[thirdparty/systemd.git] / src / test / test-calendarspec.c

/* SPDX-License-Identifier: LGPL-2.1-or-later */

#include <stdlib.h>
#include <time.h>

#include "alloc-util.h"
#include "calendarspec.h"
#include "env-util.h"
#include "errno-util.h"
#include "string-util.h"
#include "tests.h"
#include "time-util.h"

static void _test_one(int line, const char *input, const char *output) {
        _cleanup_(calendar_spec_freep) CalendarSpec *c = NULL;
        _cleanup_free_ char *p = NULL, *q = NULL;
        usec_t u;
        int r;

        r = calendar_spec_from_string(input, &c);
        if (r < 0)
                log_error_errno(r, "Failed to parse \"%s\": %m", input);
        ASSERT_OK(r);

        ASSERT_OK(calendar_spec_to_string(c, &p));
        log_info("line %d: \"%s\" → \"%s\"%s%s", line, input, p,
                 !streq(p, output) ? " expected:" : "",
                 !streq(p, output) ? output : "");

        ASSERT_STREQ(p, output);

        u = now(CLOCK_REALTIME);
        r = calendar_spec_next_usec(c, u, &u);
        log_info("Next: %s", r < 0 ? STRERROR(r) : FORMAT_TIMESTAMP(u));
        c = calendar_spec_free(c);

        ASSERT_OK(calendar_spec_from_string(p, &c));
        ASSERT_OK(calendar_spec_to_string(c, &q));

        ASSERT_STREQ(q, p);
}
#define test_one(input, output) _test_one(__LINE__, input, output)

static void _test_next(int line, const char *input, const char *new_tz, usec_t after, usec_t expect) {
        _cleanup_(calendar_spec_freep) CalendarSpec *c = NULL;
        usec_t u;
        char *old_tz;
        int r;

        old_tz = getenv("TZ");
        if (old_tz)
                old_tz = strdupa_safe(old_tz);

        if (!isempty(new_tz) && !strchr(new_tz, ','))
                new_tz = strjoina(":", new_tz);

        assert_se(set_unset_env("TZ", new_tz, true) == 0);
        tzset();

        ASSERT_OK(calendar_spec_from_string(input, &c));

        log_info("line %d: \"%s\" new_tz=%s", line, input, strnull(new_tz));

        u = after;
        r = calendar_spec_next_usec(c, after, &u);
        log_info("At: %s", r < 0 ? STRERROR(r) : FORMAT_TIMESTAMP_STYLE(u, TIMESTAMP_US));
        if (expect != USEC_INFINITY)
                assert_se(r >= 0 && u == expect);
        else
                assert_se(r == -ENOENT);

        assert_se(set_unset_env("TZ", old_tz, true) == 0);
        tzset();
}
#define test_next(input, new_tz, after, expect) _test_next(__LINE__, input,new_tz,after,expect)

TEST(timestamp) {
        char buf[FORMAT_TIMESTAMP_MAX];
        _cleanup_free_ char *t = NULL;
        _cleanup_(calendar_spec_freep) CalendarSpec *c = NULL;
        usec_t x, y;

        /* Ensure that a timestamp is also a valid calendar specification. Convert forth and back */

        x = now(CLOCK_REALTIME);

        assert_se(format_timestamp_style(buf, sizeof buf, x, TIMESTAMP_US));
        log_info("%s", buf);
        ASSERT_OK(calendar_spec_from_string(buf, &c));
        ASSERT_OK(calendar_spec_to_string(c, &t));
        log_info("%s", t);

        ASSERT_OK(parse_timestamp(t, &y));
        assert_se(y == x);
}

TEST(hourly_bug_4031) {
        _cleanup_(calendar_spec_freep) CalendarSpec *c = NULL;
        usec_t n, u, w;
        int r;

        ASSERT_OK(calendar_spec_from_string("hourly", &c));
        n = now(CLOCK_REALTIME);
        ASSERT_OK(r = calendar_spec_next_usec(c, n, &u));

        log_info("Now: %s (%"PRIu64")", FORMAT_TIMESTAMP_STYLE(n, TIMESTAMP_US), n);
        log_info("Next hourly: %s (%"PRIu64")", r < 0 ? STRERROR(r) : FORMAT_TIMESTAMP_STYLE(u, TIMESTAMP_US), u);

        assert_se((r = calendar_spec_next_usec(c, u, &w)) >= 0);
        log_info("Next hourly: %s (%"PRIu64")", r < 0 ? STRERROR(r) : FORMAT_TIMESTAMP_STYLE(w, TIMESTAMP_US), w);

        assert_se(n < u);
        assert_se(u <= n + USEC_PER_HOUR);
        assert_se(u < w);
        assert_se(w <= u + USEC_PER_HOUR);
}

TEST(calendar_spec_one) {
        test_one("Sat,Thu,Mon-Wed,Sat-Sun", "Mon..Thu,Sat,Sun *-*-* 00:00:00");
        test_one("Sat,Thu,Mon..Wed,Sat..Sun", "Mon..Thu,Sat,Sun *-*-* 00:00:00");
        test_one("Mon,Sun 12-*-* 2,1:23", "Mon,Sun 2012-*-* 01,02:23:00");
        test_one("Wed *-1", "Wed *-*-01 00:00:00");
        test_one("Wed-Wed,Wed *-1", "Wed *-*-01 00:00:00");
        test_one("Wed..Wed,Wed *-1", "Wed *-*-01 00:00:00");
        test_one("Wed, 17:48", "Wed *-*-* 17:48:00");
        test_one("Wednesday,", "Wed *-*-* 00:00:00");
        test_one("Wed-Sat,Tue 12-10-15 1:2:3", "Tue..Sat 2012-10-15 01:02:03");
        test_one("Wed..Sat,Tue 12-10-15 1:2:3", "Tue..Sat 2012-10-15 01:02:03");
        test_one("*-*-7 0:0:0", "*-*-07 00:00:00");
        test_one("10-15", "*-10-15 00:00:00");
        test_one("monday *-12-* 17:00", "Mon *-12-* 17:00:00");
        test_one("Mon,Fri *-*-3,1,2 *:30:45", "Mon,Fri *-*-01,02,03 *:30:45");
        test_one("12,14,13,12:20,10,30", "*-*-* 12,13,14:10,20,30:00");
        test_one("mon,fri *-1/2-1,3 *:30:45", "Mon,Fri *-01/2-01,03 *:30:45");
        test_one("03-05 08:05:40", "*-03-05 08:05:40");
        test_one("08:05:40", "*-*-* 08:05:40");
        test_one("05:40", "*-*-* 05:40:00");
        test_one("Sat,Sun 12-05 08:05:40", "Sat,Sun *-12-05 08:05:40");
        test_one("Sat,Sun 08:05:40", "Sat,Sun *-*-* 08:05:40");
        test_one("2003-03-05 05:40", "2003-03-05 05:40:00");
        test_one("2003-03-05", "2003-03-05 00:00:00");
        test_one("03-05", "*-03-05 00:00:00");
        test_one("hourly", "*-*-* *:00:00");
        test_one("daily", "*-*-* 00:00:00");
        test_one("monthly", "*-*-01 00:00:00");
        test_one("weekly", "Mon *-*-* 00:00:00");
        test_one("minutely", "*-*-* *:*:00");
        test_one("quarterly", "*-01,04,07,10-01 00:00:00");
        test_one("semi-annually", "*-01,07-01 00:00:00");
        test_one("annually", "*-01-01 00:00:00");
        test_one("*:2/3", "*-*-* *:02/3:00");
        test_one("2015-10-25 01:00:00 uTc", "2015-10-25 01:00:00 UTC");
        test_one("2015-10-25 01:00:00 Asia/Vladivostok", "2015-10-25 01:00:00 Asia/Vladivostok");
        test_one("weekly Pacific/Auckland", "Mon *-*-* 00:00:00 Pacific/Auckland");
        test_one("2016-03-27 03:17:00.4200005", "2016-03-27 03:17:00.420001");
        test_one("2016-03-27 03:17:00/0.42", "2016-03-27 03:17:00/0.420000");
        test_one("9..11,13:00,30", "*-*-* 09..11,13:00,30:00");
        test_one("1..3-1..3 1..3:1..3", "*-01..03-01..03 01..03:01..03:00");
        test_one("00:00:1.125..2.125", "*-*-* 00:00:01.125000..02.125000");
        test_one("00:00:1.0..3.8", "*-*-* 00:00:01..03");
        test_one("00:00:01..03", "*-*-* 00:00:01..03");
        test_one("00:00:01/2,02..03", "*-*-* 00:00:01/2,02..03");
        test_one("*:4,30:0..3", "*-*-* *:04,30:00..03");
        test_one("*:4,30:0/1", "*-*-* *:04,30:*");
        test_one("*:4,30:0/1,3,5", "*-*-* *:04,30:*");
        test_one("*-*~1 Utc", "*-*~01 00:00:00 UTC");
        test_one("*-*~05,3 ", "*-*~03,05 00:00:00");
        test_one("*-*~* 00:00:00", "*-*-* 00:00:00");
        test_one("Monday", "Mon *-*-* 00:00:00");
        test_one("Monday *-*-*", "Mon *-*-* 00:00:00");
        test_one("*-*-*", "*-*-* 00:00:00");
        test_one("*:*:*", "*-*-* *:*:*");
        test_one("*:*", "*-*-* *:*:00");
        test_one("12:*", "*-*-* 12:*:00");
        test_one("*:30", "*-*-* *:30:00");
        test_one("93..00-*-*", "1993..2000-*-* 00:00:00");
        test_one("00..07-*-*", "2000..2007-*-* 00:00:00");
        test_one("*:20..39/5", "*-*-* *:20..35/5:00");
        test_one("00:00:20..40/1", "*-*-* 00:00:20..40");
        test_one("*~03/1,03..05", "*-*~03/1,03..05 00:00:00");
        /* UNIX timestamps are always UTC */
        test_one("@1493187147", "2017-04-26 06:12:27 UTC");
        test_one("@1493187147 UTC", "2017-04-26 06:12:27 UTC");
        test_one("@0", "1970-01-01 00:00:00 UTC");
        test_one("@0 UTC", "1970-01-01 00:00:00 UTC");
        test_one("*:05..05", "*-*-* *:05:00");
        test_one("*:05..10/6", "*-*-* *:05:00");
}

TEST(calendar_spec_next) {
        test_next("2016-03-27 03:17:00", "", 12345, 1459048620000000);
        test_next("2016-03-27 03:17:00", "Europe/Berlin", 12345, 1459041420000000);
        test_next("2016-03-27 03:17:00", "Europe/Kyiv", 12345, -1);
        test_next("2016-03-27 03:17:00 UTC", NULL, 12345, 1459048620000000);
        test_next("2016-03-27 03:17:00 UTC", "", 12345, 1459048620000000);
        test_next("2016-03-27 03:17:00 UTC", "Europe/Berlin", 12345, 1459048620000000);
        test_next("2016-03-27 03:17:00 UTC", "Europe/Kyiv", 12345, 1459048620000000);
        test_next("2016-03-27 03:17:00.420000001 UTC", "Europe/Kyiv", 12345, 1459048620420000);
        test_next("2016-03-27 03:17:00.4200005 UTC", "Europe/Kyiv", 12345, 1459048620420001);
        test_next("2015-11-13 09:11:23.42", "Europe/Kyiv", 12345, 1447398683420000);
        test_next("2015-11-13 09:11:23.42/1.77", "Europe/Kyiv", 1447398683420000, 1447398685190000);
        test_next("2015-11-13 09:11:23.42/1.77", "Europe/Kyiv", 1447398683419999, 1447398683420000);
        test_next("Sun 16:00:00", "Europe/Berlin", 1456041600123456, 1456066800000000);
        test_next("*-04-31", "", 12345, -1);
        test_next("2016-02~01 UTC", "", 12345, 1456704000000000);
        test_next("Mon 2017-05~01..07 UTC", "", 12345, 1496016000000000);
        test_next("Mon 2017-05~07/1 UTC", "", 12345, 1496016000000000);
        test_next("*-*-01/5 04:00:00 UTC", "", 1646010000000000, 1646107200000000);
        test_next("*-01/7-01 04:00:00 UTC", "", 1664607600000000, 1672545600000000);
        test_next("2017-08-06 9,11,13,15,17:00 UTC", "", 1502029800000000, 1502031600000000);
        test_next("2017-08-06 9..17/2:00 UTC", "", 1502029800000000, 1502031600000000);
        test_next("2016-12-* 3..21/6:00 UTC", "", 1482613200000001, 1482634800000000);
        test_next("2017-09-24 03:30:00 Pacific/Auckland", "", 12345, 1506177000000000);
        /* Due to daylight saving time - 2017-09-24 02:30:00 does not exist */
        test_next("2017-09-24 02:30:00 Pacific/Auckland", "", 12345, -1);
        test_next("2017-04-02 02:30:00 Pacific/Auckland", "", 12345, 1491053400000000);
        /* Confirm that even though it's a time change here (backward) 02:30 happens only once */
        test_next("2017-04-02 02:30:00 Pacific/Auckland", "", 1491053400000000, -1);
        test_next("2017-04-02 03:30:00 Pacific/Auckland", "", 12345, 1491060600000000);
        /* Confirm that timezones in the Spec work regardless of current timezone */
        test_next("2017-09-09 20:42:00 Pacific/Auckland", "", 12345, 1504946520000000);
        test_next("2017-09-09 20:42:00 Pacific/Auckland", "Europe/Kyiv", 12345, 1504946520000000);
        /* Check that we don't start looping if mktime() moves us backwards */
        test_next("Sun *-*-* 01:00:00 Europe/Dublin", "", 1616412478000000, 1617494400000000);
        test_next("Sun *-*-* 01:00:00 Europe/Dublin", "IST", 1616412478000000, 1617494400000000);
        /* Europe/Dublin TZ that moves DST backwards */
        test_next("hourly", "IST-1GMT-0,M10.5.0/1,M3.5.0/1", 1743292800000000, 1743296400000000);
}

TEST(calendar_spec_from_string) {
        CalendarSpec *c;

        assert_se(calendar_spec_from_string("test", &c) == -EINVAL);
        assert_se(calendar_spec_from_string(" utc", &c) == -EINVAL);
        assert_se(calendar_spec_from_string("    ", &c) == -EINVAL);
        assert_se(calendar_spec_from_string("", &c) == -EINVAL);
        assert_se(calendar_spec_from_string("7", &c) == -EINVAL);
        assert_se(calendar_spec_from_string("121212:1:2", &c) == -EINVAL);
        assert_se(calendar_spec_from_string("2000-03-05.23 00:00:00", &c) == -EINVAL);
        assert_se(calendar_spec_from_string("2000-03-05 00:00.1:00", &c) == -EINVAL);
        assert_se(calendar_spec_from_string("00:00:00/0.00000001", &c) == -ERANGE);
        assert_se(calendar_spec_from_string("00:00:00.0..00.9", &c) == -EINVAL);
        assert_se(calendar_spec_from_string("2016~11-22", &c) == -EINVAL);
        assert_se(calendar_spec_from_string("*-*~5/5", &c) == -EINVAL);
        assert_se(calendar_spec_from_string("Monday.. 12:00", &c) == -EINVAL);
        assert_se(calendar_spec_from_string("Monday..", &c) == -EINVAL);
        assert_se(calendar_spec_from_string("-00:+00/-5", &c) == -EINVAL);
        assert_se(calendar_spec_from_string("00:+00/-5", &c) == -EINVAL);
        assert_se(calendar_spec_from_string("2016- 11- 24 12: 30: 00", &c) == -EINVAL);
        assert_se(calendar_spec_from_string("*~29", &c) == -EINVAL);
        assert_se(calendar_spec_from_string("*~16..31", &c) == -EINVAL);
        assert_se(calendar_spec_from_string("12..1/2-*", &c) == -EINVAL);
        assert_se(calendar_spec_from_string("20/4:00", &c) == -EINVAL);
        assert_se(calendar_spec_from_string("00:00/60", &c) == -EINVAL);
        assert_se(calendar_spec_from_string("00:00:2300", &c) == -ERANGE);
        assert_se(calendar_spec_from_string("00:00:18446744073709551615", &c) == -ERANGE);
        assert_se(calendar_spec_from_string("@88588582097858858", &c) == -ERANGE);
        assert_se(calendar_spec_from_string("*:4,30:*,5", &c) == -EINVAL);
        assert_se(calendar_spec_from_string("*:4,30:5,*", &c) == -EINVAL);
        assert_se(calendar_spec_from_string("*:4,30:*\n", &c) == -EINVAL);
}

static int intro(void) {
        /* Tests have hard-coded results that do not expect a specific timezone to be set by the caller */
        ASSERT_OK_ERRNO(unsetenv("TZ"));

        return EXIT_SUCCESS;
}

DEFINE_TEST_MAIN_WITH_INTRO(LOG_INFO, intro);
Commit	Line	Data
	1	/* SPDX-License-Identifier: LGPL-2.1-or-later */
	2
	3	#include <stdlib.h>
	4	#include <time.h>
	5
	6	#include "alloc-util.h"
	7	#include "calendarspec.h"
	8	#include "env-util.h"
	9	#include "errno-util.h"
	10	#include "string-util.h"
	11	#include "tests.h"
	12	#include "time-util.h"
	13
	14	static void _test_one(int line, const char input, const char output) {
	15	_cleanup_(calendar_spec_freep) CalendarSpec *c = NULL;
	16	_cleanup_free_ char p = NULL, q = NULL;
	17	usec_t u;
	18	int r;
	19
	20	r = calendar_spec_from_string(input, &c);
	21	if (r < 0)
	22	log_error_errno(r, "Failed to parse \"%s\": %m", input);
	23	ASSERT_OK(r);
	24
	25	ASSERT_OK(calendar_spec_to_string(c, &p));
	26	log_info("line %d: \"%s\" → \"%s\"%s%s", line, input, p,
	27	!streq(p, output) ? " expected:" : "",
	28	!streq(p, output) ? output : "");
	29
	30	ASSERT_STREQ(p, output);
	31
	32	u = now(CLOCK_REALTIME);
	33	r = calendar_spec_next_usec(c, u, &u);
	34	log_info("Next: %s", r < 0 ? STRERROR(r) : FORMAT_TIMESTAMP(u));
	35	c = calendar_spec_free(c);
	36
	37	ASSERT_OK(calendar_spec_from_string(p, &c));
	38	ASSERT_OK(calendar_spec_to_string(c, &q));
	39
	40	ASSERT_STREQ(q, p);
	41	}
	42	#define test_one(input, output) _test_one(__LINE__, input, output)
	43
	44	static void _test_next(int line, const char input, const char new_tz, usec_t after, usec_t expect) {
	45	_cleanup_(calendar_spec_freep) CalendarSpec *c = NULL;
	46	usec_t u;
	47	char *old_tz;
	48	int r;
	49
	50	old_tz = getenv("TZ");
	51	if (old_tz)
	52	old_tz = strdupa_safe(old_tz);
	53
	54	if (!isempty(new_tz) && !strchr(new_tz, ','))
	55	new_tz = strjoina(":", new_tz);
	56
	57	assert_se(set_unset_env("TZ", new_tz, true) == 0);
	58	tzset();
	59
	60	ASSERT_OK(calendar_spec_from_string(input, &c));
	61
	62	log_info("line %d: \"%s\" new_tz=%s", line, input, strnull(new_tz));
	63
	64	u = after;
	65	r = calendar_spec_next_usec(c, after, &u);
	66	log_info("At: %s", r < 0 ? STRERROR(r) : FORMAT_TIMESTAMP_STYLE(u, TIMESTAMP_US));
	67	if (expect != USEC_INFINITY)
	68	assert_se(r >= 0 && u == expect);
	69	else
	70	assert_se(r == -ENOENT);
	71
	72	assert_se(set_unset_env("TZ", old_tz, true) == 0);
	73	tzset();
	74	}
	75	#define test_next(input, new_tz, after, expect) _test_next(__LINE__, input,new_tz,after,expect)
	76
	77	TEST(timestamp) {
	78	char buf[FORMAT_TIMESTAMP_MAX];
	79	_cleanup_free_ char *t = NULL;
	80	_cleanup_(calendar_spec_freep) CalendarSpec *c = NULL;
	81	usec_t x, y;
	82
	83	/* Ensure that a timestamp is also a valid calendar specification. Convert forth and back */
	84
	85	x = now(CLOCK_REALTIME);
	86
	87	assert_se(format_timestamp_style(buf, sizeof buf, x, TIMESTAMP_US));
	88	log_info("%s", buf);
	89	ASSERT_OK(calendar_spec_from_string(buf, &c));
	90	ASSERT_OK(calendar_spec_to_string(c, &t));
	91	log_info("%s", t);
	92
	93	ASSERT_OK(parse_timestamp(t, &y));
	94	assert_se(y == x);
	95	}
	96
	97	TEST(hourly_bug_4031) {
	98	_cleanup_(calendar_spec_freep) CalendarSpec *c = NULL;
	99	usec_t n, u, w;
	100	int r;
	101
	102	ASSERT_OK(calendar_spec_from_string("hourly", &c));
	103	n = now(CLOCK_REALTIME);
	104	ASSERT_OK(r = calendar_spec_next_usec(c, n, &u));
	105
	106	log_info("Now: %s (%"PRIu64")", FORMAT_TIMESTAMP_STYLE(n, TIMESTAMP_US), n);
	107	log_info("Next hourly: %s (%"PRIu64")", r < 0 ? STRERROR(r) : FORMAT_TIMESTAMP_STYLE(u, TIMESTAMP_US), u);
	108
	109	assert_se((r = calendar_spec_next_usec(c, u, &w)) >= 0);
	110	log_info("Next hourly: %s (%"PRIu64")", r < 0 ? STRERROR(r) : FORMAT_TIMESTAMP_STYLE(w, TIMESTAMP_US), w);
	111
	112	assert_se(n < u);
	113	assert_se(u <= n + USEC_PER_HOUR);
	114	assert_se(u < w);
	115	assert_se(w <= u + USEC_PER_HOUR);
	116	}
	117
	118	TEST(calendar_spec_one) {
	119	test_one("Sat,Thu,Mon-Wed,Sat-Sun", "Mon..Thu,Sat,Sun --* 00:00:00");
	120	test_one("Sat,Thu,Mon..Wed,Sat..Sun", "Mon..Thu,Sat,Sun --* 00:00:00");
	121	test_one("Mon,Sun 12-- 2,1:23", "Mon,Sun 2012-- 01,02:23:00");
	122	test_one("Wed -1", "Wed -*-01 00:00:00");
	123	test_one("Wed-Wed,Wed -1", "Wed -*-01 00:00:00");
	124	test_one("Wed..Wed,Wed -1", "Wed -*-01 00:00:00");
	125	test_one("Wed, 17:48", "Wed --* 17:48:00");
	126	test_one("Wednesday,", "Wed --* 00:00:00");
	127	test_one("Wed-Sat,Tue 12-10-15 1:2:3", "Tue..Sat 2012-10-15 01:02:03");
	128	test_one("Wed..Sat,Tue 12-10-15 1:2:3", "Tue..Sat 2012-10-15 01:02:03");
	129	test_one("--7 0:0:0", "--07 00:00:00");
	130	test_one("10-15", "*-10-15 00:00:00");
	131	test_one("monday -12- 17:00", "Mon -12- 17:00:00");
	132	test_one("Mon,Fri --3,1,2 :30:45", "Mon,Fri --01,02,03 :30:45");
	133	test_one("12,14,13,12:20,10,30", "--* 12,13,14:10,20,30:00");
	134	test_one("mon,fri -1/2-1,3 :30:45", "Mon,Fri -01/2-01,03 :30:45");
	135	test_one("03-05 08:05:40", "*-03-05 08:05:40");
	136	test_one("08:05:40", "--* 08:05:40");
	137	test_one("05:40", "--* 05:40:00");
	138	test_one("Sat,Sun 12-05 08:05:40", "Sat,Sun *-12-05 08:05:40");
	139	test_one("Sat,Sun 08:05:40", "Sat,Sun --* 08:05:40");
	140	test_one("2003-03-05 05:40", "2003-03-05 05:40:00");
	141	test_one("2003-03-05", "2003-03-05 00:00:00");
	142	test_one("03-05", "*-03-05 00:00:00");
	143	test_one("hourly", "--* *:00:00");
	144	test_one("daily", "--* 00:00:00");
	145	test_one("monthly", "--01 00:00:00");
	146	test_one("weekly", "Mon --* 00:00:00");
	147	test_one("minutely", "--* ::00");
	148	test_one("quarterly", "*-01,04,07,10-01 00:00:00");
	149	test_one("semi-annually", "*-01,07-01 00:00:00");
	150	test_one("annually", "*-01-01 00:00:00");
	151	test_one(":2/3", "-- *:02/3:00");
	152	test_one("2015-10-25 01:00:00 uTc", "2015-10-25 01:00:00 UTC");
	153	test_one("2015-10-25 01:00:00 Asia/Vladivostok", "2015-10-25 01:00:00 Asia/Vladivostok");
	154	test_one("weekly Pacific/Auckland", "Mon --* 00:00:00 Pacific/Auckland");
	155	test_one("2016-03-27 03:17:00.4200005", "2016-03-27 03:17:00.420001");
	156	test_one("2016-03-27 03:17:00/0.42", "2016-03-27 03:17:00/0.420000");
	157	test_one("9..11,13:00,30", "--* 09..11,13:00,30:00");
	158	test_one("1..3-1..3 1..3:1..3", "*-01..03-01..03 01..03:01..03:00");
	159	test_one("00:00:1.125..2.125", "--* 00:00:01.125000..02.125000");
	160	test_one("00:00:1.0..3.8", "--* 00:00:01..03");
	161	test_one("00:00:01..03", "--* 00:00:01..03");
	162	test_one("00:00:01/2,02..03", "--* 00:00:01/2,02..03");
	163	test_one(":4,30:0..3", "-- *:04,30:00..03");
	164	test_one(":4,30:0/1", "-- :04,30:");
	165	test_one(":4,30:0/1,3,5", "-- :04,30:");
	166	test_one("-~1 Utc", "-~01 00:00:00 UTC");
	167	test_one("-~05,3 ", "-~03,05 00:00:00");
	168	test_one("-~* 00:00:00", "--* 00:00:00");
	169	test_one("Monday", "Mon --* 00:00:00");
	170	test_one("Monday --", "Mon -- 00:00:00");
	171	test_one("--", "-- 00:00:00");
	172	test_one("::", "-- ::*");
	173	test_one(":", "--* ::00");
	174	test_one("12:", "-- 12:*:00");
	175	test_one(":30", "-- *:30:00");
	176	test_one("93..00--", "1993..2000-- 00:00:00");
	177	test_one("00..07--", "2000..2007-- 00:00:00");
	178	test_one(":20..39/5", "-- *:20..35/5:00");
	179	test_one("00:00:20..40/1", "--* 00:00:20..40");
	180	test_one("~03/1,03..05", "-*~03/1,03..05 00:00:00");
	181	/* UNIX timestamps are always UTC */
	182	test_one("@1493187147", "2017-04-26 06:12:27 UTC");
	183	test_one("@1493187147 UTC", "2017-04-26 06:12:27 UTC");
	184	test_one("@0", "1970-01-01 00:00:00 UTC");
	185	test_one("@0 UTC", "1970-01-01 00:00:00 UTC");
	186	test_one(":05..05", "-- *:05:00");
	187	test_one(":05..10/6", "-- *:05:00");
	188	}
	189
	190	TEST(calendar_spec_next) {
	191	test_next("2016-03-27 03:17:00", "", 12345, 1459048620000000);
	192	test_next("2016-03-27 03:17:00", "Europe/Berlin", 12345, 1459041420000000);
	193	test_next("2016-03-27 03:17:00", "Europe/Kyiv", 12345, -1);
	194	test_next("2016-03-27 03:17:00 UTC", NULL, 12345, 1459048620000000);
	195	test_next("2016-03-27 03:17:00 UTC", "", 12345, 1459048620000000);
	196	test_next("2016-03-27 03:17:00 UTC", "Europe/Berlin", 12345, 1459048620000000);
	197	test_next("2016-03-27 03:17:00 UTC", "Europe/Kyiv", 12345, 1459048620000000);
	198	test_next("2016-03-27 03:17:00.420000001 UTC", "Europe/Kyiv", 12345, 1459048620420000);
	199	test_next("2016-03-27 03:17:00.4200005 UTC", "Europe/Kyiv", 12345, 1459048620420001);
	200	test_next("2015-11-13 09:11:23.42", "Europe/Kyiv", 12345, 1447398683420000);
	201	test_next("2015-11-13 09:11:23.42/1.77", "Europe/Kyiv", 1447398683420000, 1447398685190000);
	202	test_next("2015-11-13 09:11:23.42/1.77", "Europe/Kyiv", 1447398683419999, 1447398683420000);
	203	test_next("Sun 16:00:00", "Europe/Berlin", 1456041600123456, 1456066800000000);
	204	test_next("*-04-31", "", 12345, -1);
	205	test_next("2016-02~01 UTC", "", 12345, 1456704000000000);
	206	test_next("Mon 2017-05~01..07 UTC", "", 12345, 1496016000000000);
	207	test_next("Mon 2017-05~07/1 UTC", "", 12345, 1496016000000000);
	208	test_next("--01/5 04:00:00 UTC", "", 1646010000000000, 1646107200000000);
	209	test_next("*-01/7-01 04:00:00 UTC", "", 1664607600000000, 1672545600000000);
	210	test_next("2017-08-06 9,11,13,15,17:00 UTC", "", 1502029800000000, 1502031600000000);
	211	test_next("2017-08-06 9..17/2:00 UTC", "", 1502029800000000, 1502031600000000);
	212	test_next("2016-12-* 3..21/6:00 UTC", "", 1482613200000001, 1482634800000000);
	213	test_next("2017-09-24 03:30:00 Pacific/Auckland", "", 12345, 1506177000000000);
	214	/* Due to daylight saving time - 2017-09-24 02:30:00 does not exist */
	215	test_next("2017-09-24 02:30:00 Pacific/Auckland", "", 12345, -1);
	216	test_next("2017-04-02 02:30:00 Pacific/Auckland", "", 12345, 1491053400000000);
	217	/* Confirm that even though it's a time change here (backward) 02:30 happens only once */
	218	test_next("2017-04-02 02:30:00 Pacific/Auckland", "", 1491053400000000, -1);
	219	test_next("2017-04-02 03:30:00 Pacific/Auckland", "", 12345, 1491060600000000);
	220	/* Confirm that timezones in the Spec work regardless of current timezone */
	221	test_next("2017-09-09 20:42:00 Pacific/Auckland", "", 12345, 1504946520000000);
	222	test_next("2017-09-09 20:42:00 Pacific/Auckland", "Europe/Kyiv", 12345, 1504946520000000);
	223	/* Check that we don't start looping if mktime() moves us backwards */
	224	test_next("Sun --* 01:00:00 Europe/Dublin", "", 1616412478000000, 1617494400000000);
	225	test_next("Sun --* 01:00:00 Europe/Dublin", "IST", 1616412478000000, 1617494400000000);
	226	/* Europe/Dublin TZ that moves DST backwards */
	227	test_next("hourly", "IST-1GMT-0,M10.5.0/1,M3.5.0/1", 1743292800000000, 1743296400000000);
	228	}
	229
	230	TEST(calendar_spec_from_string) {
	231	CalendarSpec *c;
	232
	233	assert_se(calendar_spec_from_string("test", &c) == -EINVAL);
	234	assert_se(calendar_spec_from_string(" utc", &c) == -EINVAL);
	235	assert_se(calendar_spec_from_string(" ", &c) == -EINVAL);
	236	assert_se(calendar_spec_from_string("", &c) == -EINVAL);
	237	assert_se(calendar_spec_from_string("7", &c) == -EINVAL);
	238	assert_se(calendar_spec_from_string("121212:1:2", &c) == -EINVAL);
	239	assert_se(calendar_spec_from_string("2000-03-05.23 00:00:00", &c) == -EINVAL);
	240	assert_se(calendar_spec_from_string("2000-03-05 00:00.1:00", &c) == -EINVAL);
	241	assert_se(calendar_spec_from_string("00:00:00/0.00000001", &c) == -ERANGE);
	242	assert_se(calendar_spec_from_string("00:00:00.0..00.9", &c) == -EINVAL);
	243	assert_se(calendar_spec_from_string("2016~11-22", &c) == -EINVAL);
	244	assert_se(calendar_spec_from_string("-~5/5", &c) == -EINVAL);
	245	assert_se(calendar_spec_from_string("Monday.. 12:00", &c) == -EINVAL);
	246	assert_se(calendar_spec_from_string("Monday..", &c) == -EINVAL);
	247	assert_se(calendar_spec_from_string("-00:+00/-5", &c) == -EINVAL);
	248	assert_se(calendar_spec_from_string("00:+00/-5", &c) == -EINVAL);
	249	assert_se(calendar_spec_from_string("2016- 11- 24 12: 30: 00", &c) == -EINVAL);
	250	assert_se(calendar_spec_from_string("*~29", &c) == -EINVAL);
	251	assert_se(calendar_spec_from_string("*~16..31", &c) == -EINVAL);
	252	assert_se(calendar_spec_from_string("12..1/2-*", &c) == -EINVAL);
	253	assert_se(calendar_spec_from_string("20/4:00", &c) == -EINVAL);
	254	assert_se(calendar_spec_from_string("00:00/60", &c) == -EINVAL);
	255	assert_se(calendar_spec_from_string("00:00:2300", &c) == -ERANGE);
	256	assert_se(calendar_spec_from_string("00:00:18446744073709551615", &c) == -ERANGE);
	257	assert_se(calendar_spec_from_string("@88588582097858858", &c) == -ERANGE);
	258	assert_se(calendar_spec_from_string(":4,30:,5", &c) == -EINVAL);
	259	assert_se(calendar_spec_from_string(":4,30:5,", &c) == -EINVAL);
	260	assert_se(calendar_spec_from_string(":4,30:\n", &c) == -EINVAL);
	261	}
	262
	263	static int intro(void) {
	264	/* Tests have hard-coded results that do not expect a specific timezone to be set by the caller */
	265	ASSERT_OK_ERRNO(unsetenv("TZ"));
	266
	267	return EXIT_SUCCESS;
	268	}
	269
	270	DEFINE_TEST_MAIN_WITH_INTRO(LOG_INFO, intro);