/* * Unit test suite for time functions * * Copyright 2004 Uwe Bonnes * Copyright 2007 Dmitry Timoshkov * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include "wine/test.h" #include "winbase.h" #include "winnls.h" #include "winternl.h" static BOOL (WINAPI *pTzSpecificLocalTimeToSystemTime)(LPTIME_ZONE_INFORMATION, LPSYSTEMTIME, LPSYSTEMTIME); static BOOL (WINAPI *pSystemTimeToTzSpecificLocalTime)(LPTIME_ZONE_INFORMATION, LPSYSTEMTIME, LPSYSTEMTIME); static BOOL (WINAPI *pGetSystemTimes)(LPFILETIME, LPFILETIME, LPFILETIME); static int (WINAPI *pGetCalendarInfoA)(LCID,CALID,CALTYPE,LPSTR,int,LPDWORD); static int (WINAPI *pGetCalendarInfoW)(LCID,CALID,CALTYPE,LPWSTR,int,LPDWORD); static DWORD (WINAPI *pGetDynamicTimeZoneInformation)(DYNAMIC_TIME_ZONE_INFORMATION*); static void (WINAPI *pGetSystemTimePreciseAsFileTime)(LPFILETIME); static BOOL (WINAPI *pGetTimeZoneInformationForYear)(USHORT, PDYNAMIC_TIME_ZONE_INFORMATION, LPTIME_ZONE_INFORMATION); static ULONG (WINAPI *pNtGetTickCount)(void); #define SECSPERMIN 60 #define SECSPERDAY 86400 /* 1601 to 1970 is 369 years plus 89 leap days */ #define SECS_1601_TO_1970 ((369 * 365 + 89) * (ULONGLONG)SECSPERDAY) #define TICKSPERSEC 10000000 #define TICKSPERMSEC 10000 #define TICKS_1601_TO_1970 (SECS_1601_TO_1970 * TICKSPERSEC) #define NEWYEAR_1980_HI 0x01a8e79f #define NEWYEAR_1980_LO 0xe1d58000 #define MAYDAY_2002_HI 0x01c1f107 #define MAYDAY_2002_LO 0xb82b6000 #define ATIME_HI 0x1c2349b #define ATIME_LOW 0x580716b0 #define LOCAL_ATIME_HI 0x01c23471 #define LOCAL_ATIME_LOW 0x6f310eb0 #define DOS_DATE(y,m,d) ( (((y)-1980)<<9) | ((m)<<5) | (d) ) #define DOS_TIME(h,m,s) ( ((h)<<11) | ((m)<<5) | ((s)>>1) ) #define SETUP_1980(st) \ (st).wYear = 1980; \ (st).wMonth = 1; \ (st).wDay = 1; \ (st).wHour = 0; \ (st).wMinute = 0; \ (st).wSecond = 0; \ (st).wMilliseconds = 0; #define SETUP_2002(st) \ (st).wYear = 2002; \ (st).wMonth = 5; \ (st).wDay = 1; \ (st).wHour = 12; \ (st).wMinute = 0; \ (st).wSecond = 0; \ (st).wMilliseconds = 0; #define SETUP_ATIME(st) \ (st).wYear = 2002; \ (st).wMonth = 7; \ (st).wDay = 26; \ (st).wHour = 11; \ (st).wMinute = 55; \ (st).wSecond = 32; \ (st).wMilliseconds = 123; #define SETUP_ZEROTIME(st) \ (st).wYear = 1601; \ (st).wMonth = 1; \ (st).wDay = 1; \ (st).wHour = 0; \ (st).wMinute = 0; \ (st).wSecond = 0; \ (st).wMilliseconds = 0; #define SETUP_EARLY(st) \ (st).wYear = 1600; \ (st).wMonth = 12; \ (st).wDay = 31; \ (st).wHour = 23; \ (st).wMinute = 59; \ (st).wSecond = 59; \ (st).wMilliseconds = 999; static void test_conversions(void) { FILETIME ft; SYSTEMTIME st; memset(&ft,0,sizeof ft); SetLastError(0xdeadbeef); SETUP_EARLY(st) ok (!SystemTimeToFileTime(&st, &ft), "Conversion succeeded EARLY\n"); ok (GetLastError() == ERROR_INVALID_PARAMETER || GetLastError() == 0xdeadbeef, /* win9x */ "EARLY should be INVALID\n"); SETUP_ZEROTIME(st) ok (SystemTimeToFileTime(&st, &ft), "Conversion failed ZERO_TIME\n"); ok( (!((ft.dwHighDateTime != 0) || (ft.dwLowDateTime != 0))), "Wrong time for ATIME: %08x %08x (correct %08x %08x)\n", ft.dwLowDateTime, ft.dwHighDateTime, 0, 0); SETUP_ATIME(st) ok (SystemTimeToFileTime(&st,&ft), "Conversion Failed ATIME\n"); ok( (!((ft.dwHighDateTime != ATIME_HI) || (ft.dwLowDateTime!=ATIME_LOW))), "Wrong time for ATIME: %08x %08x (correct %08x %08x)\n", ft.dwLowDateTime, ft.dwHighDateTime, ATIME_LOW, ATIME_HI); SETUP_2002(st) ok (SystemTimeToFileTime(&st, &ft), "Conversion failed 2002\n"); ok( (!((ft.dwHighDateTime != MAYDAY_2002_HI) || (ft.dwLowDateTime!=MAYDAY_2002_LO))), "Wrong time for 2002 %08x %08x (correct %08x %08x)\n", ft.dwLowDateTime, ft.dwHighDateTime, MAYDAY_2002_LO, MAYDAY_2002_HI); SETUP_1980(st) ok((SystemTimeToFileTime(&st, &ft)), "Conversion failed 1980\n"); ok( (!((ft.dwHighDateTime!=NEWYEAR_1980_HI) || (ft.dwLowDateTime!=NEWYEAR_1980_LO))) , "Wrong time for 1980 %08x %08x (correct %08x %08x)\n", ft.dwLowDateTime, ft.dwHighDateTime, NEWYEAR_1980_LO,NEWYEAR_1980_HI ); ok(DosDateTimeToFileTime(DOS_DATE(1980,1,1),DOS_TIME(0,0,0),&ft), "DosDateTimeToFileTime() failed\n"); ok( (!((ft.dwHighDateTime!=NEWYEAR_1980_HI) || (ft.dwLowDateTime!=NEWYEAR_1980_LO))), "Wrong time DosDateTimeToFileTime %08x %08x (correct %08x %08x)\n", ft.dwHighDateTime, ft.dwLowDateTime, NEWYEAR_1980_HI, NEWYEAR_1980_LO); } static void test_invalid_arg(void) { FILETIME ft; SYSTEMTIME st; /* Invalid argument checks */ memset(&ft,0,sizeof ft); ok( DosDateTimeToFileTime(DOS_DATE(1980,1,1),DOS_TIME(0,0,0),&ft), /* this is 1 Jan 1980 00:00:00 */ "DosDateTimeToFileTime() failed\n"); ok( (ft.dwHighDateTime==NEWYEAR_1980_HI) && (ft.dwLowDateTime==NEWYEAR_1980_LO), "filetime for 1/1/80 00:00:00 was %08x %08x\n", ft.dwHighDateTime, ft.dwLowDateTime); /* now check SystemTimeToFileTime */ memset(&ft,0,sizeof ft); /* try with a bad month */ SETUP_1980(st) st.wMonth = 0; ok( !SystemTimeToFileTime(&st, &ft), "bad month\n"); /* with a bad hour */ SETUP_1980(st) st.wHour = 24; ok( !SystemTimeToFileTime(&st, &ft), "bad hour\n"); /* with a bad minute */ SETUP_1980(st) st.wMinute = 60; ok( !SystemTimeToFileTime(&st, &ft), "bad minute\n"); } static LONGLONG system_time_to_minutes(const SYSTEMTIME *st) { BOOL ret; FILETIME ft; LONGLONG minutes; SetLastError(0xdeadbeef); ret = SystemTimeToFileTime(st, &ft); ok(ret, "SystemTimeToFileTime error %u\n", GetLastError()); minutes = ((LONGLONG)ft.dwHighDateTime << 32) + ft.dwLowDateTime; minutes /= (LONGLONG)600000000; /* convert to minutes */ return minutes; } static LONG get_tz_bias(const TIME_ZONE_INFORMATION *tzinfo, DWORD tz_id) { switch (tz_id) { case TIME_ZONE_ID_DAYLIGHT: if (memcmp(&tzinfo->StandardDate, &tzinfo->DaylightDate, sizeof(tzinfo->DaylightDate)) != 0) return tzinfo->DaylightBias; /* fall through */ case TIME_ZONE_ID_STANDARD: return tzinfo->StandardBias; default: trace("unknown time zone id %d\n", tz_id); /* fall through */ case TIME_ZONE_ID_UNKNOWN: return 0; } } static void test_GetTimeZoneInformation(void) { char std_name[32], dlt_name[32]; TIME_ZONE_INFORMATION tzinfo, tzinfo1; BOOL res; DWORD tz_id; SYSTEMTIME st, current, utc, local; FILETIME l_ft, s_ft; LONGLONG l_time, s_time; LONG diff; GetSystemTime(&st); s_time = system_time_to_minutes(&st); SetLastError(0xdeadbeef); res = SystemTimeToFileTime(&st, &s_ft); ok(res, "SystemTimeToFileTime error %u\n", GetLastError()); SetLastError(0xdeadbeef); res = FileTimeToLocalFileTime(&s_ft, &l_ft); ok(res, "FileTimeToLocalFileTime error %u\n", GetLastError()); SetLastError(0xdeadbeef); res = FileTimeToSystemTime(&l_ft, &local); ok(res, "FileTimeToSystemTime error %u\n", GetLastError()); l_time = system_time_to_minutes(&local); tz_id = GetTimeZoneInformation(&tzinfo); ok(tz_id != TIME_ZONE_ID_INVALID, "GetTimeZoneInformation failed\n"); trace("tz_id %u (%s)\n", tz_id, tz_id == TIME_ZONE_ID_DAYLIGHT ? "TIME_ZONE_ID_DAYLIGHT" : (tz_id == TIME_ZONE_ID_STANDARD ? "TIME_ZONE_ID_STANDARD" : (tz_id == TIME_ZONE_ID_UNKNOWN ? "TIME_ZONE_ID_UNKNOWN" : "TIME_ZONE_ID_INVALID"))); WideCharToMultiByte(CP_ACP, 0, tzinfo.StandardName, -1, std_name, sizeof(std_name), NULL, NULL); WideCharToMultiByte(CP_ACP, 0, tzinfo.DaylightName, -1, dlt_name, sizeof(dlt_name), NULL, NULL); trace("bias %d, %s - %s\n", tzinfo.Bias, std_name, dlt_name); trace("standard (d/m/y): %u/%02u/%04u day of week %u %u:%02u:%02u.%03u bias %d\n", tzinfo.StandardDate.wDay, tzinfo.StandardDate.wMonth, tzinfo.StandardDate.wYear, tzinfo.StandardDate.wDayOfWeek, tzinfo.StandardDate.wHour, tzinfo.StandardDate.wMinute, tzinfo.StandardDate.wSecond, tzinfo.StandardDate.wMilliseconds, tzinfo.StandardBias); trace("daylight (d/m/y): %u/%02u/%04u day of week %u %u:%02u:%02u.%03u bias %d\n", tzinfo.DaylightDate.wDay, tzinfo.DaylightDate.wMonth, tzinfo.DaylightDate.wYear, tzinfo.DaylightDate.wDayOfWeek, tzinfo.DaylightDate.wHour, tzinfo.DaylightDate.wMinute, tzinfo.DaylightDate.wSecond, tzinfo.DaylightDate.wMilliseconds, tzinfo.DaylightBias); diff = (LONG)(s_time - l_time); ok(diff == tzinfo.Bias + get_tz_bias(&tzinfo, tz_id), "system/local diff %d != tz bias %d\n", diff, tzinfo.Bias + get_tz_bias(&tzinfo, tz_id)); ok(SetEnvironmentVariableA("TZ","GMT0") != 0, "SetEnvironmentVariableA failed\n"); res = GetTimeZoneInformation(&tzinfo1); ok(res != TIME_ZONE_ID_INVALID, "GetTimeZoneInformation failed\n"); ok(((tzinfo.Bias == tzinfo1.Bias) && (tzinfo.StandardBias == tzinfo1.StandardBias) && (tzinfo.DaylightBias == tzinfo1.DaylightBias)), "Bias influenced by TZ variable\n"); ok(SetEnvironmentVariableA("TZ",NULL) != 0, "SetEnvironmentVariableA failed\n"); if (!pSystemTimeToTzSpecificLocalTime) { win_skip("SystemTimeToTzSpecificLocalTime not available\n"); return; } diff = get_tz_bias(&tzinfo, tz_id); utc = st; SetLastError(0xdeadbeef); res = pSystemTimeToTzSpecificLocalTime(&tzinfo, &utc, ¤t); if (!res && GetLastError() == ERROR_CALL_NOT_IMPLEMENTED) { win_skip("SystemTimeToTzSpecificLocalTime is not implemented\n"); return; } ok(res, "SystemTimeToTzSpecificLocalTime error %u\n", GetLastError()); s_time = system_time_to_minutes(¤t); tzinfo.StandardBias -= 123; tzinfo.DaylightBias += 456; res = pSystemTimeToTzSpecificLocalTime(&tzinfo, &utc, &local); ok(res, "SystemTimeToTzSpecificLocalTime error %u\n", GetLastError()); l_time = system_time_to_minutes(&local); ok(l_time - s_time == diff - get_tz_bias(&tzinfo, tz_id), "got %d, expected %d\n", (LONG)(l_time - s_time), diff - get_tz_bias(&tzinfo, tz_id)); /* pretend that there is no transition dates */ tzinfo.DaylightDate.wDay = 0; tzinfo.DaylightDate.wMonth = 0; tzinfo.DaylightDate.wYear = 0; tzinfo.StandardDate.wDay = 0; tzinfo.StandardDate.wMonth = 0; tzinfo.StandardDate.wYear = 0; res = pSystemTimeToTzSpecificLocalTime(&tzinfo, &utc, &local); ok(res, "SystemTimeToTzSpecificLocalTime error %u\n", GetLastError()); l_time = system_time_to_minutes(&local); ok(l_time - s_time == diff, "got %d, expected %d\n", (LONG)(l_time - s_time), diff); /* test 23:01, 31st of December date */ memset(&tzinfo, 0, sizeof(tzinfo)); tzinfo.StandardDate.wMonth = 10; tzinfo.StandardDate.wDay = 5; tzinfo.StandardDate.wHour = 2; tzinfo.StandardDate.wMinute = 0; tzinfo.DaylightDate.wMonth = 4; tzinfo.DaylightDate.wDay = 1; tzinfo.DaylightDate.wHour = 2; tzinfo.Bias = 0; tzinfo.StandardBias = 0; tzinfo.DaylightBias = -60; utc.wYear = 2012; utc.wMonth = 12; utc.wDay = 31; utc.wHour = 23; utc.wMinute = 1; res = pSystemTimeToTzSpecificLocalTime(&tzinfo, &utc, &local); ok(res, "SystemTimeToTzSpecificLocalTime error %u\n", GetLastError()); ok(local.wYear==2012 && local.wMonth==12 && local.wDay==31 && local.wHour==23 && local.wMinute==1, "got (%d-%d-%d %02d:%02d), expected (2012-12-31 23:01)\n", local.wYear, local.wMonth, local.wDay, local.wHour, local.wMinute); } static void test_FileTimeToSystemTime(void) { FILETIME ft; SYSTEMTIME st; ULONGLONG time = (ULONGLONG)TICKSPERSEC + TICKS_1601_TO_1970; BOOL ret; ft.dwHighDateTime = 0; ft.dwLowDateTime = 0; ret = FileTimeToSystemTime(&ft, &st); ok( ret, "FileTimeToSystemTime() failed with Error %d\n",GetLastError()); ok(((st.wYear == 1601) && (st.wMonth == 1) && (st.wDay == 1) && (st.wHour == 0) && (st.wMinute == 0) && (st.wSecond == 0) && (st.wMilliseconds == 0)), "Got Year %4d Month %2d Day %2d\n", st.wYear, st.wMonth, st.wDay); ft.dwHighDateTime = (UINT)(time >> 32); ft.dwLowDateTime = (UINT)time; ret = FileTimeToSystemTime(&ft, &st); ok( ret, "FileTimeToSystemTime() failed with Error %d\n",GetLastError()); ok(((st.wYear == 1970) && (st.wMonth == 1) && (st.wDay == 1) && (st.wHour == 0) && (st.wMinute == 0) && (st.wSecond == 1) && (st.wMilliseconds == 0)), "Got Year %4d Month %2d Day %2d Hour %2d Min %2d Sec %2d mSec %3d\n", st.wYear, st.wMonth, st.wDay, st.wHour, st.wMinute, st.wSecond, st.wMilliseconds); } static void test_FileTimeToLocalFileTime(void) { FILETIME ft, lft; SYSTEMTIME st; TIME_ZONE_INFORMATION tzinfo; DWORD res = GetTimeZoneInformation(&tzinfo); ULONGLONG time = (ULONGLONG)TICKSPERSEC + TICKS_1601_TO_1970 + (LONGLONG)(tzinfo.Bias + ( res == TIME_ZONE_ID_STANDARD ? tzinfo.StandardBias : ( res == TIME_ZONE_ID_DAYLIGHT ? tzinfo.DaylightBias : 0 ))) * SECSPERMIN *TICKSPERSEC; BOOL ret; ok( res != TIME_ZONE_ID_INVALID , "GetTimeZoneInformation failed\n"); ft.dwHighDateTime = (UINT)(time >> 32); ft.dwLowDateTime = (UINT)time; ret = FileTimeToLocalFileTime(&ft, &lft); ok( ret, "FileTimeToLocalFileTime() failed with Error %d\n",GetLastError()); FileTimeToSystemTime(&lft, &st); ok(((st.wYear == 1970) && (st.wMonth == 1) && (st.wDay == 1) && (st.wHour == 0) && (st.wMinute == 0) && (st.wSecond == 1) && (st.wMilliseconds == 0)), "Got Year %4d Month %2d Day %2d Hour %2d Min %2d Sec %2d mSec %3d\n", st.wYear, st.wMonth, st.wDay, st.wHour, st.wMinute, st.wSecond, st.wMilliseconds); ok(SetEnvironmentVariableA("TZ","GMT") != 0, "SetEnvironmentVariableA failed\n"); ok(res != TIME_ZONE_ID_INVALID, "GetTimeZoneInformation failed\n"); ret = FileTimeToLocalFileTime(&ft, &lft); ok( ret, "FileTimeToLocalFileTime() failed with Error %d\n",GetLastError()); FileTimeToSystemTime(&lft, &st); ok(((st.wYear == 1970) && (st.wMonth == 1) && (st.wDay == 1) && (st.wHour == 0) && (st.wMinute == 0) && (st.wSecond == 1) && (st.wMilliseconds == 0)), "Got Year %4d Month %2d Day %2d Hour %2d Min %2d Sec %2d mSec %3d\n", st.wYear, st.wMonth, st.wDay, st.wHour, st.wMinute, st.wSecond, st.wMilliseconds); ok(SetEnvironmentVariableA("TZ",NULL) != 0, "SetEnvironmentVariableA failed\n"); } typedef struct { int nr; /* test case number for easier lookup */ TIME_ZONE_INFORMATION *ptz; /* ptr to timezone */ SYSTEMTIME slt; /* system/local time to convert */ WORD ehour; /* expected hour */ } TZLT2ST_case; static void test_TzSpecificLocalTimeToSystemTime(void) { TIME_ZONE_INFORMATION tzE, tzW, tzS; SYSTEMTIME result; int i, j, year; if (!pTzSpecificLocalTimeToSystemTime || !pSystemTimeToTzSpecificLocalTime) { win_skip("TzSpecificLocalTimeToSystemTime or SystemTimeToTzSpecificLocalTime not available\n"); return; } ZeroMemory( &tzE, sizeof(tzE)); ZeroMemory( &tzW, sizeof(tzW)); ZeroMemory( &tzS, sizeof(tzS)); /* timezone Eastern hemisphere */ tzE.Bias=-600; tzE.StandardBias=0; tzE.DaylightBias=-60; tzE.StandardDate.wMonth=10; tzE.StandardDate.wDayOfWeek=0; /* Sunday */ tzE.StandardDate.wDay=5; /* last (Sunday) of the month */ tzE.StandardDate.wHour=3; tzE.DaylightDate.wMonth=3; tzE.DaylightDate.wDay=5; tzE.DaylightDate.wHour=2; /* timezone Western hemisphere */ tzW.Bias=240; tzW.StandardBias=0; tzW.DaylightBias=-60; tzW.StandardDate.wMonth=10; tzW.StandardDate.wDayOfWeek=0; /* Sunday */ tzW.StandardDate.wDay=4; /* 4th (Sunday) of the month */ tzW.StandardDate.wHour=2; tzW.DaylightDate.wMonth=4; tzW.DaylightDate.wDay=1; tzW.DaylightDate.wHour=2; /* timezone Southern hemisphere */ tzS.Bias=240; tzS.StandardBias=0; tzS.DaylightBias=-60; tzS.StandardDate.wMonth=4; tzS.StandardDate.wDayOfWeek=0; /*Sunday */ tzS.StandardDate.wDay=1; /* 1st (Sunday) of the month */ tzS.StandardDate.wHour=2; tzS.DaylightDate.wMonth=10; tzS.DaylightDate.wDay=4; tzS.DaylightDate.wHour=2; /*tests*/ /* TzSpecificLocalTimeToSystemTime */ { TZLT2ST_case cases[] = { /* standard->daylight transition */ { 1, &tzE, {2004,3,-1,28,1,0,0,0}, 15 }, { 2, &tzE, {2004,3,-1,28,1,59,59,999}, 15}, { 3, &tzE, {2004,3,-1,28,2,0,0,0}, 15}, /* daylight->standard transition */ { 4, &tzE, {2004,10,-1,31,2,0,0,0} , 15 }, { 5, &tzE, {2004,10,-1,31,2,59,59,999}, 15 }, { 6, &tzE, {2004,10,-1,31,3,0,0,0}, 17 }, /* West and with fixed weekday of the month */ { 7, &tzW, {2004,4,-1,4,1,0,0,0}, 5}, { 8, &tzW, {2004,4,-1,4,1,59,59,999}, 5}, { 9, &tzW, {2004,4,-1,4,2,0,0,0}, 5}, { 10, &tzW, {2004,10,-1,24,1,0,0,0}, 4}, { 11, &tzW, {2004,10,-1,24,1,59,59,999}, 4}, { 12, &tzW, {2004,10,-1,24,2,0,0,0 }, 6}, /* and now South */ { 13, &tzS, {2004,4,-1,4,1,0,0,0}, 4}, { 14, &tzS, {2004,4,-1,4,1,59,59,999}, 4}, { 15, &tzS, {2004,4,-1,4,2,0,0,0}, 6}, { 16, &tzS, {2004,10,-1,24,1,0,0,0}, 5}, { 17, &tzS, {2004,10,-1,24,1,59,59,999}, 5}, { 18, &tzS, {2004,10,-1,24,2,0,0,0}, 5}, {0} }; /* days of transitions to put into the cases array */ int yeardays[][6]= { {28,31,4,24,4,24} /* 1999 */ , {26,29,2,22,2,22} /* 2000 */ , {25,28,1,28,1,28} /* 2001 */ , {31,27,7,27,7,27} /* 2002 */ , {30,26,6,26,6,26} /* 2003 */ , {28,31,4,24,4,24} /* 2004 */ , {27,30,3,23,3,23} /* 2005 */ , {26,29,2,22,2,22} /* 2006 */ , {25,28,1,28,1,28} /* 2007 */ , {30,26,6,26,6,26} /* 2008 */ , {29,25,5,25,5,25} /* 2009 */ , {28,31,4,24,4,24} /* 2010 */ , {27,30,3,23,3,23} /* 2011 */ , {25,28,1,28,1,28} /* 2012 */ , {31,27,7,27,7,27} /* 2013 */ , {30,26,6,26,6,26} /* 2014 */ , {29,25,5,25,5,25} /* 2015 */ , {27,30,3,23,3,23} /* 2016 */ , {26,29,2,22,2,22} /* 2017 */ , {25,28,1,28,1,28} /* 2018 */ , {31,27,7,27,7,27} /* 2019 */ ,{0} }; for( j=0 , year = 1999; yeardays[j][0] ; j++, year++) { for (i=0; cases[i].nr; i++) { if(i) cases[i].nr += 18; cases[i].slt.wYear = year; cases[i].slt.wDay = yeardays[j][i/3]; pTzSpecificLocalTimeToSystemTime( cases[i].ptz, &(cases[i].slt), &result); ok( result.wHour == cases[i].ehour, "Test TzSpecificLocalTimeToSystemTime #%d. Got %4d-%02d-%02d %02d:%02d. Expect hour = %02d\n", cases[i].nr, result.wYear, result.wMonth, result.wDay, result.wHour, result.wMinute, cases[i].ehour); } } } /* SystemTimeToTzSpecificLocalTime */ { TZLT2ST_case cases[] = { /* standard->daylight transition */ { 1, &tzE, {2004,3,-1,27,15,0,0,0}, 1 }, { 2, &tzE, {2004,3,-1,27,15,59,59,999}, 1}, { 3, &tzE, {2004,3,-1,27,16,0,0,0}, 3}, /* daylight->standard transition */ { 4, &tzE, {2004,10,-1,30,15,0,0,0}, 2 }, { 5, &tzE, {2004,10,-1,30,15,59,59,999}, 2 }, { 6, &tzE, {2004,10,-1,30,16,0,0,0}, 2 }, /* West and with fixed weekday of the month */ { 7, &tzW, {2004,4,-1,4,5,0,0,0}, 1}, { 8, &tzW, {2004,4,-1,4,5,59,59,999}, 1}, { 9, &tzW, {2004,4,-1,4,6,0,0,0}, 3}, { 10, &tzW, {2004,10,-1,24,4,0,0,0}, 1}, { 11, &tzW, {2004,10,-1,24,4,59,59,999}, 1}, { 12, &tzW, {2004,10,-1,24,5,0,0,0 }, 1}, /* and now South */ { 13, &tzS, {2004,4,-1,4,4,0,0,0}, 1}, { 14, &tzS, {2004,4,-1,4,4,59,59,999}, 1}, { 15, &tzS, {2004,4,-1,4,5,0,0,0}, 1}, { 16, &tzS, {2004,10,-1,24,5,0,0,0}, 1}, { 17, &tzS, {2004,10,-1,24,5,59,59,999}, 1}, { 18, &tzS, {2004,10,-1,24,6,0,0,0}, 3}, {0} }; /* days of transitions to put into the cases array */ int yeardays[][6]= { {27,30,4,24,4,24} /* 1999 */ , {25,28,2,22,2,22} /* 2000 */ , {24,27,1,28,1,28} /* 2001 */ , {30,26,7,27,7,27} /* 2002 */ , {29,25,6,26,6,26} /* 2003 */ , {27,30,4,24,4,24} /* 2004 */ , {26,29,3,23,3,23} /* 2005 */ , {25,28,2,22,2,22} /* 2006 */ , {24,27,1,28,1,28} /* 2007 */ , {29,25,6,26,6,26} /* 2008 */ , {28,24,5,25,5,25} /* 2009 */ , {27,30,4,24,4,24} /* 2010 */ , {26,29,3,23,3,23} /* 2011 */ , {24,27,1,28,1,28} /* 2012 */ , {30,26,7,27,7,27} /* 2013 */ , {29,25,6,26,6,26} /* 2014 */ , {28,24,5,25,5,25} /* 2015 */ , {26,29,3,23,3,23} /* 2016 */ , {25,28,2,22,2,22} /* 2017 */ , {24,27,1,28,1,28} /* 2018 */ , {30,26,7,27,7,27} /* 2019 */ , {0} }; for( j=0 , year = 1999; yeardays[j][0] ; j++, year++) { for (i=0; cases[i].nr; i++) { if(i) cases[i].nr += 18; cases[i].slt.wYear = year; cases[i].slt.wDay = yeardays[j][i/3]; pSystemTimeToTzSpecificLocalTime( cases[i].ptz, &(cases[i].slt), &result); ok( result.wHour == cases[i].ehour, "Test SystemTimeToTzSpecificLocalTime #%d. Got %4d-%02d-%02d %02d:%02d. Expect hour = %02d\n", cases[i].nr, result.wYear, result.wMonth, result.wDay, result.wHour, result.wMinute, cases[i].ehour); } } } } static void test_FileTimeToDosDateTime(void) { FILETIME ft = { 0 }; WORD fatdate, fattime; BOOL ret; if (0) { /* Crashes */ FileTimeToDosDateTime(NULL, NULL, NULL); } /* Parameter checking */ SetLastError(0xdeadbeef); ret = FileTimeToDosDateTime(&ft, NULL, NULL); ok(!ret, "expected failure\n"); ok(GetLastError() == ERROR_INVALID_PARAMETER, "expected ERROR_INVALID_PARAMETER, got %d\n", GetLastError()); SetLastError(0xdeadbeef); ret = FileTimeToDosDateTime(&ft, &fatdate, NULL); ok(!ret, "expected failure\n"); ok(GetLastError() == ERROR_INVALID_PARAMETER, "expected ERROR_INVALID_PARAMETER, got %d\n", GetLastError()); SetLastError(0xdeadbeef); ret = FileTimeToDosDateTime(&ft, NULL, &fattime); ok(!ret, "expected failure\n"); ok(GetLastError() == ERROR_INVALID_PARAMETER, "expected ERROR_INVALID_PARAMETER, got %d\n", GetLastError()); SetLastError(0xdeadbeef); ret = FileTimeToDosDateTime(&ft, &fatdate, &fattime); ok(!ret, "expected failure\n"); ok(GetLastError() == ERROR_INVALID_PARAMETER, "expected ERROR_INVALID_PARAMETER, got %d\n", GetLastError()); } static void test_GetCalendarInfo(void) { char bufferA[20]; WCHAR bufferW[20]; DWORD val1, val2; int ret, ret2; if (!pGetCalendarInfoA || !pGetCalendarInfoW) { trace( "GetCalendarInfo missing\n" ); return; } ret = pGetCalendarInfoA( 0x0409, CAL_GREGORIAN, CAL_ITWODIGITYEARMAX | CAL_RETURN_NUMBER, NULL, 0, &val1 ); ok( ret, "GetCalendarInfoA failed err %u\n", GetLastError() ); ok( ret == sizeof(val1), "wrong size %u\n", ret ); ok( val1 >= 2000 && val1 < 2100, "wrong value %u\n", val1 ); ret = pGetCalendarInfoW( 0x0409, CAL_GREGORIAN, CAL_ITWODIGITYEARMAX | CAL_RETURN_NUMBER, NULL, 0, &val2 ); ok( ret, "GetCalendarInfoW failed err %u\n", GetLastError() ); ok( ret == sizeof(val2)/sizeof(WCHAR), "wrong size %u\n", ret ); ok( val1 == val2, "A/W mismatch %u/%u\n", val1, val2 ); ret = pGetCalendarInfoA( 0x0409, CAL_GREGORIAN, CAL_ITWODIGITYEARMAX, bufferA, sizeof(bufferA), NULL ); ok( ret, "GetCalendarInfoA failed err %u\n", GetLastError() ); ok( ret == 5, "wrong size %u\n", ret ); ok( atoi( bufferA ) == val1, "wrong value %s/%u\n", bufferA, val1 ); ret = pGetCalendarInfoW( 0x0409, CAL_GREGORIAN, CAL_ITWODIGITYEARMAX, bufferW, ARRAY_SIZE(bufferW), NULL ); ok( ret, "GetCalendarInfoW failed err %u\n", GetLastError() ); ok( ret == 5, "wrong size %u\n", ret ); memset( bufferA, 0x55, sizeof(bufferA) ); WideCharToMultiByte( CP_ACP, 0, bufferW, -1, bufferA, sizeof(bufferA), NULL, NULL ); ok( atoi( bufferA ) == val1, "wrong value %s/%u\n", bufferA, val1 ); ret = pGetCalendarInfoA( 0x0409, CAL_GREGORIAN, CAL_ITWODIGITYEARMAX | CAL_RETURN_NUMBER, NULL, 0, NULL ); ok( !ret, "GetCalendarInfoA succeeded\n" ); ok( GetLastError() == ERROR_INVALID_PARAMETER, "wrong error %u\n", GetLastError() ); ret = pGetCalendarInfoA( 0x0409, CAL_GREGORIAN, CAL_ITWODIGITYEARMAX, NULL, 0, NULL ); ok( ret, "GetCalendarInfoA failed err %u\n", GetLastError() ); ok( ret == 5, "wrong size %u\n", ret ); ret = pGetCalendarInfoW( 0x0409, CAL_GREGORIAN, CAL_ITWODIGITYEARMAX | CAL_RETURN_NUMBER, NULL, 0, NULL ); ok( !ret, "GetCalendarInfoW succeeded\n" ); ok( GetLastError() == ERROR_INVALID_PARAMETER, "wrong error %u\n", GetLastError() ); ret = pGetCalendarInfoW( 0x0409, CAL_GREGORIAN, CAL_ITWODIGITYEARMAX, NULL, 0, NULL ); ok( ret, "GetCalendarInfoW failed err %u\n", GetLastError() ); ok( ret == 5, "wrong size %u\n", ret ); ret = pGetCalendarInfoA( LANG_SYSTEM_DEFAULT, CAL_GREGORIAN, CAL_SDAYNAME1, bufferA, sizeof(bufferA), NULL); ok( ret, "GetCalendarInfoA failed err %u\n", GetLastError() ); ret2 = pGetCalendarInfoA( LANG_SYSTEM_DEFAULT, CAL_GREGORIAN, CAL_SDAYNAME1, bufferA, 0, NULL); ok( ret2, "GetCalendarInfoA failed err %u\n", GetLastError() ); ok( ret == ret2, "got %d, expected %d\n", ret2, ret ); ret2 = pGetCalendarInfoW( LANG_SYSTEM_DEFAULT, CAL_GREGORIAN, CAL_SDAYNAME1, bufferW, ARRAY_SIZE(bufferW), NULL); ok( ret2, "GetCalendarInfoW failed err %u\n", GetLastError() ); ret2 = WideCharToMultiByte( CP_ACP, 0, bufferW, -1, NULL, 0, NULL, NULL ); ok( ret == ret2, "got %d, expected %d\n", ret, ret2 ); } static void test_GetDynamicTimeZoneInformation(void) { DYNAMIC_TIME_ZONE_INFORMATION dyninfo; TIME_ZONE_INFORMATION tzinfo; DWORD ret, ret2; if (!pGetDynamicTimeZoneInformation) { win_skip("GetDynamicTimeZoneInformation() is not supported.\n"); return; } ret = pGetDynamicTimeZoneInformation(&dyninfo); ret2 = GetTimeZoneInformation(&tzinfo); ok(ret == ret2, "got %d, %d\n", ret, ret2); ok(dyninfo.Bias == tzinfo.Bias, "got %d, %d\n", dyninfo.Bias, tzinfo.Bias); ok(!lstrcmpW(dyninfo.StandardName, tzinfo.StandardName), "got std name %s, %s\n", wine_dbgstr_w(dyninfo.StandardName), wine_dbgstr_w(tzinfo.StandardName)); ok(!memcmp(&dyninfo.StandardDate, &tzinfo.StandardDate, sizeof(dyninfo.StandardDate)), "got different StandardDate\n"); ok(dyninfo.StandardBias == tzinfo.StandardBias, "got %d, %d\n", dyninfo.StandardBias, tzinfo.StandardBias); ok(!lstrcmpW(dyninfo.DaylightName, tzinfo.DaylightName), "got daylight name %s, %s\n", wine_dbgstr_w(dyninfo.DaylightName), wine_dbgstr_w(tzinfo.DaylightName)); ok(!memcmp(&dyninfo.DaylightDate, &tzinfo.DaylightDate, sizeof(dyninfo.DaylightDate)), "got different DaylightDate\n"); ok(dyninfo.TimeZoneKeyName[0] != 0, "got empty tz keyname\n"); trace("Dyn TimeZoneKeyName %s\n", wine_dbgstr_w(dyninfo.TimeZoneKeyName)); } static ULONGLONG get_longlong_time(FILETIME *time) { ULARGE_INTEGER uli; uli.u.LowPart = time->dwLowDateTime; uli.u.HighPart = time->dwHighDateTime; return uli.QuadPart; } static void test_GetSystemTimeAsFileTime(void) { LARGE_INTEGER t1, t2, t3; FILETIME ft; NtQuerySystemTime( &t1 ); GetSystemTimeAsFileTime( &ft ); NtQuerySystemTime( &t3 ); t2.QuadPart = get_longlong_time( &ft ); ok(t1.QuadPart <= t2.QuadPart, "out of order %s %s\n", wine_dbgstr_longlong(t1.QuadPart), wine_dbgstr_longlong(t2.QuadPart)); ok(t2.QuadPart <= t3.QuadPart, "out of order %s %s\n", wine_dbgstr_longlong(t2.QuadPart), wine_dbgstr_longlong(t3.QuadPart)); } static void test_GetSystemTimePreciseAsFileTime(void) { FILETIME ft; ULONGLONG time1, time2; LONGLONG diff; if (!pGetSystemTimePreciseAsFileTime) { win_skip("GetSystemTimePreciseAsFileTime() is not supported.\n"); return; } GetSystemTimeAsFileTime(&ft); time1 = get_longlong_time(&ft); pGetSystemTimePreciseAsFileTime(&ft); time2 = get_longlong_time(&ft); diff = time2 - time1; if (diff < 0) diff = -diff; ok(diff < 1000000, "Difference between GetSystemTimeAsFileTime and GetSystemTimePreciseAsFileTime more than 100 ms\n"); pGetSystemTimePreciseAsFileTime(&ft); time1 = get_longlong_time(&ft); do { pGetSystemTimePreciseAsFileTime(&ft); time2 = get_longlong_time(&ft); } while (time2 == time1); diff = time2 - time1; ok(diff < 10000 && diff > 0, "GetSystemTimePreciseAsFileTime incremented by more than 1 ms\n"); } static void test_GetSystemTimes(void) { FILETIME idletime, kerneltime, usertime; int i; ULARGE_INTEGER ul1, ul2, ul3; SYSTEM_PROCESSOR_PERFORMANCE_INFORMATION *sppi; SYSTEM_BASIC_INFORMATION sbi; ULONG ReturnLength; ULARGE_INTEGER total_usertime, total_kerneltime, total_idletime; if (!pGetSystemTimes) { win_skip("GetSystemTimes not available\n"); return; } ok( pGetSystemTimes(NULL, NULL, NULL), "GetSystemTimes failed unexpectedly\n" ); total_usertime.QuadPart = 0; total_kerneltime.QuadPart = 0; total_idletime.QuadPart = 0; memset( &idletime, 0x11, sizeof(idletime) ); memset( &kerneltime, 0x11, sizeof(kerneltime) ); memset( &usertime, 0x11, sizeof(usertime) ); ok( pGetSystemTimes(&idletime, &kerneltime , &usertime), "GetSystemTimes failed unexpectedly\n" ); ul1.LowPart = idletime.dwLowDateTime; ul1.HighPart = idletime.dwHighDateTime; ul2.LowPart = kerneltime.dwLowDateTime; ul2.HighPart = kerneltime.dwHighDateTime; ul3.LowPart = usertime.dwLowDateTime; ul3.HighPart = usertime.dwHighDateTime; ok( !NtQuerySystemInformation(SystemBasicInformation, &sbi, sizeof(sbi), &ReturnLength), "NtQuerySystemInformation failed\n" ); ok( sizeof(sbi) == ReturnLength, "Inconsistent length %d\n", ReturnLength ); /* Check if we have some return values */ trace( "Number of Processors : %d\n", sbi.NumberOfProcessors ); ok( sbi.NumberOfProcessors > 0, "Expected more than 0 processors, got %d\n", sbi.NumberOfProcessors ); sppi = HeapAlloc( GetProcessHeap(), 0, sizeof(SYSTEM_PROCESSOR_PERFORMANCE_INFORMATION) * sbi.NumberOfProcessors); ok( !NtQuerySystemInformation( SystemProcessorPerformanceInformation, sppi, sizeof(SYSTEM_PROCESSOR_PERFORMANCE_INFORMATION) * sbi.NumberOfProcessors, &ReturnLength), "NtQuerySystemInformation failed\n" ); for (i = 0; i < sbi.NumberOfProcessors; i++) { total_usertime.QuadPart += sppi[i].UserTime.QuadPart; total_kerneltime.QuadPart += sppi[i].KernelTime.QuadPart; total_idletime.QuadPart += sppi[i].IdleTime.QuadPart; } ok( total_idletime.QuadPart - ul1.QuadPart < 10000000, "test idletime failed\n" ); ok( total_kerneltime.QuadPart - ul2.QuadPart < 10000000, "test kerneltime failed\n" ); ok( total_usertime.QuadPart - ul3.QuadPart < 10000000, "test usertime failed\n" ); HeapFree(GetProcessHeap(), 0, sppi); } static WORD day_of_month(const SYSTEMTIME* systemtime, WORD year) { SYSTEMTIME first_of_month = {0}; FILETIME filetime; WORD result; if (systemtime->wYear != 0) return systemtime->wDay; if (systemtime->wMonth == 0) return 0; first_of_month.wYear = year; first_of_month.wMonth = systemtime->wMonth; first_of_month.wDay = 1; /* round-trip conversion sets day of week field */ SystemTimeToFileTime(&first_of_month, &filetime); FileTimeToSystemTime(&filetime, &first_of_month); result = 1 + ((systemtime->wDayOfWeek - first_of_month.wDayOfWeek + 7) % 7) + (7 * (systemtime->wDay - 1)); if (systemtime->wDay == 5) { /* make sure this isn't in the next month */ SYSTEMTIME result_date; result_date = first_of_month; result_date.wDay = result; SystemTimeToFileTime(&result_date, &filetime); FileTimeToSystemTime(&filetime, &result_date); if (result_date.wDay != result) result = 1 + ((systemtime->wDayOfWeek - first_of_month.wDayOfWeek + 7) % 7) + (7 * (4 - 1)); } return result; } static void test_GetTimeZoneInformationForYear(void) { BOOL ret, broken_test = FALSE; SYSTEMTIME systemtime; TIME_ZONE_INFORMATION local_tzinfo, tzinfo, tzinfo2; DYNAMIC_TIME_ZONE_INFORMATION dyn_tzinfo; WORD std_day, dlt_day; unsigned i; static const struct { const WCHAR *tzname; USHORT year; LONG bias, std_bias, dlt_bias; WORD std_month, std_day, dlt_month, dlt_day; int tzinfo_todo : 1, bias_todo : 1, std_bias_todo : 1, dlt_bias_todo : 1; int std_month_todo : 1, std_day_todo : 1, dlt_month_todo : 1, dlt_day_todo : 1; } test_data[] = { { L"Greenland Standard Time", 2015, 180, 0, -60, 10, 24, 3, 28 }, { L"Greenland Standard Time", 2016, 180, 0, -60, 10, 29, 3, 26 }, { L"Greenland Standard Time", 2017, 180, 0, -60, 10, 28, 3, 25 }, { L"Easter Island Standard Time", 2014, 360, 0, -60, 4, 26, 9, 6, 0, 1, 0, 1, 1, 1, 1, 1 }, { L"Easter Island Standard Time", 2015, 300, 0, -60, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1 }, { L"Easter Island Standard Time", 2016, 360, 0, -60, 5, 14, 8, 13, 0, 1, 0, 1, 1, 1, 1, 1 }, { L"Egypt Standard Time", 2013, -120, 0, -60, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1 }, { L"Egypt Standard Time", 2014, -120, 0, -60, 9, 25, 5, 15, 0, 0, 0, 0, 1, 1, 1, 1 }, { L"Egypt Standard Time", 2015, -120, 0, -60, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1 }, { L"Egypt Standard Time", 2016, -120, 0, -60, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1 }, { L"Altai Standard Time", 2016, -420, 0, 60, 3, 27, 1, 1, 1 }, { L"Altai Standard Time", 2017, -420, 0, -60, 0, 0, 0, 0, 1 }, { L"Altai Standard Time", 2018, -420, 0, -60, 0, 0, 0, 0, 1 }, }; if (!pGetTimeZoneInformationForYear || !pGetDynamicTimeZoneInformation) { win_skip("GetTimeZoneInformationForYear not available\n"); return; } GetLocalTime(&systemtime); GetTimeZoneInformation(&local_tzinfo); ret = pGetTimeZoneInformationForYear(systemtime.wYear, NULL, &tzinfo); ok(ret == TRUE, "GetTimeZoneInformationForYear failed, err %u\n", GetLastError()); ok(tzinfo.Bias == local_tzinfo.Bias, "Expected Bias %d, got %d\n", local_tzinfo.Bias, tzinfo.Bias); ok(!lstrcmpW(tzinfo.StandardName, local_tzinfo.StandardName), "Expected StandardName %s, got %s\n", wine_dbgstr_w(local_tzinfo.StandardName), wine_dbgstr_w(tzinfo.StandardName)); ok(!memcmp(&tzinfo.StandardDate, &local_tzinfo.StandardDate, sizeof(SYSTEMTIME)), "StandardDate does not match\n"); ok(tzinfo.StandardBias == local_tzinfo.StandardBias, "Expected StandardBias %d, got %d\n", local_tzinfo.StandardBias, tzinfo.StandardBias); ok(!lstrcmpW(tzinfo.DaylightName, local_tzinfo.DaylightName), "Expected DaylightName %s, got %s\n", wine_dbgstr_w(local_tzinfo.DaylightName), wine_dbgstr_w(tzinfo.DaylightName)); ok(!memcmp(&tzinfo.DaylightDate, &local_tzinfo.DaylightDate, sizeof(SYSTEMTIME)), "DaylightDate does not match\n"); ok(tzinfo.DaylightBias == local_tzinfo.DaylightBias, "Expected DaylightBias %d, got %d\n", local_tzinfo.DaylightBias, tzinfo.DaylightBias); pGetDynamicTimeZoneInformation(&dyn_tzinfo); ret = pGetTimeZoneInformationForYear(systemtime.wYear, &dyn_tzinfo, &tzinfo); ok(ret == TRUE, "GetTimeZoneInformationForYear failed, err %u\n", GetLastError()); ok(tzinfo.Bias == local_tzinfo.Bias, "Expected Bias %d, got %d\n", local_tzinfo.Bias, tzinfo.Bias); ok(!lstrcmpW(tzinfo.StandardName, local_tzinfo.StandardName), "Expected StandardName %s, got %s\n", wine_dbgstr_w(local_tzinfo.StandardName), wine_dbgstr_w(tzinfo.StandardName)); ok(!memcmp(&tzinfo.StandardDate, &local_tzinfo.StandardDate, sizeof(SYSTEMTIME)), "StandardDate does not match\n"); ok(tzinfo.StandardBias == local_tzinfo.StandardBias, "Expected StandardBias %d, got %d\n", local_tzinfo.StandardBias, tzinfo.StandardBias); ok(!lstrcmpW(tzinfo.DaylightName, local_tzinfo.DaylightName), "Expected DaylightName %s, got %s\n", wine_dbgstr_w(local_tzinfo.DaylightName), wine_dbgstr_w(tzinfo.DaylightName)); ok(!memcmp(&tzinfo.DaylightDate, &local_tzinfo.DaylightDate, sizeof(SYSTEMTIME)), "DaylightDate does not match\n"); ok(tzinfo.DaylightBias == local_tzinfo.DaylightBias, "Expected DaylightBias %d, got %d\n", local_tzinfo.DaylightBias, tzinfo.DaylightBias); memset(&dyn_tzinfo, 0xaa, sizeof(dyn_tzinfo)); lstrcpyW(dyn_tzinfo.TimeZoneKeyName, L"Greenland Daylight Time"); SetLastError(0xdeadbeef); ret = pGetTimeZoneInformationForYear(2015, &dyn_tzinfo, &tzinfo); if (ret) broken_test = TRUE; ok((ret == FALSE && GetLastError() == ERROR_FILE_NOT_FOUND) || broken(broken_test) /* vista,7 */, "GetTimeZoneInformationForYear err %u\n", GetLastError()); memset(&dyn_tzinfo, 0xaa, sizeof(dyn_tzinfo)); lstrcpyW(dyn_tzinfo.TimeZoneKeyName, L"Altai Standard Time"); SetLastError(0xdeadbeef); ret = pGetTimeZoneInformationForYear(2015, &dyn_tzinfo, &tzinfo); if (!ret && GetLastError() == ERROR_FILE_NOT_FOUND) broken_test = TRUE; todo_wine ok(ret == TRUE || broken(broken_test) /* before 10 1809 */, "GetTimeZoneInformationForYear err %u\n", GetLastError()); if (broken(broken_test)) { win_skip("Old Windows version\n"); return; } for (i = 0; i < ARRAY_SIZE(test_data); i++) { memset(&dyn_tzinfo, 0xaa, sizeof(dyn_tzinfo)); memset(&tzinfo, 0xbb, sizeof(tzinfo)); lstrcpyW(dyn_tzinfo.TimeZoneKeyName, test_data[i].tzname); dyn_tzinfo.DynamicDaylightTimeDisabled = FALSE; ret = pGetTimeZoneInformationForYear(test_data[i].year, &dyn_tzinfo, &tzinfo); todo_wine_if(test_data[i].tzinfo_todo) ok(ret == TRUE, "GetTimeZoneInformationForYear failed, err %u, for %s\n", GetLastError(), wine_dbgstr_w(test_data[i].tzname)); if (!ret) continue; todo_wine_if(test_data[i].bias_todo) ok(tzinfo.Bias == test_data[i].bias, "Expected bias %d, got %d, for %s\n", test_data[i].bias, tzinfo.Bias, wine_dbgstr_w(test_data[i].tzname)); todo_wine_if(test_data[i].std_month_todo) ok(tzinfo.StandardDate.wMonth == test_data[i].std_month, "Expected standard month %d, got %d, for %s\n", test_data[i].std_month, tzinfo.StandardDate.wMonth, wine_dbgstr_w(test_data[i].tzname)); std_day = day_of_month(&tzinfo.StandardDate, test_data[i].year); todo_wine_if(test_data[i].std_day_todo) ok(std_day == test_data[i].std_day, "Expected standard day %d, got %d, for %s\n", test_data[i].std_day, std_day, wine_dbgstr_w(test_data[i].tzname)); todo_wine_if(test_data[i].std_bias_todo) ok(tzinfo.StandardBias == test_data[i].std_bias, "Expected standard bias %d, got %d, for %s\n", test_data[i].std_bias, tzinfo.StandardBias, wine_dbgstr_w(test_data[i].tzname)); todo_wine_if(test_data[i].dlt_month_todo) ok(tzinfo.DaylightDate.wMonth == test_data[i].dlt_month, "Expected daylight month %d, got %d, for %s\n", test_data[i].dlt_month, tzinfo.DaylightDate.wMonth, wine_dbgstr_w(test_data[i].tzname)); dlt_day = day_of_month(&tzinfo.DaylightDate, test_data[i].year); todo_wine_if(test_data[i].dlt_day_todo) ok(dlt_day == test_data[i].dlt_day, "Expected daylight day %d, got %d, for %s\n", test_data[i].dlt_day, dlt_day, wine_dbgstr_w(test_data[i].tzname)); todo_wine_if(test_data[i].dlt_bias_todo) ok(tzinfo.DaylightBias == test_data[i].dlt_bias, "Expected daylight bias %d, got %d, for %s\n", test_data[i].dlt_bias, tzinfo.DaylightBias, wine_dbgstr_w(test_data[i].tzname)); if (i > 0 && test_data[i-1].tzname == test_data[i].tzname) { ok(!lstrcmpW(tzinfo.StandardName, tzinfo2.StandardName), "Got differing StandardName values %s and %s\n", wine_dbgstr_w(tzinfo.StandardName), wine_dbgstr_w(tzinfo2.StandardName)); ok(!lstrcmpW(tzinfo.DaylightName, tzinfo2.DaylightName), "Got differing DaylightName values %s and %s\n", wine_dbgstr_w(tzinfo.DaylightName), wine_dbgstr_w(tzinfo2.DaylightName)); } memcpy(&tzinfo2, &tzinfo, sizeof(tzinfo2)); } } static void test_GetTickCount(void) { DWORD t1, t2, t3; int i = 0; if (!pNtGetTickCount) { win_skip("NtGetTickCount not implemented\n"); return; } do { t1 = pNtGetTickCount(); t2 = GetTickCount(); t3 = pNtGetTickCount(); } while(t3 < t1 && i++ < 1); /* allow for wrap, but only once */ ok(t1 <= t2, "out of order %d %d\n", t1, t2); ok(t2 <= t3, "out of order %d %d\n", t2, t3); } BOOL (WINAPI *pQueryUnbiasedInterruptTime)(ULONGLONG *time); BOOL (WINAPI *pRtlQueryUnbiasedInterruptTime)(ULONGLONG *time); static void test_QueryUnbiasedInterruptTime(void) { ULONGLONG time; BOOL ret; if (pQueryUnbiasedInterruptTime) { SetLastError( 0xdeadbeef ); ret = pQueryUnbiasedInterruptTime( &time ); ok( ret, "QueryUnbiasedInterruptTime failed err %u\n", GetLastError() ); SetLastError( 0xdeadbeef ); ret = pQueryUnbiasedInterruptTime( NULL ); ok( !ret, "QueryUnbiasedInterruptTime succeeded\n" ); ok( GetLastError() == ERROR_INVALID_PARAMETER, "wrong error %u\n", GetLastError() ); } else win_skip( "QueryUnbiasedInterruptTime not supported\n" ); if (pRtlQueryUnbiasedInterruptTime) { SetLastError( 0xdeadbeef ); ret = pRtlQueryUnbiasedInterruptTime( &time ); ok( ret, "RtlQueryUnbiasedInterruptTime failed err %u\n", GetLastError() ); SetLastError( 0xdeadbeef ); ret = pRtlQueryUnbiasedInterruptTime( NULL ); ok( !ret, "RtlQueryUnbiasedInterruptTime succeeded\n" ); ok( GetLastError() == ERROR_INVALID_PARAMETER, "wrong error %u\n", GetLastError() ); } else win_skip( "RtlQueryUnbiasedInterruptTime not supported\n" ); } START_TEST(time) { HMODULE hKernel = GetModuleHandleA("kernel32"); HMODULE hntdll = GetModuleHandleA("ntdll"); pTzSpecificLocalTimeToSystemTime = (void *)GetProcAddress(hKernel, "TzSpecificLocalTimeToSystemTime"); pSystemTimeToTzSpecificLocalTime = (void *)GetProcAddress( hKernel, "SystemTimeToTzSpecificLocalTime"); pGetSystemTimes = (void *)GetProcAddress( hKernel, "GetSystemTimes"); pGetCalendarInfoA = (void *)GetProcAddress(hKernel, "GetCalendarInfoA"); pGetCalendarInfoW = (void *)GetProcAddress(hKernel, "GetCalendarInfoW"); pGetDynamicTimeZoneInformation = (void *)GetProcAddress(hKernel, "GetDynamicTimeZoneInformation"); pGetSystemTimePreciseAsFileTime = (void *)GetProcAddress(hKernel, "GetSystemTimePreciseAsFileTime"); pGetTimeZoneInformationForYear = (void *)GetProcAddress(hKernel, "GetTimeZoneInformationForYear"); pQueryUnbiasedInterruptTime = (void *)GetProcAddress(hKernel, "QueryUnbiasedInterruptTime"); pNtGetTickCount = (void *)GetProcAddress(hntdll, "NtGetTickCount"); pRtlQueryUnbiasedInterruptTime = (void *)GetProcAddress(hntdll, "RtlQueryUnbiasedInterruptTime"); test_conversions(); test_invalid_arg(); test_GetTimeZoneInformation(); test_FileTimeToSystemTime(); test_FileTimeToLocalFileTime(); test_TzSpecificLocalTimeToSystemTime(); test_GetSystemTimes(); test_FileTimeToDosDateTime(); test_GetCalendarInfo(); test_GetDynamicTimeZoneInformation(); test_GetSystemTimeAsFileTime(); test_GetSystemTimePreciseAsFileTime(); test_GetTimeZoneInformationForYear(); test_GetTickCount(); test_QueryUnbiasedInterruptTime(); }