/* $Id: tstRTTimeSpec.cpp $ */ /** @file * IPRT - RTTimeSpec and PRTTIME tests. */ /* * Copyright (C) 2006-2023 Oracle and/or its affiliates. * * This file is part of VirtualBox base platform packages, as * available from https://www.virtualbox.org. * * 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, in version 3 of the * License. * * 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 . * * The contents of this file may alternatively be used under the terms * of the Common Development and Distribution License Version 1.0 * (CDDL), a copy of it is provided in the "COPYING.CDDL" file included * in the VirtualBox distribution, in which case the provisions of the * CDDL are applicable instead of those of the GPL. * * You may elect to license modified versions of this file under the * terms and conditions of either the GPL or the CDDL or both. * * SPDX-License-Identifier: GPL-3.0-only OR CDDL-1.0 */ /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #if !defined(RT_OS_WINDOWS) # define RTTIME_INCL_TIMEVAL # define RTTIME_INCL_TIMESPEC # include # include #endif #include #include #include #include /** * Format the time into a string using a static buffer. */ char *ToString(PRTTIME pTime) { static char szBuf[128]; RTStrPrintf(szBuf, sizeof(szBuf), "%04d-%02d-%02dT%02u:%02u:%02u.%09u [YD%u WD%u UO%d F%#x]", pTime->i32Year, pTime->u8Month, pTime->u8MonthDay, pTime->u8Hour, pTime->u8Minute, pTime->u8Second, pTime->u32Nanosecond, pTime->u16YearDay, pTime->u8WeekDay, pTime->offUTC, pTime->fFlags); return szBuf; } #define CHECK_NZ(expr) do { if (!(expr)) { RTTestIFailed("at line %d: %#x\n", __LINE__, #expr); return RTTestSummaryAndDestroy(hTest); } } while (0) #define TEST_NS(ns) do {\ CHECK_NZ(RTTimeExplode(&T1, RTTimeSpecSetNano(&Ts1, ns))); \ RTTestIPrintf(RTTESTLVL_ALWAYS, "%RI64 ns - %s\n", ns, ToString(&T1)); \ CHECK_NZ(RTTimeImplode(&Ts2, &T1)); \ if (!RTTimeSpecIsEqual(&Ts2, &Ts1)) \ RTTestIFailed("FAILURE - %RI64 != %RI64, line no. %d\n", \ RTTimeSpecGetNano(&Ts2), RTTimeSpecGetNano(&Ts1), __LINE__); \ } while (0) #define TEST_NS_LOCAL(ns) do {\ CHECK_NZ(RTTimeLocalExplode(&T1, RTTimeSpecSetNano(&Ts1, ns))); \ RTTestIPrintf(RTTESTLVL_ALWAYS, "%RI64 ns - %s\n", ns, ToString(&T1)); \ CHECK_NZ(RTTimeImplode(&Ts2, &T1)); \ if (!RTTimeSpecIsEqual(&Ts2, &Ts1)) \ RTTestIFailed("FAILURE - %RI64 != %RI64, line no. %d\n", \ RTTimeSpecGetNano(&Ts2), RTTimeSpecGetNano(&Ts1), __LINE__); \ } while (0) #define TEST_SEC(sec) do {\ CHECK_NZ(RTTimeExplode(&T1, RTTimeSpecSetSeconds(&Ts1, sec))); \ RTTestIPrintf(RTTESTLVL_ALWAYS, "%RI64 sec - %s\n", sec, ToString(&T1)); \ CHECK_NZ(RTTimeImplode(&Ts2, &T1)); \ if (!RTTimeSpecIsEqual(&Ts2, &Ts1)) \ RTTestIFailed("FAILURE - %RI64 != %RI64, line no. %d\n", \ RTTimeSpecGetNano(&Ts2), RTTimeSpecGetNano(&Ts1), __LINE__); \ } while (0) #define CHECK_TIME_EX(pTime, _i32Year, _u8Month, _u8MonthDay, _u8Hour, _u8Minute, _u8Second, _u32Nanosecond, _u16YearDay, _u8WeekDay, _offUTC, _fFlags, _Silent)\ do { \ if ( (pTime)->i32Year != (_i32Year) \ || (pTime)->u8Month != (_u8Month) \ || (pTime)->u8WeekDay != (_u8WeekDay) \ || (pTime)->u16YearDay != (_u16YearDay) \ || (pTime)->u8MonthDay != (_u8MonthDay) \ || (pTime)->u8Hour != (_u8Hour) \ || (pTime)->u8Minute != (_u8Minute) \ || (pTime)->u8Second != (_u8Second) \ || (pTime)->u32Nanosecond != (_u32Nanosecond) \ || (pTime)->offUTC != (_offUTC) \ || (pTime)->fFlags != (_fFlags) \ ) \ { \ RTTestIFailed(" %s ; line no %d\n" \ "!= %04d-%02d-%02dT%02u:%02u:%02u.%09u [YD%u WD%u UO%d F%#x]\n", \ ToString(pTime), __LINE__, (_i32Year), (_u8Month), (_u8MonthDay), (_u8Hour), (_u8Minute), \ (_u8Second), (_u32Nanosecond), (_u16YearDay), (_u8WeekDay), (_offUTC), (_fFlags)); \ } \ else if (!_Silent) \ RTTestIPrintf(RTTESTLVL_ALWAYS, "=> %s\n", ToString(pTime)); \ } while (0) #define CHECK_TIME(pTime, _i32Year, _u8Month, _u8MonthDay, _u8Hour, _u8Minute, _u8Second, _u32Nanosecond, _u16YearDay, _u8WeekDay, _offUTC, _fFlags) CHECK_TIME_EX(pTime, _i32Year, _u8Month, _u8MonthDay, _u8Hour, _u8Minute, _u8Second, _u32Nanosecond, _u16YearDay, _u8WeekDay, _offUTC, _fFlags, false) #define CHECK_TIME_SILENT(pTime, _i32Year, _u8Month, _u8MonthDay, _u8Hour, _u8Minute, _u8Second, _u32Nanosecond, _u16YearDay, _u8WeekDay, _offUTC, _fFlags) CHECK_TIME_EX(pTime, _i32Year, _u8Month, _u8MonthDay, _u8Hour, _u8Minute, _u8Second, _u32Nanosecond, _u16YearDay, _u8WeekDay, _offUTC, _fFlags, true) #define CHECK_TIME_LOCAL_EX(pTime, _i32Year, _u8Month, _u8MonthDay, _u8Hour, _u8Minute, _u8Second, _u32Nanosecond, _u16YearDay, _u8WeekDay, _offUTC, _fFlags, _Silent)\ do { \ uint32_t fOrigFlags = (pTime)->fFlags; \ CHECK_NZ(RTTimeConvertToZulu(pTime)); \ if ( (pTime)->i32Year != (_i32Year) \ || (pTime)->u8Month != (_u8Month) \ || (pTime)->u8WeekDay != (_u8WeekDay) \ || (pTime)->u16YearDay != (_u16YearDay) \ || (pTime)->u8MonthDay != (_u8MonthDay) \ || (pTime)->u8Hour != (_u8Hour) \ || (pTime)->u8Minute != (_u8Minute) \ || (pTime)->u8Second != (_u8Second) \ || (pTime)->u32Nanosecond != (_u32Nanosecond) \ || (pTime)->offUTC != (_offUTC) \ || (fOrigFlags & RTTIME_FLAGS_TYPE_MASK) != RTTIME_FLAGS_TYPE_LOCAL \ || (pTime)->fFlags != (_fFlags) \ ) \ { \ RTTestIFailed(" %s ; line no %d\n" \ "!= %04d-%02d-%02dT%02u:%02u:%02u.%09u [YD%u WD%u UO%d F%#x]\n", \ ToString(pTime), __LINE__, (_i32Year), (_u8Month), (_u8MonthDay), (_u8Hour), (_u8Minute), \ (_u8Second), (_u32Nanosecond), (_u16YearDay), (_u8WeekDay), (_offUTC), (_fFlags)); \ } \ else if (!_Silent) \ RTTestIPrintf(RTTESTLVL_ALWAYS, "=> %s\n", ToString(pTime)); \ } while (0) #define CHECK_TIME_LOCAL(pTime, _i32Year, _u8Month, _u8MonthDay, _u8Hour, _u8Minute, _u8Second, _u32Nanosecond, _u16YearDay, _u8WeekDay, _offUTC, _fFlags) CHECK_TIME_LOCAL_EX(pTime, _i32Year, _u8Month, _u8MonthDay, _u8Hour, _u8Minute, _u8Second, _u32Nanosecond, _u16YearDay, _u8WeekDay, _offUTC, _fFlags, false) #define CHECK_TIME_LOCAL_SILENT(pTime, _i32Year, _u8Month, _u8MonthDay, _u8Hour, _u8Minute, _u8Second, _u32Nanosecond, _u16YearDay, _u8WeekDay, _offUTC, _fFlags) CHECK_TIME_LOCAL_EX(pTime, _i32Year, _u8Month, _u8MonthDay, _u8Hour, _u8Minute, _u8Second, _u32Nanosecond, _u16YearDay, _u8WeekDay, _offUTC, _fFlags, true) #define SET_TIME(pTime, _i32Year, _u8Month, _u8MonthDay, _u8Hour, _u8Minute, _u8Second, _u32Nanosecond, _u16YearDay, _u8WeekDay, _offUTC, _fFlags)\ do { \ (pTime)->i32Year = (_i32Year); \ (pTime)->u8Month = (_u8Month); \ (pTime)->u8WeekDay = (_u8WeekDay); \ (pTime)->u16YearDay = (_u16YearDay); \ (pTime)->u8MonthDay = (_u8MonthDay); \ (pTime)->u8Hour = (_u8Hour); \ (pTime)->u8Minute = (_u8Minute); \ (pTime)->u8Second = (_u8Second); \ (pTime)->u32Nanosecond = (_u32Nanosecond); \ (pTime)->offUTC = (_offUTC); \ (pTime)->fFlags = (_fFlags); \ RTTestIPrintf(RTTESTLVL_ALWAYS, " %s\n", ToString(pTime)); \ } while (0) int main() { RTTIMESPEC Now; RTTIMESPEC Ts1; RTTIMESPEC Ts2; RTTIME T1; RTTIME T2; #ifdef RTTIME_INCL_TIMEVAL struct timeval Tv1; struct timeval Tv2; struct timespec Tsp1; struct timespec Tsp2; #endif RTTEST hTest; int rc = RTTestInitAndCreate("tstRTTimeSpec", &hTest); if (rc) return rc; /* * Simple test with current time. */ RTTestSub(hTest, "Current time (UTC)"); CHECK_NZ(RTTimeNow(&Now)); CHECK_NZ(RTTimeExplode(&T1, &Now)); RTTestIPrintf(RTTESTLVL_ALWAYS, " %RI64 ns - %s\n", RTTimeSpecGetNano(&Now), ToString(&T1)); CHECK_NZ(RTTimeImplode(&Ts1, &T1)); if (!RTTimeSpecIsEqual(&Ts1, &Now)) RTTestIFailed("%RI64 != %RI64\n", RTTimeSpecGetNano(&Ts1), RTTimeSpecGetNano(&Now)); /* * Simple test with current local time. */ RTTestSub(hTest, "Current time (local)"); CHECK_NZ(RTTimeLocalNow(&Now)); CHECK_NZ(RTTimeExplode(&T1, &Now)); RTTestIPrintf(RTTESTLVL_ALWAYS, " %RI64 ns - %s\n", RTTimeSpecGetNano(&Now), ToString(&T1)); CHECK_NZ(RTTimeImplode(&Ts1, &T1)); if (!RTTimeSpecIsEqual(&Ts1, &Now)) RTTestIFailed("%RI64 != %RI64\n", RTTimeSpecGetNano(&Ts1), RTTimeSpecGetNano(&Now)); /* * Some simple tests with fixed dates (just checking for smoke). */ RTTestSub(hTest, "Smoke"); TEST_NS(INT64_C(0)); CHECK_TIME(&T1, 1970,01,01, 00,00,00, 0, 1, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS(INT64_C(86400000000000)); CHECK_TIME(&T1, 1970,01,02, 00,00,00, 0, 2, 4, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS(INT64_C(1)); CHECK_TIME(&T1, 1970,01,01, 00,00,00, 1, 1, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS(INT64_C(-1)); CHECK_TIME(&T1, 1969,12,31, 23,59,59,999999999, 365, 2, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); /* * Some local time tests with dates triggering unexpected wraparound bugs in previous code version * (on 2nd of a month). Test every hour to cover any TZ of the host OS. */ RTTestSub(hTest, "Wraparound (local)"); TEST_NS_LOCAL(INT64_C(1522576800000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,01, 10,00,00, 0, 91, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522580400000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,01, 11,00,00, 0, 91, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522584000000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,01, 12,00,00, 0, 91, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522587600000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,01, 13,00,00, 0, 91, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522591200000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,01, 14,00,00, 0, 91, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522594800000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,01, 15,00,00, 0, 91, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522598400000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,01, 16,00,00, 0, 91, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522602000000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,01, 17,00,00, 0, 91, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522605600000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,01, 18,00,00, 0, 91, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522609200000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,01, 19,00,00, 0, 91, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522612800000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,01, 20,00,00, 0, 91, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522616400000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,01, 21,00,00, 0, 91, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522620000000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,01, 22,00,00, 0, 91, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522623600000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,01, 23,00,00, 0, 91, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522627200000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,02, 0,00,00, 0, 92, 0, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522630800000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,02, 1,00,00, 0, 92, 0, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522634400000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,02, 2,00,00, 0, 92, 0, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522638000000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,02, 3,00,00, 0, 92, 0, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522641600000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,02, 4,00,00, 0, 92, 0, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522645200000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,02, 5,00,00, 0, 92, 0, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522648800000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,02, 6,00,00, 0, 92, 0, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522652400000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,02, 7,00,00, 0, 92, 0, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522656000000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,02, 8,00,00, 0, 92, 0, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522659600000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,02, 9,00,00, 0, 92, 0, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522663200000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,02, 10,00,00, 0, 92, 0, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522666800000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,02, 11,00,00, 0, 92, 0, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522670400000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,02, 12,00,00, 0, 92, 0, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522674000000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,02, 13,00,00, 0, 92, 0, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); TEST_NS_LOCAL(INT64_C(1522677600000000000)); CHECK_TIME_LOCAL(&T1, 2018,04,02, 14,00,00, 0, 92, 0, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); /* * Test the limits. */ RTTestSub(hTest, "Extremes"); TEST_NS(INT64_MAX); TEST_NS(INT64_MIN); TEST_SEC(INT64_C(1095379198)); CHECK_TIME(&T1, 2004, 9,16, 23,59,58, 0, 260, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_LEAP_YEAR); TEST_SEC(INT64_C(1095379199)); CHECK_TIME(&T1, 2004, 9,16, 23,59,59, 0, 260, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_LEAP_YEAR); TEST_SEC(INT64_C(1095379200)); CHECK_TIME(&T1, 2004, 9,17, 00,00,00, 0, 261, 4, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_LEAP_YEAR); TEST_SEC(INT64_C(1095379201)); CHECK_TIME(&T1, 2004, 9,17, 00,00,01, 0, 261, 4, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_LEAP_YEAR); /* * Test normalization (UTC). */ RTTestSub(hTest, "Normalization (UTC)"); /* simple */ CHECK_NZ(RTTimeNow(&Now)); CHECK_NZ(RTTimeExplode(&T1, &Now)); T2 = T1; CHECK_NZ(RTTimeNormalize(&T1)); if (memcmp(&T1, &T2, sizeof(T1))) RTTestIFailed("simple normalization failed\n"); CHECK_NZ(RTTimeImplode(&Ts1, &T1)); CHECK_NZ(RTTimeSpecIsEqual(&Ts1, &Now)); /* a few partial dates. */ memset(&T1, 0, sizeof(T1)); SET_TIME( &T1, 1970,01,01, 00,00,00, 0, 0, 0, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 1970,01,01, 00,00,00, 0, 1, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 1970,00,00, 00,00,00, 1, 1, 0, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 1970,01,01, 00,00,00, 1, 1, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 2007,12,06, 02,15,23, 1, 0, 0, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 2007,12,06, 02,15,23, 1, 340, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 1968,01,30, 00,19,24, 5, 0, 0, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 1968,01,30, 00,19,24, 5, 30, 1, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_LEAP_YEAR); SET_TIME( &T1, 1969,01,31, 00, 9, 2, 7, 0, 0, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 1969,01,31, 00, 9, 2, 7, 31, 4, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 1969,03,31, 00, 9, 2, 7, 0, 0, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 1969,03,31, 00, 9, 2, 7, 90, 0, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 1969,12,31, 00,00,00, 9, 0, 0, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 1969,12,31, 00,00,00, 9, 365, 2, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 1969,12,30, 00,00,00, 30, 0, 0, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 1969,12,30, 00,00,00, 30, 364, 1, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 1969,00,00, 00,00,00, 30, 363, 0, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 1969,12,29, 00,00,00, 30, 363, 0, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 1969,00,00, 00,00,00, 30, 362, 6, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 1969,12,28, 00,00,00, 30, 362, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 1969,12,27, 00,00,00, 30, 0, 5, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 1969,12,27, 00,00,00, 30, 361, 5, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 1969,00,00, 00,00,00, 30, 360, 0, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 1969,12,26, 00,00,00, 30, 360, 4, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 1969,12,25, 00,00,00, 12, 0, 0, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 1969,12,25, 00,00,00, 12, 359, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 1969,12,24, 00,00,00, 16, 0, 0, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 1969,12,24, 00,00,00, 16, 358, 2, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); /* outside the year table range */ SET_TIME( &T1, 1200,01,30, 00,00,00, 2, 0, 0, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 1200,01,30, 00,00,00, 2, 30, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_LEAP_YEAR); SET_TIME( &T1, 2555,11,29, 00,00,00, 2, 0, 0, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 2555,11,29, 00,00,00, 2, 333, 5, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 2555,00,00, 00,00,00, 3, 333, 0, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 2555,11,29, 00,00,00, 3, 333, 5, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); /* time overflow */ SET_TIME( &T1, 1969,12,30, 255,255,255, UINT32_MAX, 364, 0, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 1970,01, 9, 19,19,19,294967295, 9, 4, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); /* date overflow */ SET_TIME( &T1, 2007,11,36, 02,15,23, 1, 0, 0, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 2007,12,06, 02,15,23, 1, 340, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 2007,10,67, 02,15,23, 1, 0, 0, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 2007,12,06, 02,15,23, 1, 340, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 2007,10,98, 02,15,23, 1, 0, 0, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 2008,01,06, 02,15,23, 1, 6, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_LEAP_YEAR); SET_TIME( &T1, 2006,24,06, 02,15,23, 1, 0, 0, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 2007,12,06, 02,15,23, 1, 340, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 2003,60,37, 02,15,23, 1, 0, 0, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 2008,01,06, 02,15,23, 1, 6, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_LEAP_YEAR); SET_TIME( &T1, 2003,00,00, 02,15,23, 1,1801, 0, 0, 0); CHECK_NZ(RTTimeNormalize(&T1)); CHECK_TIME(&T1, 2007,12,06, 02,15,23, 1, 340, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); /* * Test normalization (local). */ RTTestSub(hTest, "Normalization (local)"); /* simple */ CHECK_NZ(RTTimeNow(&Now)); CHECK_NZ(RTTimeLocalExplode(&T1, &Now)); T2 = T1; CHECK_NZ(RTTimeLocalNormalize(&T1)); if (memcmp(&T1, &T2, sizeof(T1))) RTTestIFailed("simple normalization failed\n"); CHECK_NZ(RTTimeImplode(&Ts1, &T1)); CHECK_NZ(RTTimeSpecIsEqual(&Ts1, &Now)); /* a few partial dates. */ memset(&T1, 0, sizeof(T1)); SET_TIME( &T1, 1970,01,01, 00,00,00, 0, 0, 0, -60, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 1970,01,01, 01,00,00, 0, 1, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 1970,00,00, 00,00,00, 1, 1, 0, -120, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 1970,01,01, 02,00,00, 1, 1, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 2007,12,06, 02,15,23, 1, 0, 0, 120, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 2007,12,06, 00,15,23, 1, 340, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 1968,01,30, 00,19,24, 5, 0, 0, -480, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 1968,01,30, 8,19,24, 5, 30, 1, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_LEAP_YEAR); SET_TIME( &T1, 1969,01,31, 03, 9, 2, 7, 0, 0, 180, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 1969,01,31, 00, 9, 2, 7, 31, 4, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 1969,03,31, 00, 9, 2, 7, 0, 0, -60, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 1969,03,31, 01, 9, 2, 7, 90, 0, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 1969,12,30, 18,00,00, 9, 0, 0, -360, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 1969,12,31, 00,00,00, 9, 365, 2, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 1969,12,29, 12,00,00, 30, 0, 0, -720, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 1969,12,30, 00,00,00, 30, 364, 1, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 1969,00,00, 00,00,00, 30, 363, 0, 30, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 1969,12,28, 23,30,00, 30, 362, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 1969,00,00, 00,00,00, 30, 362, 6, -60, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 1969,12,28, 01,00,00, 30, 362, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 1969,12,27, 00,00,00, 30, 0, 5, -120, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 1969,12,27, 02,00,00, 30, 361, 5, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 1969,00,00, 00,00,00, 30, 360, 0, -120, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 1969,12,26, 02,00,00, 30, 360, 4, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 1969,12,25, 00,00,00, 12, 0, 0, 15, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 1969,12,24, 23,45,00, 12, 358, 2, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 1969,12,24, 00,00,00, 16, 0, 0, -15, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 1969,12,24, 00,15,00, 16, 358, 2, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); /* outside the year table range */ SET_TIME( &T1, 1200,01,30, 00,00,00, 2, 0, 0, -720, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 1200,01,30, 12,00,00, 2, 30, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_LEAP_YEAR); SET_TIME( &T1, 2555,11,29, 00,00,00, 2, 0, 0, -480, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 2555,11,29, 8,00,00, 2, 333, 5, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 2555,00,00, 00,00,00, 3, 333, 0, 60, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 2555,11,28, 23,00,00, 3, 332, 4, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); /* time overflow */ SET_TIME( &T1, 1969,12,30, 255,255,255, UINT32_MAX, 364, 0, 60, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 1970,01, 9, 18,19,19,294967295, 9, 4, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); /* date overflow */ SET_TIME( &T1, 2007,11,36, 02,15,23, 1, 0, 0, 60, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 2007,12,06, 01,15,23, 1, 340, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 2007,10,67, 02,15,23, 1, 0, 0, 60, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 2007,12,06, 01,15,23, 1, 340, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 2007,10,98, 02,15,23, 1, 0, 0, 60, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 2008,01,06, 01,15,23, 1, 6, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_LEAP_YEAR); SET_TIME( &T1, 2006,24,06, 02,15,23, 1, 0, 0, 60, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 2007,12,06, 01,15,23, 1, 340, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); SET_TIME( &T1, 2003,60,37, 02,15,23, 1, 0, 0, -60, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 2008,01,06, 03,15,23, 1, 6, 6, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_LEAP_YEAR); SET_TIME( &T1, 2003,00,00, 02,15,23, 1,1801, 0, -60, 0); CHECK_NZ(RTTimeLocalNormalize(&T1)); CHECK_TIME_LOCAL(&T1, 2007,12,06, 03,15,23, 1, 340, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); /* * Test UTC and local time explode/implode round trips every 29 minutes for 3 years. * Relies heavily on correct behavior of RTTimeNormalize and does limited sanity checking. */ RTTestSub(hTest, "Wraparound 3 year (UTC+local), silent"); RTTimeSpecSetNano(&Ts1, INT64_C(1420070400000000000)); RTTIME Tcheck; memset(&Tcheck, 0, sizeof(Tcheck)); Tcheck.i32Year = 2015; Tcheck.u16YearDay = 1; CHECK_NZ(RTTimeNormalize(&Tcheck)); while (Tcheck.i32Year <= 2017) { if (RTTimeIsLeapYear(Tcheck.i32Year)) { if (!(Tcheck.fFlags & RTTIME_FLAGS_LEAP_YEAR)) RTTestIFailed("FAILURE - %d is not marked as a leap year, line no. %d\n", Tcheck.i32Year, __LINE__); } else { if (!(Tcheck.fFlags & RTTIME_FLAGS_COMMON_YEAR)) RTTestIFailed("FAILURE - %d is not marked as a common year, line no. %d\n", Tcheck.i32Year, __LINE__); } CHECK_NZ(RTTimeExplode(&T1, &Ts1)); CHECK_NZ(RTTimeImplode(&Ts2, &T1)); if (!RTTimeSpecIsEqual(&Ts2, &Ts1)) RTTestIFailed("FAILURE - %RI64 != %RI64, line no. %d\n", RTTimeSpecGetNano(&Ts2), RTTimeSpecGetNano(&Ts1), __LINE__); CHECK_TIME_SILENT(&T1, Tcheck.i32Year, Tcheck.u8Month, Tcheck.u8MonthDay, Tcheck.u8Hour, Tcheck.u8Minute, Tcheck.u8Second, Tcheck.u32Nanosecond, Tcheck.u16YearDay, Tcheck.u8WeekDay, Tcheck.offUTC, Tcheck.fFlags); CHECK_NZ(RTTimeLocalExplode(&T1, &Ts1)); CHECK_NZ(RTTimeImplode(&Ts2, &T1)); if (!RTTimeSpecIsEqual(&Ts2, &Ts1)) RTTestIFailed("FAILURE - %RI64 != %RI64, line no. %d\n", RTTimeSpecGetNano(&Ts2), RTTimeSpecGetNano(&Ts1), __LINE__); CHECK_TIME_LOCAL_SILENT(&T1, Tcheck.i32Year, Tcheck.u8Month, Tcheck.u8MonthDay, Tcheck.u8Hour, Tcheck.u8Minute, Tcheck.u8Second, Tcheck.u32Nanosecond, Tcheck.u16YearDay, Tcheck.u8WeekDay, Tcheck.offUTC, Tcheck.fFlags); RTTimeSpecAddNano(&Ts1, 29 * RT_NS_1MIN); Tcheck.u8Minute += 29; CHECK_NZ(RTTimeNormalize(&Tcheck)); } /* * Conversions. */ #define CHECK_NSEC(Ts1, T2) \ do { \ RTTIMESPEC TsTmp; \ RTTESTI_CHECK_MSG( RTTimeSpecGetNano(&(Ts1)) == RTTimeSpecGetNano(RTTimeImplode(&TsTmp, &(T2))), \ ("line %d: %RI64, %RI64\n", __LINE__, \ RTTimeSpecGetNano(&(Ts1)), RTTimeSpecGetNano(RTTimeImplode(&TsTmp, &(T2)))) ); \ } while (0) RTTestSub(hTest, "Conversions, positive"); SET_TIME(&T1, 1980,01,01, 00,00,00, 0, 1, 1, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_LEAP_YEAR); RTTESTI_CHECK(RTTimeSpecSetDosSeconds(&Ts2, 0) == &Ts2); RTTESTI_CHECK(RTTimeSpecGetDosSeconds(&Ts2) == 0); CHECK_NSEC(Ts2, T1); SET_TIME(&T1, 1980,01,01, 00,00,00, 0, 1, 1, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_LEAP_YEAR); RTTESTI_CHECK(RTTimeSpecSetNtTime(&Ts2, INT64_C(119600064000000000)) == &Ts2); RTTESTI_CHECK(RTTimeSpecGetNtTime(&Ts2) == INT64_C(119600064000000000)); CHECK_NSEC(Ts2, T1); SET_TIME(&T1, 1970,01,01, 00,00,01, 0, 1, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); RTTESTI_CHECK(RTTimeSpecSetSeconds(&Ts2, 1) == &Ts2); RTTESTI_CHECK(RTTimeSpecGetSeconds(&Ts2) == 1); CHECK_NSEC(Ts2, T1); SET_TIME(&T1, 1970,01,01, 00,00,01, 0, 1, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); RTTESTI_CHECK(RTTimeSpecSetMilli(&Ts2, 1000) == &Ts2); RTTESTI_CHECK(RTTimeSpecGetMilli(&Ts2) == 1000); CHECK_NSEC(Ts2, T1); SET_TIME(&T1, 1970,01,01, 00,00,01, 0, 1, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); RTTESTI_CHECK(RTTimeSpecSetMicro(&Ts2, 1000000) == &Ts2); RTTESTI_CHECK(RTTimeSpecGetMicro(&Ts2) == 1000000); CHECK_NSEC(Ts2, T1); SET_TIME(&T1, 1970,01,01, 00,00,01, 0, 1, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); RTTESTI_CHECK(RTTimeSpecSetNano(&Ts2, 1000000000) == &Ts2); RTTESTI_CHECK(RTTimeSpecGetNano(&Ts2) == 1000000000); CHECK_NSEC(Ts2, T1); #ifdef RTTIME_INCL_TIMEVAL SET_TIME(&T1, 1970,01,01, 00,00,01, 5000, 1, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); Tv1.tv_sec = 1; Tv1.tv_usec = 5; RTTESTI_CHECK(RTTimeSpecSetTimeval(&Ts2, &Tv1) == &Ts2); RTTESTI_CHECK(RTTimeSpecGetMicro(&Ts2) == 1000005); CHECK_NSEC(Ts2, T1); RTTESTI_CHECK(RTTimeSpecGetTimeval(&Ts2, &Tv2) == &Tv2); RTTESTI_CHECK(Tv1.tv_sec == Tv2.tv_sec); RTTESTI_CHECK(Tv1.tv_usec == Tv2.tv_usec); #endif #ifdef RTTIME_INCL_TIMESPEC SET_TIME(&T1, 1970,01,01, 00,00,01, 5, 1, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); Tsp1.tv_sec = 1; Tsp1.tv_nsec = 5; RTTESTI_CHECK(RTTimeSpecSetTimespec(&Ts2, &Tsp1) == &Ts2); RTTESTI_CHECK(RTTimeSpecGetNano(&Ts2) == 1000000005); CHECK_NSEC(Ts2, T1); RTTESTI_CHECK(RTTimeSpecGetTimespec(&Ts2, &Tsp2) == &Tsp2); RTTESTI_CHECK(Tsp1.tv_sec == Tsp2.tv_sec); RTTESTI_CHECK(Tsp1.tv_nsec == Tsp2.tv_nsec); #endif RTTestSub(hTest, "Conversions, negative"); #ifdef RTTIME_INCL_TIMEVAL SET_TIME(&T1, 1969,12,31, 23,59,58,999995000, 365, 2, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); Tv1.tv_sec = -2; Tv1.tv_usec = 999995; RTTESTI_CHECK(RTTimeSpecSetTimeval(&Ts2, &Tv1) == &Ts2); RTTESTI_CHECK_MSG(RTTimeSpecGetMicro(&Ts2) == -1000005, ("%RI64\n", RTTimeSpecGetMicro(&Ts2))); CHECK_NSEC(Ts2, T1); RTTESTI_CHECK(RTTimeSpecGetTimeval(&Ts2, &Tv2) == &Tv2); RTTESTI_CHECK(Tv1.tv_sec == Tv2.tv_sec); RTTESTI_CHECK(Tv1.tv_usec == Tv2.tv_usec); #endif #ifdef RTTIME_INCL_TIMESPEC SET_TIME(&T1, 1969,12,31, 23,59,58,999999995, 365, 2, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); Tsp1.tv_sec = -2; Tsp1.tv_nsec = 999999995; RTTESTI_CHECK(RTTimeSpecSetTimespec(&Ts2, &Tsp1) == &Ts2); RTTESTI_CHECK_MSG(RTTimeSpecGetNano(&Ts2) == -1000000005, ("%RI64\n", RTTimeSpecGetMicro(&Ts2))); CHECK_NSEC(Ts2, T1); RTTESTI_CHECK(RTTimeSpecGetTimespec(&Ts2, &Tsp2) == &Tsp2); RTTESTI_CHECK(Tsp1.tv_sec == Tsp2.tv_sec); RTTESTI_CHECK(Tsp1.tv_nsec == Tsp2.tv_nsec); #endif /* * Test some string formatting too, while we're here... */ RTTestSub(hTest, "Formatting"); char szValue[256]; #define RTTESTI_CHECK_FMT(a_FmtCall, a_szExpect) \ do { \ ssize_t cchResult = a_FmtCall; \ if (cchResult != sizeof(a_szExpect) - 1 || strcmp(szValue, a_szExpect) != 0) \ RTTestFailed(hTest, "Got %s (%zd bytes) expected %s (%zu bytes); line " RT_XSTR(__LINE__), \ szValue, cchResult, a_szExpect, sizeof(a_szExpect) - 1); \ } while (0) #define RTTESTI_CHECK_FROM(a_FromCall) \ do { \ RTRandBytes(&T2, sizeof(T2)); \ PRTTIME pResult = a_FromCall; \ if (!pResult) \ RTTestFailed(hTest, "%s failed on line " RT_XSTR(__LINE__), #a_FromCall); \ else if (memcmp(&T1, &T2, sizeof(T2)) != 0) \ RTTestFailed(hTest, "%s produced incorrect result on line " RT_XSTR(__LINE__)": %s", #a_FromCall, ToString(&T2)); \ } while (0) SET_TIME(&T1, 1969,12,31, 23,59,58,999995000, 365, 2, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); RTTESTI_CHECK_FMT(RTTimeToRfc2822(&T1, szValue, sizeof(szValue), 0), "Wed, 31 Dec 1969 23:59:58 -0000"); RTTESTI_CHECK_FMT(RTTimeToRfc2822(&T1, szValue, sizeof(szValue), RTTIME_RFC2822_F_GMT), "Wed, 31 Dec 1969 23:59:58 GMT"); RTTESTI_CHECK_FMT(RTTimeToStringEx(&T1, szValue, sizeof(szValue), 0), "1969-12-31T23:59:58Z"); RTTESTI_CHECK_FMT(RTTimeToStringEx(&T1, szValue, sizeof(szValue), 1), "1969-12-31T23:59:58.9Z"); RTTESTI_CHECK_FMT(RTTimeToStringEx(&T1, szValue, sizeof(szValue), 5), "1969-12-31T23:59:58.99999Z"); RTTESTI_CHECK_FMT(RTTimeToStringEx(&T1, szValue, sizeof(szValue), 9), "1969-12-31T23:59:58.999995000Z"); RTTESTI_CHECK_FROM(RTTimeFromString(&T2, "1969-12-31T23:59:58.999995000Z")); RTTESTI_CHECK_FROM(RTTimeFromRfc2822(&T2, "Wed, 31 Dec 1969 23:59:58.999995 GMT")); RTTESTI_CHECK_FROM(RTTimeFromRfc2822(&T2, "Wed, 31 Dec 69 23:59:58.999995 GMT")); RTTESTI_CHECK_FROM(RTTimeFromRfc2822(&T2, "31 Dec 69 23:59:58.999995 GMT")); RTTESTI_CHECK_FROM(RTTimeFromRfc2822(&T2, "31 Dec 1969 23:59:58.999995 GMT")); RTTESTI_CHECK_FROM(RTTimeFromRfc2822(&T2, "31 dec 1969 23:59:58.999995 GMT")); RTTESTI_CHECK_FROM(RTTimeFromRfc2822(&T2, "wEd, 31 Dec 69 23:59:58.999995 UT")); SET_TIME(&T1, 2018, 9, 6, 4, 9, 8, 0, 249, 3, 0, RTTIME_FLAGS_TYPE_UTC | RTTIME_FLAGS_COMMON_YEAR); RTTESTI_CHECK_FMT(RTTimeToRfc2822(&T1, szValue, sizeof(szValue), 0), "Thu, 6 Sep 2018 04:09:08 -0000"); RTTESTI_CHECK_FMT(RTTimeToStringEx(&T1, szValue, sizeof(szValue), 0), "2018-09-06T04:09:08Z"); RTTESTI_CHECK_FROM(RTTimeFromString(&T2, "2018-09-06T04:09:08Z")); RTTESTI_CHECK_FROM(RTTimeFromRfc2822(&T2, "Thu, 6 Sep 2018 04:09:08 -0000")); RTTESTI_CHECK_FROM(RTTimeFromRfc2822(&T2, "Thu, 6 Sep 2018 04:09:08 GMT")); RTTESTI_CHECK_FROM(RTTimeFromRfc2822(&T2, "Thu, 06 Sep 2018 04:09:08 GMT")); RTTESTI_CHECK_FROM(RTTimeFromRfc2822(&T2, "Thu, 00006 Sep 2018 04:09:08 GMT")); RTTESTI_CHECK_FROM(RTTimeFromRfc2822(&T2, " 00006 Sep 2018 04:09:08 GMT ")); /* * Duration. */ RTTestSub(hTest, "Duration Formatting"); static struct { int64_t cNanoSecs; uint8_t cFractionDigits; const char *pszExpect; } const s_aDuration[] = { { 0, 0, "PT0S" }, { 0, 9, "PT0S" }, { RT_NS_1WEEK*52 + RT_NS_1DAY*3 + RT_NS_1HOUR*11 + RT_NS_1MIN*29 + RT_NS_1SEC_64*42 + 123456789, 9, "P52W3DT11H29M42.123456789S" }, { RT_NS_1WEEK*52 + RT_NS_1DAY*3 + RT_NS_1HOUR*11 + RT_NS_1MIN*29 + RT_NS_1SEC_64*42 + 123456789, 0, "P52W3DT11H29M42S" }, { RT_NS_1WEEK*9999 + RT_NS_1SEC_64*22 + 905964245, 0, "P9999WT0H0M22S" }, { RT_NS_1WEEK*9999 + RT_NS_1SEC_64*22 + 905964245, 6, "P9999WT0H0M22.905964S" }, { -(int64_t)(RT_NS_1WEEK*9999 + RT_NS_1SEC_64*22 + 905964245), 7, "-P9999WT0H0M22.9059642S" }, { -(int64_t)(RT_NS_1WEEK*9999 + RT_NS_1SEC_64*22 + 905964245), 7, "-P9999WT0H0M22.9059642S" }, { RT_NS_1WEEK*1 + RT_NS_1DAY*1 + RT_NS_1HOUR*1 + RT_NS_1MIN*2 + RT_NS_1SEC_64*1 + 111111111, 9, "P1W1DT1H2M1.111111111S" }, { 1, 9, "PT0.000000001S" }, { 1, 3, "PT0.000S" }, }; for (size_t i = 0; i < RT_ELEMENTS(s_aDuration); i++) { RTTIMESPEC TimeSpec; RTTimeSpecSetNano(&TimeSpec, s_aDuration[i].cNanoSecs); ssize_t cchRet = RTTimeFormatDurationEx(szValue, sizeof(szValue), &TimeSpec, s_aDuration[i].cFractionDigits); if ( cchRet != (ssize_t)strlen(s_aDuration[i].pszExpect) || memcmp(szValue, s_aDuration[i].pszExpect, cchRet + 1) != 0) RTTestIFailed("RTTimeFormatDurationEx/#%u: cchRet=%zd\n" " szValue: '%s', length %zu\n" " expected: '%s', length %zu", i, cchRet, szValue, strlen(szValue), s_aDuration[i].pszExpect, strlen(s_aDuration[i].pszExpect)); } /* * Check that RTTimeZoneGetCurrent works (not really timespec, but whatever). */ RTTestSub(hTest, "RTTimeZoneGetCurrent"); szValue[0] = '\0'; RTTESTI_CHECK_RC(RTTimeZoneGetCurrent(szValue, sizeof(szValue)), VINF_SUCCESS); RTTestPrintf(hTest, RTTESTLVL_ALWAYS, "TimeZone: %s", szValue); /* * Summary */ return RTTestSummaryAndDestroy(hTest); }