int cipher_hash_test(void)
{
int x;
/* test ciphers */
for (x = 0; cipher_descriptor[x].name != NULL; x++) {
DOX(cipher_descriptor[x].test(), cipher_descriptor[x].name);
}
/* stream ciphers */
#ifdef LTC_CHACHA
DO(chacha_test());
#endif
#ifdef LTC_RC4_STREAM
DO(rc4_stream_test());
#endif
#ifdef LTC_SOBER128_STREAM
DO(sober128_stream_test());
#endif
/* test hashes */
for (x = 0; hash_descriptor[x].name != NULL; x++) {
DOX(hash_descriptor[x].test(), hash_descriptor[x].name);
}
/* SHAKE128 + SHAKE256 tests are a bit special */
DOX(sha3_shake_test(), "sha3_shake");
return 0;
}
int prng_test(void)
{
int err = CRYPT_NOP;
int x;
unsigned char buf[4096] = { 0 };
unsigned long n, one;
prng_state nprng;
#ifdef LTC_PRNG_ENABLE_LTC_RNG
unsigned long before;
unsigned long (*previous)(unsigned char *, unsigned long , void (*)(void)) = ltc_rng;
ltc_rng = my_test_rng;
before = my_test_rng_read;
if ((err = rng_make_prng(128, find_prng("yarrow"), &yarrow_prng, NULL)) != CRYPT_OK) {
fprintf(stderr, "rng_make_prng with 'my_test_rng' failed: %s\n", error_to_string(err));
exit(EXIT_FAILURE);
}
if (before == my_test_rng_read) {
fprintf(stderr, "somehow there was no read from the ltc_rng! %lu == %lu\n", before, my_test_rng_read);
exit(EXIT_FAILURE);
}
ltc_rng = previous;
#endif
/* test prngs (test, import/export) */
for (x = 0; prng_descriptor[x].name != NULL; x++) {
if(strstr(prng_descriptor[x].name, "no_prng") == prng_descriptor[x].name) continue;
err = CRYPT_OK;
DOX(prng_descriptor[x].test(), prng_descriptor[x].name);
DOX(prng_descriptor[x].start(&nprng), prng_descriptor[x].name);
DOX(prng_descriptor[x].add_entropy((unsigned char *)"helloworld12", 12, &nprng), prng_descriptor[x].name);
DOX(prng_descriptor[x].ready(&nprng), prng_descriptor[x].name);
n = sizeof(buf);
if (strcmp(prng_descriptor[x].name, "sprng")) {
one = 1;
if (prng_descriptor[x].pexport(buf, &one, &nprng) != CRYPT_BUFFER_OVERFLOW) {
fprintf(stderr, "Error testing pexport with a short buffer (%s)\n", prng_descriptor[x].name);
return CRYPT_ERROR;
}
}
DOX(prng_descriptor[x].pexport(buf, &n, &nprng), prng_descriptor[x].name);
prng_descriptor[x].done(&nprng);
DOX(prng_descriptor[x].pimport(buf, n, &nprng), prng_descriptor[x].name);
DOX(prng_descriptor[x].pimport(buf, 4096, &nprng), prng_descriptor[x].name); /* try to import larger data */
DOX(prng_descriptor[x].ready(&nprng), prng_descriptor[x].name);
if (prng_descriptor[x].read(buf, 100, &nprng) != 100) {
fprintf(stderr, "Error reading from imported PRNG (%s)!\n", prng_descriptor[x].name);
return CRYPT_ERROR;
}
prng_descriptor[x].done(&nprng);
}
return err;
}
int pkcs_1_eme_test(void)
{
struct ltc_prng_descriptor* no_prng_desc = no_prng_desc_get();
int prng_idx = register_prng(no_prng_desc);
int hash_idx = find_hash("sha1");
unsigned int i;
unsigned int j;
DO(prng_is_valid(prng_idx));
DO(hash_is_valid(hash_idx));
for (i = 0; i < sizeof(testcases_eme)/sizeof(testcases_eme[0]); ++i) {
testcase_t* t = &testcases_eme[i];
rsa_key k, *key = &k;
DOX(mp_init_multi(&key->e, &key->d, &key->N, &key->dQ,
&key->dP, &key->qP, &key->p, &key->q, NULL), t->name);
DOX(mp_read_unsigned_bin(key->e, t->rsa.e, t->rsa.e_l), t->name);
DOX(mp_read_unsigned_bin(key->d, t->rsa.d, t->rsa.d_l), t->name);
DOX(mp_read_unsigned_bin(key->N, t->rsa.n, t->rsa.n_l), t->name);
DOX(mp_read_unsigned_bin(key->dQ, t->rsa.dQ, t->rsa.dQ_l), t->name);
DOX(mp_read_unsigned_bin(key->dP, t->rsa.dP, t->rsa.dP_l), t->name);
DOX(mp_read_unsigned_bin(key->qP, t->rsa.qInv, t->rsa.qInv_l), t->name);
DOX(mp_read_unsigned_bin(key->q, t->rsa.q, t->rsa.q_l), t->name);
DOX(mp_read_unsigned_bin(key->p, t->rsa.p, t->rsa.p_l), t->name);
key->type = PK_PRIVATE;
for (j = 0; j < sizeof(t->data)/sizeof(t->data[0]); ++j) {
rsaData_t* s = &t->data[j];
unsigned char buf[256], obuf[256];
unsigned long buflen = sizeof(buf), obuflen = sizeof(obuf);
int stat;
prng_descriptor[prng_idx].add_entropy(s->o2, s->o2_l, (prng_state*)no_prng_desc);
DOX(rsa_encrypt_key_ex(s->o1, s->o1_l, obuf, &obuflen, NULL, 0, (prng_state*)no_prng_desc, prng_idx, -1, LTC_PKCS_1_V1_5, key), s->name);
DOX(obuflen == (unsigned long)s->o3_l?CRYPT_OK:CRYPT_FAIL_TESTVECTOR, s->name);
DOX(memcmp(s->o3, obuf, s->o3_l)==0?CRYPT_OK:CRYPT_FAIL_TESTVECTOR, s->name);
DOX(rsa_decrypt_key_ex(obuf, obuflen, buf, &buflen, NULL, 0, -1, LTC_PKCS_1_V1_5, &stat, key), s->name);
DOX(stat == 1?CRYPT_OK:CRYPT_FAIL_TESTVECTOR, s->name);
} /* for */
mp_clear_multi(key->d, key->e, key->N, key->dQ, key->dP, key->qP, key->p, key->q, NULL);
} /* for */
unregister_prng(no_prng_desc);
no_prng_desc_free(no_prng_desc);
return 0;
}
int pkcs_1_emsa_test(void)
{
int hash_idx = find_hash("sha1");
unsigned int i;
unsigned int j;
DO(hash_is_valid(hash_idx));
for (i = 0; i < sizeof(testcases_emsa)/sizeof(testcases_emsa[0]); ++i) {
testcase_t* t = &testcases_emsa[i];
rsa_key k, *key = &k;
DOX(mp_init_multi(&key->e, &key->d, &key->N, &key->dQ,
&key->dP, &key->qP, &key->p, &key->q, NULL), t->name);
DOX(mp_read_unsigned_bin(key->e, t->rsa.e, t->rsa.e_l), t->name);
DOX(mp_read_unsigned_bin(key->d, t->rsa.d, t->rsa.d_l), t->name);
DOX(mp_read_unsigned_bin(key->N, t->rsa.n, t->rsa.n_l), t->name);
DOX(mp_read_unsigned_bin(key->dQ, t->rsa.dQ, t->rsa.dQ_l), t->name);
DOX(mp_read_unsigned_bin(key->dP, t->rsa.dP, t->rsa.dP_l), t->name);
DOX(mp_read_unsigned_bin(key->qP, t->rsa.qInv, t->rsa.qInv_l), t->name);
DOX(mp_read_unsigned_bin(key->q, t->rsa.q, t->rsa.q_l), t->name);
DOX(mp_read_unsigned_bin(key->p, t->rsa.p, t->rsa.p_l), t->name);
key->type = PK_PRIVATE;
for (j = 0; j < sizeof(t->data)/sizeof(t->data[0]); ++j) {
rsaData_t* s = &t->data[j];
unsigned char buf[20], obuf[256];
unsigned long buflen = sizeof(buf), obuflen = sizeof(obuf);
int stat;
DOX(hash_memory(hash_idx, s->o1, s->o1_l, buf, &buflen), s->name);
DOX(rsa_sign_hash_ex(buf, buflen, obuf, &obuflen, LTC_PKCS_1_V1_5, NULL, -1, hash_idx, 0, key), s->name);
DOX(obuflen == (unsigned long)s->o2_l?CRYPT_OK:CRYPT_FAIL_TESTVECTOR, s->name);
DOX(memcmp(s->o2, obuf, s->o2_l)==0?CRYPT_OK:CRYPT_FAIL_TESTVECTOR, s->name);
DOX(rsa_verify_hash_ex(obuf, obuflen, buf, buflen, LTC_PKCS_1_V1_5, hash_idx, 0, &stat, key), s->name);
DOX(stat == 1?CRYPT_OK:CRYPT_FAIL_TESTVECTOR, s->name);
} /* for */
mp_clear_multi(key->d, key->e, key->N, key->dQ, key->dP, key->qP, key->p, key->q, NULL);
} /* for */
return 0;
}
