Files
libstrophe-gh-mirror/tests/test_rand.c
Steffen Jaeckel f49ccb3262 Fix wording of licensing terms
It has been pointed out that the wording of the license of this library is
not entirely clear.

The term "dual licensing" usually refers to a licence choice of two
licenses "LICENSE1 _or_ LICENSE2.
Instead the license of this library claimed "LICENSE1 _and_ LICENSE2".

After an internal discussion with @metajack and @pasis it was made clear
that the initial idea was to dual license the library in the usual way.

This was also made clear by jack on the ML in the past [0].
As of jack, these licensing terms originated from jquery, which also used
the 'and' version in the past and has since been corrected [1].

This patch changes the license terms to 'MIT or GPLv3' and also adds SPDX
headers [2].

[0] https://groups.google.com/g/libstrophe/c/JkFgr601JQc
[1] https://stackoverflow.com/q/2758409
[2] https://spdx.org

Signed-off-by: Steffen Jaeckel <jaeckel-floss@eyet-services.de>
2023-08-25 18:08:42 +02:00

182 lines
5.8 KiB
C

/* SPDX-License-Identifier: MIT OR GPL-3.0-only */
/* check_rand.c
* strophe XMPP client library -- test vectors for Hash_DRBG
*
* Copyright (C) 2014 Dmitry Podgorny <pasis.ua@gmail.com>
*
* This software is provided AS-IS with no warranty, either express
* or implied.
*
* This program is dual licensed under the MIT or GPLv3 licenses.
*/
/* gcc -o test_rand -I./src tests/test_rand.c tests/test.c src/sha1.c */
#include <assert.h>
#include <stdio.h>
#include <stdlib.h>
#include "test.h"
/* include rand.c to access private structures and functions */
#include "rand.c"
/* stubs to build test without whole libstrophe */
void *strophe_alloc(const xmpp_ctx_t *ctx, size_t size)
{
(void)ctx;
(void)size;
return NULL;
}
void strophe_free(const xmpp_ctx_t *ctx, void *p)
{
(void)ctx;
(void)p;
}
#ifndef HAVE_SNPRINTF
int strophe_snprintf(char *str, size_t count, const char *fmt, ...)
{
(void)str;
(void)count;
(void)fmt;
return 0;
}
#endif /* HAVE_SNPRINTF */
uint64_t time_stamp(void)
{
return 0;
}
#ifndef USE_GETRANDOM
static struct {
const char *entropy_input;
const char *nonce;
size_t returned_bytes;
/* after instantiate */
const char *V1;
const char *C1;
/* after first generate */
const char *V2;
const char *C2;
/* after second generate */
const char *V3;
const char *C3;
const char *output;
} test_vectors[] = {
{
.entropy_input = "136cf1c174e5a09f66b962d994396525",
.nonce = "fff1c6645f19231f",
.returned_bytes = 80,
.V1 = "a884a83fa40bcf730e7395dd5800ea7101b48"
"77aaa29da9b7bc0bd2bd052b9b4022f83bae3"
"8064134a233835845fdd1442bf3a0221bdc8",
.C1 = "4977fb1268c1f6286b5b3969d416fb8ca7e4e"
"aab7fd2edefc239202baa033f8b44e9145148"
"ad24ce83d597176a0bacc84c99246f15e088",
.V2 = "f1fca3520ccdc59b79cecf472c17e5fda9997"
"22629fcc88b3df9dd577a55f93f47189892b1"
"8e1c5f39dfc077ae256588eecec7bbd0323c",
.C2 = "4977fb1268c1f6286b5b3969d416fb8ca7e4e"
"aab7fd2edefc239202baa033f8b44e9145148"
"ad24ce83d597176a0bacc84c99246f15e088",
.V3 = "3b749e64758fbbc3e52a08b1002ee18a517e5"
"cd1a9cfb67b0032fd83245938ca8c01add770"
"68515bde248c75adea10bbaaf0bc18e66a2c",
.C3 = "4977fb1268c1f6286b5b3969d416fb8ca7e4e"
"aab7fd2edefc239202baa033f8b44e9145148"
"ad24ce83d597176a0bacc84c99246f15e088",
.output = "0e28130fa5ca11edd3293ca26fdb8ae1810611f7"
"8715082ed3841e7486f16677b28e33ffe0b93d98"
"ba57ba358c1343ab2a26b4eb7940f5bc63938464"
"1ee80a25140331076268bd1ce702ad534dda0ed8",
},
{
.entropy_input = "dfed69b08902fcfb795d5d35dbe23f6b",
.nonce = "37258e820432e392",
.returned_bytes = 80,
.V1 = "2708022f0f6d13cd8bc139ceb86ee237ee124"
"e17029ac4f053d41526285599d4eac5029972"
"7d83a0df0d5fa9824d5f14d7e7e9c8bdb165",
.C1 = "fdb1a827c30e436c997261da6dc31ae7c27ee"
"28e5c29b2ee0ca57b44ab78b7b0d1e8b459ba"
"7285f5d93abf218d16d834a803c2330321cd",
.V2 = "24b9aa56d27b573a25339ba92631fd1fb0913"
"0a55ec477de6079906ad3ce5185bcadb7b047"
"627060f80afb8529c18b46567e6b79dffb01",
.C2 = "fdb1a827c30e436c997261da6dc31ae7c27ee"
"28e5c29b2ee0ca57b44ab78b7b0d1e8b459ba"
"7285f5d93abf218d16d834a803c2330321cd",
.V3 = "226b527e95899aa6bea5fd8393f5180773101"
"333baee2acc6d1f0baf7f4709368e966c945c"
"d4a0d86093183375443379b09c08e4381fa8",
.C3 = "fdb1a827c30e436c997261da6dc31ae7c27ee"
"28e5c29b2ee0ca57b44ab78b7b0d1e8b459ba"
"7285f5d93abf218d16d834a803c2330321cd",
.output = "adcb8e2cbbc5957d538a20db18b5e7fe350a90a2"
"01359fab9e0f154c53aa146bc6af1fcc7ff8f330"
"b8d9f3d7b038488ba627e6fa21d0147377b13404"
"22b22634b412dac69ac82c35b5fb411a4e42a133",
},
};
int main()
{
size_t i;
uint8_t entropy_input[1024];
size_t entropy_input_len;
uint8_t nonce[1024];
size_t nonce_len;
uint8_t output[1024];
Hash_DRBG_CTX ctx;
printf("Hash_DRBG tests.\n");
for (i = 0; i < ARRAY_SIZE(test_vectors); ++i) {
printf("Test #%d: ", (int)i + 1);
test_hex_to_bin(test_vectors[i].entropy_input, entropy_input,
&entropy_input_len);
test_hex_to_bin(test_vectors[i].nonce, nonce, &nonce_len);
Hash_DRBG_Instantiate(&ctx, entropy_input, entropy_input_len, nonce,
nonce_len);
COMPARE(test_vectors[i].V1, test_bin_to_hex(ctx.V, sizeof(ctx.V)));
COMPARE(test_vectors[i].C1, test_bin_to_hex(ctx.C, sizeof(ctx.C)));
assert(ctx.reseed_counter == 1);
Hash_DRBG_Generate(&ctx, output, test_vectors[i].returned_bytes);
COMPARE(test_vectors[i].V2, test_bin_to_hex(ctx.V, sizeof(ctx.V)));
COMPARE(test_vectors[i].C2, test_bin_to_hex(ctx.C, sizeof(ctx.C)));
assert(ctx.reseed_counter == 2);
Hash_DRBG_Generate(&ctx, output, test_vectors[i].returned_bytes);
COMPARE(test_vectors[i].V3, test_bin_to_hex(ctx.V, sizeof(ctx.V)));
COMPARE(test_vectors[i].C3, test_bin_to_hex(ctx.C, sizeof(ctx.C)));
COMPARE(test_vectors[i].output,
test_bin_to_hex(output, test_vectors[i].returned_bytes));
assert(ctx.reseed_counter == 3);
printf("ok\n");
}
return 0;
}
#else
int main()
{
uint8_t output[1024];
xmpp_rand_t *rand = xmpp_rand_new(NULL);
assert(rand != NULL);
/* this would assert if it failed */
xmpp_rand_bytes(rand, output, sizeof(output));
return 0;
}
#endif