tests/libntp/authkeys.c

1.1.1.5  christos /*	$NetBSD: authkeys.c,v 1.1.1.6 2016/05/01 15:57:23 christos Exp $	*/
1.1.1.5  christos
    1.1  christos /* This file contains test for both libntp/authkeys.c and libntp/authusekey.c */
    1.1  christos
    1.1  christos #include "config.h"
    1.1  christos
    1.1  christos #include "ntp.h"
    1.1  christos #include "ntp_stdlib.h"
    1.1  christos #include "ntp_calendar.h"
    1.1  christos
    1.1  christos #include "unity.h"
    1.1  christos
    1.1  christos #ifdef OPENSSL
    1.1  christos # include "openssl/err.h"
    1.1  christos # include "openssl/rand.h"
    1.1  christos # include "openssl/evp.h"
    1.1  christos #endif
1.1.1.6  christos #include <limits.h>
    1.1  christos
    1.1  christos u_long current_time = 4;
    1.1  christos int counter = 0;
    1.1  christos
1.1.1.3  christos void setUp(void);
1.1.1.3  christos void tearDown(void);
1.1.1.3  christos void AddTrustedKey(keyid_t keyno);
1.1.1.3  christos void AddUntrustedKey(keyid_t keyno);
1.1.1.3  christos void test_AddTrustedKeys(void);
1.1.1.3  christos void test_AddUntrustedKey(void);
1.1.1.3  christos void test_HaveKeyCorrect(void);
1.1.1.3  christos void test_HaveKeyIncorrect(void);
1.1.1.3  christos void test_AddWithAuthUseKey(void);
1.1.1.3  christos void test_EmptyKey(void);
1.1.1.6  christos void test_auth_log2(void);
    1.1  christos
1.1.1.3  christos
1.1.1.3  christos void
1.1.1.3  christos setUp(void)
    1.1  christos {
1.1.1.3  christos 	if (counter == 0) {
1.1.1.3  christos 		counter++;
1.1.1.3  christos 		init_auth(); // causes segfault if called more than once
    1.1  christos 	}
1.1.1.3  christos 	/*
    1.1  christos 	 * init_auth() is called by tests_main.cpp earlier.  It
    1.1  christos 	 * does not initialize global variables like
    1.1  christos 	 * authnumkeys, so let's reset them to zero here.
    1.1  christos 	 */
    1.1  christos 	authnumkeys = 0;
    1.1  christos
    1.1  christos 	/*
    1.1  christos 	 * Especially, empty the key cache!
    1.1  christos 	 */
    1.1  christos 	cache_keyid = 0;
    1.1  christos 	cache_type = 0;
    1.1  christos 	cache_flags = 0;
    1.1  christos 	cache_secret = NULL;
    1.1  christos 	cache_secretsize = 0;
1.1.1.4  christos
1.1.1.4  christos 	return;
    1.1  christos }
    1.1  christos
1.1.1.3  christos void
1.1.1.3  christos tearDown(void)
    1.1  christos {
1.1.1.4  christos 	return;
1.1.1.3  christos }
    1.1  christos
    1.1  christos static const int KEYTYPE = KEY_TYPE_MD5;
    1.1  christos
1.1.1.3  christos void
1.1.1.4  christos AddTrustedKey(keyid_t keyno)
1.1.1.4  christos {
    1.1  christos 	/*
    1.1  christos 	 * We need to add a MD5-key in addition to setting the
    1.1  christos 	 * trust, because authhavekey() requires type != 0.
    1.1  christos 	 */
1.1.1.6  christos 	MD5auth_setkey(keyno, KEYTYPE, NULL, 0, NULL);
    1.1  christos
    1.1  christos 	authtrust(keyno, TRUE);
1.1.1.4  christos
1.1.1.4  christos 	return;
    1.1  christos }
    1.1  christos
1.1.1.3  christos void
1.1.1.4  christos AddUntrustedKey(keyid_t keyno)
1.1.1.4  christos {
    1.1  christos 	authtrust(keyno, FALSE);
1.1.1.4  christos
1.1.1.4  christos 	return;
    1.1  christos }
    1.1  christos
1.1.1.3  christos void
1.1.1.4  christos test_AddTrustedKeys(void)
1.1.1.4  christos {
    1.1  christos 	const keyid_t KEYNO1 = 5;
    1.1  christos 	const keyid_t KEYNO2 = 8;
    1.1  christos
    1.1  christos 	AddTrustedKey(KEYNO1);
    1.1  christos 	AddTrustedKey(KEYNO2);
    1.1  christos
    1.1  christos 	TEST_ASSERT_TRUE(authistrusted(KEYNO1));
    1.1  christos 	TEST_ASSERT_TRUE(authistrusted(KEYNO2));
1.1.1.4  christos
1.1.1.4  christos 	return;
    1.1  christos }
    1.1  christos
1.1.1.3  christos void
1.1.1.4  christos test_AddUntrustedKey(void)
1.1.1.4  christos {
    1.1  christos 	const keyid_t KEYNO = 3;
    1.1  christos
    1.1  christos 	AddUntrustedKey(KEYNO);
    1.1  christos
    1.1  christos 	TEST_ASSERT_FALSE(authistrusted(KEYNO));
1.1.1.4  christos
1.1.1.4  christos 	return;
    1.1  christos }
    1.1  christos
1.1.1.3  christos void
1.1.1.4  christos test_HaveKeyCorrect(void)
1.1.1.4  christos {
    1.1  christos 	const keyid_t KEYNO = 3;
    1.1  christos
    1.1  christos 	AddTrustedKey(KEYNO);
    1.1  christos
    1.1  christos 	TEST_ASSERT_TRUE(auth_havekey(KEYNO));
    1.1  christos 	TEST_ASSERT_TRUE(authhavekey(KEYNO));
1.1.1.4  christos
1.1.1.4  christos 	return;
    1.1  christos }
    1.1  christos
1.1.1.3  christos void
1.1.1.4  christos test_HaveKeyIncorrect(void)
1.1.1.4  christos {
    1.1  christos 	const keyid_t KEYNO = 2;
    1.1  christos
    1.1  christos 	TEST_ASSERT_FALSE(auth_havekey(KEYNO));
    1.1  christos 	TEST_ASSERT_FALSE(authhavekey(KEYNO));
1.1.1.4  christos
1.1.1.4  christos 	return;
    1.1  christos }
    1.1  christos
1.1.1.3  christos void
1.1.1.4  christos test_AddWithAuthUseKey(void)
1.1.1.4  christos {
    1.1  christos 	const keyid_t KEYNO = 5;
    1.1  christos 	const char* KEY = "52a";
    1.1  christos
1.1.1.4  christos 	TEST_ASSERT_TRUE(authusekey(KEYNO, KEYTYPE, (const u_char*)KEY));
1.1.1.4  christos
1.1.1.4  christos 	return;
    1.1  christos }
    1.1  christos
1.1.1.3  christos void
1.1.1.4  christos test_EmptyKey(void)
1.1.1.4  christos {
    1.1  christos 	const keyid_t KEYNO = 3;
    1.1  christos 	const char* KEY = "";
    1.1  christos
    1.1  christos
1.1.1.4  christos 	TEST_ASSERT_FALSE(authusekey(KEYNO, KEYTYPE, (const u_char*)KEY));
1.1.1.4  christos
1.1.1.4  christos 	return;
    1.1  christos }
1.1.1.6  christos
1.1.1.6  christos /* test the implementation of 'auth_log2' -- use a local copy of the code */
1.1.1.6  christos
1.1.1.6  christos static u_short
1.1.1.6  christos auth_log2(
1.1.1.6  christos 	size_t x)
1.1.1.6  christos {
1.1.1.6  christos 	int	s;
1.1.1.6  christos 	int	r = 0;
1.1.1.6  christos 	size_t  m = ~(size_t)0;
1.1.1.6  christos
1.1.1.6  christos 	for (s = sizeof(size_t) / 2 * CHAR_BIT; s != 0; s >>= 1) {
1.1.1.6  christos 		m <<= s;
1.1.1.6  christos 		if (x & m)
1.1.1.6  christos 			r += s;
1.1.1.6  christos 		else
1.1.1.6  christos 			x <<= s;
1.1.1.6  christos 	}
1.1.1.6  christos 	return (u_short)r;
1.1.1.6  christos }
1.1.1.6  christos
1.1.1.6  christos void
1.1.1.6  christos test_auth_log2(void)
1.1.1.6  christos {
1.1.1.6  christos 	int	l2;
1.1.1.6  christos 	size_t	tv;
1.1.1.6  christos
1.1.1.6  christos 	TEST_ASSERT_EQUAL_INT(0, auth_log2(0));
1.1.1.6  christos 	TEST_ASSERT_EQUAL_INT(0, auth_log2(1));
1.1.1.6  christos 	for (l2 = 1; l2 < sizeof(size_t)*CHAR_BIT; ++l2) {
1.1.1.6  christos 		tv = (size_t)1 << l2;
1.1.1.6  christos 		TEST_ASSERT_EQUAL_INT(l2, auth_log2(   tv   ));
1.1.1.6  christos 		TEST_ASSERT_EQUAL_INT(l2, auth_log2( tv + 1 ));
1.1.1.6  christos 		TEST_ASSERT_EQUAL_INT(l2, auth_log2(2*tv - 1));
1.1.1.6  christos 	}
1.1.1.6  christos }