qemu-e2k/tests/unit/test-crypto-der.c

291 lines
14 KiB
C

/*
* QEMU Crypto akcipher algorithms
*
* Copyright (c) 2022 Bytedance
* Author: lei he <helei@bytedance.com>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, see <http://www.gnu.org/licenses/>.
*
*/
#include "qemu/osdep.h"
#include "crypto/der.h"
/* rsa(512) private key, generated by openssl */
static const uint8_t test_rsa512_priv_key[] =
"\x30\x82\x01\x39" /* SEQUENCE, offset: 0, length: 313 */
"\x02\x01\x00" /* INTEGER, offset: 4, length: 1 */
"\x02\x41" /* INTEGER, offset: 7, length: 65 */
"\x00\xb9\xe1\x22\xdb\x56\x2f\xb6\xf7\xf0\x0a\x87\x43\x07\x12\xdb"
"\x6d\xb6\x2b\x41\x8d\x2c\x3c\xa5\xdd\x78\x9a\x8f\xab\x8e\xf2\x4a"
"\xc8\x34\x0c\x12\x4f\x11\x90\xc6\xc2\xa5\xd0\xcd\xfb\xfc\x2c\x95"
"\x56\x82\xdf\x39\xf3\x3b\x1d\x62\x26\x97\xb7\x93\x25\xc7\xec\x7e"
"\xf7"
"\x02\x03\x01\x00\x01" /* INTEGER, offset: 74, length: 3 */
"\x02\x40" /* INTEGER, offset: 79, length: 64 */
"\x1e\x80\xfe\xda\x65\xdb\x70\xb8\x61\x91\x28\xbf\x6c\x32\xc1\x05"
"\xd1\x26\x6a\x1c\x83\xcc\xf4\x1f\x53\x42\x72\x1f\x62\x57\x0a\xc4"
"\x66\x76\x30\x87\xb9\xb1\xb9\x6a\x63\xfd\x8f\x3e\xfc\x35\x3f\xd6"
"\x2e\x6c\xc8\x70\x8a\x17\xc1\x28\x6a\xfe\x51\x56\xb3\x92\x6f\x09"
"\x02\x21" /* INTEGER, offset: 145, length: 33 */
"\x00\xe3\x2e\x2d\x8d\xba\x1c\x34\x4c\x49\x9f\xc1\xa6\xdd\xd7\x13"
"\x8d\x05\x48\xdd\xff\x5c\x30\xbc\x6b\xc4\x18\x9d\xfc\xa2\xd0\x9b"
"\x4d"
"\x02\x21" /* INTEGER, offset: 180, length: 33 */
"\x00\xd1\x75\xaf\x4b\xc6\x1a\xb0\x98\x14\x42\xae\x33\xf3\x44\xde"
"\x21\xcb\x04\xda\xfb\x1e\x35\x92\xcd\x69\xc0\x83\x06\x83\x8e\x39"
"\x53"
"\x02\x20" /* INTEGER, offset: 215, length: 32 */
"\x68\x8d\x2a\xf7\xcb\xcc\x09\x21\x86\xcc\x98\x21\xc4\x7c\xa4\x09"
"\xc5\x81\xd8\x71\x1a\x2b\x6f\xbb\xa4\xde\xb3\x6e\xbe\x3b\x85\x0d"
"\x02\x20" /* INTEGER, offset: 249, length: 32 */
"\x64\x06\x0e\xef\xe0\x6a\x5e\x6a\x41\x42\x96\x6d\xb8\x7d\xea\x95"
"\xb8\x9d\x58\xf5\x12\x38\x03\x22\x94\x9d\x99\xf4\x42\x5e\x68\x81"
"\x02\x20" /* INTEGER, offset: 283, length: 32 */
"\x7f\x1d\x87\xe8\x55\x30\x75\xc7\x29\xec\xc9\x65\x76\x5a\x6a\xa3"
"\x4a\x6e\xe1\x26\x65\xd1\x76\xd5\xb9\xd1\x8b\xa8\x73\xe2\x6a\x9e";
static const uint8_t test_rsa2048_priv_key[] =
"\x30\x82\x04\xa6" /* SEQUENCE, offset: 0, length 1190 */
"\x02\x01\x00" /* INTEGER, offset: 4, length: 1 */
"\x02\x82\x01\x01" /* INTEGER, offset: 7, length: 257 */
"\x00\xd1\x48\xc2\xc1\x1d\x4f\x94\xf2\xbb\x9b\xe2\x2d\xe1\xea\x4c"
"\xce\x41\x72\xe3\x41\x7e\x9d\x91\x85\xa3\x4e\xe1\x2c\xf6\x52\x6d"
"\xf9\x84\x64\xdf\x87\x28\x4a\xc9\x9d\x78\x93\x47\xc8\xd9\x66\x2e"
"\xf4\xc6\xf0\x32\x15\x1a\xe8\xaf\x5a\xca\x3a\xd3\x3e\xf6\xde\x86"
"\xdd\x9b\xa6\x4d\x74\x58\xf0\x11\x7f\x66\xd5\x1c\xd8\xde\xa3\xf8"
"\xa3\xfc\x33\x55\x89\xa9\xc3\xea\x5b\x2e\x31\x06\xf8\xcb\x9e\x6e"
"\xb2\x68\x0d\xe6\xc3\x5c\x2d\xf8\xa2\xbd\x00\x1a\xf6\xb6\xdd\x14"
"\x8d\x11\x6d\x2d\xc6\x0c\x09\xe6\xf6\xb9\x8b\x87\x4c\x9f\x4d\x63"
"\xd3\x94\xf4\x32\xca\xcf\x5e\xbf\xe2\x7f\x73\x5a\x65\xec\x82\x0d"
"\x7f\x30\x25\x03\xd4\x3a\xff\xa2\xe8\xd6\xb5\x1f\x4f\x36\x64\x61"
"\xc3\x5f\xb2\x9e\x0c\x53\x04\x19\x34\x99\xe8\xe3\xe6\xd3\x2f\x45"
"\x58\x8e\x5d\x54\x5a\xa0\xc0\x5e\x51\x9b\x22\x15\xec\x26\x6f\x72"
"\x68\xe9\xbf\x5d\x1d\xb5\xd9\xe4\x81\x1a\x92\x66\xa8\xcb\x73\x46"
"\xab\x96\x7b\xf8\x9c\xf5\xb5\x9e\x2b\x13\x71\xe0\x01\x0c\x59\x1b"
"\x63\x9f\xb7\xd1\xcd\x47\x8e\xc7\x3a\xbe\xcb\x47\xa7\x23\x43\xa7"
"\x7d\xbd\x2c\x4e\x22\x37\xcc\xf9\x1b\x1b\xbb\xed\xec\xf0\x47\x92"
"\x43"
"\x02\x03\x01\x00\x01" /* INTEGER, offset 268, length 3 */
"\x02\x82\x01\x01" /* INTEGER, offset 273, length 257 */
"\x00\x8d\x21\x97\x0c\x29\x9a\xf8\x23\xf4\x76\x3b\xc1\x9b\x3e\xa8"
"\x8a\xd2\xc2\x0a\x14\xa9\xb0\xd2\x68\x9f\x67\x5b\x1c\x3a\x03\xfe"
"\x5b\xac\x77\x65\xf1\xbc\x2f\x2a\xe5\x01\x61\xb8\x9f\xee\x53\x25"
"\x49\x36\x3a\xd6\x5b\x3b\x29\x3c\xcf\x69\xde\xdf\x83\xef\x70\xc2"
"\xdc\x00\xd1\xd6\x1b\xa6\xba\x45\xe2\x77\x53\x31\xbf\xe1\xec\x0b"
"\x89\x72\x52\x9f\xd5\x54\xe1\x64\x52\x16\xc5\x43\x21\x56\x16\xc2"
"\x29\x97\x58\x00\x8d\x2f\xc5\x64\x8d\x42\x0d\x27\x21\xc6\xd1\x31"
"\xc1\xab\xc5\xc7\x7f\x6d\xb0\xe3\xca\xef\xf6\xf2\xc7\xae\x09\xbf"
"\x4d\xc0\x4e\x90\x2c\x28\xb9\xcc\x22\x74\xf2\xd5\xff\x4d\x86\xf6"
"\xec\x45\x1f\xbf\x25\x4c\x30\x26\x76\x4f\x09\x13\x83\xef\x35\x73"
"\xa3\xa2\xb1\x40\xcf\x07\x7a\x83\xae\xea\x00\xea\x74\xc7\x54\x6a"
"\x88\x19\xed\x35\xd3\x7e\x5e\xac\x51\xc1\x1e\x5e\x2c\x57\x72\x20"
"\x10\x6a\x0c\x47\xe1\xf0\x36\x70\xd2\xa7\x57\x64\x47\x46\x9f\xca"
"\x23\x8a\x48\x50\x1d\x33\x6a\x86\x46\x69\xed\x54\x65\x6b\x9e\xab"
"\x1f\x84\x87\xf4\x92\x8a\x6c\x44\x20\xaa\x8d\xd8\x50\xde\x45\x74"
"\xe0\xa8\xc7\xb9\x38\x74\x24\x51\x33\xf0\x39\x54\x6c\x11\xae\xc2"
"\x29"
"\x02\x81\x81" /* INTEGER, offset 534, length 129 */
"\x00\xe8\x26\xd1\xf9\xa0\xd3\x0e\x3f\x2f\x89\x9b\x94\x16\x12\xd1"
"\xae\x3c\x53\x9c\xcf\xc6\xf7\x03\xf5\xdf\x39\xdc\x25\x5d\xcb\xb8"
"\xb9\x74\x3e\x3b\x36\xf6\xa0\x8d\xb1\x0e\xd8\xfe\x8c\xcd\x01\x13"
"\x77\x73\x08\x0f\x32\xbd\xe6\x95\xdc\xd0\x14\x7d\x44\xdc\x3e\xd9"
"\xaa\x8a\x32\xe6\x0e\x76\xb6\x05\xc5\x6b\x87\x78\x9a\x32\xe2\xf8"
"\x78\xba\x58\x75\x58\xd5\x26\x9d\x9a\x0f\xb6\xca\xb5\x27\xd8\x58"
"\xae\x3f\x49\x54\xd2\x2b\xac\x28\x39\x88\x31\x42\x12\x08\xea\x0b"
"\x39\x58\xae\xf3\x82\xa0\xe2\x75\x7c\x96\xa9\xb8\x57\x29\x6d\xd7"
"\x37"
"\x02\x81\x81" /* INTEGER, offset 666, length 129 */
"\x00\xe6\xc8\x91\x50\x49\x97\x56\x70\x6e\x25\xf5\x77\x25\xa5\x41"
"\xfe\xd7\x25\x1b\xc1\x4a\xff\x37\x44\x2b\x46\xa0\xdf\xe8\x02\x09"
"\xdd\xa8\x41\xa1\x12\x84\x3c\xf8\xc2\x13\x3e\xb8\x4b\x22\x01\xac"
"\xa6\x09\xb2\xe9\xcd\xc8\x51\xee\xde\xa3\x1e\x6b\xfe\xb1\xf8\xb6"
"\x9e\x48\x36\x62\x0b\x05\xfa\x38\xc1\x06\x04\x58\x95\x4d\x25\x13"
"\x6d\x0b\x12\x0b\xc9\x6d\x59\xfc\x33\x03\x36\x01\x12\x09\x72\x74"
"\x5e\x98\x65\x66\x2f\x3a\xde\xd8\xd4\xee\x6f\x82\xe6\x36\x49\x12"
"\x6a\x94\x28\xe9\x28\x9e\xef\x29\xdc\xdf\xab\x94\x65\x02\x4e\x4b"
"\x55"
"\x02\x81\x81" /* INTEGER, offset 798, length 129 */
"\x00\xc9\xda\xb7\x48\x6e\x66\x15\x45\x2b\x78\x63\x26\x67\xeb\x05"
"\x16\x92\xad\xc0\xf3\x88\xf4\xcf\x24\xc2\x6b\xf4\xd7\x28\xaf\x32"
"\x77\x4e\x73\xad\xd9\x24\xa8\x85\x8b\x26\x75\xd7\x1f\x66\x41\x41"
"\x43\xe3\x69\x66\x8d\xa0\x41\x16\x9d\x60\xef\xef\xdc\x28\x05\x1e"
"\x0e\x03\x0c\x2e\xac\xf4\xdb\x60\x39\x40\x3e\x12\xc7\x40\xe7\xc9"
"\x54\x6f\xf2\xea\x55\xcb\x40\x40\x58\xec\xc0\xeb\x90\x88\x8c\xbc"
"\xcf\x05\x88\x25\x90\x79\x18\xc0\x01\x06\x42\x8e\x48\x50\x27\xf0"
"\x8a\x74\x69\xea\xa1\xf2\x71\xf5\xe5\xd6\xba\xcb\xe6\x3d\xc7\x9c"
"\x11"
"\x02\x81\x81" /* INTEGER, offset 930, length 129 */
"\x00\xc9\xf5\x04\xad\x34\xe9\x39\xdc\x83\x97\xb6\x3a\x40\xf8\x60"
"\x4b\x69\xec\xf0\x5f\xf3\x88\x69\xcd\xbe\xed\x3c\xc5\x14\x5c\x0c"
"\x54\x2b\xf4\xda\xc6\xc0\x70\x36\xe4\x67\x41\x00\xb7\xc7\x17\x9e"
"\x05\x63\x01\x6d\x77\x06\x71\x24\xcf\x32\x01\xe2\x51\xed\x5e\x90"
"\x38\xed\x4a\xa1\xfb\xb1\x8c\x69\xf4\x08\x96\xef\x0a\x20\x8b\x6c"
"\x77\x85\x33\x92\x9a\xff\x95\xba\x8c\xcd\xa7\x89\xc2\x46\x00\x21"
"\xf3\xd1\xfb\x12\x34\x0c\x99\x8d\x38\xb1\x3b\x66\x5a\x9d\x70\xce"
"\xab\xf3\xe1\xe5\x40\x05\xed\x97\x3d\xd1\x82\x6e\x07\x02\xc0\x8f"
"\x4d"
"\x02\x81\x81" /* INTEGER, offset 1062, length 129 */
"\x00\xe4\x96\x79\xa8\x6a\x70\xdd\x67\x42\xff\x15\x11\x9e\x01\x71"
"\xac\xf1\x70\x7d\x87\xe2\x6e\x0c\x4d\xbb\x21\x15\xbb\xa7\x4e\x0c"
"\x09\x7e\x82\xca\x91\xbe\xd0\xdd\x9c\x8c\xb0\x77\x64\x30\x1b\x7e"
"\xbb\x69\xcb\x4c\xde\xd6\x6a\xb9\x72\x15\x79\xdc\x05\x99\x69\x8b"
"\x24\xa1\xad\x13\x35\x31\xc0\x0b\xf1\xd2\x06\x7c\x94\x1a\x21\x2f"
"\x02\xb9\xf0\xd0\xbb\xf7\xb7\x78\xf9\x3d\x76\x60\xd6\x6b\x5f\x35"
"\x88\x14\x33\xe6\xbc\xca\x6b\x88\x90\x57\x3b\x0c\xa3\x6e\x47\xdf"
"\x4e\x2f\x4c\xf9\xab\x97\x38\xe4\x20\x32\x32\x96\xc8\x9e\x79\xd3"
"\x12";
#define MAX_CHECKER_COUNT 32
typedef struct QCryptoAns1DecoderResultChecker QCryptoAns1DecoderResultChecker;
struct QCryptoAns1DecoderResultChecker {
int (*action) (const uint8_t **data, size_t *dlen,
QCryptoDERDecodeCb cb, void *opaque, Error **errp);
QCryptoDERDecodeCb cb;
const uint8_t *exp_value;
size_t exp_vlen;
};
typedef struct QCryptoAns1DecoderTestData QCryptoAns1DecoderTestData;
struct QCryptoAns1DecoderTestData {
const char *path;
const uint8_t *test_data;
size_t test_data_len;
QCryptoAns1DecoderResultChecker checker[MAX_CHECKER_COUNT];
};
typedef struct QCryptoAns1DecoderTestContext QCryptoAns1DecoderTestContext;
struct QCryptoAns1DecoderTestContext {
const uint8_t *data;
size_t dlen;
};
static int checker_callback(void *opaque, const uint8_t *value,
size_t vlen, Error **errp)
{
QCryptoAns1DecoderResultChecker *checker =
(QCryptoAns1DecoderResultChecker *)opaque;
g_assert(value == checker->exp_value);
g_assert(vlen == checker->exp_vlen);
return 0;
}
static void test_ans1(const void *opaque)
{
const QCryptoAns1DecoderTestData *test_data =
(QCryptoAns1DecoderTestData *)opaque;
QCryptoAns1DecoderTestContext ctx[MAX_CHECKER_COUNT];
int seq_depth = 0, checker_idx = 0;
ctx[seq_depth].data = test_data->test_data;
ctx[seq_depth].dlen = test_data->test_data_len;
bool all_checker_completed = false;
do {
const QCryptoAns1DecoderResultChecker *checker =
&test_data->checker[checker_idx++];
QCryptoAns1DecoderTestContext *c = &ctx[seq_depth];
if (!checker->action) {
all_checker_completed = true;
break;
}
g_assert(checker->action(&c->data, &c->dlen, checker_callback,
(void *)checker, &error_abort)
== checker->exp_vlen);
if (checker->action == qcrypto_der_decode_seq) {
++seq_depth;
ctx[seq_depth].data = checker->exp_value;
ctx[seq_depth].dlen = checker->exp_vlen;
}
while (seq_depth != 0 && ctx[seq_depth].dlen == 0) {
--seq_depth;
}
} while (true);
g_assert(seq_depth == 0);
g_assert(ctx[seq_depth].dlen == 0);
g_assert(all_checker_completed);
}
static QCryptoAns1DecoderTestData test_data[] = {
{
.path = "/crypto/der/parse-rsa512-priv-key",
.test_data = test_rsa512_priv_key,
.test_data_len = sizeof(test_rsa512_priv_key) - 1,
.checker = {
{ qcrypto_der_decode_seq, checker_callback,
test_rsa512_priv_key + 4, 313 },
{ qcrypto_der_decode_int, checker_callback,
test_rsa512_priv_key + 4 + 2, 1 },
{ qcrypto_der_decode_int, checker_callback,
test_rsa512_priv_key + 7 + 2, 65 },
{ qcrypto_der_decode_int, checker_callback,
test_rsa512_priv_key + 74 + 2, 3 },
{ qcrypto_der_decode_int, checker_callback,
test_rsa512_priv_key + 79 + 2, 64 },
{ qcrypto_der_decode_int, checker_callback,
test_rsa512_priv_key + 145 + 2, 33 },
{ qcrypto_der_decode_int, checker_callback,
test_rsa512_priv_key + 180 + 2, 33 },
{ qcrypto_der_decode_int, checker_callback,
test_rsa512_priv_key + 215 + 2, 32 },
{ qcrypto_der_decode_int, checker_callback,
test_rsa512_priv_key + 249 + 2, 32 },
{ qcrypto_der_decode_int, checker_callback,
test_rsa512_priv_key + 283 + 2, 32 },
},
},
{
.path = "/crypto/der/parse-rsa2048-priv-key",
.test_data = test_rsa2048_priv_key,
.test_data_len = sizeof(test_rsa2048_priv_key) - 1,
.checker = {
{ qcrypto_der_decode_seq, checker_callback,
test_rsa2048_priv_key + 4, 1190 },
{ qcrypto_der_decode_int, checker_callback,
test_rsa2048_priv_key + 4 + 2, 1 },
{ qcrypto_der_decode_int, checker_callback,
test_rsa2048_priv_key + 7 + 4, 257 },
{ qcrypto_der_decode_int, checker_callback,
test_rsa2048_priv_key + 268 + 2, 3 },
{ qcrypto_der_decode_int, checker_callback,
test_rsa2048_priv_key + 273 + 4, 257 },
{ qcrypto_der_decode_int, checker_callback,
test_rsa2048_priv_key + 534 + 3, 129 },
{ qcrypto_der_decode_int, checker_callback,
test_rsa2048_priv_key + 666 + 3, 129 },
{ qcrypto_der_decode_int, checker_callback,
test_rsa2048_priv_key + 798 + 3, 129 },
{ qcrypto_der_decode_int, checker_callback,
test_rsa2048_priv_key + 930 + 3, 129 },
{ qcrypto_der_decode_int, checker_callback,
test_rsa2048_priv_key + 1062 + 3, 129 },
},
},
};
int main(int argc, char **argv)
{
size_t i;
g_test_init(&argc, &argv, NULL);
for (i = 0; i < G_N_ELEMENTS(test_data); i++) {
g_test_add_data_func(test_data[i].path, &test_data[i], test_ans1);
}
return g_test_run();
}