openssl/test/secmemtest.c

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/*
* Copyright 2015-2022 The OpenSSL Project Authors. All Rights Reserved.
*
* Licensed under the Apache License 2.0 (the "License"). You may not use
* this file except in compliance with the License. You can obtain a copy
* in the file LICENSE in the source distribution or at
* https://www.openssl.org/source/license.html
*/
#include <openssl/crypto.h>
#include "testutil.h"
#include "internal/e_os.h"
static int test_sec_mem(void)
{
#ifndef OPENSSL_NO_SECURE_MEMORY
int testresult = 0;
char *p = NULL, *q = NULL, *r = NULL, *s = NULL;
TEST_info("Secure memory is implemented.");
s = OPENSSL_secure_malloc(20);
/* s = non-secure 20 */
if (!TEST_ptr(s)
|| !TEST_false(CRYPTO_secure_allocated(s)))
goto end;
r = OPENSSL_secure_malloc(20);
/* r = non-secure 20, s = non-secure 20 */
if (!TEST_ptr(r)
|| !TEST_true(CRYPTO_secure_malloc_init(4096, 32))
|| !TEST_false(CRYPTO_secure_allocated(r)))
goto end;
p = OPENSSL_secure_malloc(20);
if (!TEST_ptr(p)
/* r = non-secure 20, p = secure 20, s = non-secure 20 */
|| !TEST_true(CRYPTO_secure_allocated(p))
/* 20 secure -> 32-byte minimum allocation unit */
|| !TEST_size_t_eq(CRYPTO_secure_used(), 32))
goto end;
q = OPENSSL_malloc(20);
if (!TEST_ptr(q))
goto end;
/* r = non-secure 20, p = secure 20, q = non-secure 20, s = non-secure 20 */
if (!TEST_false(CRYPTO_secure_allocated(q)))
goto end;
OPENSSL_secure_clear_free(s, 20);
s = OPENSSL_secure_malloc(20);
if (!TEST_ptr(s)
/* r = non-secure 20, p = secure 20, q = non-secure 20, s = secure 20 */
|| !TEST_true(CRYPTO_secure_allocated(s))
/* 2 * 20 secure -> 64 bytes allocated */
|| !TEST_size_t_eq(CRYPTO_secure_used(), 64))
goto end;
OPENSSL_secure_clear_free(p, 20);
p = NULL;
/* 20 secure -> 32 bytes allocated */
if (!TEST_size_t_eq(CRYPTO_secure_used(), 32))
goto end;
OPENSSL_free(q);
q = NULL;
/* should not complete, as secure memory is still allocated */
if (!TEST_false(CRYPTO_secure_malloc_done())
|| !TEST_true(CRYPTO_secure_malloc_initialized()))
goto end;
OPENSSL_secure_free(s);
s = NULL;
/* secure memory should now be 0, so done should complete */
if (!TEST_size_t_eq(CRYPTO_secure_used(), 0)
|| !TEST_true(CRYPTO_secure_malloc_done())
|| !TEST_false(CRYPTO_secure_malloc_initialized()))
goto end;
TEST_info("Possible infinite loop: allocate more than available");
if (!TEST_true(CRYPTO_secure_malloc_init(32768, 16)))
goto end;
TEST_ptr_null(OPENSSL_secure_malloc((size_t)-1));
TEST_true(CRYPTO_secure_malloc_done());
/*
* If init fails, then initialized should be false, if not, this
* could cause an infinite loop secure_malloc, but we don't test it
*/
if (TEST_false(CRYPTO_secure_malloc_init(16, 16)) &&
!TEST_false(CRYPTO_secure_malloc_initialized())) {
TEST_true(CRYPTO_secure_malloc_done());
goto end;
}
/*-
* There was also a possible infinite loop when the number of
* elements was 1<<31, as |int i| was set to that, which is a
* negative number. However, it requires minimum input values:
*
* CRYPTO_secure_malloc_init((size_t)1<<34, 1<<4);
*
* Which really only works on 64-bit systems, since it took 16 GB
* secure memory arena to trigger the problem. It naturally takes
* corresponding amount of available virtual and physical memory
* for test to be feasible/representative. Since we can't assume
* that every system is equipped with that much memory, the test
* remains disabled. If the reader of this comment really wants
* to make sure that infinite loop is fixed, they can enable the
* code below.
*/
# if 0
/*-
* On Linux and BSD this test has a chance to complete in minimal
* time and with minimum side effects, because mlock is likely to
* fail because of RLIMIT_MEMLOCK, which is customarily [much]
* smaller than 16GB. In other words Linux and BSD users can be
* limited by virtual space alone...
*/
if (sizeof(size_t) > 4) {
TEST_info("Possible infinite loop: 1<<31 limit");
if (TEST_true(CRYPTO_secure_malloc_init((size_t)1<<34, 1<<4) != 0))
TEST_true(CRYPTO_secure_malloc_done());
}
# endif
/* this can complete - it was not really secure */
testresult = 1;
end:
OPENSSL_secure_free(p);
OPENSSL_free(q);
OPENSSL_secure_free(r);
OPENSSL_secure_free(s);
return testresult;
#else
TEST_info("Secure memory is *not* implemented.");
/* Should fail. */
return TEST_false(CRYPTO_secure_malloc_init(4096, 32));
#endif
}
static int test_sec_mem_clear(void)
{
#ifndef OPENSSL_NO_SECURE_MEMORY
const int size = 64;
unsigned char *p = NULL;
int i, res = 0;
if (!TEST_true(CRYPTO_secure_malloc_init(4096, 32))
|| !TEST_ptr(p = OPENSSL_secure_malloc(size)))
goto err;
for (i = 0; i < size; i++)
if (!TEST_uchar_eq(p[i], 0))
goto err;
for (i = 0; i < size; i++)
p[i] = (unsigned char)(i + ' ' + 1);
OPENSSL_secure_free(p);
/*
* A deliberate use after free here to verify that the memory has been
* cleared properly. Since secure free doesn't return the memory to
* libc's memory pool, it technically isn't freed. However, the header
* bytes have to be skipped and these consist of two pointers in the
* current implementation.
*/
for (i = sizeof(void *) * 2; i < size; i++)
if (!TEST_uchar_eq(p[i], 0))
return 0;
res = 1;
p = NULL;
err:
OPENSSL_secure_free(p);
CRYPTO_secure_malloc_done();
return res;
#else
return 1;
#endif
}
int setup_tests(void)
{
ADD_TEST(test_sec_mem);
ADD_TEST(test_sec_mem_clear);
return 1;
}