/* Timelib test_timelib.c Copyright (C) Jakub Hrozek 2009 This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. 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, see . */ #define _XOPEN_SOURCE /* strptime */ #include #include #include #include #include #include #include "providers/ipa/ipa_timerules.h" #include "util/util.h" #include "tests/common.h" #define CHECK_TIME_RULE_LEAK(ctx, tctx, str, now, result) do { \ check_leaks_push(ctx); \ ret = check_time_rule(ctx, tctx, str, now, result); \ check_leaks_pop(ctx); \ } while (0) static TALLOC_CTX *ctx; static void usage(poptContext pc, const char *error) { poptPrintUsage(pc, stderr, 0); if (error) fprintf(stderr, "%s", error); } int str2time_t(const char *fmt, const char *str, time_t *out) { char *err; struct tm stm; memset(&stm, 0, sizeof(struct tm)); err = strptime(str, fmt, &stm); if(!err || err[0] != '\0') return EINVAL; DEBUG(9, ("after strptime: %s", asctime(&stm))); stm.tm_isdst = -1; *out = mktime(&stm); DEBUG(9, ("after mktime: %s", ctime(out))); return (*out == -1) ? EINVAL : EOK; } /* Fixtures - open the time library before every test, close it afterwards */ void setup(void) { leak_check_setup(); ctx = talloc_new(NULL); fail_if(ctx == NULL); } void teardown(void) { leak_check_teardown(); } /* Test that timelib detects a time rule inside the absolute range */ START_TEST(test_timelib_absolute_in_range) { time_t now; int ret; bool result; static struct time_rules_ctx *tctx = NULL; ret = init_time_rules_parser(ctx, &tctx); fail_if(ret != EOK); fail_unless(str2time_t("%F", "2000-1-1", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "absolute 199412161032.5 ~ 200512161032,5", now, &result); fail_unless(ret == EOK, "Fail to check the time rule"); fail_unless(result == true, "Range check error"); talloc_free(tctx); } END_TEST /* Test that timelib detects a time rule outside the absolute range */ START_TEST(test_timelib_absolute_out_of_range) { time_t now; int ret; bool result; static struct time_rules_ctx *tctx = NULL; ret = init_time_rules_parser(ctx, &tctx); fail_if(ret != EOK); fail_unless(str2time_t("%F", "2007-1-1", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "absolute 199412161032.5 ~ 200512161032,5", now, &result); fail_unless(ret == EOK, "Fail to check the time rule"); fail_unless(result == false, "Range check error"); talloc_free(tctx); } END_TEST /* Test that absolute timeranges work OK with only minimal data supplied */ START_TEST(test_timelib_absolute_minimal) { time_t now; int ret; bool result; static struct time_rules_ctx *tctx = NULL; ret = init_time_rules_parser(ctx, &tctx); fail_if(ret != EOK); fail_unless(str2time_t("%F", "2000-1-1", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "absolute 19941216 ~ 20051216", now, &result); fail_unless(ret == EOK, "Fail to check the time rule"); fail_unless(result == true, "Range check error"); talloc_free(tctx); } END_TEST /* Test a time value "right off the edge" of the time specifier */ START_TEST(test_timelib_absolute_one_off) { time_t now; int ret; bool result; static struct time_rules_ctx *tctx = NULL; ret = init_time_rules_parser(ctx, &tctx); fail_if(ret != EOK); fail_unless(str2time_t("%Y-%m-%d-%H-%M-%S", "1994-12-16-10-32-29", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "absolute 19941216103230 ~ 19941216103231", now, &result); fail_unless(ret == EOK, "Fail to check the time rule"); fail_unless(result == false, "Range check error"); fail_unless(str2time_t("%Y-%m-%d-%H-%M-%S", "1994-12-16-10-32-32", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "absolute 19941216103230 ~ 19941216103231", now, &result); fail_unless(ret == EOK, "Fail to check the time rule"); fail_unless(result == false, "Range check error"); talloc_free(tctx); } END_TEST /* Test a time value "right on the edge" of the time specifier */ START_TEST(test_timelib_absolute_one_on) { time_t now; int ret; bool result; static struct time_rules_ctx *tctx = NULL; ret = init_time_rules_parser(ctx, &tctx); fail_if(ret != EOK); fail_unless(str2time_t("%Y-%m-%d-%H-%M-%S", "1994-12-16-10-32-30", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "absolute 19941216103230 ~ 19941216103231", now, &result); fail_unless(ret == EOK, "Fail to check the time rule"); fail_unless(result == true, "Range check error"); fail_unless(str2time_t("%Y-%m-%d-%H-%M-%S", "1994-12-16-10-32-31", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "absolute 19941216103230 ~ 19941216103231", now, &result); fail_unless(ret == EOK, "Fail to check the time rule"); fail_unless(result == true, "Range check error"); talloc_free(tctx); } END_TEST START_TEST(test_timelib_periodic_daily_in) { time_t now; int ret; bool result; static struct time_rules_ctx *tctx = NULL; ret = init_time_rules_parser(ctx, &tctx); fail_if(ret != EOK); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-03-30-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic daily 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule"); fail_unless(result == true, "Range check error"); /* test edges */ fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-03-30-09-30", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic daily 0930 ~ 1830", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (edge1)"); fail_unless(result == true, "Range check error"); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-03-30-18-30", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic daily 0930 ~ 1830", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (edge2)"); fail_unless(result == true, "Range check error"); /* test wrap around */ fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-03-30-16-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic daily 1500 ~ 0600", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (edge1)"); fail_unless(result == true, "Range check error1"); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-03-30-15-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic daily 1500 ~ 0600", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (edge1)"); fail_unless(result == true, "Range check error1"); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-03-30-06-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic daily 1500 ~ 0600", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (edge1)"); fail_unless(result == true, "Range check error1"); talloc_free(tctx); } END_TEST START_TEST(test_timelib_periodic_daily_out) { time_t now; int ret; bool result; static struct time_rules_ctx *tctx = NULL; ret = init_time_rules_parser(ctx, &tctx); fail_if(ret != EOK); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-03-30-21-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic daily 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule"); fail_unless(result == false, "Range check error"); /* test one-off errors */ fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-03-30-09-29", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic daily 0930 ~ 1830", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (one-off 1)"); fail_unless(result == false, "Range check error"); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-03-30-18-31", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic daily 0930 ~ 1830", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (one-off 2)"); fail_unless(result == false, "Range check error"); /* test wrap around */ fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-03-30-10-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic daily 1500 ~ 0600", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (edge1)"); fail_unless(result == false, "Range check error"); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-03-30-14-59", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic daily 1500 ~ 0600", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (edge1)"); fail_unless(result == false, "Range check error1"); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-03-30-06-01", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic daily 1500 ~ 0600", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (edge1)"); fail_unless(result == false, "Range check error2"); talloc_free(tctx); } END_TEST START_TEST(test_timelib_periodic_weekly_in) { time_t now; int ret; bool result; static struct time_rules_ctx *tctx = NULL; ret = init_time_rules_parser(ctx, &tctx); fail_if(ret != EOK); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-04-02-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic weekly day Mon-Fri 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule"); fail_unless(result == true, "Range check error1"); /* test edges - monday */ fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-06-22-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic weekly day Mon-Fri 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule"); fail_unless(result == true, "Range check error2"); /* test edges - friday */ fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-06-26-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic weekly day Mon-Fri 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule"); fail_unless(result == true, "Range check error3"); /* test wrap around */ fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-11-03-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic weekly day Fri-Tue 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule"); fail_unless(result == true, "Range check error2"); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-11-06-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic weekly day Fri-Tue 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule"); fail_unless(result == true, "Range check error3"); talloc_free(tctx); } END_TEST START_TEST(test_timelib_periodic_weekly_out) { time_t now; int ret; bool result; static struct time_rules_ctx *tctx = NULL; ret = init_time_rules_parser(ctx, &tctx); fail_if(ret != EOK); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-04-04-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic weekly day Mon-Fri 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule"); fail_unless(result == false, "Range check error"); /* test one-off error - monday */ fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-06-22-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic weekly day Tue-Thu 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule"); fail_unless(result == false, "Range check error"); /* test one-off error - friday */ fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-06-26-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic weekly day Tue-Thu 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule"); fail_unless(result == false, "Range check error"); /* test wrap around */ fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-11-04-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic weekly day Fri-Tue 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule"); fail_unless(result == false, "Range check error2"); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-11-05-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic weekly day Fri-Tue 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule"); fail_unless(result == false, "Range check error3"); talloc_free(tctx); } END_TEST START_TEST(test_timelib_periodic_monthly_in) { time_t now; int ret; bool result; static struct time_rules_ctx *tctx = NULL; ret = init_time_rules_parser(ctx, &tctx); fail_if(ret != EOK); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-04-07-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic monthly week 1,2 day Mon,Tue 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule1 (ret = %d: %s)", ret, strerror(ret)); fail_unless(result == true, "Range check error"); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-04-05-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic monthly day 1-5,10,15,20-25 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule2 (ret = %d: %s)", ret, strerror(ret)); fail_unless(result == true, "Range check error"); /* edges - week in */ fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-06-13-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic monthly week 1,2 day Sat 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (week edge 1)"); fail_unless(result == true, "Range check error"); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-06-29-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic monthly week 5 day Mon,Tue 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (week edge 2)"); fail_unless(result == true, "Range check error"); /* edges - day in */ fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-04-01-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic monthly day 1-10 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (day edge 1)"); fail_unless(result == true, "Range check error"); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-04-10-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic monthly day 1-10 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (day edge 2)"); fail_unless(result == true, "Range check error"); talloc_free(tctx); } END_TEST START_TEST(test_timelib_periodic_monthly_out) { time_t now; int ret; bool result; static struct time_rules_ctx *tctx = NULL; ret = init_time_rules_parser(ctx, &tctx); fail_if(ret != EOK); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-06-03-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic monthly week 1,2 day Mon,Tue 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (ret = %d)", ret); fail_unless(result == false, "Range check error"); /* one-off error - week out */ fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-06-15-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic monthly week 1 day Sun-Sat 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (week edge 1)"); fail_unless(result == false, "Range check error"); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-06-28-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic monthly week 5 day Mon,Tue 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (week edge 2)"); fail_unless(result == false, "Range check error"); /* one-off error - day out */ fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-04-01-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic monthly day 2-10 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (day edge 1)"); fail_unless(result == false, "Range check error"); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-04-11-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic monthly day 1-10 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (day edge 2)"); fail_unless(result == false, "Range check error"); talloc_free(tctx); } END_TEST START_TEST(test_timelib_periodic_yearly_in) { time_t now; int ret; bool result; static struct time_rules_ctx *tctx = NULL; ret = init_time_rules_parser(ctx, &tctx); fail_if(ret != EOK); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-08-03-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic yearly month 1,7-8 day 1-10 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (ret = %d)", ret); fail_unless(result == true, "Range check error1"); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-01-01-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic yearly month 1,7-8 day 1-10 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (ret = %d)", ret); fail_unless(result == true, "Range check error2"); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-01-01-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic yearly week 1 day 1-7 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (ret = %d)", ret); fail_unless(result == true, "Range check error3"); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-07-10-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic yearly month 1,7-8 day 1-10 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule (ret = %d)", ret); fail_unless(result == true, "Range check error4"); talloc_free(tctx); } END_TEST START_TEST(test_timelib_periodic_yearly_out) { time_t now; int ret; bool result; static struct time_rules_ctx *tctx = NULL; ret = init_time_rules_parser(ctx, &tctx); fail_if(ret != EOK); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-06-13-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic yearly month 7-8 day 1-10 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule1 (ret = %d)", ret); fail_unless(result == false, "Range check error"); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-09-13-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic yearly month 7-8 day 1-10 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule2 (ret = %d)", ret); fail_unless(result == false, "Range check error"); fail_unless(str2time_t("%Y-%m-%d-%H-%M", "2009-01-11-12-00", &now) == 0, "Cannot parse time spec"); CHECK_TIME_RULE_LEAK(ctx, tctx, "periodic yearly month 1,7-8 day 1-10 0900 ~ 1800", now, &result); fail_unless(ret == EOK, "Fail to check the time rule3 (ret = %d)", ret); fail_unless(result == false, "Range check error"); talloc_free(tctx); } END_TEST Suite *create_timelib_suite(void) { Suite *s = suite_create("timelib"); TCase *tc_timelib = tcase_create("Timelib Tests"); /* Add setup() and teardown() methods */ tcase_add_checked_fixture(tc_timelib, setup, teardown); /* Do some testing */ tcase_add_test(tc_timelib, test_timelib_absolute_in_range); tcase_add_test(tc_timelib, test_timelib_absolute_out_of_range); tcase_add_test(tc_timelib, test_timelib_absolute_minimal); tcase_add_test(tc_timelib, test_timelib_absolute_one_off); tcase_add_test(tc_timelib, test_timelib_absolute_one_on); tcase_add_test(tc_timelib, test_timelib_periodic_daily_in); tcase_add_test(tc_timelib, test_timelib_periodic_daily_out); tcase_add_test(tc_timelib, test_timelib_periodic_weekly_in); tcase_add_test(tc_timelib, test_timelib_periodic_weekly_out); tcase_add_test(tc_timelib, test_timelib_periodic_monthly_in); tcase_add_test(tc_timelib, test_timelib_periodic_monthly_out); tcase_add_test(tc_timelib, test_timelib_periodic_yearly_in); tcase_add_test(tc_timelib, test_timelib_periodic_yearly_out); /* Add all test cases to the test suite */ suite_add_tcase(s, tc_timelib); return s; } int main(int argc, const char *argv[]) { int ret; poptContext pc; int failure_count; Suite *timelib_suite; SRunner *sr; int debug = 0; struct poptOption long_options[] = { POPT_AUTOHELP { "debug-level", 'd', POPT_ARG_INT, &debug, 0, "Set debug level", NULL }, POPT_TABLEEND }; pc = poptGetContext(NULL, argc, (const char **) argv, long_options, 0); if((ret = poptGetNextOpt(pc)) < -1) { usage(pc, poptStrerror(ret)); return EXIT_FAILURE; } debug_level = debug; timelib_suite = create_timelib_suite(); sr = srunner_create(timelib_suite); /* If CK_VERBOSITY is set, use that, otherwise it defaults to CK_NORMAL */ srunner_run_all(sr, CK_ENV); failure_count = srunner_ntests_failed(sr); srunner_free(sr); return (failure_count==0 ? EXIT_SUCCESS : EXIT_FAILURE); }