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|
/*
* OpenVPN -- An application to securely tunnel IP networks
* over a single UDP port, with support for SSL/TLS-based
* session authentication and key exchange,
* packet encryption, packet authentication, and
* packet compression.
*
* Copyright (C) 2016-2018 Fox Crypto B.V. <openvpn@fox-it.com>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2
* as published by the Free Software Foundation.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#elif defined(_MSC_VER)
#include "config-msvc.h"
#endif
#include "syshead.h"
#include <stdio.h>
#include <unistd.h>
#include <stdlib.h>
#include <stdarg.h>
#include <string.h>
#include <setjmp.h>
#include <cmocka.h>
#include "tls_crypt.c"
#include "mock_msg.h"
#define TESTBUF_SIZE 128
/* Defines for use in the tests and the mock parse_line() */
#define PATH1 "/s p a c e"
#define PATH2 "/foo bar/baz"
#define PARAM1 "param1"
#define PARAM2 "param two"
static const char *test_server_key = \
"-----BEGIN OpenVPN tls-crypt-v2 server key-----\n"
"AAECAwQFBgcICQoLDA0ODxAREhMUFRYXGBkaGxwdHh8gISIjJCUmJygpKissLS4v\n"
"MDEyMzQ1Njc4OTo7PD0+P0BBQkNERUZHSElKS0xNTk9QUVJTVFVWV1hZWltcXV5f\n"
"YGFiY2RlZmdoaWprbG1ub3BxcnN0dXZ3eHl6e3x9fn8=\n"
"-----END OpenVPN tls-crypt-v2 server key-----\n";
static const char *test_client_key = \
"-----BEGIN OpenVPN tls-crypt-v2 client key-----\n"
"AAECAwQFBgcICQoLDA0ODxAREhMUFRYXGBkaGxwdHh8gISIjJCUmJygpKissLS4v\n"
"MDEyMzQ1Njc4OTo7PD0+P0BBQkNERUZHSElKS0xNTk9QUVJTVFVWV1hZWltcXV5f\n"
"YGFiY2RlZmdoaWprbG1ub3BxcnN0dXZ3eHl6e3x9fn+AgYKDhIWGh4iJiouMjY6P\n"
"kJGSk5SVlpeYmZqbnJ2en6ChoqOkpaanqKmqq6ytrq+wsbKztLW2t7i5uru8vb6/\n"
"wMHCw8TFxsfIycrLzM3Oz9DR0tPU1dbX2Nna29zd3t/g4eLj5OXm5+jp6uvs7e7v\n"
"8PHy8/T19vf4+fr7/P3+/xd9pcB0qUYZsWvkrLcfGmzPJPM8a7r0mEWdXwbDadSV\n"
"LHg5bv2TwlmPR3HgaMr8o9LTh9hxUTkrH3S0PfKRNwcso86ua/dBFTyXsM9tg4aw\n"
"3dS6ogH9AkaT+kRRDgNcKWkQCbwmJK2JlfkXHBwbAtmn78AkNuho6QCFqCdqGab3\n"
"zh2vheFqGMPdGpukbFrT3rcO3VLxUeG+RdzXiMTCpJSovFBP1lDkYwYJPnz6daEh\n"
"j0TzJ3BVru9W3CpotdNt7u09knxAfpCxjtrP3semsDew/gTBtcfQ/OoTFyFHnN5k\n"
"RZ+q17SC4nba3Pp8/Fs0+hSbv2tJozoD8SElFq7SIWJsciTYh8q8f5yQxjdt4Wxu\n"
"/Z5wtPCAZ0tOzj4ItTI77fBOYRTfEayzHgEr\n"
"-----END OpenVPN tls-crypt-v2 client key-----\n";
/* Has custom metadata of AABBCCDD (base64) */
static const char *test_client_key_metadata = \
"-----BEGIN OpenVPN tls-crypt-v2 client key-----\n"
"AAECAwQFBgcICQoLDA0ODxAREhMUFRYXGBkaGxwdHh8gISIjJCUmJygpKissLS4v\n"
"MDEyMzQ1Njc4OTo7PD0+P0BBQkNERUZHSElKS0xNTk9QUVJTVFVWV1hZWltcXV5f\n"
"YGFiY2RlZmdoaWprbG1ub3BxcnN0dXZ3eHl6e3x9fn+AgYKDhIWGh4iJiouMjY6P\n"
"kJGSk5SVlpeYmZqbnJ2en6ChoqOkpaanqKmqq6ytrq+wsbKztLW2t7i5uru8vb6/\n"
"wMHCw8TFxsfIycrLzM3Oz9DR0tPU1dbX2Nna29zd3t/g4eLj5OXm5+jp6uvs7e7v\n"
"8PHy8/T19vf4+fr7/P3+/2ntp1WCqhcLjJQY/igkjNt3Yb6i0neqFkfrOp2UCDcz\n"
"6RSJtPLZbvOOKUHk2qwxPYUsFCnz/IWV6/ZiLRrabzUpS8oSN1HS6P7qqAdrHKgf\n"
"hVTHasdSf2UdMTPC7HBgnP9Ll0FhKN0h7vSzbbt7QM7wH9mr1ecc/Mt0SYW2lpwA\n"
"aJObYGTyk6hTgWm0g/MLrworLrezTqUHBZzVsu+LDyqLWK1lzJNd66MuNOsGA4YF\n"
"fbCsDh8n3H+Cw1k5YNBZDYYJOtVUgBWXheO6vgoOmqDdI0dAQ3hVo9DE+SkCFjgf\n"
"l4FY2yLEh9ZVZZrl1eD1Owh/X178CkHrBJYl9LNQSyQEKlDGWwBLQ/pY3qtjctr3\n"
"pV62MPQdBo+1lcsjDCJVQA6XUyltas4BKQ==\n"
"-----END OpenVPN tls-crypt-v2 client key-----\n";
int
__wrap_parse_line(const char *line, char **p, const int n, const char *file,
const int line_num, int msglevel, struct gc_arena *gc)
{
p[0] = PATH1 PATH2;
p[1] = PARAM1;
p[2] = PARAM2;
return 3;
}
bool
__wrap_buffer_write_file(const char *filename, const struct buffer *buf)
{
const char *pem = BSTR(buf);
check_expected(filename);
check_expected(pem);
return mock();
}
struct buffer
__wrap_buffer_read_from_file(const char *filename, struct gc_arena *gc)
{
check_expected(filename);
const char *pem_str = (const char *) mock();
struct buffer ret = alloc_buf_gc(strlen(pem_str) + 1, gc);
buf_write(&ret, pem_str, strlen(pem_str) + 1);
return ret;
}
/** Predictable random for tests */
int
__wrap_rand_bytes(uint8_t *output, int len)
{
for (int i = 0; i < len; i++)
{
output[i] = i;
}
return true;
}
struct test_tls_crypt_context {
struct crypto_options co;
struct key_type kt;
struct buffer source;
struct buffer ciphertext;
struct buffer unwrapped;
};
static int
test_tls_crypt_setup(void **state)
{
struct test_tls_crypt_context *ctx = calloc(1, sizeof(*ctx));
*state = ctx;
struct key key = { 0 };
ctx->kt = tls_crypt_kt();
if (!ctx->kt.cipher || !ctx->kt.digest)
{
return 0;
}
init_key_ctx(&ctx->co.key_ctx_bi.encrypt, &key, &ctx->kt, true, "TEST");
init_key_ctx(&ctx->co.key_ctx_bi.decrypt, &key, &ctx->kt, false, "TEST");
packet_id_init(&ctx->co.packet_id, 0, 0, "test", 0);
ctx->source = alloc_buf(TESTBUF_SIZE);
ctx->ciphertext = alloc_buf(TESTBUF_SIZE);
ctx->unwrapped = alloc_buf(TESTBUF_SIZE);
/* Write test plaintext */
const char *plaintext = "1234567890";
buf_write(&ctx->source, plaintext, strlen(plaintext));
/* Write test ciphertext */
const char *ciphertext = "012345678";
buf_write(&ctx->ciphertext, ciphertext, strlen(ciphertext));
return 0;
}
static int
test_tls_crypt_teardown(void **state)
{
struct test_tls_crypt_context *ctx =
(struct test_tls_crypt_context *)*state;
free_buf(&ctx->source);
free_buf(&ctx->ciphertext);
free_buf(&ctx->unwrapped);
free_key_ctx_bi(&ctx->co.key_ctx_bi);
free(ctx);
return 0;
}
static void
skip_if_tls_crypt_not_supported(struct test_tls_crypt_context *ctx)
{
if (!ctx->kt.cipher || !ctx->kt.digest)
{
skip();
}
}
/**
* Check that short messages are successfully wrapped-and-unwrapped.
*/
static void
tls_crypt_loopback(void **state)
{
struct test_tls_crypt_context *ctx = (struct test_tls_crypt_context *) *state;
skip_if_tls_crypt_not_supported(ctx);
assert_true(tls_crypt_wrap(&ctx->source, &ctx->ciphertext, &ctx->co));
assert_true(BLEN(&ctx->source) < BLEN(&ctx->ciphertext));
assert_true(tls_crypt_unwrap(&ctx->ciphertext, &ctx->unwrapped, &ctx->co));
assert_int_equal(BLEN(&ctx->source), BLEN(&ctx->unwrapped));
assert_memory_equal(BPTR(&ctx->source), BPTR(&ctx->unwrapped),
BLEN(&ctx->source));
}
/**
* Check that zero-byte messages are successfully wrapped-and-unwrapped.
*/
static void
tls_crypt_loopback_zero_len(void **state)
{
struct test_tls_crypt_context *ctx = (struct test_tls_crypt_context *) *state;
skip_if_tls_crypt_not_supported(ctx);
buf_clear(&ctx->source);
assert_true(tls_crypt_wrap(&ctx->source, &ctx->ciphertext, &ctx->co));
assert_true(BLEN(&ctx->source) < BLEN(&ctx->ciphertext));
assert_true(tls_crypt_unwrap(&ctx->ciphertext, &ctx->unwrapped, &ctx->co));
assert_int_equal(BLEN(&ctx->source), BLEN(&ctx->unwrapped));
assert_memory_equal(BPTR(&ctx->source), BPTR(&ctx->unwrapped),
BLEN(&ctx->source));
}
/**
* Check that max-length messages are successfully wrapped-and-unwrapped.
*/
static void
tls_crypt_loopback_max_len(void **state)
{
struct test_tls_crypt_context *ctx = (struct test_tls_crypt_context *) *state;
skip_if_tls_crypt_not_supported(ctx);
buf_clear(&ctx->source);
assert_non_null(buf_write_alloc(&ctx->source,
TESTBUF_SIZE - BLEN(&ctx->ciphertext) - tls_crypt_buf_overhead()));
assert_true(tls_crypt_wrap(&ctx->source, &ctx->ciphertext, &ctx->co));
assert_true(BLEN(&ctx->source) < BLEN(&ctx->ciphertext));
assert_true(tls_crypt_unwrap(&ctx->ciphertext, &ctx->unwrapped, &ctx->co));
assert_int_equal(BLEN(&ctx->source), BLEN(&ctx->unwrapped));
assert_memory_equal(BPTR(&ctx->source), BPTR(&ctx->unwrapped),
BLEN(&ctx->source));
}
/**
* Check that too-long messages are gracefully rejected.
*/
static void
tls_crypt_fail_msg_too_long(void **state)
{
struct test_tls_crypt_context *ctx = (struct test_tls_crypt_context *) *state;
skip_if_tls_crypt_not_supported(ctx);
buf_clear(&ctx->source);
assert_non_null(buf_write_alloc(&ctx->source,
TESTBUF_SIZE - BLEN(&ctx->ciphertext) - tls_crypt_buf_overhead() + 1));
assert_false(tls_crypt_wrap(&ctx->source, &ctx->ciphertext, &ctx->co));
}
/**
* Check that packets that were wrapped (or unwrapped) with a different key
* are not accepted.
*/
static void
tls_crypt_fail_invalid_key(void **state)
{
struct test_tls_crypt_context *ctx = (struct test_tls_crypt_context *) *state;
skip_if_tls_crypt_not_supported(ctx);
/* Change decrypt key */
struct key key = { { 1 } };
free_key_ctx(&ctx->co.key_ctx_bi.decrypt);
init_key_ctx(&ctx->co.key_ctx_bi.decrypt, &key, &ctx->kt, false, "TEST");
assert_true(tls_crypt_wrap(&ctx->source, &ctx->ciphertext, &ctx->co));
assert_true(BLEN(&ctx->source) < BLEN(&ctx->ciphertext));
assert_false(tls_crypt_unwrap(&ctx->ciphertext, &ctx->unwrapped, &ctx->co));
}
/**
* Check that replayed packets are not accepted.
*/
static void
tls_crypt_fail_replay(void **state)
{
struct test_tls_crypt_context *ctx = (struct test_tls_crypt_context *) *state;
skip_if_tls_crypt_not_supported(ctx);
assert_true(tls_crypt_wrap(&ctx->source, &ctx->ciphertext, &ctx->co));
assert_true(BLEN(&ctx->source) < BLEN(&ctx->ciphertext));
struct buffer tmp = ctx->ciphertext;
assert_true(tls_crypt_unwrap(&tmp, &ctx->unwrapped, &ctx->co));
buf_clear(&ctx->unwrapped);
assert_false(tls_crypt_unwrap(&ctx->ciphertext, &ctx->unwrapped, &ctx->co));
}
/**
* Check that packet replays are accepted when CO_IGNORE_PACKET_ID is set. This
* is used for the first control channel packet that arrives, because we don't
* know the packet ID yet.
*/
static void
tls_crypt_ignore_replay(void **state)
{
struct test_tls_crypt_context *ctx = (struct test_tls_crypt_context *) *state;
skip_if_tls_crypt_not_supported(ctx);
ctx->co.flags |= CO_IGNORE_PACKET_ID;
assert_true(tls_crypt_wrap(&ctx->source, &ctx->ciphertext, &ctx->co));
assert_true(BLEN(&ctx->source) < BLEN(&ctx->ciphertext));
struct buffer tmp = ctx->ciphertext;
assert_true(tls_crypt_unwrap(&tmp, &ctx->unwrapped, &ctx->co));
buf_clear(&ctx->unwrapped);
assert_true(tls_crypt_unwrap(&ctx->ciphertext, &ctx->unwrapped, &ctx->co));
}
struct test_tls_crypt_v2_context {
struct gc_arena gc;
struct key2 server_key2;
struct key_ctx_bi server_keys;
struct key2 client_key2;
struct key_ctx_bi client_key;
struct buffer metadata;
struct buffer unwrapped_metadata;
struct buffer wkc;
};
static int
test_tls_crypt_v2_setup(void **state)
{
struct test_tls_crypt_v2_context *ctx = calloc(1, sizeof(*ctx));
*state = ctx;
ctx->gc = gc_new();
/* Slightly longer buffers to be able to test too-long data */
ctx->metadata = alloc_buf_gc(TLS_CRYPT_V2_MAX_METADATA_LEN+16, &ctx->gc);
ctx->unwrapped_metadata = alloc_buf_gc(TLS_CRYPT_V2_MAX_METADATA_LEN+16,
&ctx->gc);
ctx->wkc = alloc_buf_gc(TLS_CRYPT_V2_MAX_WKC_LEN+16, &ctx->gc);
/* Generate server key */
rand_bytes((void *)ctx->server_key2.keys, sizeof(ctx->server_key2.keys));
ctx->server_key2.n = 2;
struct key_type kt = tls_crypt_kt();
init_key_ctx_bi(&ctx->server_keys, &ctx->server_key2,
KEY_DIRECTION_BIDIRECTIONAL, &kt,
"tls-crypt-v2 server key");
/* Generate client key */
rand_bytes((void *)ctx->client_key2.keys, sizeof(ctx->client_key2.keys));
ctx->client_key2.n = 2;
return 0;
}
static int
test_tls_crypt_v2_teardown(void **state)
{
struct test_tls_crypt_v2_context *ctx =
(struct test_tls_crypt_v2_context *) *state;
free_key_ctx_bi(&ctx->server_keys);
free_key_ctx_bi(&ctx->client_key);
gc_free(&ctx->gc);
free(ctx);
return 0;
}
/**
* Check wrapping and unwrapping a tls-crypt-v2 client key without metadata.
*/
static void
tls_crypt_v2_wrap_unwrap_no_metadata(void **state)
{
struct test_tls_crypt_v2_context *ctx =
(struct test_tls_crypt_v2_context *) *state;
struct buffer wrapped_client_key = alloc_buf_gc(TLS_CRYPT_V2_MAX_WKC_LEN,
&ctx->gc);
assert_true(tls_crypt_v2_wrap_client_key(&wrapped_client_key,
&ctx->client_key2,
&ctx->metadata,
&ctx->server_keys.encrypt,
&ctx->gc));
struct buffer unwrap_metadata = alloc_buf_gc(TLS_CRYPT_V2_MAX_METADATA_LEN,
&ctx->gc);
struct key2 unwrapped_client_key2 = { 0 };
assert_true(tls_crypt_v2_unwrap_client_key(&unwrapped_client_key2,
&unwrap_metadata,
wrapped_client_key,
&ctx->server_keys.decrypt));
assert_true(0 == memcmp(ctx->client_key2.keys, unwrapped_client_key2.keys,
sizeof(ctx->client_key2.keys)));
}
/**
* Check wrapping and unwrapping a tls-crypt-v2 client key with maximum length
* metadata.
*/
static void
tls_crypt_v2_wrap_unwrap_max_metadata(void **state)
{
struct test_tls_crypt_v2_context *ctx =
(struct test_tls_crypt_v2_context *) *state;
uint8_t *metadata =
buf_write_alloc(&ctx->metadata, TLS_CRYPT_V2_MAX_METADATA_LEN);
assert_true(rand_bytes(metadata, TLS_CRYPT_V2_MAX_METADATA_LEN));
assert_true(tls_crypt_v2_wrap_client_key(&ctx->wkc, &ctx->client_key2,
&ctx->metadata,
&ctx->server_keys.encrypt,
&ctx->gc));
struct buffer unwrap_metadata = alloc_buf_gc(TLS_CRYPT_V2_MAX_METADATA_LEN,
&ctx->gc);
struct key2 unwrapped_client_key2 = { 0 };
assert_true(tls_crypt_v2_unwrap_client_key(&unwrapped_client_key2,
&unwrap_metadata, ctx->wkc,
&ctx->server_keys.decrypt));
assert_true(0 == memcmp(ctx->client_key2.keys, unwrapped_client_key2.keys,
sizeof(ctx->client_key2.keys)));
assert_true(buf_equal(&ctx->metadata, &unwrap_metadata));
struct tls_wrap_ctx wrap_ctx = {
.mode = TLS_WRAP_CRYPT,
.tls_crypt_v2_server_key = ctx->server_keys.encrypt,
};
assert_true(tls_crypt_v2_extract_client_key(&ctx->wkc, &wrap_ctx, NULL));
tls_wrap_free(&wrap_ctx);
}
/**
* Check that wrapping a tls-crypt-v2 client key with too long metadata fails
* as expected.
*/
static void
tls_crypt_v2_wrap_too_long_metadata(void **state)
{
struct test_tls_crypt_v2_context *ctx =
(struct test_tls_crypt_v2_context *) *state;
assert_true(buf_inc_len(&ctx->metadata, TLS_CRYPT_V2_MAX_METADATA_LEN+1));
assert_false(tls_crypt_v2_wrap_client_key(&ctx->wkc, &ctx->client_key2,
&ctx->metadata,
&ctx->server_keys.encrypt,
&ctx->gc));
}
/**
* Check that unwrapping a tls-crypt-v2 client key with the wrong server key
* fails as expected.
*/
static void
tls_crypt_v2_wrap_unwrap_wrong_key(void **state)
{
struct test_tls_crypt_v2_context *ctx =
(struct test_tls_crypt_v2_context *) *state;
assert_true(tls_crypt_v2_wrap_client_key(&ctx->wkc, &ctx->client_key2,
&ctx->metadata,
&ctx->server_keys.encrypt,
&ctx->gc));
/* Change server key */
struct key_type kt = tls_crypt_kt();
free_key_ctx_bi(&ctx->server_keys);
memset(&ctx->server_key2.keys, 0, sizeof(ctx->server_key2.keys));
init_key_ctx_bi(&ctx->server_keys, &ctx->server_key2,
KEY_DIRECTION_BIDIRECTIONAL, &kt,
"wrong tls-crypt-v2 server key");
struct key2 unwrapped_client_key2 = { 0 };
assert_false(tls_crypt_v2_unwrap_client_key(&unwrapped_client_key2,
&ctx->unwrapped_metadata,
ctx->wkc,
&ctx->server_keys.decrypt));
const struct key2 zero = { 0 };
assert_true(0 == memcmp(&unwrapped_client_key2, &zero, sizeof(zero)));
assert_true(0 == BLEN(&ctx->unwrapped_metadata));
}
/**
* Check that unwrapping a tls-crypt-v2 client key to a too small metadata
* buffer fails as expected.
*/
static void
tls_crypt_v2_wrap_unwrap_dst_too_small(void **state)
{
struct test_tls_crypt_v2_context *ctx =
(struct test_tls_crypt_v2_context *) *state;
uint8_t *metadata =
buf_write_alloc(&ctx->metadata, TLS_CRYPT_V2_MAX_METADATA_LEN);
assert_true(rand_bytes(metadata, TLS_CRYPT_V2_MAX_METADATA_LEN));
assert_true(tls_crypt_v2_wrap_client_key(&ctx->wkc, &ctx->client_key2,
&ctx->metadata,
&ctx->server_keys.encrypt,
&ctx->gc));
struct key2 unwrapped_client_key2 = { 0 };
struct buffer unwrapped_metadata =
alloc_buf_gc(TLS_CRYPT_V2_MAX_METADATA_LEN-1, &ctx->gc);
assert_false(tls_crypt_v2_unwrap_client_key(&unwrapped_client_key2,
&unwrapped_metadata, ctx->wkc,
&ctx->server_keys.decrypt));
const struct key2 zero = { 0 };
assert_true(0 == memcmp(&unwrapped_client_key2, &zero, sizeof(zero)));
assert_true(0 == BLEN(&ctx->unwrapped_metadata));
}
static void
test_tls_crypt_v2_write_server_key_file(void **state)
{
const char *filename = "testfilename.key";
expect_string(__wrap_buffer_write_file, filename, filename);
expect_memory(__wrap_buffer_write_file, pem, test_server_key,
strlen(test_server_key));
will_return(__wrap_buffer_write_file, true);
tls_crypt_v2_write_server_key_file(filename);
}
static void
test_tls_crypt_v2_write_client_key_file(void **state)
{
const char *filename = "testfilename.key";
/* Test writing the client key */
expect_string(__wrap_buffer_write_file, filename, filename);
expect_memory(__wrap_buffer_write_file, pem, test_client_key,
strlen(test_client_key));
will_return(__wrap_buffer_write_file, true);
/* Key generation re-reads the created file as a sanity check */
expect_string(__wrap_buffer_read_from_file, filename, filename);
will_return(__wrap_buffer_read_from_file, test_client_key);
tls_crypt_v2_write_client_key_file(filename, NULL, test_server_key, true);
}
static void
test_tls_crypt_v2_write_client_key_file_metadata(void **state)
{
const char *filename = "testfilename.key";
const char *b64metadata = "AABBCCDD";
/* Test writing the client key */
expect_string(__wrap_buffer_write_file, filename, filename);
expect_memory(__wrap_buffer_write_file, pem, test_client_key_metadata,
strlen(test_client_key_metadata));
will_return(__wrap_buffer_write_file, true);
/* Key generation re-reads the created file as a sanity check */
expect_string(__wrap_buffer_read_from_file, filename, filename);
will_return(__wrap_buffer_read_from_file, test_client_key_metadata);
tls_crypt_v2_write_client_key_file(filename, b64metadata, test_server_key,
true);
}
int
main(void)
{
const struct CMUnitTest tests[] = {
cmocka_unit_test_setup_teardown(tls_crypt_loopback,
test_tls_crypt_setup,
test_tls_crypt_teardown),
cmocka_unit_test_setup_teardown(tls_crypt_loopback_zero_len,
test_tls_crypt_setup,
test_tls_crypt_teardown),
cmocka_unit_test_setup_teardown(tls_crypt_loopback_max_len,
test_tls_crypt_setup,
test_tls_crypt_teardown),
cmocka_unit_test_setup_teardown(tls_crypt_fail_msg_too_long,
test_tls_crypt_setup,
test_tls_crypt_teardown),
cmocka_unit_test_setup_teardown(tls_crypt_fail_invalid_key,
test_tls_crypt_setup,
test_tls_crypt_teardown),
cmocka_unit_test_setup_teardown(tls_crypt_fail_replay,
test_tls_crypt_setup,
test_tls_crypt_teardown),
cmocka_unit_test_setup_teardown(tls_crypt_ignore_replay,
test_tls_crypt_setup,
test_tls_crypt_teardown),
cmocka_unit_test_setup_teardown(tls_crypt_v2_wrap_unwrap_no_metadata,
test_tls_crypt_v2_setup,
test_tls_crypt_v2_teardown),
cmocka_unit_test_setup_teardown(tls_crypt_v2_wrap_unwrap_max_metadata,
test_tls_crypt_v2_setup,
test_tls_crypt_v2_teardown),
cmocka_unit_test_setup_teardown(tls_crypt_v2_wrap_too_long_metadata,
test_tls_crypt_v2_setup,
test_tls_crypt_v2_teardown),
cmocka_unit_test_setup_teardown(tls_crypt_v2_wrap_unwrap_wrong_key,
test_tls_crypt_v2_setup,
test_tls_crypt_v2_teardown),
cmocka_unit_test_setup_teardown(tls_crypt_v2_wrap_unwrap_dst_too_small,
test_tls_crypt_v2_setup,
test_tls_crypt_v2_teardown),
cmocka_unit_test(test_tls_crypt_v2_write_server_key_file),
cmocka_unit_test(test_tls_crypt_v2_write_client_key_file),
cmocka_unit_test(test_tls_crypt_v2_write_client_key_file_metadata),
};
#if defined(ENABLE_CRYPTO_OPENSSL)
OpenSSL_add_all_algorithms();
#endif
int ret = cmocka_run_group_tests_name("tls-crypt tests", tests, NULL, NULL);
#if defined(ENABLE_CRYPTO_OPENSSL)
EVP_cleanup();
#endif
return ret;
}
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