#include "config.h" #include "ntp_debug.h" #include "ntp_stdlib.h" #include "ntp_types.h" #include "sntptest.h" #include "kod_management.h" #include "main.h" #include "networking.h" #include "ntp.h" #include "unity.h" void setUp(void); int LfpEquality(const l_fp expected, const l_fp actual); void test_GenerateUnauthenticatedPacket(void); void test_GenerateAuthenticatedPacket(void); void test_OffsetCalculationPositiveOffset(void); void test_OffsetCalculationNegativeOffset(void); void test_HandleUnusableServer(void); void test_HandleUnusablePacket(void); void test_HandleServerAuthenticationFailure(void); void test_HandleKodDemobilize(void); void test_HandleKodRate(void); void test_HandleCorrectPacket(void); void setUp(void) { init_lib(); } int LfpEquality(const l_fp expected, const l_fp actual) { if (L_ISEQU(&expected, &actual)) return TRUE; else return FALSE; } void test_GenerateUnauthenticatedPacket(void) { struct pkt testpkt; struct timeval xmt; GETTIMEOFDAY(&xmt, NULL); xmt.tv_sec += JAN_1970; TEST_ASSERT_EQUAL(LEN_PKT_NOMAC, generate_pkt(&testpkt, &xmt, 0, NULL)); TEST_ASSERT_EQUAL(LEAP_NOTINSYNC, PKT_LEAP(testpkt.li_vn_mode)); TEST_ASSERT_EQUAL(NTP_VERSION, PKT_VERSION(testpkt.li_vn_mode)); TEST_ASSERT_EQUAL(MODE_CLIENT, PKT_MODE(testpkt.li_vn_mode)); TEST_ASSERT_EQUAL(STRATUM_UNSPEC, PKT_TO_STRATUM(testpkt.stratum)); TEST_ASSERT_EQUAL(8, testpkt.ppoll); l_fp expected_xmt, actual_xmt; TVTOTS(&xmt, &expected_xmt); NTOHL_FP(&testpkt.xmt, &actual_xmt); TEST_ASSERT_TRUE(LfpEquality(expected_xmt, actual_xmt)); } void test_GenerateAuthenticatedPacket(void) { struct key testkey; testkey.next = NULL; testkey.key_id = 30; testkey.key_len = 9; memcpy(testkey.key_seq, "123456789", testkey.key_len); memcpy(testkey.type, "MD5", 3); struct pkt testpkt; struct timeval xmt; GETTIMEOFDAY(&xmt, NULL); xmt.tv_sec += JAN_1970; const int EXPECTED_PKTLEN = LEN_PKT_NOMAC + MAX_MD5_LEN; TEST_ASSERT_EQUAL(EXPECTED_PKTLEN, generate_pkt(&testpkt, &xmt, testkey.key_id, &testkey)); TEST_ASSERT_EQUAL(LEAP_NOTINSYNC, PKT_LEAP(testpkt.li_vn_mode)); TEST_ASSERT_EQUAL(NTP_VERSION, PKT_VERSION(testpkt.li_vn_mode)); TEST_ASSERT_EQUAL(MODE_CLIENT, PKT_MODE(testpkt.li_vn_mode)); TEST_ASSERT_EQUAL(STRATUM_UNSPEC, PKT_TO_STRATUM(testpkt.stratum)); TEST_ASSERT_EQUAL(8, testpkt.ppoll); l_fp expected_xmt, actual_xmt; TVTOTS(&xmt, &expected_xmt); NTOHL_FP(&testpkt.xmt, &actual_xmt); TEST_ASSERT_TRUE(LfpEquality(expected_xmt, actual_xmt)); TEST_ASSERT_EQUAL(testkey.key_id, ntohl(testpkt.exten[0])); char expected_mac[MAX_MD5_LEN]; TEST_ASSERT_EQUAL(MAX_MD5_LEN - 4, // Remove the key_id, only keep the mac. make_mac((char*)&testpkt, LEN_PKT_NOMAC, MAX_MD5_LEN, &testkey, expected_mac)); TEST_ASSERT_EQUAL_MEMORY(expected_mac, (char*)&testpkt.exten[1], MAX_MD5_LEN -4); } void test_OffsetCalculationPositiveOffset(void) { struct pkt rpkt; rpkt.precision = -16; // 0,000015259 rpkt.rootdelay = HTONS_FP(DTOUFP(0.125)); rpkt.rootdisp = HTONS_FP(DTOUFP(0.25)); // Synch Distance: (0.125+0.25)/2.0 == 0.1875 l_fp reftime; get_systime(&reftime); HTONL_FP(&reftime, &rpkt.reftime); l_fp tmp; // T1 - Originate timestamp tmp.l_ui = 1000000000UL; tmp.l_uf = 0UL; HTONL_FP(&tmp, &rpkt.org); // T2 - Receive timestamp tmp.l_ui = 1000000001UL; tmp.l_uf = 2147483648UL; HTONL_FP(&tmp, &rpkt.rec); // T3 - Transmit timestamp tmp.l_ui = 1000000002UL; tmp.l_uf = 0UL; HTONL_FP(&tmp, &rpkt.xmt); // T4 - Destination timestamp as standard timeval tmp.l_ui = 1000000001UL; tmp.l_uf = 0UL; struct timeval dst; TSTOTV(&tmp, &dst); dst.tv_sec -= JAN_1970; double offset, precision, synch_distance; offset_calculation(&rpkt, LEN_PKT_NOMAC, &dst, &offset, &precision, &synch_distance); TEST_ASSERT_EQUAL_DOUBLE(1.25, offset); TEST_ASSERT_EQUAL_DOUBLE(1. / ULOGTOD(16), precision); // 1.1250150000000001 ? TEST_ASSERT_EQUAL_DOUBLE(1.125015, synch_distance); } void test_OffsetCalculationNegativeOffset(void) { struct pkt rpkt; rpkt.precision = -1; rpkt.rootdelay = HTONS_FP(DTOUFP(0.5)); rpkt.rootdisp = HTONS_FP(DTOUFP(0.5)); // Synch Distance is (0.5+0.5)/2.0, or 0.5 l_fp reftime; get_systime(&reftime); HTONL_FP(&reftime, &rpkt.reftime); l_fp tmp; // T1 - Originate timestamp tmp.l_ui = 1000000001UL; tmp.l_uf = 0UL; HTONL_FP(&tmp, &rpkt.org); // T2 - Receive timestamp tmp.l_ui = 1000000000UL; tmp.l_uf = 2147483648UL; HTONL_FP(&tmp, &rpkt.rec); // T3 - Transmit timestamp tmp.l_ui = 1000000001UL; tmp.l_uf = 2147483648UL; HTONL_FP(&tmp, &rpkt.xmt); // T4 - Destination timestamp as standard timeval tmp.l_ui = 1000000003UL; tmp.l_uf = 0UL; struct timeval dst; TSTOTV(&tmp, &dst); dst.tv_sec -= JAN_1970; double offset, precision, synch_distance; offset_calculation(&rpkt, LEN_PKT_NOMAC, &dst, &offset, &precision, &synch_distance); TEST_ASSERT_EQUAL_DOUBLE(-1, offset); TEST_ASSERT_EQUAL_DOUBLE(1. / ULOGTOD(1), precision); TEST_ASSERT_EQUAL_DOUBLE(1.3333483333333334, synch_distance); } void test_HandleUnusableServer(void) { struct pkt rpkt; sockaddr_u host; int rpktl; ZERO(rpkt); ZERO(host); rpktl = SERVER_UNUSEABLE; TEST_ASSERT_EQUAL(-1, handle_pkt(rpktl, &rpkt, &host, "")); } void test_HandleUnusablePacket(void) { struct pkt rpkt; sockaddr_u host; int rpktl; ZERO(rpkt); ZERO(host); rpktl = PACKET_UNUSEABLE; TEST_ASSERT_EQUAL(1, handle_pkt(rpktl, &rpkt, &host, "")); } void test_HandleServerAuthenticationFailure(void) { struct pkt rpkt; sockaddr_u host; int rpktl; ZERO(rpkt); ZERO(host); rpktl = SERVER_AUTH_FAIL; TEST_ASSERT_EQUAL(1, handle_pkt(rpktl, &rpkt, &host, "")); } void test_HandleKodDemobilize(void) { const char * HOSTNAME = "192.0.2.1"; const char * REASON = "DENY"; struct pkt rpkt; sockaddr_u host; int rpktl; struct kod_entry * entry; rpktl = KOD_DEMOBILIZE; ZERO(rpkt); memcpy(&rpkt.refid, REASON, 4); ZERO(host); host.sa4.sin_family = AF_INET; host.sa4.sin_addr.s_addr = inet_addr(HOSTNAME); // Test that the KOD-entry is added to the database. kod_init_kod_db("/dev/null", TRUE); TEST_ASSERT_EQUAL(1, handle_pkt(rpktl, &rpkt, &host, HOSTNAME)); TEST_ASSERT_EQUAL(1, search_entry(HOSTNAME, &entry)); TEST_ASSERT_EQUAL_MEMORY(REASON, entry->type, 4); } void test_HandleKodRate(void) { struct pkt rpkt; sockaddr_u host; int rpktl; ZERO(rpkt); ZERO(host); rpktl = KOD_RATE; TEST_ASSERT_EQUAL(1, handle_pkt(rpktl, &rpkt, &host, "")); } void test_HandleCorrectPacket(void) { struct pkt rpkt; sockaddr_u host; int rpktl; l_fp now; // We don't want our testing code to actually change the system clock. TEST_ASSERT_FALSE(ENABLED_OPT(STEP)); TEST_ASSERT_FALSE(ENABLED_OPT(SLEW)); get_systime(&now); HTONL_FP(&now, &rpkt.reftime); HTONL_FP(&now, &rpkt.org); HTONL_FP(&now, &rpkt.rec); HTONL_FP(&now, &rpkt.xmt); rpktl = LEN_PKT_NOMAC; ZERO(host); AF(&host) = AF_INET; TEST_ASSERT_EQUAL(0, handle_pkt(rpktl, &rpkt, &host, "")); } /* packetHandling.c */