#include "parser.h"
#include <library/cpp/testing/unittest/registar.h>
static const time_t SECONDS_PER_HOUR = 3600;
static const time_t SECONDS_PER_MINUTE = 60;
Y_UNIT_TEST_SUITE(TDateTimeParseTest) {
Y_UNIT_TEST(TestRfc822Correct) {
bool r = false;
time_t t = 0;
// predefined time zones
r = ParseRFC822DateTime("Fri, 4 Mar 2005 19:34:45 UT", t);
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109964885);
r = ParseRFC822DateTime("Fri, 4 Mar 2005 19:34:45 GMT", t);
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109964885);
r = ParseRFC822DateTime("Fri, 4 Mar 2005 19:34:45 EST", t);
UNIT_ASSERT(r);
UNIT_ASSERT_VALUES_EQUAL(t, (time_t)1109964885 + 5 * SECONDS_PER_HOUR);
r = ParseRFC822DateTime("Fri, 4 Mar 2005 19:34:45 EDT", t);
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109964885 + 4 * SECONDS_PER_HOUR);
r = ParseRFC822DateTime("Fri, 4 Mar 2005 19:34:45 CST", t);
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109964885 + 6 * SECONDS_PER_HOUR);
r = ParseRFC822DateTime("Fri, 4 Mar 2005 19:34:45 CDT", t);
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109964885 + 5 * SECONDS_PER_HOUR);
r = ParseRFC822DateTime("Fri, 4 Mar 2005 19:34:45 MST", t);
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109964885 + 7 * SECONDS_PER_HOUR);
r = ParseRFC822DateTime("Fri, 4 Mar 2005 19:34:45 MDT", t);
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109964885 + 6 * SECONDS_PER_HOUR);
r = ParseRFC822DateTime("Fri, 4 Mar 2005 19:34:45 PST", t);
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109964885 + 8 * SECONDS_PER_HOUR);
r = ParseRFC822DateTime("Fri, 4 Mar 2005 19:34:45 PDT", t);
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109964885 + 7 * SECONDS_PER_HOUR);
// optinal century
r = ParseRFC822DateTime("Fri, 4 Mar 05 19:34:45 UT", t);
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109964885);
// + optional day of week
r = ParseRFC822DateTime("4 Mar 05 19:34:45 UT", t);
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109964885);
// + optional seconds
r = ParseRFC822DateTime("4 Mar 05 19:34 UT", t);
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109964840);
// local differential hour+min
r = ParseRFC822DateTime("Fri, 4 Mar 2005 19:34:45 +0300", t);
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109954085);
r = ParseRFC822DateTime("Fri, 4 Mar 05 19:34:45 +0300", t);
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109954085);
r = ParseRFC822DateTime("21 Apr 1999 23:40:00 +0400", t);
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)924723600);
r = ParseRFC822DateTime("21 Apr 99 23:40 +0400", t);
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)924723600);
r = ParseRFC822DateTime("Fri, 4 Mar 2005 19:34:45 -0300", t);
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109964885 + 3 * SECONDS_PER_HOUR);
r = ParseRFC822DateTime("Fri, 4 Mar 2005 19:34 -0300", t);
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109964840 + 3 * SECONDS_PER_HOUR);
r = ParseRFC822DateTime("Fri, 4 Mar 05 19:34:45 -0330", t);
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109964885 + 3 * SECONDS_PER_HOUR + 30 * SECONDS_PER_MINUTE);
r = ParseRFC822DateTime("Fri, 4 Mar 05 19:34 -0330", t);
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109964840 + 3 * SECONDS_PER_HOUR + 30 * SECONDS_PER_MINUTE);
r = ParseRFC822DateTime("4 Mar 2005 19:34:45 -1030", t);
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109964885 + 10 * SECONDS_PER_HOUR + 30 * SECONDS_PER_MINUTE);
r = ParseRFC822DateTime("4 Mar 2005 19:34 -1030", t);
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109964840 + 10 * SECONDS_PER_HOUR + 30 * SECONDS_PER_MINUTE);
// white spaces
r = ParseRFC822DateTime("Fri,4 Mar 2005 19:34:45 UT", t); // no space after comma
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109964885);
r = ParseRFC822DateTime(" Fri, 4 Mar 2005 19:34:45 UT ", t); // several spaces, leading and trailing
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109964885);
r = ParseRFC822DateTime(" \t Fri, \t 4 \t Mar \t 2005 \t 19:34:45 \t UT \t ", t); // spaces with tabs
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1109964885);
r = ParseRFC822DateTime("Thu, 01 Jan 1970 03:00:00 +0300", t); // spaces with tabs
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)0);
r = ParseRFC822DateTime("Sat, 14 Feb 2009 02:31:30 +0300", t); // spaces with tabs
UNIT_ASSERT(r);
UNIT_ASSERT_EQUAL(t, (time_t)1234567890);
}
time_t GetOffset(char militaryZone) {
char ch = (char)toupper(militaryZone);
if (ch == 'Z') {
return 0;
} else if (ch >= 'A' && ch < 'J') {
return (ch - 'A' + 1) * SECONDS_PER_HOUR;
} else if (ch > 'J' && ch <= 'M') {
return (ch - 'A') * SECONDS_PER_HOUR;
} else if (ch >= 'N' && ch <= 'Y') {
return -(ch - 'N' + 1) * SECONDS_PER_HOUR;
} else {
ythrow yexception() << "Invalid military zone.";
}
}
void DoTestMilitaryZones(char firstChar, char lastChar) {
const time_t utcTime = 1109964885; // Fri, 4 Mar 2005 19:34:45 UT
char text[] = "Fri, 4 Mar 2005 19:34:45 A";
const size_t zoneCharIndex = strlen(text) - 1;
for (char militaryZone = firstChar; militaryZone <= lastChar; ++militaryZone) {
time_t t = 0;
const time_t offset = GetOffset(militaryZone);
// the last character is replaced with next zone symbol
text[zoneCharIndex] = militaryZone;
UNIT_ASSERT(ParseRFC822DateTime(text, t));
UNIT_ASSERT_EQUAL(t, utcTime - offset);
}
}
Y_UNIT_TEST(TestRfc822MilitaryZones) {
DoTestMilitaryZones('A', 'I');
DoTestMilitaryZones('K', 'Z');
DoTestMilitaryZones('a', 'i');
DoTestMilitaryZones('k', 'z');
}
Y_UNIT_TEST(TestRfc822IncorrectDates) {
bool r = true;
time_t t = 0;
t = 12345;
r = ParseRFC822DateTime("", t);
UNIT_ASSERT(!r);
UNIT_ASSERT_EQUAL(t, (time_t)12345);
t = 223344;
r = ParseRFC822DateTime("Fri, some junk", t);
UNIT_ASSERT(!r);
UNIT_ASSERT_EQUAL(t, (time_t)223344);
t = 54321;
r = ParseRFC822DateTime("Fri, 4 Mar 2005 19:34:45 UTC", t);
UNIT_ASSERT(!r);
UNIT_ASSERT_EQUAL(t, (time_t)54321);
// TODO: check semantic validity of parsed date (30 Feb, 88:90 etc.).
// The following tests MUST fail (they don't now)
// r = ParseRFC822DateTime("45 Mar 2005 19:34:45 UT", t);
// UNIT_ASSERT_EQUAL(r, false);
// r = ParseRFC822DateTime("29 Feb 2005 19:34:45 +0300", t);
// UNIT_ASSERT_EQUAL(r, false);
// r = ParseRFC822DateTime("31 Apr 2004 19:34:45 +0300", t);
// UNIT_ASSERT_EQUAL(r, false);
r = ParseRFC822DateTime("17 Nov 2008 19:34:45", t); // no specified time zone
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("17 Nov 200 19:34:45 UT", t);
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("17 Nov 8 19:34:45 UT", t);
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("17 Nov 20008 19:34:45 UT", t);
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("17 Nov 2008 1:34:45 UT", t);
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("17 Nov 2008 123:34:45 UT", t);
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("17 Nov 2008 19:1:45 UT", t);
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("17 Nov 2008 19:123:45 UT", t);
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("17 Nov 2008 19:34:1 UT", t);
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("17 Nov 2008 19:34:123 UT", t);
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("17 Nov 2008 19:34:12.12 UT", t); // fractions of second are now allowed
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("Mon , 17 Nov 2005 19:34:45 UT", t); // space after day before the comma
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("Mon, 17 Nov 2005 19 :34:45 UT", t);
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("Mon, 17 Nov 2005 19: 34:45 UT", t);
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("Mon, 17 Nov 2005 19:34 :45 UT", t);
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("Mon, 17 Nov 2005 19:34: 45 UT", t);
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("Monday, 17 Nov 2005 19:34:45 UT", t);
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("Mon, 17 November 2008 19:34:45 UT", t);
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("Mon, 17 Nov 2008 19:34:45 +3", t);
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("Mon, 17 Nov 2008 19:34:45 +03", t);
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("Mon, 17 Nov 2008 19:34:45 +030", t);
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("Mon, 17 Nov 2008 19:34:45 +03030", t);
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("Mon, 17 Nov 2008 19:34:45 -3", t);
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("Mon, 17 Nov 2008 19:34:45 -03", t);
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("Mon, 17 Nov 2008 19:34:45 -030", t);
UNIT_ASSERT(!r);
r = ParseRFC822DateTime("Mon, 17 Nov 2008 19:34:45 -03030", t);
UNIT_ASSERT(!r);
}
Y_UNIT_TEST(TestRfc822Partial) {
TRfc822DateTimeParser p;
const char* part1 = "Fri, 4 Mar 05 1";
const char* part2 = "9:34:45 +0300";
UNIT_ASSERT(p.ParsePart(part1, strlen(part1)));
UNIT_ASSERT(p.ParsePart(part2, strlen(part2)));
UNIT_ASSERT_VALUES_EQUAL(TInstant::Seconds(1109954085), p.GetResult(TInstant::Max()));
p = TRfc822DateTimeParser();
const char* part3 = "Fri, 4 Mar 05 19:34:46 +0300";
UNIT_ASSERT(p.ParsePart(part3, strlen(part3)));
UNIT_ASSERT_VALUES_EQUAL(TInstant::Seconds(1109954086), p.GetResult(TInstant::Zero()));
}
Y_UNIT_TEST(TestIso8601Partial) {
TIso8601DateTimeParser p;
const char* part1 = "1990-03-15T15:1";
const char* part2 = "6:17+0732";
UNIT_ASSERT(p.ParsePart(part1, strlen(part1)));
UNIT_ASSERT(p.ParsePart(part2, strlen(part2)));
UNIT_ASSERT_VALUES_EQUAL(TInstant::Seconds(637487057), p.GetResult(TInstant::Max()));
p = TIso8601DateTimeParser();
const char* part3 = "1990-03-15T15:16:18+0732";
UNIT_ASSERT(p.ParsePart(part3, strlen(part3)));
UNIT_ASSERT_VALUES_EQUAL(TInstant::Seconds(637487058), p.GetResult(TInstant::Zero()));
}
Y_UNIT_TEST(TestIso8601Correct) {
bool ret;
time_t t;
// ISO 8601 actually does not allow time without time zone
ret = ParseISO8601DateTime("1990-03-15", t);
UNIT_ASSERT(ret);
UNIT_ASSERT_VALUES_EQUAL(t, 637459200);
// some normal dates
ret = ParseISO8601DateTime("1990-03-15T15:16:17Z", t);
UNIT_ASSERT(ret);
UNIT_ASSERT_VALUES_EQUAL(t, 637514177);
ret = ParseISO8601DateTime("1990-03-15t15:16:17z", t); // lower-case must be allowed too
UNIT_ASSERT(ret);
UNIT_ASSERT_VALUES_EQUAL(t, 637514177);
ret = ParseISO8601DateTime("1990-03-15 15:16:17Z", t); // space as separator should be allowed
UNIT_ASSERT(ret);
UNIT_ASSERT_VALUES_EQUAL(t, 637514177);
ret = ParseISO8601DateTime("1990-03-15T15:16:17.18Z", t);
UNIT_ASSERT(ret);
UNIT_ASSERT_VALUES_EQUAL(t, 637514177);
ret = ParseISO8601DateTime("1990-03-15T15:16:17.18+07:32", t);
UNIT_ASSERT(ret);
UNIT_ASSERT_VALUES_EQUAL(t, 637487057);
ret = ParseISO8601DateTime("1990-03-15T15:16:17.18+0732", t);
UNIT_ASSERT(ret);
UNIT_ASSERT_VALUES_EQUAL(t, 637487057);
ret = ParseISO8601DateTime("1970-01-01T00:00:00Z", t);
UNIT_ASSERT(ret);
UNIT_ASSERT_VALUES_EQUAL(t, 0);
ret = ParseISO8601DateTime("1970-01-01T00:01:02Z", t);
UNIT_ASSERT(ret);
UNIT_ASSERT_VALUES_EQUAL(t, 62);
#if 0
// these tests are disabled, because time zones are handled differently
// in old util/ parser and agalakhov@ parser
ret = ParseISO8601DateTime("1970-01-01", t);
UNIT_ASSERT(ret);
UNIT_ASSERT_VALUES_EQUAL(t, -4 * 3600);
ret = ParseISO8601DateTime("1970-01-02", t);
UNIT_ASSERT(ret);
UNIT_ASSERT_VALUES_EQUAL(t, 86400 - 3 * 3600);
#endif
// this is wrong because of timezone
ret = ParseISO8601DateTime("2009-02-14T03:31:30", t);
UNIT_ASSERT(ret);
UNIT_ASSERT_VALUES_EQUAL(t, 1234582290);
ret = ParseISO8601DateTime("2009-02-14t03:31:30", t);
UNIT_ASSERT(ret);
UNIT_ASSERT_VALUES_EQUAL(t, 1234582290);
ret = ParseISO8601DateTime("2009-02-14T02:31:30+0300", t);
UNIT_ASSERT(ret);
UNIT_ASSERT_VALUES_EQUAL(t, 1234567890);
ret = ParseISO8601DateTime("2009-02-14T02:31:30+03:00", t);
UNIT_ASSERT(ret);
UNIT_ASSERT_VALUES_EQUAL(t, 1234567890);
ret = ParseISO8601DateTime("2009-02-14 02:31:30+03:00", t);
UNIT_ASSERT(ret);
UNIT_ASSERT_VALUES_EQUAL(t, 1234567890);
ret = ParseISO8601DateTime("2010-03-28T04:27:00.000-07:00", t);
UNIT_ASSERT(ret);
UNIT_ASSERT_VALUES_EQUAL(t, 1269775620);
}
Y_UNIT_TEST(TestIso8601TimeZone) {
time_t t1, t2, t3, t4;
UNIT_ASSERT(ParseISO8601DateTime("2010-03-28T04:27:00.000+07:00", t1));
UNIT_ASSERT(ParseISO8601DateTime("2010-03-27T21:27:00.000Z", t2));
UNIT_ASSERT(ParseISO8601DateTime("2010-03-27T22:27:00.000+0100", t3));
UNIT_ASSERT(ParseISO8601DateTime("2010-03-27T20:27:00.000-01:00", t4));
UNIT_ASSERT_VALUES_EQUAL(t1, t2);
UNIT_ASSERT_VALUES_EQUAL(t2, t3);
UNIT_ASSERT_VALUES_EQUAL(t3, t4);
}
Y_UNIT_TEST(TestIso8601Incorrect) {
bool ret;
time_t t;
t = 12345;
ret = ParseISO8601DateTime("", t);
UNIT_ASSERT(!ret);
UNIT_ASSERT_EQUAL(t, (time_t)12345);
// some bad dates
t = 54321;
ret = ParseISO8601DateTime("a990-01-15", t);
UNIT_ASSERT(!ret);
UNIT_ASSERT_EQUAL(t, (time_t)54321);
ret = ParseISO8601DateTime("1970-01-01T03:00:00+04:00", t); // this is 1969 GMT
UNIT_ASSERT(!ret);
ret = ParseISO8601DateTime("1987-13-16", t);
UNIT_ASSERT(!ret);
ret = ParseISO8601DateTime("1987-02-29", t);
UNIT_ASSERT(!ret);
ret = ParseISO8601DateTime("1990-03-151Y15:16:17.18", t);
UNIT_ASSERT(!ret);
ret = ParseISO8601DateTime("1990-03-151T15:16:17:43.18", t);
UNIT_ASSERT(!ret);
ret = ParseISO8601DateTime("1990-03-151T15:16:17.18Z+21:32", t);
UNIT_ASSERT(!ret);
}
Y_UNIT_TEST(TestIso8601Fractions) {
UNIT_ASSERT_VALUES_EQUAL(
TInstant::ParseIso8601("2009-09-19 03:37:08.1+04:00"),
TInstant::Seconds(1253317028) + TDuration::MilliSeconds(100));
UNIT_ASSERT_VALUES_EQUAL(
TInstant::ParseIso8601("2009-09-19 03:37:03.926+04:00"),
TInstant::Seconds(1253317023) + TDuration::MilliSeconds(926));
UNIT_ASSERT_VALUES_EQUAL(
TInstant::ParseIso8601("2009-09-19 03:37:03.92622+04:00"),
TInstant::Seconds(1253317023) + TDuration::MicroSeconds(926220));
UNIT_ASSERT_VALUES_EQUAL(
TInstant::ParseIso8601("2009-09-19 03:37:03.012331+04:00"),
TInstant::Seconds(1253317023) + TDuration::MicroSeconds(12331));
}
Y_UNIT_TEST(TestIso8601FractionsBelowMicro) {
UNIT_ASSERT_VALUES_EQUAL(
TInstant::ParseIso8601("1970-01-01 00:00:00.0000000+00:00"),
TInstant::Seconds(0));
UNIT_ASSERT_VALUES_EQUAL(
TInstant::ParseIso8601("1970-01-01 00:00:00.0000009+00:00"),
TInstant::Seconds(0));
UNIT_ASSERT_VALUES_EQUAL(
TInstant::ParseIso8601("1970-01-01 00:00:00.000000789+00:00"),
TInstant::Seconds(0));
UNIT_ASSERT_VALUES_EQUAL(
TInstant::ParseIso8601("1970-01-01 00:00:00.1234560+00:00"),
TInstant::Seconds(0) + TDuration::MicroSeconds(123456));
UNIT_ASSERT_VALUES_EQUAL(
TInstant::ParseIso8601("1970-01-01 00:00:00.1234569+00:00"),
TInstant::Seconds(0) + TDuration::MicroSeconds(123456));
UNIT_ASSERT_VALUES_EQUAL(
TInstant::ParseIso8601("1970-01-01 00:00:00.123456789+00:00"),
TInstant::Seconds(0) + TDuration::MicroSeconds(123456));
UNIT_ASSERT_VALUES_EQUAL(
TInstant::ParseIso8601("1970-01-01 00:00:00.9999990+00:00"),
TInstant::Seconds(0) + TDuration::MicroSeconds(999999));
UNIT_ASSERT_VALUES_EQUAL(
TInstant::ParseIso8601("1970-01-01 00:00:00.9999999+00:00"),
TInstant::Seconds(0) + TDuration::MicroSeconds(999999));
UNIT_ASSERT_VALUES_EQUAL(
TInstant::ParseIso8601("1970-01-01 00:00:00.999999789+00:00"),
TInstant::Seconds(0) + TDuration::MicroSeconds(999999));
}
Y_UNIT_TEST(TestIso8601BigDate) {
TVector<std::pair<TString, int>> dates{
{"2019-01-01", 17897},
{"2037-01-01", 24472},
{"2050-01-01", 29220},
{"2099-01-01", 47117},
{"2099-12-31", 47481},
{"2100-01-01", 47482},
{"2100-02-28", 47540},
{"2100-03-01", 47541},
};
for (const auto& [date, days] : dates) {
TInstant instant = TInstant::ParseIso8601(date + "T00:00:00Z");
UNIT_ASSERT_VALUES_EQUAL(instant.Days(), days);
}
}
Y_UNIT_TEST(TestHttpDate) {
UNIT_ASSERT_VALUES_EQUAL(
TInstant::ParseHttp("Sun, 06 Nov 1994 08:49:37 GMT"),
TInstant::ParseIso8601("1994-11-06T08:49:37Z"));
UNIT_ASSERT_VALUES_EQUAL(
TInstant::ParseHttp("Sunday, 06-Nov-94 08:49:37 GMT"),
TInstant::ParseIso8601("1994-11-06T08:49:37Z"));
UNIT_ASSERT_VALUES_EQUAL(
TInstant::ParseHttp("Sun Nov 6 08:49:37 1994"),
TInstant::ParseIso8601("1994-11-06T08:49:37Z"));
UNIT_ASSERT_VALUES_EQUAL(
TInstant::ParseHttp("Mon, 19 Jan 2037 08:49:37 GMT"),
TInstant::ParseIso8601("2037-01-19T08:49:37Z"));
}
Y_UNIT_TEST(TestHttpDateIncorrect) {
bool ret;
time_t t = 0;
ret = ParseHTTPDateTime("1990-03-15T15:16:17Z", t);
UNIT_ASSERT(!ret);
}
Y_UNIT_TEST(TestX509ValidityTime) {
UNIT_ASSERT_VALUES_EQUAL(
TInstant::ParseX509Validity("20091014165533Z"),
TInstant::ParseRfc822("Wed, 14 Oct 2009 16:55:33 GMT"));
UNIT_ASSERT_VALUES_EQUAL(
TInstant::ParseX509Validity("990104074212Z"),
TInstant::ParseRfc822("4 Jan 1999 07:42:12 GMT"));
UNIT_ASSERT_VALUES_EQUAL(
TInstant::ParseX509Validity("191231235959Z"),
TInstant::ParseRfc822("31 Dec 2019 23:59:59 GMT"));
}
Y_UNIT_TEST(TestX509ValidityTimeIncorrect) {
bool ret;
time_t t = 0;
ret = ParseX509ValidityDateTime("500101000000Z", t);
UNIT_ASSERT(!ret);
ret = ParseX509ValidityDateTime("091014165533+0300", t);
UNIT_ASSERT(!ret);
}
Y_UNIT_TEST(TestTInstantTryParse) {
{
const TStringBuf s = "2009-09-19 03:37:08.1+04:00";
const auto i = TInstant::ParseIso8601(s);
TInstant iTry;
UNIT_ASSERT(TInstant::TryParseIso8601(s, iTry));
UNIT_ASSERT_VALUES_EQUAL(i, iTry);
}
{
const TStringBuf s = "2009-09aslkdjfkljasdjfl4:00";
TInstant iTry;
UNIT_ASSERT_EXCEPTION(TInstant::ParseIso8601(s), TDateTimeParseException);
UNIT_ASSERT(!TInstant::TryParseIso8601(s, iTry));
}
{
const TStringBuf s = "Wed, 14 Oct 2009 16:55:33 GMT";
const auto i = TInstant::ParseRfc822(s);
TInstant iTry;
UNIT_ASSERT(TInstant::TryParseRfc822(s, iTry));
UNIT_ASSERT_VALUES_EQUAL(i, iTry);
}
{
const TStringBuf s = "Wed, alsdjflkasjdfl:55:33 GMT";
TInstant iTry;
UNIT_ASSERT_EXCEPTION(TInstant::ParseRfc822(s), TDateTimeParseException);
UNIT_ASSERT(!TInstant::TryParseRfc822(s, iTry));
}
{
const TStringBuf s = "20091014165533Z";
const auto i = TInstant::ParseX509Validity(s);
TInstant iTry;
UNIT_ASSERT(TInstant::TryParseX509(s, iTry));
UNIT_ASSERT_VALUES_EQUAL(i, iTry);
}
{
const TStringBuf s = "200asdfasdf533Z";
TInstant iTry;
UNIT_ASSERT_EXCEPTION(TInstant::ParseX509Validity(s), TDateTimeParseException);
UNIT_ASSERT(!TInstant::TryParseX509(s, iTry));
}
{
const TStringBuf s = "990104074212Z";
const auto i = TInstant::ParseX509Validity(s);
TInstant iTry;
UNIT_ASSERT(TInstant::TryParseX509(s, iTry));
UNIT_ASSERT_VALUES_EQUAL(i, iTry);
}
{
const TStringBuf s = "9901asdf4212Z";
TInstant iTry;
UNIT_ASSERT_EXCEPTION(TInstant::ParseX509Validity(s), TDateTimeParseException);
UNIT_ASSERT(!TInstant::TryParseX509(s, iTry));
}
}
}
Y_UNIT_TEST_SUITE(TDurationParseTest) {
Y_UNIT_TEST(TestParse) {
UNIT_ASSERT_VALUES_EQUAL(TDuration::Seconds(60 * 60 * 24 * 7), TDuration::Parse("1w"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::Seconds(60), TDuration::Parse("1m"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::Seconds(90), TDuration::Parse("1.5m"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::Seconds(102), TDuration::Parse("1.7m"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::MilliSeconds(119400), TDuration::Parse("1.99m"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::MilliSeconds(119940), TDuration::Parse("1.999m"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::MilliSeconds(119994), TDuration::Parse("1.9999m"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::Minutes(60), TDuration::Parse("1h"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::Minutes(90), TDuration::Parse("1.5h"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::Minutes(102), TDuration::Parse("1.7h"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::Seconds(7164), TDuration::Parse("1.99h"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::MilliSeconds(7196400), TDuration::Parse("1.999h"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::MilliSeconds(7199640), TDuration::Parse("1.9999h"));
UNIT_ASSERT_EQUAL(TDuration::Minutes(15), TDuration::Parse("15m"));
UNIT_ASSERT_EQUAL(TDuration::Hours(10), TDuration::Parse("10h"));
UNIT_ASSERT_EQUAL(TDuration::Days(365), TDuration::Parse("365d"));
UNIT_ASSERT_EQUAL(TDuration::Hours(36), TDuration::Parse("1.5d"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::Hours(24), TDuration::Parse("1d"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::Hours(36), TDuration::Parse("1.5d"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::Minutes(2448), TDuration::Parse("1.7d"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::Seconds(171936), TDuration::Parse("1.99d"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::MilliSeconds(172713600), TDuration::Parse("1.999d"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::MilliSeconds(172791360), TDuration::Parse("1.9999d"));
#if 0 // not implemented
UNIT_ASSERT_VALUES_EQUAL(TDuration::Seconds(90), TDuration::Parse("1m30s"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::Minutes(90), TDuration::Parse("1h30m"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::Hours(36), TDuration::Parse("1d12h"));
#endif
UNIT_ASSERT_VALUES_EQUAL(TDuration::Seconds(10), TDuration::Parse("10s"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::Seconds(10), TDuration::Parse("10.000s"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::MicroSeconds(4), TDuration::Parse("0.000004s"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::MilliSeconds(3456), TDuration::Parse("3.456s"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::MilliSeconds(3450), TDuration::Parse("3.450s"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::MilliSeconds(3450), TDuration::Parse("3.45000000s"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::MilliSeconds(3450), TDuration::Parse("3.45s"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::MilliSeconds(1), TDuration::Parse("1ms"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::MicroSeconds(1100), TDuration::Parse("1.1ms"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::Seconds(112), TDuration::Parse("112"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::MicroSeconds(14456), TDuration::Parse("14456us"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::MicroSeconds(1), TDuration::Parse("1000ns"));
UNIT_ASSERT_VALUES_EQUAL(TDuration::MicroSeconds(1), TDuration::Parse("0.000001s"));
UNIT_ASSERT_EQUAL(TDuration(), TDuration::Parse("10ns")); // TDuration has 1us precision.
}
}