/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include #include "ua_util_internal.h" #include #include "check.h" START_TEST(EndpointUrl_split) { UA_String hostname = UA_STRING_NULL; UA_String path = UA_STRING_NULL; UA_UInt16 port = 0; // check for too short url UA_String endPointUrl = UA_STRING("inv.ali:/"); ck_assert_uint_eq(UA_parseEndpointUrl(&endPointUrl, &hostname, &port, &path), UA_STATUSCODE_BADTCPENDPOINTURLINVALID); // check for opc.tcp:// protocol endPointUrl = UA_STRING("inv.ali://"); ck_assert_uint_eq(UA_parseEndpointUrl(&endPointUrl, &hostname, &port, &path), UA_STATUSCODE_BADTCPENDPOINTURLINVALID); // empty url endPointUrl = UA_STRING("opc.tcp://"); ck_assert_uint_eq(UA_parseEndpointUrl(&endPointUrl, &hostname, &port, &path), UA_STATUSCODE_BADTCPENDPOINTURLINVALID); ck_assert(UA_String_equal(&hostname, &UA_STRING_NULL)); ck_assert_uint_eq(port, 0); ck_assert(UA_String_equal(&path, &UA_STRING_NULL)); // only hostname endPointUrl = UA_STRING("opc.tcp://hostname"); ck_assert_uint_eq(UA_parseEndpointUrl(&endPointUrl, &hostname, &port, &path), UA_STATUSCODE_GOOD); UA_String expected = UA_STRING("hostname"); ck_assert(UA_String_equal(&hostname, &expected)); ck_assert_uint_eq(port, 0); ck_assert(UA_String_equal(&path, &UA_STRING_NULL)); // empty port endPointUrl = UA_STRING("opc.tcp://hostname:"); ck_assert_uint_eq(UA_parseEndpointUrl(&endPointUrl, &hostname, &port, &path), UA_STATUSCODE_BADTCPENDPOINTURLINVALID); ck_assert(UA_String_equal(&hostname, &expected)); ck_assert_uint_eq(port, 0); ck_assert(UA_String_equal(&path, &UA_STRING_NULL)); // specific port endPointUrl = UA_STRING("opc.tcp://hostname:1234"); ck_assert_uint_eq(UA_parseEndpointUrl(&endPointUrl, &hostname, &port, &path), UA_STATUSCODE_GOOD); ck_assert(UA_String_equal(&hostname, &expected)); ck_assert_uint_eq(port, 1234); ck_assert(UA_String_equal(&path, &UA_STRING_NULL)); // IPv6 endPointUrl = UA_STRING("opc.tcp://[2001:0db8:85a3::8a2e:0370:7334]:1234/path"); ck_assert_uint_eq(UA_parseEndpointUrl(&endPointUrl, &hostname, &port, &path), UA_STATUSCODE_GOOD); expected = UA_STRING("2001:0db8:85a3::8a2e:0370:7334"); UA_String expectedPath = UA_STRING("path"); ck_assert(UA_String_equal(&hostname, &expected)); ck_assert_uint_eq(port, 1234); ck_assert(UA_String_equal(&path, &expectedPath)); // invalid IPv6: missing ] endPointUrl = UA_STRING("opc.tcp://[2001:0db8:85a3::8a2e:0370:7334"); ck_assert_uint_eq(UA_parseEndpointUrl(&endPointUrl, &hostname, &port, &path), UA_STATUSCODE_BADTCPENDPOINTURLINVALID); // empty hostname endPointUrl = UA_STRING("opc.tcp://:"); port = 0; path = UA_STRING_NULL; ck_assert_uint_eq(UA_parseEndpointUrl(&endPointUrl, &hostname, &port, &path), UA_STATUSCODE_BADTCPENDPOINTURLINVALID); ck_assert(UA_String_equal(&hostname, &UA_STRING_NULL)); ck_assert_uint_eq(port, 0); ck_assert(UA_String_equal(&path, &UA_STRING_NULL)); // empty hostname and no port endPointUrl = UA_STRING("opc.tcp:///"); ck_assert_uint_eq(UA_parseEndpointUrl(&endPointUrl, &hostname, &port, &path), UA_STATUSCODE_GOOD); ck_assert(UA_String_equal(&hostname, &UA_STRING_NULL)); ck_assert_uint_eq(port, 0); ck_assert(UA_String_equal(&path, &UA_STRING_NULL)); // overlength port endPointUrl = UA_STRING("opc.tcp://hostname:12345678"); ck_assert_uint_eq(UA_parseEndpointUrl(&endPointUrl, &hostname, &port, &path), UA_STATUSCODE_BADTCPENDPOINTURLINVALID); // port not a number endPointUrl = UA_STRING("opc.tcp://hostname:6x6"); ck_assert_uint_eq(UA_parseEndpointUrl(&endPointUrl, &hostname, &port, &path), UA_STATUSCODE_BADTCPENDPOINTURLINVALID); expected = UA_STRING("hostname"); ck_assert(UA_String_equal(&hostname, &expected)); ck_assert_uint_eq(port, 0); ck_assert(UA_String_equal(&path, &UA_STRING_NULL)); // no port but path endPointUrl = UA_STRING("opc.tcp://hostname/"); ck_assert_uint_eq(UA_parseEndpointUrl(&endPointUrl, &hostname, &port, &path), UA_STATUSCODE_GOOD); ck_assert(UA_String_equal(&hostname, &expected)); ck_assert_uint_eq(port, 0); ck_assert(UA_String_equal(&path, &UA_STRING_NULL)); // port and path endPointUrl = UA_STRING("opc.tcp://hostname:1234/path"); ck_assert_uint_eq(UA_parseEndpointUrl(&endPointUrl, &hostname, &port, &path), UA_STATUSCODE_GOOD); ck_assert(UA_String_equal(&hostname, &expected)); ck_assert_uint_eq(port, 1234); ck_assert(UA_String_equal(&path, &expectedPath)); // port and path with a slash endPointUrl = UA_STRING("opc.tcp://hostname:1234/path/"); ck_assert_uint_eq(UA_parseEndpointUrl(&endPointUrl, &hostname, &port, &path), UA_STATUSCODE_GOOD); ck_assert(UA_String_equal(&hostname, &expected)); ck_assert_uint_eq(port, 1234); ck_assert(UA_String_equal(&path, &expectedPath)); } END_TEST START_TEST(EndpointUrl_ethernet) { UA_String target; UA_UInt16 vid = 0; UA_Byte pcp = 0; UA_String expected; // check for too short url UA_String endPointUrl = UA_STRING("inv.ali:/"); ck_assert_uint_eq(UA_parseEndpointUrlEthernet(&endPointUrl, &target, &vid, &pcp), UA_STATUSCODE_BADINTERNALERROR); ck_assert_uint_eq(vid, 0); ck_assert_uint_eq(pcp, 0); // long enough, but malformed endPointUrl = UA_STRING("opc.eth.//target:"); ck_assert_uint_eq(UA_parseEndpointUrlEthernet(&endPointUrl, &target, &vid, &pcp), UA_STATUSCODE_BADINTERNALERROR); // valid without vid and pcp but leading ':' endPointUrl = UA_STRING("opc.eth://target:"); ck_assert_uint_eq(UA_parseEndpointUrlEthernet(&endPointUrl, &target, &vid, &pcp), UA_STATUSCODE_BADINTERNALERROR); ck_assert_uint_eq(vid, 0); ck_assert_uint_eq(pcp, 0); // without pcp and vid as non decimal endPointUrl = UA_STRING("opc.eth://target:abc"); ck_assert_uint_eq(UA_parseEndpointUrlEthernet(&endPointUrl, &target, &vid, &pcp), UA_STATUSCODE_BADINTERNALERROR); ck_assert_uint_eq(vid, 0); ck_assert_uint_eq(pcp, 0); // pcp as non decimal endPointUrl = UA_STRING("opc.eth://target:100.abc"); ck_assert_uint_eq(UA_parseEndpointUrlEthernet(&endPointUrl, &target, &vid, &pcp), UA_STATUSCODE_BADINTERNALERROR); ck_assert_uint_eq(vid, 100); ck_assert_uint_eq(pcp, 0); // valid without pcp but leading '.' endPointUrl = UA_STRING("opc.eth://target:100."); ck_assert_uint_eq(UA_parseEndpointUrlEthernet(&endPointUrl, &target, &vid, &pcp), UA_STATUSCODE_BADINTERNALERROR); ck_assert_uint_eq(vid, 100); ck_assert_uint_eq(pcp, 0); // valid without pcp endPointUrl = UA_STRING("opc.eth://target:100"); ck_assert_uint_eq(UA_parseEndpointUrlEthernet(&endPointUrl, &target, &vid, &pcp), UA_STATUSCODE_GOOD); expected = UA_STRING("target"); ck_assert(UA_String_equal(&target, &expected)); ck_assert_uint_eq(vid, 100); ck_assert_uint_eq(pcp, 0); // valid endPointUrl = UA_STRING("opc.eth://target:100.7"); ck_assert_uint_eq(UA_parseEndpointUrlEthernet(&endPointUrl, &target, &vid, &pcp), UA_STATUSCODE_GOOD); expected = UA_STRING("target"); ck_assert(UA_String_equal(&target, &expected)); ck_assert_uint_eq(vid, 100); ck_assert_uint_eq(pcp, 7); } END_TEST START_TEST(readNumber) { UA_UInt32 result; ck_assert_uint_eq(UA_readNumber((UA_Byte*)"x", 1, &result), 0); ck_assert_uint_eq(UA_readNumber((UA_Byte*)"1x", 2, &result), 1); ck_assert_uint_eq(result, 1); ck_assert_uint_eq(UA_readNumber((UA_Byte*)"123456789", 9, &result), 9); ck_assert_uint_eq(result, 123456789); } END_TEST START_TEST(stringCompare) { UA_String sa1 = UA_String_fromChars("A"); UA_String sa2 = UA_String_fromChars("a"); UA_String s1 = UA_String_fromChars("SomeLongString"); UA_String s2 = UA_String_fromChars("SomeLongString"); UA_String s3 = UA_String_fromChars("somelongstring"); UA_String s4 = UA_String_fromChars("somelongstring "); // same string ck_assert(UA_String_equal(&sa1, &sa1)); ck_assert(UA_String_equal_ignorecase(&sa1, &sa1)); // case sensitive ck_assert(!UA_String_equal(&sa1, &sa2)); // case insensitive ck_assert(UA_String_equal_ignorecase(&sa1, &sa2)); // same string ck_assert(UA_String_equal(&s1, &s2)); ck_assert(UA_String_equal_ignorecase(&s1, &s2)); // case sensitive ck_assert(!UA_String_equal(&s1, &s3)); // case insensitive ck_assert(UA_String_equal_ignorecase(&s1, &s3)); // different length ck_assert(!UA_String_equal(&s3, &s4)); ck_assert(!UA_String_equal_ignorecase(&s3, &s4)); UA_String_clear(&sa1); UA_String_clear(&sa2); UA_String_clear(&s1); UA_String_clear(&s2); UA_String_clear(&s3); UA_String_clear(&s4); } END_TEST START_TEST(readNumberWithBase) { UA_UInt32 result; ck_assert_uint_eq(UA_readNumberWithBase((UA_Byte*)"g", 1, &result, 16), 0); ck_assert_uint_eq(UA_readNumberWithBase((UA_Byte*)"f", 1, &result, 16), 1); ck_assert_uint_eq(result, 15); ck_assert_uint_eq(UA_readNumberWithBase((UA_Byte*)"F", 1, &result, 16), 1); ck_assert_uint_eq(result, 15); ck_assert_uint_eq(UA_readNumberWithBase((UA_Byte*)"1x", 2, &result, 16), 1); ck_assert_uint_eq(result, 1); ck_assert_uint_eq(UA_readNumberWithBase((UA_Byte*)"12345678", 9, &result, 16), 8); ck_assert_uint_eq(result, 0x12345678); ck_assert_uint_eq(UA_readNumberWithBase((UA_Byte*)"123456789", 9, &result, 8), 7); ck_assert_uint_eq(result, 01234567); } END_TEST START_TEST(StatusCode_msg) { #ifndef UA_ENABLE_STATUSCODE_DESCRIPTIONS return; #endif // first element in table ck_assert_str_eq(UA_StatusCode_name(UA_STATUSCODE_GOOD), "Good"); // just some randomly picked status codes ck_assert_str_eq(UA_StatusCode_name(UA_STATUSCODE_BADNOCOMMUNICATION), "BadNoCommunication"); ck_assert_str_eq(UA_StatusCode_name(UA_STATUSCODE_GOODNODATA), "GoodNoData"); // last element in table ck_assert_str_eq(UA_StatusCode_name(UA_STATUSCODE_BADMAXCONNECTIONSREACHED), "BadMaxConnectionsReached"); // an invalid status code ck_assert_str_eq(UA_StatusCode_name(0x70123456), "Unknown StatusCode"); } END_TEST static void assertNodeIdString(const UA_String *gotStr, const char* expectedStr) { size_t expectedStringLength = strlen(expectedStr); ck_assert_uint_eq(gotStr->length, expectedStringLength); char *gotChars = (char*)UA_malloc(gotStr->length+1); memcpy(gotChars, gotStr->data, gotStr->length); gotChars[gotStr->length] = 0; ck_assert_str_eq(gotChars, expectedStr); UA_free(gotChars); } START_TEST(idToStringNull) { UA_String str = UA_STRING_NULL; ck_assert_int_eq(UA_NodeId_print(NULL, &str), UA_STATUSCODE_GOOD); } END_TEST START_TEST(idToStringNumeric) { UA_NodeId n; UA_String str = UA_STRING_NULL; n = UA_NODEID_NUMERIC(0,0); UA_NodeId_print(&n, &str); assertNodeIdString(&str, "i=0"); n = UA_NODEID_NUMERIC(12345,1234567890); UA_NodeId_print(&n, &str); assertNodeIdString(&str, "ns=12345;i=1234567890"); n = UA_NODEID_NUMERIC(0xFFFF,0xFFFFFFFF); UA_NodeId_print(&n, &str); assertNodeIdString(&str, "ns=65535;i=4294967295"); UA_String_clear(&str); } END_TEST START_TEST(idToStringString) { UA_NodeId n; UA_String str = UA_STRING_NULL; n = UA_NODEID_STRING(0,""); UA_NodeId_print(&n, &str); assertNodeIdString(&str, "s="); n = UA_NODEID_STRING(54321,"Some String"); UA_NodeId_print(&n, &str); assertNodeIdString(&str, "ns=54321;s=Some String"); n = UA_NODEID_STRING(0,"Some String"); UA_NodeId_print(&n, &str); assertNodeIdString(&str, "s=Some String"); UA_String_clear(&str); } END_TEST START_TEST(idToStringGuid) { UA_NodeId n; UA_String str = UA_STRING_NULL; UA_Guid g = UA_GUID_NULL; n = UA_NODEID_GUID(0,UA_GUID_NULL); UA_NodeId_print(&n, &str); assertNodeIdString(&str, "g=00000000-0000-0000-0000-000000000000"); g.data1 = 0xA123456C; g.data2 = 0x0ABC; g.data3 = 0x1A2B; g.data4[0] = 0x81; g.data4[1] = 0x5F; g.data4[2] = 0x68; g.data4[3] = 0x72; g.data4[4] = 0x12; g.data4[5] = 0xAA; g.data4[6] = 0xEE; g.data4[7] = 0x1B; n = UA_NODEID_GUID(65535,g); UA_NodeId_print(&n, &str); assertNodeIdString(&str, "ns=65535;g=a123456c-0abc-1a2b-815f-687212aaee1b"); g.data1 = 0xFFFFFFFF; g.data2 = 0xFFFF; g.data3 = 0xFFFF; g.data4[0] = 0xFF; g.data4[1] = 0xFF; g.data4[2] = 0xFF; g.data4[3] = 0xFF; g.data4[4] = 0xFF; g.data4[5] = 0xFF; g.data4[6] = 0xFF; g.data4[7] = 0xFF; n = UA_NODEID_GUID(65535,g); UA_NodeId_print(&n, &str); assertNodeIdString(&str, "ns=65535;g=ffffffff-ffff-ffff-ffff-ffffffffffff"); UA_String_clear(&str); } END_TEST START_TEST(idToStringByte) { UA_NodeId n; UA_String str = UA_STRING_NULL; n.namespaceIndex = 0; n.identifierType = UA_NODEIDTYPE_BYTESTRING; n.identifier.byteString.data = NULL; n.identifier.byteString.length = 0; UA_NodeId_print(&n, &str); assertNodeIdString(&str, "b="); UA_ByteString bs = UA_BYTESTRING_NULL; bs.length = 1; bs.data = (UA_Byte*)UA_malloc(bs.length); bs.data[0] = 0x00; n.identifier.byteString = bs; n.namespaceIndex = 123; UA_NodeId_print(&n, &str); assertNodeIdString(&str, "ns=123;b=AA=="); UA_free(bs.data); bs.length = 1; bs.data = (UA_Byte*)UA_malloc(bs.length); bs.data[0] = 0x2C; n.identifier.byteString = bs; n.namespaceIndex = 123; UA_NodeId_print(&n, &str); assertNodeIdString(&str, "ns=123;b=LA=="); UA_free(bs.data); bs.length = 5; bs.data = (UA_Byte*)UA_malloc(bs.length); bs.data[0] = 0x21; bs.data[1] = 0x83; bs.data[2] = 0xE0; bs.data[3] = 0x54; bs.data[4] = 0x78; n.identifier.byteString = bs; n.namespaceIndex = 599; UA_NodeId_print(&n, &str); assertNodeIdString(&str, "ns=599;b=IYPgVHg="); UA_free(bs.data); UA_String_clear(&str); } END_TEST START_TEST(idOrderNs) { UA_NodeId id_ns1 = UA_NODEID_NUMERIC(1, 12345); UA_NodeId id_ns3 = UA_NODEID_NUMERIC(3, 12345); ck_assert(UA_NodeId_order(&id_ns1, &id_ns1) == UA_ORDER_EQ); ck_assert(UA_NodeId_order(&id_ns1, &id_ns3) == UA_ORDER_LESS); ck_assert(UA_NodeId_order(&id_ns3, &id_ns1) == UA_ORDER_MORE); } END_TEST START_TEST(idOrderIdentifier) { UA_NodeId id_num = UA_NODEID_NUMERIC(1, 12345); UA_NodeId id_str = UA_NODEID_STRING(1, "asdf"); ck_assert(UA_NodeId_order(&id_num, &id_num) == UA_ORDER_EQ); ck_assert(UA_NodeId_order(&id_num, &id_str) == UA_ORDER_LESS); ck_assert(UA_NodeId_order(&id_str, &id_num) == UA_ORDER_MORE); } END_TEST START_TEST(idOrderNumeric) { UA_NodeId id_num_12345 = UA_NODEID_NUMERIC(1, 12345); UA_NodeId id_num_23456 = UA_NODEID_NUMERIC(1, 23456); ck_assert(UA_NodeId_order(&id_num_12345, &id_num_12345) == UA_ORDER_EQ); ck_assert(UA_NodeId_order(&id_num_12345, &id_num_23456) == UA_ORDER_LESS); ck_assert(UA_NodeId_order(&id_num_23456, &id_num_12345) == UA_ORDER_MORE); } END_TEST START_TEST(idOrderGuid) { // See also https://github.com/open62541/open62541/pull/2904#issuecomment-514111395 // 00000000-FFFF-FFFF-FFFFFFFFFFFF, UA_Guid guid1 = { 0, 0xffff, 0xffff, { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff } }; // 00000001-0000-0000-000000000000 UA_Guid guid2 = { 0x1, 0, 0, { 0, 0, 0, 0, 0, 0, 0, 0 } }; // 00000000-0000-FFFF-FFFFFFFFFFFF UA_Guid guid3 = { 0, 0, 0xffff, { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff } }; // 00000000-0001-0000-000000000000 UA_Guid guid4 = { 0, 0x1, 0, { 0, 0, 0, 0, 0, 0, 0, 0 } }; // 00000000-0000-0000-FFFFFFFFFFFF UA_Guid guid5 = { 0, 0, 0, { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff } }; // 00000000-0000-0001-000000000000 UA_Guid guid6 = { 0, 0, 0x1, { 0, 0, 0, 0, 0, 0, 0, 0 } }; // 00000000-0000-0000-000000000000 UA_Guid guid7 = { 0, 0, 0, { 0, 0, 0, 0, 0, 0, 0, 0 } }; // 00000000-0000-0000-000000000001 UA_Guid guid8 = { 0, 0, 0, { 0, 0, 0, 0, 0, 0, 0, 0x1 } }; UA_NodeId id_guid_1 = UA_NODEID_GUID(1, guid1); UA_NodeId id_guid_2 = UA_NODEID_GUID(1, guid2); ck_assert(UA_NodeId_order(&id_guid_1, &id_guid_1) == UA_ORDER_EQ); ck_assert(UA_NodeId_order(&id_guid_1, &id_guid_2) == UA_ORDER_LESS); ck_assert(UA_NodeId_order(&id_guid_2, &id_guid_1) == UA_ORDER_MORE); UA_NodeId id_guid_3 = UA_NODEID_GUID(1, guid3); UA_NodeId id_guid_4 = UA_NODEID_GUID(1, guid4); ck_assert(UA_NodeId_order(&id_guid_3, &id_guid_3) == UA_ORDER_EQ); ck_assert(UA_NodeId_order(&id_guid_3, &id_guid_4) == UA_ORDER_LESS); ck_assert(UA_NodeId_order(&id_guid_4, &id_guid_3) == UA_ORDER_MORE); UA_NodeId id_guid_5 = UA_NODEID_GUID(1, guid5); UA_NodeId id_guid_6 = UA_NODEID_GUID(1, guid6); ck_assert(UA_NodeId_order(&id_guid_5, &id_guid_5) == UA_ORDER_EQ); ck_assert(UA_NodeId_order(&id_guid_5, &id_guid_2) == UA_ORDER_LESS); ck_assert(UA_NodeId_order(&id_guid_6, &id_guid_5) == UA_ORDER_MORE); UA_NodeId id_guid_7 = UA_NODEID_GUID(1, guid7); UA_NodeId id_guid_8 = UA_NODEID_GUID(1, guid8); ck_assert(UA_NodeId_order(&id_guid_7, &id_guid_7) == UA_ORDER_EQ); ck_assert(UA_NodeId_order(&id_guid_7, &id_guid_8) == UA_ORDER_LESS); ck_assert(UA_NodeId_order(&id_guid_8, &id_guid_7) == UA_ORDER_MORE); } END_TEST START_TEST(idOrderString) { UA_NodeId id_str_a = UA_NODEID_STRING(1, "aaaaa"); UA_NodeId id_str_b = UA_NODEID_STRING(1, "baa"); ck_assert(UA_NodeId_order(&id_str_a, &id_str_a) == UA_ORDER_EQ); ck_assert(UA_NodeId_order(&id_str_a, &id_str_b) == UA_ORDER_MORE); ck_assert(UA_NodeId_order(&id_str_b, &id_str_a) == UA_ORDER_LESS); UA_NodeId id_str_c = UA_NODEID_STRING(1, "cddd"); UA_NodeId id_str_d = UA_NODEID_STRING(1, "dddd"); ck_assert(UA_NodeId_order(&id_str_c, &id_str_c) == UA_ORDER_EQ); ck_assert(UA_NodeId_order(&id_str_c, &id_str_d) == UA_ORDER_LESS); ck_assert(UA_NodeId_order(&id_str_d, &id_str_c) == UA_ORDER_MORE); } END_TEST static Suite* testSuite_Utils(void) { Suite *s = suite_create("Utils"); TCase *tc_endpointUrl_split = tcase_create("EndpointUrl_split"); tcase_add_test(tc_endpointUrl_split, EndpointUrl_split); suite_add_tcase(s,tc_endpointUrl_split); TCase *tc_endpointUrl_ethernet = tcase_create("EndpointUrl_ethernet"); tcase_add_test(tc_endpointUrl_ethernet, EndpointUrl_ethernet); suite_add_tcase(s,tc_endpointUrl_ethernet); TCase *tc_utils = tcase_create("Utils"); tcase_add_test(tc_utils, readNumber); tcase_add_test(tc_utils, readNumberWithBase); tcase_add_test(tc_utils, StatusCode_msg); tcase_add_test(tc_utils, stringCompare); suite_add_tcase(s,tc_utils); TCase *tc1 = tcase_create("test nodeid string"); tcase_add_test(tc1, idToStringNull); tcase_add_test(tc1, idToStringNumeric); tcase_add_test(tc1, idToStringString); tcase_add_test(tc1, idToStringGuid); tcase_add_test(tc1, idToStringByte); suite_add_tcase(s, tc1); TCase *tc2 = tcase_create("test nodeid order"); tcase_add_test(tc1, idOrderNs); tcase_add_test(tc1, idOrderIdentifier); tcase_add_test(tc1, idOrderNumeric); tcase_add_test(tc1, idOrderGuid); tcase_add_test(tc1, idOrderString); suite_add_tcase(s, tc2); return s; } int main(void) { Suite *s = testSuite_Utils(); SRunner *sr = srunner_create(s); srunner_set_fork_status(sr, CK_NOFORK); srunner_run_all(sr,CK_NORMAL); int number_failed = srunner_ntests_failed(sr); srunner_free(sr); return (number_failed == 0) ? EXIT_SUCCESS : EXIT_FAILURE; }