icinga2/test/icinga-legacytimeperiod.cpp

646 lines
22 KiB
C++

/* Icinga 2 | (c) 2012 Icinga GmbH | GPLv2+ */
#include "base/utility.hpp"
#include "icinga/legacytimeperiod.hpp"
#include <boost/date_time/posix_time/posix_time.hpp>
#include <boost/date_time/posix_time/ptime.hpp>
#include <boost/date_time/posix_time/posix_time_duration.hpp>
#include <boost/date_time/gregorian/conversion.hpp>
#include <boost/date_time/date.hpp>
#include <boost/optional.hpp>
#include <iomanip>
#include <BoostTestTargetConfig.h>
using namespace icinga;
BOOST_AUTO_TEST_SUITE(icinga_legacytimeperiod);
struct GlobalTimezoneFixture
{
char *tz;
GlobalTimezoneFixture(const char *fixed_tz = "")
{
tz = getenv("TZ");
#ifdef _WIN32
_putenv_s("TZ", fixed_tz == "" ? "UTC" : fixed_tz);
#else
setenv("TZ", fixed_tz, 1);
#endif
tzset();
}
~GlobalTimezoneFixture()
{
#ifdef _WIN32
if (tz)
_putenv_s("TZ", tz);
else
_putenv_s("TZ", "");
#else
if (tz)
setenv("TZ", tz, 1);
else
unsetenv("TZ");
#endif
tzset();
}
};
BOOST_GLOBAL_FIXTURE(GlobalTimezoneFixture);
BOOST_AUTO_TEST_CASE(simple)
{
tm tm_beg, tm_end, tm_ref;
String timestamp;
boost::posix_time::ptime begin;
boost::posix_time::ptime end;
boost::posix_time::ptime expectedBegin;
boost::posix_time::ptime expectedEnd;
//-----------------------------------------------------
// check parsing of "YYYY-MM-DD" specs
timestamp = "2016-01-01";
expectedBegin = boost::posix_time::ptime(boost::gregorian::date(2016, 1, 1), boost::posix_time::time_duration(0, 0, 0));
expectedEnd = boost::posix_time::ptime(boost::gregorian::date(2016, 1, 2), boost::posix_time::time_duration(0, 0, 0));
// Run test
LegacyTimePeriod::ParseTimeSpec(timestamp, &tm_beg, &tm_end, &tm_ref);
// Compare times
begin = boost::posix_time::ptime_from_tm(tm_beg);
end = boost::posix_time::ptime_from_tm(tm_end);
BOOST_CHECK_EQUAL(begin, expectedBegin);
BOOST_CHECK_EQUAL(end, expectedEnd);
//-----------------------------------------------------
timestamp = "2015-12-31";
expectedBegin = boost::posix_time::ptime(boost::gregorian::date(2015, 12, 31), boost::posix_time::time_duration(0, 0, 0));
expectedEnd = boost::posix_time::ptime(boost::gregorian::date(2016, 1, 1), boost::posix_time::time_duration(0, 0, 0));
// Run test
LegacyTimePeriod::ParseTimeSpec(timestamp, &tm_beg, &tm_end, &tm_ref);
// Compare times
begin = boost::posix_time::ptime_from_tm(tm_beg);
end = boost::posix_time::ptime_from_tm(tm_end);
BOOST_CHECK_EQUAL(begin, expectedBegin);
BOOST_CHECK_EQUAL(end, expectedEnd);
//-----------------------------------------------------
// Break things forcefully
BOOST_CHECK_THROW(LegacyTimePeriod::ParseTimeSpec("2015-12-32", &tm_beg, &tm_end, &tm_ref),
std::invalid_argument);
BOOST_CHECK_THROW(LegacyTimePeriod::ParseTimeSpec("2015-28-01", &tm_beg, &tm_end, &tm_ref),
std::invalid_argument);
//-----------------------------------------------------
// check parsing of "day X" and "day -X" specs
timestamp = "day 2";
tm_ref.tm_year = 2016 - 1900;
tm_ref.tm_mon = 2 - 1;
expectedBegin = boost::posix_time::ptime(boost::gregorian::date(2016, 2, 2), boost::posix_time::time_duration(0, 0, 0));
expectedEnd = boost::posix_time::ptime(boost::gregorian::date(2016, 2, 3), boost::posix_time::time_duration(0, 0, 0));
// Run Tests
LegacyTimePeriod::ParseTimeSpec(timestamp, &tm_beg, &tm_end, &tm_ref);
// Compare times
begin = boost::posix_time::ptime_from_tm(tm_beg);
end = boost::posix_time::ptime_from_tm(tm_end);
BOOST_CHECK_EQUAL(begin, expectedBegin);
BOOST_CHECK_EQUAL(end, expectedEnd);
//-----------------------------------------------------
timestamp = "day 31";
tm_ref.tm_year = 2018 - 1900;
tm_ref.tm_mon = 12 - 1;
expectedBegin = boost::posix_time::ptime(boost::gregorian::date(2018, 12, 31), boost::posix_time::time_duration(0, 0, 0));
expectedEnd = boost::posix_time::ptime(boost::gregorian::date(2019, 1, 1), boost::posix_time::time_duration(0, 0, 0));
// Run Tests
LegacyTimePeriod::ParseTimeSpec(timestamp, &tm_beg, &tm_end, &tm_ref);
// Compare times
begin = boost::posix_time::ptime_from_tm(tm_beg);
end = boost::posix_time::ptime_from_tm(tm_end);
BOOST_CHECK_EQUAL(begin, expectedBegin);
BOOST_CHECK_EQUAL(end, expectedEnd);
//-----------------------------------------------------
// Last day of the month
timestamp = "day -1";
tm_ref.tm_year = 2012 - 1900;
tm_ref.tm_mon = 7 - 1;
expectedBegin = boost::posix_time::ptime(boost::gregorian::date(2012, 7, 31), boost::posix_time::time_duration(0, 0, 0));
expectedEnd = boost::posix_time::ptime(boost::gregorian::date(2012, 8, 1), boost::posix_time::time_duration(0, 0, 0));
// Run Tests
LegacyTimePeriod::ParseTimeSpec(timestamp, &tm_beg, &tm_end, &tm_ref);
// Compare times
begin = boost::posix_time::ptime_from_tm(tm_beg);
end = boost::posix_time::ptime_from_tm(tm_end);
BOOST_CHECK_EQUAL(begin, expectedBegin);
BOOST_CHECK_EQUAL(end, expectedEnd);
//-----------------------------------------------------
// Third last day of the month
timestamp = "day -3";
tm_ref.tm_year = 2019 - 1900;
tm_ref.tm_mon = 7 - 1;
expectedBegin = boost::posix_time::ptime(boost::gregorian::date(2019, 7, 29), boost::posix_time::time_duration(0, 0, 0));
expectedEnd = boost::posix_time::ptime(boost::gregorian::date(2019, 7, 30), boost::posix_time::time_duration(0, 0, 0));
// Run Tests
LegacyTimePeriod::ParseTimeSpec(timestamp, &tm_beg, &tm_end, &tm_ref);
// Compare times
begin = boost::posix_time::ptime_from_tm(tm_beg);
end = boost::posix_time::ptime_from_tm(tm_end);
BOOST_CHECK_EQUAL(begin, expectedBegin);
BOOST_CHECK_EQUAL(end, expectedEnd);
//-----------------------------------------------------
// Leap year with the last day of the month
timestamp = "day -1";
tm_ref.tm_year = 2016 - 1900; // leap year
tm_ref.tm_mon = 2 - 1;
expectedBegin = boost::posix_time::ptime(boost::gregorian::date(2016, 2, 29), boost::posix_time::time_duration(0, 0, 0));
expectedEnd = boost::posix_time::ptime(boost::gregorian::date(2016, 3, 1), boost::posix_time::time_duration(0, 0, 0));
// Run Tests
LegacyTimePeriod::ParseTimeSpec("day -1", &tm_beg, &tm_end, &tm_ref);
// Compare times
begin = boost::posix_time::ptime_from_tm(tm_beg);
end = boost::posix_time::ptime_from_tm(tm_end);
BOOST_CHECK_EQUAL(begin, expectedBegin);
BOOST_CHECK_EQUAL(end, expectedEnd);
}
struct DateTime
{
struct {
int Year, Month, Day;
} Date;
struct {
int Hour, Minute, Second;
} Time;
};
static inline
void AdvancedHelper(const char *timestamp, DateTime from, DateTime to)
{
using boost::gregorian::date;
using boost::posix_time::ptime;
using boost::posix_time::ptime_from_tm;
using boost::posix_time::time_duration;
tm tm_beg, tm_end, tm_ref;
tm_ref.tm_year = from.Date.Year - 1900;
tm_ref.tm_mon = from.Date.Month - 1;
tm_ref.tm_mday = from.Date.Day;
// Run test
LegacyTimePeriod::ProcessTimeRangeRaw(timestamp, &tm_ref, &tm_beg, &tm_end);
// Compare times
BOOST_CHECK_EQUAL(ptime_from_tm(tm_beg), ptime(date(from.Date.Year, from.Date.Month, from.Date.Day), time_duration(from.Time.Hour, from.Time.Minute, from.Time.Second)));
BOOST_CHECK_EQUAL(ptime_from_tm(tm_end), ptime(date(to.Date.Year, to.Date.Month, to.Date.Day), time_duration(to.Time.Hour, to.Time.Minute, to.Time.Second)));
}
BOOST_AUTO_TEST_CASE(advanced)
{
tm tm_beg, tm_end, tm_ref;
String timestamp;
boost::posix_time::ptime begin;
boost::posix_time::ptime end;
boost::posix_time::ptime expectedBegin;
boost::posix_time::ptime expectedEnd;
//-----------------------------------------------------
// 2019-05-06 where Icinga celebrates 10 years #monitoringlove
// 2019-05-06 22:00:00 - 2019-05-07 06:00:00
AdvancedHelper("22:00-06:00", {{2019, 5, 6}, {22, 0, 0}}, {{2019, 5, 7}, {6, 0, 0}});
AdvancedHelper("22:00:01-06:00", {{2019, 5, 6}, {22, 0, 1}}, {{2019, 5, 7}, {6, 0, 0}});
AdvancedHelper("22:00-06:00:02", {{2019, 5, 6}, {22, 0, 0}}, {{2019, 5, 7}, {6, 0, 2}});
AdvancedHelper("22:00:03-06:00:04", {{2019, 5, 6}, {22, 0, 3}}, {{2019, 5, 7}, {6, 0, 4}});
//-----------------------------------------------------
// 2019-05-06 Icinga is unleashed.
// 09:00:00 - 17:00:00
AdvancedHelper("09:00-17:00", {{2009, 5, 6}, {9, 0, 0}}, {{2009, 5, 6}, {17, 0, 0}});
AdvancedHelper("09:00:01-17:00", {{2009, 5, 6}, {9, 0, 1}}, {{2009, 5, 6}, {17, 0, 0}});
AdvancedHelper("09:00-17:00:02", {{2009, 5, 6}, {9, 0, 0}}, {{2009, 5, 6}, {17, 0, 2}});
AdvancedHelper("09:00:03-17:00:04", {{2009, 5, 6}, {9, 0, 3}}, {{2009, 5, 6}, {17, 0, 4}});
//-----------------------------------------------------
// At our first Icinga Camp in SFO 2014 at GitHub HQ, we partied all night long with an overflow.
// 2014-09-24 09:00:00 - 2014-09-25 06:00:00
AdvancedHelper("09:00-30:00", {{2014, 9, 24}, {9, 0, 0}}, {{2014, 9, 25}, {6, 0, 0}});
AdvancedHelper("09:00:01-30:00", {{2014, 9, 24}, {9, 0, 1}}, {{2014, 9, 25}, {6, 0, 0}});
AdvancedHelper("09:00-30:00:02", {{2014, 9, 24}, {9, 0, 0}}, {{2014, 9, 25}, {6, 0, 2}});
AdvancedHelper("09:00:03-30:00:04", {{2014, 9, 24}, {9, 0, 3}}, {{2014, 9, 25}, {6, 0, 4}});
}
tm make_tm(std::string s)
{
int dst = -1;
size_t l = strlen("YYYY-MM-DD HH:MM:SS");
if (s.size() > l) {
std::string zone = s.substr(l);
if (zone == " PST") {
dst = 0;
} else if (zone == " PDT") {
dst = 1;
} else {
// tests should only use PST/PDT (for now)
BOOST_CHECK_MESSAGE(false, "invalid or unknown time time: " << zone);
}
}
std::tm t = {};
#if defined(__GNUC__) && __GNUC__ < 5
// GCC did not implement std::get_time() until version 5
strptime(s.c_str(), "%Y-%m-%d %H:%M:%S", &t);
#else /* defined(__GNUC__) && __GNUC__ < 5 */
std::istringstream stream(s);
stream >> std::get_time(&t, "%Y-%m-%d %H:%M:%S");
#endif /* defined(__GNUC__) && __GNUC__ < 5 */
t.tm_isdst = dst;
return t;
}
time_t make_time_t(const tm* t)
{
tm copy = *t;
return mktime(&copy);
}
time_t make_time_t(std::string s)
{
tm t = make_tm(s);
return mktime(&t);
}
struct Segment
{
time_t begin, end;
Segment(time_t begin, time_t end) : begin(begin), end(end) {}
Segment(std::string begin, std::string end) : begin(make_time_t(begin)), end(make_time_t(end)) {}
bool operator==(const Segment& o) const
{
return o.begin == begin && o.end == end;
}
};
std::string pretty_time(const tm& t)
{
#if defined(__GNUC__) && __GNUC__ < 5
// GCC did not implement std::put_time() until version 5
char buf[128];
size_t n = strftime(buf, sizeof(buf), "%Y-%m-%d %H:%M:%S %Z", &t);
return std::string(buf, n);
#else /* defined(__GNUC__) && __GNUC__ < 5 */
std::ostringstream stream;
stream << std::put_time(&t, "%Y-%m-%d %H:%M:%S %Z");
return stream.str();
#endif /* defined(__GNUC__) && __GNUC__ < 5 */
}
std::string pretty_time(time_t t)
{
return pretty_time(Utility::LocalTime(t));
}
std::ostream& operator<<(std::ostream& o, const Segment& s)
{
return o << "(" << pretty_time(s.begin) << " (" << s.begin << ") .. " << pretty_time(s.end) << " (" << s.end << "))";
}
std::ostream& operator<<(std::ostream& o, const boost::optional<Segment>& s)
{
if (s) {
return o << *s;
} else {
return o << "none";
}
}
BOOST_AUTO_TEST_CASE(dst)
{
// DST changes in America/Los_Angeles:
// 2021-03-14: 01:59:59 PST (UTC-8) -> 03:00:00 PDT (UTC-7)
// 2021-11-07: 01:59:59 PDT (UTC-7) -> 01:00:00 PST (UTC-8)
#ifndef _WIN32
GlobalTimezoneFixture tz("America/Los_Angeles");
#else /* _WIN32 */
// Tests are using pacific time because Windows only really supports timezones following US DST rules with the TZ
// environment variable. Format is "[Standard TZ][negative UTC offset][DST TZ]".
// https://docs.microsoft.com/en-us/cpp/c-runtime-library/reference/tzset?view=msvc-160#remarks
GlobalTimezoneFixture tz("PST8PDT");
#endif /* _WIN32 */
// Self-tests for helper functions
BOOST_CHECK_EQUAL(make_tm("2021-11-07 02:30:00").tm_isdst, -1);
BOOST_CHECK_EQUAL(make_tm("2021-11-07 02:30:00 PST").tm_isdst, 0);
BOOST_CHECK_EQUAL(make_tm("2021-11-07 02:30:00 PDT").tm_isdst, 1);
BOOST_CHECK_EQUAL(make_time_t("2021-11-07 01:30:00 PST"), 1636277400); // date -d '2021-11-07 01:30:00 PST' +%s
BOOST_CHECK_EQUAL(make_time_t("2021-11-07 01:30:00 PDT"), 1636273800); // date -d '2021-11-07 01:30:00 PDT' +%s
struct TestData {
std::string day;
std::string ranges;
std::vector<tm> before;
std::vector<tm> during;
boost::optional<Segment> expected;
};
// Some of the following test cases have comments describing the current behavior. This might not necessarily be the
// best possible behavior, especially that it differs on Windows. So it might be perfectly valid to change this.
// These cases are just there to actually notice these changes in this case.
std::vector<TestData> tests;
// 2021-03-14: 01:59:59 PST (UTC-8) -> 03:00:00 PDT (UTC-7)
for (const std::string& day : {"2021-03-14", "sunday", "sunday 2", "sunday -3"}) {
// range before DST change
tests.push_back(TestData{
day, "00:30-01:30",
{make_tm("2021-03-14 00:00:00 PST")},
{make_tm("2021-03-14 01:00:00 PST")},
Segment("2021-03-14 00:30:00 PST", "2021-03-14 01:30:00 PST"),
});
if (day.find("sunday") == std::string::npos) { // skip for non-absolute day specs (would find another sunday)
// range end actually does not exist on that day
tests.push_back(TestData{
day, "01:30-02:30",
{make_tm("2021-03-14 01:00:00 PST")},
{make_tm("2021-03-14 01:59:59 PST")},
#ifndef _WIN32
// As 02:30 does not exist on this day, it is parsed as if it was 02:30 PST which is actually 03:30 PDT.
Segment("2021-03-14 01:30:00 PST", "2021-03-14 03:30:00 PDT"),
#else
// Windows interpretes 02:30 as 01:30 PST, so it is an empty segment.
boost::none,
#endif
});
}
if (day.find("sunday") == std::string::npos) { // skip for non-absolute day specs (would find another sunday)
// range beginning does not actually exist on that day
tests.push_back(TestData{
day, "02:30-03:30",
{make_tm("2021-03-14 01:00:00 PST")},
{make_tm("2021-03-14 03:00:00 PDT")},
#ifndef _WIN32
// As 02:30 does not exist on this day, it is parsed as if it was 02:30 PST which is actually 03:30 PDT.
// Therefore, the result is a segment from 03:30 PDT to 03:30 PDT with a duration of 0, i.e. no segment.
boost::none,
#else
// Windows parses non-existing 02:30 as 01:30 PST, resulting in an 1 hour segment.
Segment("2021-03-14 01:30:00 PST", "2021-03-14 03:30:00 PDT"),
#endif
});
}
// another range where the beginning does not actually exist on that day
tests.push_back(TestData{
day, "02:15-03:45",
{make_tm("2021-03-14 01:00:00 PST")},
{make_tm("2021-03-14 03:30:00 PDT")},
#ifndef _WIN32
// As 02:15 does not exist on this day, it is parsed as if it was 02:15 PST which is actually 03:15 PDT.
Segment("2021-03-14 03:15:00 PDT", "2021-03-14 03:45:00 PDT"),
#else
// Windows interprets 02:15 as 01:15 PST though.
Segment("2021-03-14 01:15:00 PST", "2021-03-14 03:45:00 PDT"),
#endif
});
// range after DST change
tests.push_back(TestData{
day, "03:30-04:30",
{make_tm("2021-03-14 01:00:00 PST"), make_tm("2021-03-14 03:00:00 PDT")},
{make_tm("2021-03-14 04:00:00 PDT")},
Segment("2021-03-14 03:30:00 PDT", "2021-03-14 04:30:00 PDT"),
});
// range containing DST change
tests.push_back(TestData{
day, "01:30-03:30",
{make_tm("2021-03-14 01:00:00 PST")},
{make_tm("2021-03-14 01:45:00 PST"), make_tm("2021-03-14 03:15:00 PDT")},
Segment("2021-03-14 01:30:00 PST", "2021-03-14 03:30:00 PDT"),
});
}
// 2021-11-07: 01:59:59 PDT (UTC-7) -> 01:00:00 PST (UTC-8)
for (const std::string& day : {"2021-11-07", "sunday", "sunday 1", "sunday -4"}) {
// range before DST change
tests.push_back(TestData{
day, "00:15-00:45",
{make_tm("2021-11-07 00:00:00 PDT")},
{make_tm("2021-11-07 00:30:00 PDT")},
Segment("2021-11-07 00:15:00 PDT", "2021-11-07 00:45:00 PDT"),
});
if (day.find("sunday") == std::string::npos) { // skip for non-absolute day specs (would find another sunday)
// range existing twice during DST change (first instance)
#ifndef _WIN32
tests.push_back(TestData{
day, "01:15-01:45",
{make_tm("2021-11-07 01:00:00 PDT")},
{make_tm("2021-11-07 01:30:00 PDT")},
// Duplicate times are interpreted as the first occurrence.
Segment("2021-11-07 01:15:00 PDT", "2021-11-07 01:45:00 PDT"),
});
#else
tests.push_back(TestData{
day, "01:15-01:45",
{make_tm("2021-11-07 01:00:00 PDT")},
{make_tm("2021-11-07 01:30:00 PST")},
// However, Windows always uses the second occurrence.
Segment("2021-11-07 01:15:00 PST", "2021-11-07 01:45:00 PST"),
});
#endif
}
if (day.find("sunday") == std::string::npos) { // skip for non-absolute day specs (would find another sunday)
// range existing twice during DST change (second instance)
tests.push_back(TestData{
day, "01:15-01:45",
{make_tm("2021-11-07 01:00:00 PST")},
{make_tm("2021-11-07 01:30:00 PST")},
#ifndef _WIN32
// Interpreted as the first occurrence, so it's in the past.
boost::none,
#else
// On Windows, it's the second occurrence, so it's still in the present/future and is found.
Segment("2021-11-07 01:15:00 PST", "2021-11-07 01:45:00 PST"),
#endif
});
}
// range after DST change
tests.push_back(TestData{
day, "03:30-04:30",
{make_tm("2021-11-07 01:00:00 PDT"), make_tm("2021-11-07 03:00:00 PST")},
{make_tm("2021-11-07 04:00:00 PST")},
Segment("2021-11-07 03:30:00 PST", "2021-11-07 04:30:00 PST"),
});
// range containing DST change
tests.push_back(TestData{
day, "00:30-02:30",
{make_tm("2021-11-07 00:00:00 PDT")},
{make_tm("2021-11-07 00:45:00 PDT"), make_tm("2021-11-07 01:30:00 PDT"),
make_tm("2021-11-07 01:30:00 PST"), make_tm("2021-11-07 02:15:00 PST")},
Segment("2021-11-07 00:30:00 PDT", "2021-11-07 02:30:00 PST"),
});
// range ending during duplicate DST hour (first instance)
tests.push_back(TestData{
day, "00:30-01:30",
{make_tm("2021-11-07 00:00:00 PDT")},
{make_tm("2021-11-07 01:00:00 PDT")},
#ifndef _WIN32
// Both times are interpreted as the first instance on that day (i.e both PDT).
Segment("2021-11-07 00:30:00 PDT", "2021-11-07 01:30:00 PDT")
#else
// Windows interprets duplicate times as the second instance (i.e. both PST).
Segment("2021-11-07 00:30:00 PDT", "2021-11-07 01:30:00 PST")
#endif
});
// range beginning during duplicate DST hour (first instance)
tests.push_back(TestData{
day, "01:30-02:30",
{make_tm("2021-11-07 01:00:00 PDT")},
{make_tm("2021-11-07 02:00:00 PST")},
#ifndef _WIN32
// 01:30 is interpreted as the first occurrence (PDT) but since there's no 02:30 PDT, it's PST.
Segment("2021-11-07 01:30:00 PDT", "2021-11-07 02:30:00 PST")
#else
// Windows interprets both as PST though.
Segment("2021-11-07 01:30:00 PST", "2021-11-07 02:30:00 PST")
#endif
});
if (day.find("sunday") == std::string::npos) { // skip for non-absolute day specs (would find another sunday)
// range ending during duplicate DST hour (second instance)
#ifndef _WIN32
tests.push_back(TestData{
day, "00:30-01:30",
{make_tm("2021-11-07 00:00:00 PST")},
{make_tm("2021-11-07 01:00:00 PST")},
// Both times are parsed as PDT. Thus, 00:00 PST (01:00 PDT) is during the segment and
// 01:00 PST (02:00 PDT) is after the segment.
boost::none,
});
#else
tests.push_back(TestData{
day, "00:30-01:30",
{make_tm("2021-11-07 00:00:00 PDT")},
{make_tm("2021-11-07 01:00:00 PST")},
// As Windows interprets the end as PST, it's still in the future and the segment is found.
Segment("2021-11-07 00:30:00 PDT", "2021-11-07 01:30:00 PST"),
});
#endif
}
// range beginning during duplicate DST hour (second instance)
tests.push_back(TestData{
day, "01:30-02:30",
{make_tm("2021-11-07 01:00:00 PDT")},
{make_tm("2021-11-07 02:00:00 PST")},
#ifndef _WIN32
// As 01:30 always refers to the first occurrence (PDT), this is actually a 2 hour segment.
Segment("2021-11-07 01:30:00 PDT", "2021-11-07 02:30:00 PST"),
#else
// On Windows, it refers t the second occurrence (PST), therefore it's an 1 hour segment.
Segment("2021-11-07 01:30:00 PST", "2021-11-07 02:30:00 PST"),
#endif
});
}
auto seg = [](const Dictionary::Ptr& segment) -> boost::optional<Segment> {
if (segment == nullptr) {
return boost::none;
}
BOOST_CHECK(segment->Contains("begin"));
BOOST_CHECK(segment->Contains("end"));
return Segment{time_t(segment->Get("begin")), time_t(segment->Get("end"))};
};
for (const TestData& t : tests) {
for (const tm& ref : t.during) {
if (t.expected) {
// test data sanity check
time_t ref_ts = make_time_t(&ref);
BOOST_CHECK_MESSAGE(t.expected->begin < ref_ts, "[day='" << t.day << "' ranges='" << t.ranges
<< "'] expected.begin='"<< pretty_time(t.expected->begin) << "' < ref='" << pretty_time(ref_ts)
<< "' violated");
BOOST_CHECK_MESSAGE(ref_ts < t.expected->end, "[day='" << t.day << "' ranges='" << t.ranges
<< "'] ref='" << pretty_time(ref_ts) << "' < expected.end='" << pretty_time(t.expected->end)
<< "' violated");
}
tm mutRef = ref;
auto runningSeg = seg(LegacyTimePeriod::FindRunningSegment(t.day, t.ranges, &mutRef));
BOOST_CHECK_MESSAGE(runningSeg == t.expected, "FindRunningSegment(day='" << t.day
<< "' ranges='" << t.ranges << "' ref='" << pretty_time(ref) << "'): got=" << runningSeg
<< " expected=" << t.expected);
}
for (const tm& ref : t.before) {
if (t.expected) {
// test data sanity check
time_t ref_ts = make_time_t(&ref);
BOOST_CHECK_MESSAGE(ref_ts < t.expected->begin, "[day='" << t.day << "' ranges='" << t.ranges
<< "'] ref='"<< pretty_time(ref_ts) << "' < expected.begin='" << pretty_time(t.expected->begin)
<< "' violated");
BOOST_CHECK_MESSAGE(t.expected->begin < t.expected->end, "[day='" << t.day << "' ranges='" << t.ranges
<< "'] expected.begin='" << pretty_time(t.expected->begin)
<< "' < expected.end='" << pretty_time(t.expected->end) << "' violated");
}
tm mutRef = ref;
auto nextSeg = seg(LegacyTimePeriod::FindNextSegment(t.day, t.ranges, &mutRef));
BOOST_CHECK_MESSAGE(nextSeg == t.expected, "FindNextSegment(day='" << t.day << "' ranges='" << t.ranges
<< "' ref='" << pretty_time(ref) << "'): got=" << nextSeg << " expected=" << t.expected);
}
}
}
BOOST_AUTO_TEST_SUITE_END()