static int addi(void *a, unsigned long b, void *c) { LTC_ARGCHK(a != NULL); LTC_ARGCHK(c != NULL); if (b > (unsigned long) UINT32_MAX) { return CRYPT_INVALID_ARG; } mpa_add_word((mpanum) c, (const mpanum) a, b, external_mem_pool); return CRYPT_OK; }
/*------------------------------------------------------------ * * primality_test_miller_rabin * */ static int primality_test_miller_rabin(mpanum n, int conf_level, mpa_scratch_mem pool) { int result; bool proof_version; static const int32_t proof_a[7] = { 2, 3, 5, 7, 11, 13, 17 }; int cnt; int idx; int t; int e = 0; int cmp_one; mpanum a; mpanum q; mpanum n_minus_1; mpanum b; mpanum r_modn; mpanum r2_modn; mpa_word_t n_inv; mpa_alloc_static_temp_var(&r_modn, pool); mpa_alloc_static_temp_var(&r2_modn, pool); if (mpa_compute_fmm_context(n, r_modn, r2_modn, &n_inv, pool) == -1) { result = DEF_COMPOSITE; goto cleanup_short; } mpa_alloc_static_temp_var(&a, pool); mpa_alloc_static_temp_var(&q, pool); mpa_alloc_static_temp_var(&n_minus_1, pool); mpa_alloc_static_temp_var(&b, pool); proof_version = (mpa_cmp(n, (mpanum) &const_miller_rabin_proof_limit) < 0); if (proof_version) cnt = 7; else /* MR has 1/4 chance in failing a composite */ cnt = (conf_level + 1) / 2; mpa_sub_word(n_minus_1, n, 1, pool); mpa_set(q, n_minus_1); t = 0; /* calculate q such that n - 1 = 2^t * q where q is odd */ while (mpa_is_even(q)) { mpa_shift_right(q, q, 1); t++; } result = PROB_PRIME; for (idx = 0; idx < cnt && result == PROB_PRIME; idx++) { if (proof_version) { mpa_set_S32(a, proof_a[idx]); if (mpa_cmp(n, a) == 0) { result = DEF_PRIME; continue; } } else { /* * Get random a, 1 < a < N by * asking for a random in range 0 <= x < N - 2 * and then add 2 to it. */ mpa_sub_word(n_minus_1, n_minus_1, 1, pool); /* n_minus_1 is now N - 2 ! */ mpa_get_random(a, n_minus_1); mpa_add_word(n_minus_1, n_minus_1, 1, pool); /* and a is now 2 <= a < N */ mpa_add_word(a, a, 2, pool); } mpa_exp_mod(b, a, q, n, r_modn, r2_modn, n_inv, pool); e = 0; inner_loop: cmp_one = mpa_cmp_short(b, 1); if ((cmp_one == 0) && (e > 0)) { result = DEF_COMPOSITE; continue; } if ((mpa_cmp(b, n_minus_1) == 0) || ((cmp_one == 0) && (e == 0))) { /* probably prime, try another a */ continue; } e++; if (e < t) { mpa_exp_mod(b, b, (mpanum) &const_two, n, r_modn, r2_modn, n_inv, pool); goto inner_loop; } result = DEF_COMPOSITE; } if (result == PROB_PRIME && proof_version) result = DEF_PRIME; mpa_free_static_temp_var(&a, pool); mpa_free_static_temp_var(&q, pool); mpa_free_static_temp_var(&n_minus_1, pool); mpa_free_static_temp_var(&b, pool); cleanup_short: mpa_free_static_temp_var(&r_modn, pool); mpa_free_static_temp_var(&r2_modn, pool); return result; }