libtomcrypt/tests/multi_test.c
Steffen Jaeckel ae1c26842b use LTC_NULL in the library code
`NULL` as defined by the standard is not guaranteed to be of a pointer
type. In order to make sure that in vararg API's a pointer type is used,
define our own version and use that one internally.

Signed-off-by: Steffen Jaeckel <s@jaeckel.eu>
2024-02-18 17:02:08 +00:00

237 lines
9.6 KiB
C

/* LibTomCrypt, modular cryptographic library -- Tom St Denis */
/* SPDX-License-Identifier: Unlicense */
/* test the multi helpers... */
#include <tomcrypt_test.h>
int multi_test(void)
{
unsigned char key[32] = { 0 };
unsigned char buf[2][MAXBLOCKSIZE];
unsigned long len, len2;
/* register algos */
register_hash(&sha256_desc);
register_cipher(&aes_desc);
/* HASH testing */
len = sizeof(buf[0]);
#if defined(ENDIAN_32BITWORD) || defined(_MSC_VER)
len2 = 0x80000000UL;
#else
/* Check against the max. input limit of SHA-1 as of RFC8017 */
len2 = 0x1ULL << 61;
#endif
SHOULD_FAIL_WITH(hash_memory(find_hash("sha256"), buf[0], len2, buf[0], &len), CRYPT_HASH_OVERFLOW);
len = sizeof(buf[0]);
hash_memory(find_hash("sha256"), (unsigned char*)"hello", 5, buf[0], &len);
len2 = sizeof(buf[0]);
hash_memory_multi(find_hash("sha256"), buf[1], &len2, (unsigned char*)"hello", 5, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
len2 = sizeof(buf[0]);
hash_memory_multi(find_hash("sha256"), buf[1], &len2, (unsigned char*)"he", 2UL, "llo", 3UL, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
len2 = sizeof(buf[0]);
hash_memory_multi(find_hash("sha256"), buf[1], &len2, (unsigned char*)"h", 1UL, "e", 1UL, "l", 1UL, "l", 1UL, "o", 1UL, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
#ifdef LTC_HMAC
len = sizeof(buf[0]);
hmac_memory(find_hash("sha256"), key, 16, (unsigned char*)"hello", 5, buf[0], &len);
len2 = sizeof(buf[0]);
hmac_memory_multi(find_hash("sha256"), key, 16, buf[1], &len2, (unsigned char*)"hello", 5UL, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
len2 = sizeof(buf[0]);
hmac_memory_multi(find_hash("sha256"), key, 16, buf[1], &len2, (unsigned char*)"he", 2UL, "llo", 3UL, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
len2 = sizeof(buf[0]);
hmac_memory_multi(find_hash("sha256"), key, 16, buf[1], &len2, (unsigned char*)"h", 1UL, "e", 1UL, "l", 1UL, "l", 1UL, "o", 1UL, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
#endif
#ifdef LTC_OMAC
len = sizeof(buf[0]);
omac_memory(find_cipher("aes"), key, 16, (unsigned char*)"hello", 5, buf[0], &len);
len2 = sizeof(buf[0]);
omac_memory_multi(find_cipher("aes"), key, 16, buf[1], &len2, (unsigned char*)"hello", 5UL, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
len2 = sizeof(buf[0]);
omac_memory_multi(find_cipher("aes"), key, 16, buf[1], &len2, (unsigned char*)"he", 2UL, "llo", 3UL, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
len2 = sizeof(buf[0]);
omac_memory_multi(find_cipher("aes"), key, 16, buf[1], &len2, (unsigned char*)"h", 1UL, "e", 1UL, "l", 1UL, "l", 1UL, "o", 1UL, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
#endif
#ifdef LTC_PMAC
len = sizeof(buf[0]);
pmac_memory(find_cipher("aes"), key, 16, (unsigned char*)"hello", 5, buf[0], &len);
len2 = sizeof(buf[0]);
pmac_memory_multi(find_cipher("aes"), key, 16, buf[1], &len2, (unsigned char*)"hello", 5, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
len2 = sizeof(buf[0]);
pmac_memory_multi(find_cipher("aes"), key, 16, buf[1], &len2, (unsigned char*)"he", 2UL, "llo", 3UL, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
len2 = sizeof(buf[0]);
pmac_memory_multi(find_cipher("aes"), key, 16, buf[1], &len2, (unsigned char*)"h", 1UL, "e", 1UL, "l", 1UL, "l", 1UL, "o", 1UL, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
#endif
#ifdef LTC_XCBC
len = sizeof(buf[0]);
xcbc_memory(find_cipher("aes"), key, 16, (unsigned char*)"hello", 5, buf[0], &len);
len2 = sizeof(buf[0]);
xcbc_memory_multi(find_cipher("aes"), key, 16, buf[1], &len2, (unsigned char*)"hello", 5, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
len2 = sizeof(buf[0]);
xcbc_memory_multi(find_cipher("aes"), key, 16, buf[1], &len2, (unsigned char*)"he", 2UL, "llo", 3UL, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
len2 = sizeof(buf[0]);
xcbc_memory_multi(find_cipher("aes"), key, 16, buf[1], &len2, (unsigned char*)"h", 1UL, "e", 1UL, "l", 1UL, "l", 1UL, "o", 1UL, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
#endif
#ifdef LTC_F9
len = sizeof(buf[0]);
f9_memory(find_cipher("aes"), key, 16, (unsigned char*)"hello", 5, buf[0], &len);
len2 = sizeof(buf[0]);
f9_memory_multi(find_cipher("aes"), key, 16, buf[1], &len2, (unsigned char*)"hello", 5, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
len2 = sizeof(buf[0]);
f9_memory_multi(find_cipher("aes"), key, 16, buf[1], &len2, (unsigned char*)"he", 2UL, "llo", 3UL, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
len2 = sizeof(buf[0]);
f9_memory_multi(find_cipher("aes"), key, 16, buf[1], &len2, (unsigned char*)"h", 1UL, "e", 1UL, "l", 1UL, "l", 1UL, "o", 1UL, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
#endif
#ifdef LTC_PELICAN
/* TODO: there is no pelican_memory_multi(..) */
#endif
#ifdef LTC_POLY1305
len = sizeof(buf[0]);
poly1305_memory(key, 32, (unsigned char*)"hello", 5, buf[0], &len);
len2 = sizeof(buf[0]);
poly1305_memory_multi(key, 32, buf[1], &len2, (unsigned char*)"hello", 5, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
len2 = sizeof(buf[0]);
poly1305_memory_multi(key, 32, buf[1], &len2, (unsigned char*)"he", 2UL, "llo", 3UL, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
len2 = sizeof(buf[0]);
poly1305_memory_multi(key, 32, buf[1], &len2, (unsigned char*)"h", 1UL, "e", 1UL, "l", 1UL, "l", 1UL, "o", 1UL, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
#endif
#ifdef LTC_BLAKE2SMAC
len = 32;
blake2smac_memory(key, 16, (unsigned char*)"hello", 5, buf[0], &len);
len2 = 32;
blake2smac_memory_multi(key, 16, buf[1], &len2, (unsigned char*)"hello", 5, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
len2 = 32;
blake2smac_memory_multi(key, 16, buf[1], &len2, (unsigned char*)"he", 2UL, "llo", 3UL, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
len2 = 32;
blake2smac_memory_multi(key, 16, buf[1], &len2, (unsigned char*)"h", 1UL, "e", 1UL, "l", 1UL, "l", 1UL, "o", 1UL, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
#endif
#ifdef LTC_BLAKE2BMAC
len = 64;
blake2bmac_memory(key, 16, (unsigned char*)"hello", 5, buf[0], &len);
len2 = 64;
blake2bmac_memory_multi(key, 16, buf[1], &len2, (unsigned char*)"hello", 5, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
len2 = 64;
blake2bmac_memory_multi(key, 16, buf[1], &len2, (unsigned char*)"he", 2UL, "llo", 3UL, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
len2 = 64;
blake2bmac_memory_multi(key, 16, buf[1], &len2, (unsigned char*)"h", 1UL, "e", 1UL, "l", 1UL, "l", 1UL, "o", 1UL, LTC_NULL);
if (len != len2 || memcmp(buf[0], buf[1], len)) {
printf("Failed: %d %lu %lu\n", __LINE__, len, len2);
return CRYPT_FAIL_TESTVECTOR;
}
#endif
return CRYPT_OK;
}