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/*
Unix SMB / CIFS implementation .
time handling functions
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Copyright ( C ) Andrew Tridgell 1992 - 2004
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Copyright ( C ) Stefan ( metze ) Metzmacher 2002
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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
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the Free Software Foundation ; either version 3 of the License , or
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( at your option ) any later version .
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
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along with this program . If not , see < http : //www.gnu.org/licenses/>.
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*/
# include "includes.h"
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# include "system/time.h"
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/**
* @ file
* @ brief time handling functions
*/
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# if (SIZEOF_LONG == 8)
# define TIME_FIXUP_CONSTANT_INT 11644473600L
# elif (SIZEOF_LONG_LONG == 8)
# define TIME_FIXUP_CONSTANT_INT 11644473600LL
# endif
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/**
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External access to time_t_min and time_t_max .
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* */
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_PUBLIC_ time_t get_time_t_max ( void )
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{
return TIME_T_MAX ;
}
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/**
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a gettimeofday wrapper
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* */
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_PUBLIC_ void GetTimeOfDay ( struct timeval * tval )
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{
# ifdef HAVE_GETTIMEOFDAY_TZ
gettimeofday ( tval , NULL ) ;
# else
gettimeofday ( tval ) ;
# endif
}
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/**
a wrapper to preferably get the monotonic time
* */
_PUBLIC_ void clock_gettime_mono ( struct timespec * tp )
{
if ( clock_gettime ( CUSTOM_CLOCK_MONOTONIC , tp ) ! = 0 ) {
clock_gettime ( CLOCK_REALTIME , tp ) ;
}
}
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# define TIME_FIXUP_CONSTANT 11644473600LL
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time_t convert_timespec_to_time_t ( struct timespec ts )
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{
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/* 1 ns == 1,000,000,000 - one thousand millionths of a second.
increment if it ' s greater than 500 millionth of a second . */
if ( ts . tv_nsec > 500000000 ) {
return ts . tv_sec + 1 ;
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}
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return ts . tv_sec ;
}
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struct timespec convert_time_t_to_timespec ( time_t t )
{
struct timespec ts ;
ts . tv_sec = t ;
ts . tv_nsec = 0 ;
return ts ;
}
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/**
Interpret an 8 byte " filetime " structure to a time_t
It ' s originally in " 100ns units since jan 1st 1601 "
An 8 byte value of 0xffffffffffffffff will be returned as a timespec of
tv_sec = 0
tv_nsec = 0 ;
Returns GMT .
* */
time_t nt_time_to_unix ( NTTIME nt )
{
return convert_timespec_to_time_t ( nt_time_to_unix_timespec ( & nt ) ) ;
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}
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/**
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put a 8 byte filetime from a time_t
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This takes GMT as input
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* */
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_PUBLIC_ void unix_to_nt_time ( NTTIME * nt , time_t t )
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{
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uint64_t t2 ;
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if ( t = = ( time_t ) - 1 ) {
* nt = ( NTTIME ) - 1LL ;
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return ;
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}
if ( t = = TIME_T_MAX ) {
* nt = 0x7fffffffffffffffLL ;
return ;
}
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if ( t = = 0 ) {
* nt = 0 ;
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return ;
}
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t2 = t ;
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t2 + = TIME_FIXUP_CONSTANT_INT ;
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t2 * = 1000 * 1000 * 10 ;
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* nt = t2 ;
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}
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/**
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check if it ' s a null unix time
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* */
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_PUBLIC_ bool null_time ( time_t t )
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{
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return t = = 0 | |
t = = ( time_t ) 0xFFFFFFFF | |
t = = ( time_t ) - 1 ;
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}
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/**
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check if it ' s a null NTTIME
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* */
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_PUBLIC_ bool null_nttime ( NTTIME t )
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{
return t = = 0 | | t = = ( NTTIME ) - 1 ;
}
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/*******************************************************************
create a 16 bit dos packed date
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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static uint16_t make_dos_date1 ( struct tm * t )
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{
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uint16_t ret = 0 ;
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ret = ( ( ( unsigned int ) ( t - > tm_mon + 1 ) ) > > 3 ) | ( ( t - > tm_year - 80 ) < < 1 ) ;
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ret = ( ( ret & 0xFF ) < < 8 ) | ( t - > tm_mday | ( ( ( t - > tm_mon + 1 ) & 0x7 ) < < 5 ) ) ;
return ret ;
}
/*******************************************************************
create a 16 bit dos packed time
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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static uint16_t make_dos_time1 ( struct tm * t )
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{
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uint16_t ret = 0 ;
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ret = ( ( ( ( unsigned int ) t - > tm_min > > 3 ) & 0x7 ) | ( ( ( unsigned int ) t - > tm_hour ) < < 3 ) ) ;
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ret = ( ( ret & 0xFF ) < < 8 ) | ( ( t - > tm_sec / 2 ) | ( ( t - > tm_min & 0x7 ) < < 5 ) ) ;
return ret ;
}
/*******************************************************************
create a 32 bit dos packed date / time from some parameters
This takes a GMT time and returns a packed localtime structure
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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static uint32_t make_dos_date ( time_t unixdate , int zone_offset )
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{
struct tm * t ;
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uint32_t ret = 0 ;
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if ( unixdate = = 0 ) {
return 0 ;
}
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unixdate - = zone_offset ;
t = gmtime ( & unixdate ) ;
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if ( ! t ) {
return 0xFFFFFFFF ;
}
ret = make_dos_date1 ( t ) ;
ret = ( ( ret & 0xFFFF ) < < 16 ) | make_dos_time1 ( t ) ;
return ret ;
}
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/**
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put a dos date into a buffer ( time / date format )
This takes GMT time and puts local time in the buffer
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* */
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_PUBLIC_ void push_dos_date ( uint8_t * buf , int offset , time_t unixdate , int zone_offset )
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{
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uint32_t x = make_dos_date ( unixdate , zone_offset ) ;
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SIVAL ( buf , offset , x ) ;
}
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/**
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put a dos date into a buffer ( date / time format )
This takes GMT time and puts local time in the buffer
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* */
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_PUBLIC_ void push_dos_date2 ( uint8_t * buf , int offset , time_t unixdate , int zone_offset )
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{
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uint32_t x ;
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x = make_dos_date ( unixdate , zone_offset ) ;
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x = ( ( x & 0xFFFF ) < < 16 ) | ( ( x & 0xFFFF0000 ) > > 16 ) ;
SIVAL ( buf , offset , x ) ;
}
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/**
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put a dos 32 bit " unix like " date into a buffer . This routine takes
GMT and converts it to LOCAL time before putting it ( most SMBs assume
localtime for this sort of date )
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* */
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_PUBLIC_ void push_dos_date3 ( uint8_t * buf , int offset , time_t unixdate , int zone_offset )
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{
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if ( ! null_time ( unixdate ) ) {
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unixdate - = zone_offset ;
}
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SIVAL ( buf , offset , unixdate ) ;
}
/*******************************************************************
interpret a 32 bit dos packed date / time to some parameters
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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void interpret_dos_date ( uint32_t date , int * year , int * month , int * day , int * hour , int * minute , int * second )
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{
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uint32_t p0 , p1 , p2 , p3 ;
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p0 = date & 0xFF ; p1 = ( ( date & 0xFF00 ) > > 8 ) & 0xFF ;
p2 = ( ( date & 0xFF0000 ) > > 16 ) & 0xFF ; p3 = ( ( date & 0xFF000000 ) > > 24 ) & 0xFF ;
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* second = 2 * ( p0 & 0x1F ) ;
* minute = ( ( p0 > > 5 ) & 0xFF ) + ( ( p1 & 0x7 ) < < 3 ) ;
* hour = ( p1 > > 3 ) & 0xFF ;
* day = ( p2 & 0x1F ) ;
* month = ( ( p2 > > 5 ) & 0xFF ) + ( ( p3 & 0x1 ) < < 3 ) - 1 ;
* year = ( ( p3 > > 1 ) & 0xFF ) + 80 ;
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}
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/**
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create a unix date ( int GMT ) from a dos date ( which is actually in
localtime )
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* */
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_PUBLIC_ time_t pull_dos_date ( const uint8_t * date_ptr , int zone_offset )
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{
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uint32_t dos_date = 0 ;
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struct tm t ;
time_t ret ;
dos_date = IVAL ( date_ptr , 0 ) ;
if ( dos_date = = 0 ) return ( time_t ) 0 ;
interpret_dos_date ( dos_date , & t . tm_year , & t . tm_mon ,
& t . tm_mday , & t . tm_hour , & t . tm_min , & t . tm_sec ) ;
t . tm_isdst = - 1 ;
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ret = timegm ( & t ) ;
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ret + = zone_offset ;
return ret ;
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}
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/**
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like make_unix_date ( ) but the words are reversed
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* */
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_PUBLIC_ time_t pull_dos_date2 ( const uint8_t * date_ptr , int zone_offset )
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{
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uint32_t x , x2 ;
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x = IVAL ( date_ptr , 0 ) ;
x2 = ( ( x & 0xFFFF ) < < 16 ) | ( ( x & 0xFFFF0000 ) > > 16 ) ;
SIVAL ( & x , 0 , x2 ) ;
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return pull_dos_date ( ( const uint8_t * ) & x , zone_offset ) ;
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}
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/**
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create a unix GMT date from a dos date in 32 bit " unix like " format
these generally arrive as localtimes , with corresponding DST
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* */
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_PUBLIC_ time_t pull_dos_date3 ( const uint8_t * date_ptr , int zone_offset )
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{
time_t t = ( time_t ) IVAL ( date_ptr , 0 ) ;
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if ( ! null_time ( t ) ) {
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t + = zone_offset ;
}
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return t ;
}
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/**
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return a HTTP / 1.0 time string
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* */
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_PUBLIC_ char * http_timestring ( TALLOC_CTX * mem_ctx , time_t t )
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{
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char * buf ;
char tempTime [ 60 ] ;
struct tm * tm = localtime ( & t ) ;
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if ( t = = TIME_T_MAX ) {
return talloc_strdup ( mem_ctx , " never " ) ;
}
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if ( ! tm ) {
return talloc_asprintf ( mem_ctx , " %ld seconds since the Epoch " , ( long ) t ) ;
}
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# ifndef HAVE_STRFTIME
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buf = talloc_strdup ( mem_ctx , asctime ( tm ) ) ;
if ( buf [ strlen ( buf ) - 1 ] = = ' \n ' ) {
buf [ strlen ( buf ) - 1 ] = 0 ;
}
# else
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strftime ( tempTime , sizeof ( tempTime ) - 1 , " %a, %d %b %Y %H:%M:%S %Z " , tm ) ;
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buf = talloc_strdup ( mem_ctx , tempTime ) ;
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# endif /* !HAVE_STRFTIME */
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return buf ;
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}
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/**
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Return the date and time as a string
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* */
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_PUBLIC_ char * timestring ( TALLOC_CTX * mem_ctx , time_t t )
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{
char * TimeBuf ;
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char tempTime [ 80 ] ;
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struct tm * tm ;
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tm = localtime ( & t ) ;
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if ( ! tm ) {
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return talloc_asprintf ( mem_ctx ,
" %ld seconds since the Epoch " ,
( long ) t ) ;
}
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# ifdef HAVE_STRFTIME
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/* some versions of gcc complain about using %c. This is a bug
in the gcc warning , not a bug in this code . See a recent
strftime ( ) manual page for details .
*/
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strftime ( tempTime , sizeof ( tempTime ) - 1 , " %c %Z " , tm ) ;
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TimeBuf = talloc_strdup ( mem_ctx , tempTime ) ;
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# else
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TimeBuf = talloc_strdup ( mem_ctx , asctime ( tm ) ) ;
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# endif
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return TimeBuf ;
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}
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/**
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return a talloced string representing a NTTIME for human consumption
*/
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_PUBLIC_ const char * nt_time_string ( TALLOC_CTX * mem_ctx , NTTIME nt )
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{
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time_t t ;
if ( nt = = 0 ) {
return " NTTIME(0) " ;
}
t = nt_time_to_unix ( nt ) ;
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return timestring ( mem_ctx , t ) ;
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}
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/**
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put a NTTIME into a packet
*/
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_PUBLIC_ void push_nttime ( uint8_t * base , uint16_t offset , NTTIME t )
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{
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SBVAL ( base , offset , t ) ;
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}
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/**
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pull a NTTIME from a packet
*/
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_PUBLIC_ NTTIME pull_nttime ( uint8_t * base , uint16_t offset )
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{
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NTTIME ret = BVAL ( base , offset ) ;
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return ret ;
}
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/**
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return ( tv1 - tv2 ) in microseconds
*/
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_PUBLIC_ int64_t usec_time_diff ( const struct timeval * tv1 , const struct timeval * tv2 )
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{
int64_t sec_diff = tv1 - > tv_sec - tv2 - > tv_sec ;
return ( sec_diff * 1000000 ) + ( int64_t ) ( tv1 - > tv_usec - tv2 - > tv_usec ) ;
}
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/**
return ( tp1 - tp2 ) in microseconds
*/
_PUBLIC_ int64_t nsec_time_diff ( const struct timespec * tp1 , const struct timespec * tp2 )
{
int64_t sec_diff = tp1 - > tv_sec - tp2 - > tv_sec ;
return ( sec_diff * 1000000000 ) + ( int64_t ) ( tp1 - > tv_nsec - tp2 - > tv_nsec ) ;
}
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/**
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return a zero timeval
*/
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_PUBLIC_ struct timeval timeval_zero ( void )
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{
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struct timeval tv ;
tv . tv_sec = 0 ;
tv . tv_usec = 0 ;
return tv ;
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}
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/**
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return true if a timeval is zero
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*/
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_PUBLIC_ bool timeval_is_zero ( const struct timeval * tv )
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{
return tv - > tv_sec = = 0 & & tv - > tv_usec = = 0 ;
}
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/**
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return a timeval for the current time
*/
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_PUBLIC_ struct timeval timeval_current ( void )
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{
struct timeval tv ;
GetTimeOfDay ( & tv ) ;
return tv ;
}
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/**
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return a timeval struct with the given elements
*/
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_PUBLIC_ struct timeval timeval_set ( uint32_t secs , uint32_t usecs )
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{
struct timeval tv ;
tv . tv_sec = secs ;
tv . tv_usec = usecs ;
return tv ;
}
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/**
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return a timeval ofs microseconds after tv
*/
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_PUBLIC_ struct timeval timeval_add ( const struct timeval * tv ,
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uint32_t secs , uint32_t usecs )
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{
struct timeval tv2 = * tv ;
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const unsigned int million = 1000000 ;
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tv2 . tv_sec + = secs ;
tv2 . tv_usec + = usecs ;
tv2 . tv_sec + = tv2 . tv_usec / million ;
tv2 . tv_usec = tv2 . tv_usec % million ;
return tv2 ;
}
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/**
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return the sum of two timeval structures
*/
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struct timeval timeval_sum ( const struct timeval * tv1 ,
const struct timeval * tv2 )
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{
return timeval_add ( tv1 , tv2 - > tv_sec , tv2 - > tv_usec ) ;
}
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/**
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return a timeval secs / usecs into the future
*/
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_PUBLIC_ struct timeval timeval_current_ofs ( uint32_t secs , uint32_t usecs )
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{
struct timeval tv = timeval_current ( ) ;
return timeval_add ( & tv , secs , usecs ) ;
}
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/**
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compare two timeval structures .
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Return - 1 if tv1 < tv2
Return 0 if tv1 = = tv2
Return 1 if tv1 > tv2
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*/
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_PUBLIC_ int timeval_compare ( const struct timeval * tv1 , const struct timeval * tv2 )
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{
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if ( tv1 - > tv_sec > tv2 - > tv_sec ) return 1 ;
if ( tv1 - > tv_sec < tv2 - > tv_sec ) return - 1 ;
if ( tv1 - > tv_usec > tv2 - > tv_usec ) return 1 ;
if ( tv1 - > tv_usec < tv2 - > tv_usec ) return - 1 ;
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return 0 ;
}
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/**
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return true if a timer is in the past
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*/
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_PUBLIC_ bool timeval_expired ( const struct timeval * tv )
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{
struct timeval tv2 = timeval_current ( ) ;
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if ( tv2 . tv_sec > tv - > tv_sec ) return true ;
if ( tv2 . tv_sec < tv - > tv_sec ) return false ;
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return ( tv2 . tv_usec > = tv - > tv_usec ) ;
}
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/**
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return the number of seconds elapsed between two times
*/
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_PUBLIC_ double timeval_elapsed2 ( const struct timeval * tv1 , const struct timeval * tv2 )
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{
return ( tv2 - > tv_sec - tv1 - > tv_sec ) +
( tv2 - > tv_usec - tv1 - > tv_usec ) * 1.0e-6 ;
}
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/**
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return the number of seconds elapsed since a given time
*/
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_PUBLIC_ double timeval_elapsed ( const struct timeval * tv )
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{
struct timeval tv2 = timeval_current ( ) ;
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return timeval_elapsed2 ( tv , & tv2 ) ;
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}
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/**
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return the lesser of two timevals
*/
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_PUBLIC_ struct timeval timeval_min ( const struct timeval * tv1 ,
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const struct timeval * tv2 )
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{
if ( tv1 - > tv_sec < tv2 - > tv_sec ) return * tv1 ;
if ( tv1 - > tv_sec > tv2 - > tv_sec ) return * tv2 ;
if ( tv1 - > tv_usec < tv2 - > tv_usec ) return * tv1 ;
return * tv2 ;
}
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/**
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return the greater of two timevals
*/
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_PUBLIC_ struct timeval timeval_max ( const struct timeval * tv1 ,
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const struct timeval * tv2 )
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{
if ( tv1 - > tv_sec > tv2 - > tv_sec ) return * tv1 ;
if ( tv1 - > tv_sec < tv2 - > tv_sec ) return * tv2 ;
if ( tv1 - > tv_usec > tv2 - > tv_usec ) return * tv1 ;
return * tv2 ;
}
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/**
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return the difference between two timevals as a timeval
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if tv1 comes after tv2 , then return a zero timeval
( this is * tv2 - * tv1 )
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*/
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_PUBLIC_ struct timeval timeval_until ( const struct timeval * tv1 ,
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const struct timeval * tv2 )
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{
struct timeval t ;
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if ( timeval_compare ( tv1 , tv2 ) > = 0 ) {
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return timeval_zero ( ) ;
}
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t . tv_sec = tv2 - > tv_sec - tv1 - > tv_sec ;
if ( tv1 - > tv_usec > tv2 - > tv_usec ) {
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t . tv_sec - - ;
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t . tv_usec = 1000000 - ( tv1 - > tv_usec - tv2 - > tv_usec ) ;
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} else {
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t . tv_usec = tv2 - > tv_usec - tv1 - > tv_usec ;
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}
return t ;
}
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/**
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convert a timeval to a NTTIME
*/
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_PUBLIC_ NTTIME timeval_to_nttime ( const struct timeval * tv )
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{
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return 10 * ( tv - > tv_usec +
( ( TIME_FIXUP_CONSTANT + ( uint64_t ) tv - > tv_sec ) * 1000000 ) ) ;
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}
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/**
convert a NTTIME to a timeval
*/
_PUBLIC_ void nttime_to_timeval ( struct timeval * tv , NTTIME t )
{
if ( tv = = NULL ) return ;
t + = 10 / 2 ;
t / = 10 ;
t - = TIME_FIXUP_CONSTANT * 1000 * 1000 ;
tv - > tv_sec = t / 1000000 ;
if ( TIME_T_MIN > tv - > tv_sec | | tv - > tv_sec > TIME_T_MAX ) {
tv - > tv_sec = 0 ;
tv - > tv_usec = 0 ;
return ;
}
tv - > tv_usec = t - tv - > tv_sec * 1000000 ;
}
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/*******************************************************************
yield the difference between * A and * B , in seconds , ignoring leap seconds
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
static int tm_diff ( struct tm * a , struct tm * b )
{
int ay = a - > tm_year + ( 1900 - 1 ) ;
int by = b - > tm_year + ( 1900 - 1 ) ;
int intervening_leap_days =
( ay / 4 - by / 4 ) - ( ay / 100 - by / 100 ) + ( ay / 400 - by / 400 ) ;
int years = ay - by ;
int days = 365 * years + intervening_leap_days + ( a - > tm_yday - b - > tm_yday ) ;
int hours = 24 * days + ( a - > tm_hour - b - > tm_hour ) ;
int minutes = 60 * hours + ( a - > tm_min - b - > tm_min ) ;
int seconds = 60 * minutes + ( a - > tm_sec - b - > tm_sec ) ;
return seconds ;
}
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int extra_time_offset = 0 ;
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/**
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return the UTC offset in seconds west of UTC , or 0 if it cannot be determined
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*/
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_PUBLIC_ int get_time_zone ( time_t t )
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{
struct tm * tm = gmtime ( & t ) ;
struct tm tm_utc ;
if ( ! tm )
return 0 ;
tm_utc = * tm ;
tm = localtime ( & t ) ;
if ( ! tm )
return 0 ;
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return tm_diff ( & tm_utc , tm ) + 60 * extra_time_offset ;
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}
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struct timespec nt_time_to_unix_timespec ( NTTIME * nt )
{
int64_t d ;
struct timespec ret ;
if ( * nt = = 0 | | * nt = = ( int64_t ) - 1 ) {
ret . tv_sec = 0 ;
ret . tv_nsec = 0 ;
return ret ;
}
d = ( int64_t ) * nt ;
/* d is now in 100ns units, since jan 1st 1601".
Save off the ns fraction . */
/*
* Take the last seven decimal digits and multiply by 100.
* to convert from 100 ns units to 1 ns units .
*/
ret . tv_nsec = ( long ) ( ( d % ( 1000 * 1000 * 10 ) ) * 100 ) ;
/* Convert to seconds */
d / = 1000 * 1000 * 10 ;
/* Now adjust by 369 years to make the secs since 1970 */
d - = TIME_FIXUP_CONSTANT_INT ;
if ( d < = ( int64_t ) TIME_T_MIN ) {
ret . tv_sec = TIME_T_MIN ;
ret . tv_nsec = 0 ;
return ret ;
}
if ( d > = ( int64_t ) TIME_T_MAX ) {
ret . tv_sec = TIME_T_MAX ;
ret . tv_nsec = 0 ;
return ret ;
}
ret . tv_sec = ( time_t ) d ;
return ret ;
}
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/**
check if 2 NTTIMEs are equal .
*/
bool nt_time_equal ( NTTIME * t1 , NTTIME * t2 )
{
return * t1 = = * t2 ;
}
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/**
Check if it ' s a null timespec .
* */
bool null_timespec ( struct timespec ts )
{
return ts . tv_sec = = 0 | |
ts . tv_sec = = ( time_t ) 0xFFFFFFFF | |
ts . tv_sec = = ( time_t ) - 1 ;
}