto_k);
+ kinv = modinv(k, dss->q); /* k^-1 mod q */
+ if (!kinv) { /* very unlikely */
+ freebn(k);
+ /* Perturb the hash to think of a different k. */
+ SHA512_Bytes(&ss, "x", 1);
+ /* Go round and try again. */
+ continue;
+ }
+
+ break;
+ }
- /*
- * Now convert the result into a bignum, and reduce it mod q.
- */
- proto_k = bignum_from_bytes(digest512, 64);
- k = bigmod(proto_k, dss->q);
- freebn(proto_k);
+ smemclr(&ss, sizeof(ss));
smemclr(digest512, sizeof(digest512));
freebn(gkp);
hash = bignum_from_bytes(digest, 20);
- kinv = modinv(k, dss->q); /* k^-1 mod q */
hxr = bigmuladd(dss->x, r, hash); /* hash + x*r */
s = modmul(kinv, hxr, dss->q); /* s = k^-1 * (hash + x*r) mod q */
freebn(hxr);