/* * Nt time functions. * * RtlTimeToTimeFields, RtlTimeFieldsToTime and defines are taken from ReactOS and * adapted to wine with special permissions of the author. This code is * Copyright 2002 Rex Jolliff (rex@lvcablemodem.com) * * Copyright 1999 Juergen Schmied * 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 "config.h" #include "wine/port.h" #include #include #include #include #include #include #ifdef HAVE_SYS_TIME_H # include #endif #ifdef HAVE_UNISTD_H # include #endif #ifdef __APPLE__ # include #endif #include "ntstatus.h" #define WIN32_NO_STATUS #define NONAMELESSUNION #include "windef.h" #include "winternl.h" #include "ddk/wdm.h" #include "wine/exception.h" #include "wine/debug.h" #include "ntdll_misc.h" WINE_DEFAULT_DEBUG_CHANNEL(ntdll); #define SHORT_TZ_NAME_MAX 8 struct tz_name_map { WCHAR key_name[128]; char short_name[SHORT_TZ_NAME_MAX]; }; static int init_tz_info(RTL_DYNAMIC_TIME_ZONE_INFORMATION *tzi); static RTL_CRITICAL_SECTION TIME_tz_section; static RTL_CRITICAL_SECTION_DEBUG critsect_debug = { 0, 0, &TIME_tz_section, { &critsect_debug.ProcessLocksList, &critsect_debug.ProcessLocksList }, 0, 0, { (DWORD_PTR)(__FILE__ ": TIME_tz_section") } }; static RTL_CRITICAL_SECTION TIME_tz_section = { &critsect_debug, -1, 0, 0, 0, 0 }; #define TICKSPERSEC 10000000 #define TICKSPERMSEC 10000 #define SECSPERDAY 86400 #define SECSPERHOUR 3600 #define SECSPERMIN 60 #define MINSPERHOUR 60 #define HOURSPERDAY 24 #define EPOCHWEEKDAY 1 /* Jan 1, 1601 was Monday */ #define DAYSPERWEEK 7 #define MONSPERYEAR 12 #define DAYSPERQUADRICENTENNIUM (365 * 400 + 97) #define DAYSPERNORMALQUADRENNIUM (365 * 4 + 1) /* 1601 to 1970 is 369 years plus 89 leap days */ #define SECS_1601_TO_1970 ((369 * 365 + 89) * (ULONGLONG)SECSPERDAY) #define TICKS_1601_TO_1970 (SECS_1601_TO_1970 * TICKSPERSEC) /* 1601 to 1980 is 379 years plus 91 leap days */ #define SECS_1601_TO_1980 ((379 * 365 + 91) * (ULONGLONG)SECSPERDAY) #define TICKS_1601_TO_1980 (SECS_1601_TO_1980 * TICKSPERSEC) static const int MonthLengths[2][MONSPERYEAR] = { { 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }, { 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 } }; static inline BOOL IsLeapYear(int Year) { return Year % 4 == 0 && (Year % 100 != 0 || Year % 400 == 0); } /* return a monotonic time counter, in Win32 ticks */ static inline ULONGLONG monotonic_counter(void) { struct timeval now; #ifdef __APPLE__ static mach_timebase_info_data_t timebase; if (!timebase.denom) mach_timebase_info( &timebase ); #ifdef HAVE_MACH_CONTINUOUS_TIME if (&mach_continuous_time != NULL) return mach_continuous_time() * timebase.numer / timebase.denom / 100; #endif return mach_absolute_time() * timebase.numer / timebase.denom / 100; #elif defined(HAVE_CLOCK_GETTIME) struct timespec ts; #ifdef CLOCK_MONOTONIC_RAW if (!clock_gettime( CLOCK_MONOTONIC_RAW, &ts )) return ts.tv_sec * (ULONGLONG)TICKSPERSEC + ts.tv_nsec / 100; #endif if (!clock_gettime( CLOCK_MONOTONIC, &ts )) return ts.tv_sec * (ULONGLONG)TICKSPERSEC + ts.tv_nsec / 100; #endif gettimeofday( &now, 0 ); return now.tv_sec * (ULONGLONG)TICKSPERSEC + now.tv_usec * 10 + TICKS_1601_TO_1970 - server_start_time; } /****************************************************************************** * RtlTimeToTimeFields [NTDLL.@] * * Convert a time into a TIME_FIELDS structure. * * PARAMS * liTime [I] Time to convert. * TimeFields [O] Destination for the converted time. * * RETURNS * Nothing. */ VOID WINAPI RtlTimeToTimeFields( const LARGE_INTEGER *liTime, PTIME_FIELDS TimeFields) { int SecondsInDay; long int cleaps, years, yearday, months; long int Days; LONGLONG Time; /* Extract millisecond from time and convert time into seconds */ TimeFields->Milliseconds = (CSHORT) (( liTime->QuadPart % TICKSPERSEC) / TICKSPERMSEC); Time = liTime->QuadPart / TICKSPERSEC; /* The native version of RtlTimeToTimeFields does not take leap seconds * into account */ /* Split the time into days and seconds within the day */ Days = Time / SECSPERDAY; SecondsInDay = Time % SECSPERDAY; /* compute time of day */ TimeFields->Hour = (CSHORT) (SecondsInDay / SECSPERHOUR); SecondsInDay = SecondsInDay % SECSPERHOUR; TimeFields->Minute = (CSHORT) (SecondsInDay / SECSPERMIN); TimeFields->Second = (CSHORT) (SecondsInDay % SECSPERMIN); /* compute day of week */ TimeFields->Weekday = (CSHORT) ((EPOCHWEEKDAY + Days) % DAYSPERWEEK); /* compute year, month and day of month. */ cleaps=( 3 * ((4 * Days + 1227) / DAYSPERQUADRICENTENNIUM) + 3 ) / 4; Days += 28188 + cleaps; years = (20 * Days - 2442) / (5 * DAYSPERNORMALQUADRENNIUM); yearday = Days - (years * DAYSPERNORMALQUADRENNIUM)/4; months = (64 * yearday) / 1959; /* the result is based on a year starting on March. * To convert take 12 from Januari and Februari and * increase the year by one. */ if( months < 14 ) { TimeFields->Month = months - 1; TimeFields->Year = years + 1524; } else { TimeFields->Month = months - 13; TimeFields->Year = years + 1525; } /* calculation of day of month is based on the wonderful * sequence of INT( n * 30.6): it reproduces the * 31-30-31-30-31-31 month lengths exactly for small n's */ TimeFields->Day = yearday - (1959 * months) / 64 ; return; } /****************************************************************************** * RtlTimeFieldsToTime [NTDLL.@] * * Convert a TIME_FIELDS structure into a time. * * PARAMS * ftTimeFields [I] TIME_FIELDS structure to convert. * Time [O] Destination for the converted time. * * RETURNS * Success: TRUE. * Failure: FALSE. */ BOOLEAN WINAPI RtlTimeFieldsToTime( PTIME_FIELDS tfTimeFields, PLARGE_INTEGER Time) { int month, year, cleaps, day; /* FIXME: normalize the TIME_FIELDS structure here */ /* No, native just returns 0 (error) if the fields are not */ if( tfTimeFields->Milliseconds< 0 || tfTimeFields->Milliseconds > 999 || tfTimeFields->Second < 0 || tfTimeFields->Second > 59 || tfTimeFields->Minute < 0 || tfTimeFields->Minute > 59 || tfTimeFields->Hour < 0 || tfTimeFields->Hour > 23 || tfTimeFields->Month < 1 || tfTimeFields->Month > 12 || tfTimeFields->Day < 1 || tfTimeFields->Day > MonthLengths [ tfTimeFields->Month ==2 || IsLeapYear(tfTimeFields->Year)] [ tfTimeFields->Month - 1] || tfTimeFields->Year < 1601 ) return FALSE; /* now calculate a day count from the date * First start counting years from March. This way the leap days * are added at the end of the year, not somewhere in the middle. * Formula's become so much less complicate that way. * To convert: add 12 to the month numbers of Jan and Feb, and * take 1 from the year */ if(tfTimeFields->Month < 3) { month = tfTimeFields->Month + 13; year = tfTimeFields->Year - 1; } else { month = tfTimeFields->Month + 1; year = tfTimeFields->Year; } cleaps = (3 * (year / 100) + 3) / 4; /* nr of "century leap years"*/ day = (36525 * year) / 100 - cleaps + /* year * dayperyr, corrected */ (1959 * month) / 64 + /* months * daypermonth */ tfTimeFields->Day - /* day of the month */ 584817 ; /* zero that on 1601-01-01 */ /* done */ Time->QuadPart = (((((LONGLONG) day * HOURSPERDAY + tfTimeFields->Hour) * MINSPERHOUR + tfTimeFields->Minute) * SECSPERMIN + tfTimeFields->Second ) * 1000 + tfTimeFields->Milliseconds ) * TICKSPERMSEC; return TRUE; } /*********************************************************************** * TIME_GetBias [internal] * * Helper function calculates delta local time from UTC. * * PARAMS * utc [I] The current utc time. * pdaylight [I] Local daylight. * * RETURNS * The bias for the current timezone. */ static LONG TIME_GetBias(void) { static time_t last_utc; static LONG last_bias; LONG ret; time_t utc; utc = time( NULL ); RtlEnterCriticalSection( &TIME_tz_section ); if (utc != last_utc) { RTL_DYNAMIC_TIME_ZONE_INFORMATION tzi; int is_dst = init_tz_info( &tzi ); last_utc = utc; last_bias = tzi.Bias; last_bias += is_dst ? tzi.DaylightBias : tzi.StandardBias; last_bias *= SECSPERMIN; } ret = last_bias; RtlLeaveCriticalSection( &TIME_tz_section ); return ret; } /****************************************************************************** * RtlLocalTimeToSystemTime [NTDLL.@] * * Convert a local time into system time. * * PARAMS * LocalTime [I] Local time to convert. * SystemTime [O] Destination for the converted time. * * RETURNS * Success: STATUS_SUCCESS. * Failure: An NTSTATUS error code indicating the problem. */ NTSTATUS WINAPI RtlLocalTimeToSystemTime( const LARGE_INTEGER *LocalTime, PLARGE_INTEGER SystemTime) { LONG bias; TRACE("(%p, %p)\n", LocalTime, SystemTime); bias = TIME_GetBias(); SystemTime->QuadPart = LocalTime->QuadPart + bias * (LONGLONG)TICKSPERSEC; return STATUS_SUCCESS; } /****************************************************************************** * RtlSystemTimeToLocalTime [NTDLL.@] * * Convert a system time into a local time. * * PARAMS * SystemTime [I] System time to convert. * LocalTime [O] Destination for the converted time. * * RETURNS * Success: STATUS_SUCCESS. * Failure: An NTSTATUS error code indicating the problem. */ NTSTATUS WINAPI RtlSystemTimeToLocalTime( const LARGE_INTEGER *SystemTime, PLARGE_INTEGER LocalTime ) { LONG bias; TRACE("(%p, %p)\n", SystemTime, LocalTime); bias = TIME_GetBias(); LocalTime->QuadPart = SystemTime->QuadPart - bias * (LONGLONG)TICKSPERSEC; return STATUS_SUCCESS; } /****************************************************************************** * RtlTimeToSecondsSince1970 [NTDLL.@] * * Convert a time into a count of seconds since 1970. * * PARAMS * Time [I] Time to convert. * Seconds [O] Destination for the converted time. * * RETURNS * Success: TRUE. * Failure: FALSE, if the resulting value will not fit in a DWORD. */ BOOLEAN WINAPI RtlTimeToSecondsSince1970( const LARGE_INTEGER *Time, LPDWORD Seconds ) { ULONGLONG tmp = Time->QuadPart / TICKSPERSEC - SECS_1601_TO_1970; if (tmp > 0xffffffff) return FALSE; *Seconds = tmp; return TRUE; } /****************************************************************************** * RtlTimeToSecondsSince1980 [NTDLL.@] * * Convert a time into a count of seconds since 1980. * * PARAMS * Time [I] Time to convert. * Seconds [O] Destination for the converted time. * * RETURNS * Success: TRUE. * Failure: FALSE, if the resulting value will not fit in a DWORD. */ BOOLEAN WINAPI RtlTimeToSecondsSince1980( const LARGE_INTEGER *Time, LPDWORD Seconds ) { ULONGLONG tmp = Time->QuadPart / TICKSPERSEC - SECS_1601_TO_1980; if (tmp > 0xffffffff) return FALSE; *Seconds = tmp; return TRUE; } /****************************************************************************** * RtlSecondsSince1970ToTime [NTDLL.@] * * Convert a count of seconds since 1970 to a time. * * PARAMS * Seconds [I] Time to convert. * Time [O] Destination for the converted time. * * RETURNS * Nothing. */ void WINAPI RtlSecondsSince1970ToTime( DWORD Seconds, LARGE_INTEGER *Time ) { Time->QuadPart = Seconds * (ULONGLONG)TICKSPERSEC + TICKS_1601_TO_1970; } /****************************************************************************** * RtlSecondsSince1980ToTime [NTDLL.@] * * Convert a count of seconds since 1980 to a time. * * PARAMS * Seconds [I] Time to convert. * Time [O] Destination for the converted time. * * RETURNS * Nothing. */ void WINAPI RtlSecondsSince1980ToTime( DWORD Seconds, LARGE_INTEGER *Time ) { Time->QuadPart = Seconds * (ULONGLONG)TICKSPERSEC + TICKS_1601_TO_1980; } /****************************************************************************** * RtlTimeToElapsedTimeFields [NTDLL.@] * * Convert a time to a count of elapsed seconds. * * PARAMS * Time [I] Time to convert. * TimeFields [O] Destination for the converted time. * * RETURNS * Nothing. */ void WINAPI RtlTimeToElapsedTimeFields( const LARGE_INTEGER *Time, PTIME_FIELDS TimeFields ) { LONGLONG time; INT rem; time = Time->QuadPart / TICKSPERSEC; TimeFields->Milliseconds = (Time->QuadPart % TICKSPERSEC) / TICKSPERMSEC; /* time is now in seconds */ TimeFields->Year = 0; TimeFields->Month = 0; TimeFields->Day = time / SECSPERDAY; /* rem is now the remaining seconds in the last day */ rem = time % SECSPERDAY; TimeFields->Second = rem % 60; rem /= 60; TimeFields->Minute = rem % 60; TimeFields->Hour = rem / 60; } /*********************************************************************** * NtQuerySystemTime [NTDLL.@] * ZwQuerySystemTime [NTDLL.@] * * Get the current system time. * * PARAMS * time [O] Destination for the current system time. * * RETURNS * Success: STATUS_SUCCESS. * Failure: An NTSTATUS error code indicating the problem. */ NTSTATUS WINAPI NtQuerySystemTime( LARGE_INTEGER *time ) { #ifdef HAVE_CLOCK_GETTIME struct timespec ts; static clockid_t clock_id = CLOCK_MONOTONIC; /* placeholder */ if (clock_id == CLOCK_MONOTONIC) { #ifdef CLOCK_REALTIME_COARSE struct timespec res; /* Use CLOCK_REALTIME_COARSE if it has 1 ms or better resolution */ if (!clock_getres( CLOCK_REALTIME_COARSE, &res ) && res.tv_sec == 0 && res.tv_nsec <= 1000000) clock_id = CLOCK_REALTIME_COARSE; else #endif /* CLOCK_REALTIME_COARSE */ clock_id = CLOCK_REALTIME; } if (!clock_gettime( clock_id, &ts )) { time->QuadPart = ts.tv_sec * (ULONGLONG)TICKSPERSEC + TICKS_1601_TO_1970; time->QuadPart += (ts.tv_nsec + 50) / 100; } else #endif /* HAVE_CLOCK_GETTIME */ { struct timeval now; gettimeofday( &now, 0 ); time->QuadPart = now.tv_sec * (ULONGLONG)TICKSPERSEC + TICKS_1601_TO_1970; time->QuadPart += now.tv_usec * 10; } return STATUS_SUCCESS; } /*********************************************************************** * RtlGetSystemTimePrecise [NTDLL.@] * * Get a more accurate current system time. * * RETURNS * The current system time. */ LONGLONG WINAPI RtlGetSystemTimePrecise( void ) { LONGLONG time; #ifdef HAVE_CLOCK_GETTIME struct timespec ts; if (!clock_gettime( CLOCK_REALTIME, &ts )) { time = ts.tv_sec * (ULONGLONG)TICKSPERSEC + TICKS_1601_TO_1970; time += (ts.tv_nsec + 50) / 100; } else #endif { struct timeval now; gettimeofday( &now, 0 ); time = now.tv_sec * (ULONGLONG)TICKSPERSEC + TICKS_1601_TO_1970; time += now.tv_usec * 10; } return time; } /****************************************************************************** * NtQueryPerformanceCounter [NTDLL.@] */ NTSTATUS WINAPI NtQueryPerformanceCounter( LARGE_INTEGER *counter, LARGE_INTEGER *frequency ) { __TRY { counter->QuadPart = monotonic_counter(); if (frequency) frequency->QuadPart = TICKSPERSEC; } __EXCEPT_PAGE_FAULT { return STATUS_ACCESS_VIOLATION; } __ENDTRY return STATUS_SUCCESS; } /****************************************************************************** * RtlQueryPerformanceCounter [NTDLL.@] */ BOOL WINAPI DECLSPEC_HOTPATCH RtlQueryPerformanceCounter( LARGE_INTEGER *counter ) { counter->QuadPart = monotonic_counter(); return TRUE; } /****************************************************************************** * RtlQueryPerformanceFrequency [NTDLL.@] */ BOOL WINAPI DECLSPEC_HOTPATCH RtlQueryPerformanceFrequency( LARGE_INTEGER *frequency ) { frequency->QuadPart = TICKSPERSEC; return TRUE; } /****************************************************************************** * NtGetTickCount (NTDLL.@) * ZwGetTickCount (NTDLL.@) */ ULONG WINAPI DECLSPEC_HOTPATCH NtGetTickCount(void) { /* note: we ignore TickCountMultiplier */ return user_shared_data->u.TickCount.LowPart; } /* calculate the mday of dst change date, so that for instance Sun 5 Oct 2007 * (last Sunday in October of 2007) becomes Sun Oct 28 2007 * * Note: year, day and month must be in unix format. */ static int weekday_to_mday(int year, int day, int mon, int day_of_week) { struct tm date; time_t tmp; int wday, mday; /* find first day in the month matching week day of the date */ memset(&date, 0, sizeof(date)); date.tm_year = year; date.tm_mon = mon; date.tm_mday = -1; date.tm_wday = -1; do { date.tm_mday++; tmp = mktime(&date); } while (date.tm_wday != day_of_week || date.tm_mon != mon); mday = date.tm_mday; /* find number of week days in the month matching week day of the date */ wday = 1; /* 1 - 1st, ...., 5 - last */ while (wday < day) { struct tm *tm; date.tm_mday += 7; tmp = mktime(&date); tm = localtime(&tmp); if (tm->tm_mon != mon) break; mday = tm->tm_mday; wday++; } return mday; } static BOOL match_tz_date(const RTL_SYSTEM_TIME *st, const RTL_SYSTEM_TIME *reg_st) { WORD wDay; if (st->wMonth != reg_st->wMonth) return FALSE; if (!st->wMonth) return TRUE; /* no transition dates */ wDay = reg_st->wDay; if (!reg_st->wYear) /* date in a day-of-week format */ wDay = weekday_to_mday(st->wYear - 1900, reg_st->wDay, reg_st->wMonth - 1, reg_st->wDayOfWeek); if (st->wDay != wDay || st->wHour != reg_st->wHour || st->wMinute != reg_st->wMinute || st->wSecond != reg_st->wSecond || st->wMilliseconds != reg_st->wMilliseconds) return FALSE; return TRUE; } static BOOL match_tz_info(const RTL_DYNAMIC_TIME_ZONE_INFORMATION *tzi, const RTL_DYNAMIC_TIME_ZONE_INFORMATION *reg_tzi) { if (tzi->Bias == reg_tzi->Bias && match_tz_date(&tzi->StandardDate, ®_tzi->StandardDate) && match_tz_date(&tzi->DaylightDate, ®_tzi->DaylightDate)) return TRUE; return FALSE; } static int compare_tz_key(const void *a, const void *b) { const struct tz_name_map *map_a, *map_b; map_a = (const struct tz_name_map *)a; map_b = (const struct tz_name_map *)b; return wcscmp(map_a->key_name, map_b->key_name); } static BOOL match_tz_name(const char* tz_name, const RTL_DYNAMIC_TIME_ZONE_INFORMATION *reg_tzi) { static const struct tz_name_map mapping[] = { { {'K','o','r','e','a',' ','S','t','a','n','d','a','r','d',' ','T','i', 'm','e',0 }, "KST" }, { {'T','o','k','y','o',' ','S','t','a','n','d','a','r','d',' ','T','i', 'm','e',0 }, "JST" }, { {'Y','a','k','u','t','s','k',' ','S','t','a','n','d','a','r','d',' ', 'T','i','m','e',0 }, "+09" }, /* YAKST was used until tzdata 2016f */ }; struct tz_name_map *match, key; if (reg_tzi->DaylightDate.wMonth) return TRUE; wcscpy(key.key_name, reg_tzi->TimeZoneKeyName); match = bsearch(&key, mapping, ARRAY_SIZE(mapping), sizeof(mapping[0]), compare_tz_key); if (!match) return TRUE; return !strcmp(match->short_name, tz_name); } static BOOL reg_query_value(HKEY hkey, LPCWSTR name, DWORD type, void *data, DWORD count) { UNICODE_STRING nameW; char buf[256]; KEY_VALUE_PARTIAL_INFORMATION *info = (KEY_VALUE_PARTIAL_INFORMATION *)buf; if (count > sizeof(buf) - sizeof(KEY_VALUE_PARTIAL_INFORMATION)) return FALSE; RtlInitUnicodeString(&nameW, name); if (NtQueryValueKey(hkey, &nameW, KeyValuePartialInformation, buf, sizeof(buf), &count)) return FALSE; if (info->Type != type) return FALSE; memcpy(data, info->Data, info->DataLength); return TRUE; } static void find_reg_tz_info(RTL_DYNAMIC_TIME_ZONE_INFORMATION *tzi, const char* tz_name, int year) { static const WCHAR Time_ZonesW[] = { 'M','a','c','h','i','n','e','\\', 'S','o','f','t','w','a','r','e','\\', 'M','i','c','r','o','s','o','f','t','\\', 'W','i','n','d','o','w','s',' ','N','T','\\', 'C','u','r','r','e','n','t','V','e','r','s','i','o','n','\\', 'T','i','m','e',' ','Z','o','n','e','s',0 }; static const WCHAR Dynamic_DstW[] = { 'D','y','n','a','m','i','c',' ','D','S','T',0 }; static const WCHAR fmtW[] = { '%','d',0 }; HANDLE hkey; ULONG idx; OBJECT_ATTRIBUTES attr, attrDynamic; UNICODE_STRING nameW, nameDynamicW; WCHAR buf[128], yearW[16]; NTDLL_swprintf(yearW, fmtW, year); attrDynamic.Length = sizeof(attrDynamic); attrDynamic.RootDirectory = 0; /* will be replaced later */ attrDynamic.ObjectName = &nameDynamicW; attrDynamic.Attributes = 0; attrDynamic.SecurityDescriptor = NULL; attrDynamic.SecurityQualityOfService = NULL; RtlInitUnicodeString(&nameDynamicW, Dynamic_DstW); attr.Length = sizeof(attr); attr.RootDirectory = 0; attr.ObjectName = &nameW; attr.Attributes = 0; attr.SecurityDescriptor = NULL; attr.SecurityQualityOfService = NULL; RtlInitUnicodeString(&nameW, Time_ZonesW); if (NtOpenKey(&hkey, KEY_READ, &attr)) { WARN("Unable to open the time zones key\n"); return; } idx = 0; nameW.Buffer = buf; nameW.Length = sizeof(buf); nameW.MaximumLength = sizeof(buf); while (!RtlpNtEnumerateSubKey(hkey, &nameW, idx++)) { static const WCHAR stdW[] = { 'S','t','d',0 }; static const WCHAR dltW[] = { 'D','l','t',0 }; static const WCHAR mui_stdW[] = { 'M','U','I','_','S','t','d',0 }; static const WCHAR mui_dltW[] = { 'M','U','I','_','D','l','t',0 }; static const WCHAR tziW[] = { 'T','Z','I',0 }; RTL_DYNAMIC_TIME_ZONE_INFORMATION reg_tzi; HANDLE hSubkey, hSubkeyDynamicDST; BOOL is_dynamic = FALSE; struct tz_reg_data { LONG bias; LONG std_bias; LONG dlt_bias; RTL_SYSTEM_TIME std_date; RTL_SYSTEM_TIME dlt_date; } tz_data; attr.Length = sizeof(attr); attr.RootDirectory = hkey; attr.ObjectName = &nameW; attr.Attributes = 0; attr.SecurityDescriptor = NULL; attr.SecurityQualityOfService = NULL; if (NtOpenKey(&hSubkey, KEY_READ, &attr)) { WARN("Unable to open subkey %s\n", debugstr_wn(nameW.Buffer, nameW.Length/sizeof(WCHAR))); continue; } #define get_value(hkey, name, type, data, len) \ if (!reg_query_value(hkey, name, type, data, len)) \ { \ WARN("can't read data from %s\n", debugstr_w(name)); \ NtClose(hkey); \ continue; \ } memset(®_tzi, 0, sizeof(reg_tzi)); if (!reg_query_value(hSubkey, mui_stdW, REG_SZ, reg_tzi.StandardName, sizeof(reg_tzi.StandardName))) get_value(hSubkey, stdW, REG_SZ, reg_tzi.StandardName, sizeof(reg_tzi.StandardName)); if (!reg_query_value(hSubkey, mui_dltW, REG_SZ, reg_tzi.DaylightName, sizeof(reg_tzi.DaylightName))) get_value(hSubkey, dltW, REG_SZ, reg_tzi.DaylightName, sizeof(reg_tzi.DaylightName)); memcpy(reg_tzi.TimeZoneKeyName, nameW.Buffer, nameW.Length); reg_tzi.TimeZoneKeyName[nameW.Length/sizeof(WCHAR)] = 0; /* Check for Dynamic DST entry first */ attrDynamic.RootDirectory = hSubkey; if (!NtOpenKey(&hSubkeyDynamicDST, KEY_READ, &attrDynamic)) { is_dynamic = reg_query_value(hSubkeyDynamicDST, yearW, REG_BINARY, &tz_data, sizeof(tz_data)); NtClose(hSubkeyDynamicDST); } if (!is_dynamic) get_value(hSubkey, tziW, REG_BINARY, &tz_data, sizeof(tz_data)); #undef get_value reg_tzi.Bias = tz_data.bias; reg_tzi.StandardBias = tz_data.std_bias; reg_tzi.DaylightBias = tz_data.dlt_bias; reg_tzi.StandardDate = tz_data.std_date; reg_tzi.DaylightDate = tz_data.dlt_date; TRACE("%s: bias %d\n", debugstr_wn(nameW.Buffer, nameW.Length/sizeof(WCHAR)), reg_tzi.Bias); TRACE("std (d/m/y): %u/%02u/%04u day of week %u %u:%02u:%02u.%03u bias %d\n", reg_tzi.StandardDate.wDay, reg_tzi.StandardDate.wMonth, reg_tzi.StandardDate.wYear, reg_tzi.StandardDate.wDayOfWeek, reg_tzi.StandardDate.wHour, reg_tzi.StandardDate.wMinute, reg_tzi.StandardDate.wSecond, reg_tzi.StandardDate.wMilliseconds, reg_tzi.StandardBias); TRACE("dst (d/m/y): %u/%02u/%04u day of week %u %u:%02u:%02u.%03u bias %d\n", reg_tzi.DaylightDate.wDay, reg_tzi.DaylightDate.wMonth, reg_tzi.DaylightDate.wYear, reg_tzi.DaylightDate.wDayOfWeek, reg_tzi.DaylightDate.wHour, reg_tzi.DaylightDate.wMinute, reg_tzi.DaylightDate.wSecond, reg_tzi.DaylightDate.wMilliseconds, reg_tzi.DaylightBias); NtClose(hSubkey); if (match_tz_info(tzi, ®_tzi) && match_tz_name(tz_name, ®_tzi)) { *tzi = reg_tzi; NtClose(hkey); return; } /* reset len */ nameW.Length = sizeof(buf); nameW.MaximumLength = sizeof(buf); } NtClose(hkey); if (idx == 1) return; /* registry info not initialized yet */ FIXME("Can't find matching timezone information in the registry for " "%s, bias %d, std (d/m/y): %u/%02u/%04u, dlt (d/m/y): %u/%02u/%04u\n", tz_name, tzi->Bias, tzi->StandardDate.wDay, tzi->StandardDate.wMonth, tzi->StandardDate.wYear, tzi->DaylightDate.wDay, tzi->DaylightDate.wMonth, tzi->DaylightDate.wYear); } static time_t find_dst_change(unsigned long min, unsigned long max, int *is_dst) { time_t start; struct tm *tm; start = min; tm = localtime(&start); *is_dst = !tm->tm_isdst; TRACE("starting date isdst %d, %s", !*is_dst, ctime(&start)); while (min <= max) { time_t pos = (min + max) / 2; tm = localtime(&pos); if (tm->tm_isdst != *is_dst) min = pos + 1; else max = pos - 1; } return min; } static int init_tz_info(RTL_DYNAMIC_TIME_ZONE_INFORMATION *tzi) { static RTL_DYNAMIC_TIME_ZONE_INFORMATION cached_tzi; static int current_year = -1, current_bias = 65535; struct tm *tm; char tz_name[SHORT_TZ_NAME_MAX]; time_t year_start, year_end, tmp, dlt = 0, std = 0; int is_dst, current_is_dst, bias; RtlEnterCriticalSection( &TIME_tz_section ); year_start = time(NULL); tm = gmtime(&year_start); bias = (LONG)(mktime(tm) - year_start) / 60; tm = localtime(&year_start); current_is_dst = tm->tm_isdst; if (current_year == tm->tm_year && current_bias == bias) { *tzi = cached_tzi; RtlLeaveCriticalSection( &TIME_tz_section ); return current_is_dst; } memset(tzi, 0, sizeof(*tzi)); if (!strftime(tz_name, sizeof(tz_name), "%Z", tm)) { /* not enough room or another error */ tz_name[0] = '\0'; } TRACE("tz data will be valid through year %d, bias %d\n", tm->tm_year + 1900, bias); current_year = tm->tm_year; current_bias = bias; tzi->Bias = bias; tm->tm_isdst = 0; tm->tm_mday = 1; tm->tm_mon = tm->tm_hour = tm->tm_min = tm->tm_sec = tm->tm_wday = tm->tm_yday = 0; year_start = mktime(tm); TRACE("year_start: %s", ctime(&year_start)); tm->tm_mday = tm->tm_wday = tm->tm_yday = 0; tm->tm_mon = 12; tm->tm_hour = 23; tm->tm_min = tm->tm_sec = 59; year_end = mktime(tm); TRACE("year_end: %s", ctime(&year_end)); tmp = find_dst_change(year_start, year_end, &is_dst); if (is_dst) dlt = tmp; else std = tmp; tmp = find_dst_change(tmp, year_end, &is_dst); if (is_dst) dlt = tmp; else std = tmp; TRACE("std: %s", ctime(&std)); TRACE("dlt: %s", ctime(&dlt)); if (dlt == std || !dlt || !std) TRACE("there is no daylight saving rules in this time zone\n"); else { tmp = dlt - tzi->Bias * 60; tm = gmtime(&tmp); TRACE("dlt gmtime: %s", asctime(tm)); tzi->DaylightBias = -60; tzi->DaylightDate.wYear = tm->tm_year + 1900; tzi->DaylightDate.wMonth = tm->tm_mon + 1; tzi->DaylightDate.wDayOfWeek = tm->tm_wday; tzi->DaylightDate.wDay = tm->tm_mday; tzi->DaylightDate.wHour = tm->tm_hour; tzi->DaylightDate.wMinute = tm->tm_min; tzi->DaylightDate.wSecond = tm->tm_sec; tzi->DaylightDate.wMilliseconds = 0; TRACE("daylight (d/m/y): %u/%02u/%04u day of week %u %u:%02u:%02u.%03u bias %d\n", tzi->DaylightDate.wDay, tzi->DaylightDate.wMonth, tzi->DaylightDate.wYear, tzi->DaylightDate.wDayOfWeek, tzi->DaylightDate.wHour, tzi->DaylightDate.wMinute, tzi->DaylightDate.wSecond, tzi->DaylightDate.wMilliseconds, tzi->DaylightBias); tmp = std - tzi->Bias * 60 - tzi->DaylightBias * 60; tm = gmtime(&tmp); TRACE("std gmtime: %s", asctime(tm)); tzi->StandardBias = 0; tzi->StandardDate.wYear = tm->tm_year + 1900; tzi->StandardDate.wMonth = tm->tm_mon + 1; tzi->StandardDate.wDayOfWeek = tm->tm_wday; tzi->StandardDate.wDay = tm->tm_mday; tzi->StandardDate.wHour = tm->tm_hour; tzi->StandardDate.wMinute = tm->tm_min; tzi->StandardDate.wSecond = tm->tm_sec; tzi->StandardDate.wMilliseconds = 0; TRACE("standard (d/m/y): %u/%02u/%04u day of week %u %u:%02u:%02u.%03u bias %d\n", tzi->StandardDate.wDay, tzi->StandardDate.wMonth, tzi->StandardDate.wYear, tzi->StandardDate.wDayOfWeek, tzi->StandardDate.wHour, tzi->StandardDate.wMinute, tzi->StandardDate.wSecond, tzi->StandardDate.wMilliseconds, tzi->StandardBias); } find_reg_tz_info(tzi, tz_name, current_year + 1900); cached_tzi = *tzi; RtlLeaveCriticalSection( &TIME_tz_section ); return current_is_dst; } /*********************************************************************** * RtlQueryTimeZoneInformation [NTDLL.@] * * Get information about the current timezone. * * PARAMS * tzinfo [O] Destination for the retrieved timezone info. * * RETURNS * Success: STATUS_SUCCESS. * Failure: An NTSTATUS error code indicating the problem. */ NTSTATUS WINAPI RtlQueryTimeZoneInformation(RTL_TIME_ZONE_INFORMATION *ret) { RTL_DYNAMIC_TIME_ZONE_INFORMATION tzinfo; init_tz_info( &tzinfo ); memcpy( ret, &tzinfo, sizeof(*ret) ); return STATUS_SUCCESS; } /*********************************************************************** * RtlQueryDynamicTimeZoneInformation [NTDLL.@] * * Get information about the current timezone. * * PARAMS * tzinfo [O] Destination for the retrieved timezone info. * * RETURNS * Success: STATUS_SUCCESS. * Failure: An NTSTATUS error code indicating the problem. */ NTSTATUS WINAPI RtlQueryDynamicTimeZoneInformation(RTL_DYNAMIC_TIME_ZONE_INFORMATION *tzinfo) { init_tz_info( tzinfo ); return STATUS_SUCCESS; } /*********************************************************************** * RtlSetTimeZoneInformation [NTDLL.@] * * Set the current time zone information. * * PARAMS * tzinfo [I] Timezone information to set. * * RETURNS * Success: STATUS_SUCCESS. * Failure: An NTSTATUS error code indicating the problem. * */ NTSTATUS WINAPI RtlSetTimeZoneInformation( const RTL_TIME_ZONE_INFORMATION *tzinfo ) { return STATUS_PRIVILEGE_NOT_HELD; } /*********************************************************************** * NtSetSystemTime [NTDLL.@] * ZwSetSystemTime [NTDLL.@] * * Set the system time. * * PARAMS * NewTime [I] The time to set. * OldTime [O] Optional destination for the previous system time. * * RETURNS * Success: STATUS_SUCCESS. * Failure: An NTSTATUS error code indicating the problem. */ NTSTATUS WINAPI NtSetSystemTime(const LARGE_INTEGER *NewTime, LARGE_INTEGER *OldTime) { struct timeval tv; time_t tm_t; DWORD sec, oldsec; LARGE_INTEGER tm; /* Return the old time if necessary */ if (!OldTime) OldTime = &tm; NtQuerySystemTime( OldTime ); if (!RtlTimeToSecondsSince1970( OldTime, &oldsec )) return STATUS_INVALID_PARAMETER; if (!RtlTimeToSecondsSince1970( NewTime, &sec )) return STATUS_INVALID_PARAMETER; /* fake success if time didn't change */ if (oldsec == sec) return STATUS_SUCCESS; /* set the new time */ tv.tv_sec = sec; tv.tv_usec = 0; #ifdef HAVE_SETTIMEOFDAY tm_t = sec; if (!settimeofday(&tv, NULL)) /* 0 is OK, -1 is error */ { TRACE("OS time changed to %s\n", ctime(&tm_t)); return STATUS_SUCCESS; } ERR("Cannot set time to %s, time adjustment %ld: %s\n", ctime(&tm_t), (long)(sec-oldsec), strerror(errno)); if (errno == EPERM) return STATUS_PRIVILEGE_NOT_HELD; else return STATUS_INVALID_PARAMETER; #else tm_t = sec; FIXME("setting time to %s not implemented for missing settimeofday\n", ctime(&tm_t)); return STATUS_NOT_IMPLEMENTED; #endif } /*********************************************************************** * RtlQueryUnbiasedInterruptTime [NTDLL.@] */ BOOL WINAPI RtlQueryUnbiasedInterruptTime(ULONGLONG *time) { ULONG high, low; if (!time) { RtlSetLastWin32ErrorAndNtStatusFromNtStatus( STATUS_INVALID_PARAMETER ); return FALSE; } do { high = user_shared_data->InterruptTime.High1Time; low = user_shared_data->InterruptTime.LowPart; } while (high != user_shared_data->InterruptTime.High2Time); /* FIXME: should probably subtract InterruptTimeBias */ *time = (ULONGLONG)high << 32 | low; return TRUE; }