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421f5b5882
Also move human_time() to standard.c since it's not related to timeval calculations.
552 lines
18 KiB
C
552 lines
18 KiB
C
/*
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* include/common/time.h
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* Time calculation functions and macros.
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*
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* Copyright (C) 2000-2011 Willy Tarreau - w@1wt.eu
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation, version 2.1
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* exclusively.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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#ifndef _COMMON_TIME_H
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#define _COMMON_TIME_H
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#include <stdlib.h>
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#include <sys/time.h>
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#include <common/config.h>
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#include <common/standard.h>
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/* eternity when exprimed in timeval */
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#ifndef TV_ETERNITY
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#define TV_ETERNITY (~0UL)
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#endif
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/* eternity when exprimed in ms */
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#ifndef TV_ETERNITY_MS
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#define TV_ETERNITY_MS (-1)
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#endif
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#define TIME_ETERNITY (TV_ETERNITY_MS)
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/* we want to be able to detect time jumps. Fix the maximum wait time to a low
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* value so that we know the time has changed if we wait longer.
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*/
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#define MAX_DELAY_MS 1000
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/* returns the lowest delay amongst <old> and <new>, and respects TIME_ETERNITY */
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#define MINTIME(old, new) (((new)<0)?(old):(((old)<0||(new)<(old))?(new):(old)))
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#define SETNOW(a) (*a=now)
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extern unsigned int curr_sec_ms; /* millisecond of current second (0..999) */
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extern unsigned int curr_sec_ms_scaled; /* millisecond of current second (0..2^32-1) */
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extern unsigned int now_ms; /* internal date in milliseconds (may wrap) */
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extern unsigned int samp_time; /* total elapsed time over current sample */
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extern unsigned int idle_time; /* total idle time over current sample */
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extern unsigned int idle_pct; /* idle to total ratio over last sample (percent) */
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extern struct timeval now; /* internal date is a monotonic function of real clock */
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extern struct timeval date; /* the real current date */
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extern struct timeval start_date; /* the process's start date */
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extern struct timeval before_poll; /* system date before calling poll() */
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extern struct timeval after_poll; /* system date after leaving poll() */
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/**** exported functions *************************************************/
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/*
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* adds <ms> ms to <from>, set the result to <tv> and returns a pointer <tv>
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*/
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REGPRM3 struct timeval *tv_ms_add(struct timeval *tv, const struct timeval *from, int ms);
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/*
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* compares <tv1> and <tv2> modulo 1ms: returns 0 if equal, -1 if tv1 < tv2, 1 if tv1 > tv2
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* Must not be used when either argument is eternity. Use tv_ms_cmp2() for that.
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*/
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REGPRM2 int tv_ms_cmp(const struct timeval *tv1, const struct timeval *tv2);
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/*
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* compares <tv1> and <tv2> modulo 1 ms: returns 0 if equal, -1 if tv1 < tv2, 1 if tv1 > tv2,
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* assuming that TV_ETERNITY is greater than everything.
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*/
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REGPRM2 int tv_ms_cmp2(const struct timeval *tv1, const struct timeval *tv2);
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/**** general purpose functions and macros *******************************/
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/* tv_now: sets <tv> to the current time */
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REGPRM1 static inline struct timeval *tv_now(struct timeval *tv)
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{
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gettimeofday(tv, NULL);
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return tv;
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}
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/* tv_udpate_date: sets <date> to system time, and sets <now> to something as
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* close as possible to real time, following a monotonic function. The main
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* principle consists in detecting backwards and forwards time jumps and adjust
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* an offset to correct them. This function should be called only once after
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* each poll. The poll's timeout should be passed in <max_wait>, and the return
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* value in <interrupted> (a non-zero value means that we have not expired the
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* timeout).
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*/
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REGPRM2 void tv_update_date(int max_wait, int interrupted);
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/*
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* sets a struct timeval to its highest value so that it can never happen
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* note that only tv_usec is necessary to detect it since a tv_usec > 999999
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* is normally not possible.
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*/
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REGPRM1 static inline struct timeval *tv_eternity(struct timeval *tv)
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{
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tv->tv_sec = tv->tv_usec = TV_ETERNITY;
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return tv;
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}
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/*
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* sets a struct timeval to 0
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*
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*/
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REGPRM1 static inline struct timeval *tv_zero(struct timeval *tv) {
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tv->tv_sec = tv->tv_usec = 0;
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return tv;
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}
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/*
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* returns non null if tv is [eternity], otherwise 0.
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*/
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#define tv_iseternity(tv) ((tv)->tv_usec == TV_ETERNITY)
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/*
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* returns 0 if tv is [eternity], otherwise non-zero.
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*/
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#define tv_isset(tv) ((tv)->tv_usec != TV_ETERNITY)
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/*
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* returns non null if tv is [0], otherwise 0.
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*/
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#define tv_iszero(tv) (((tv)->tv_sec | (tv)->tv_usec) == 0)
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/*
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* Converts a struct timeval to a number of milliseconds.
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*/
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REGPRM1 static inline unsigned long __tv_to_ms(const struct timeval *tv)
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{
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unsigned long ret;
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ret = tv->tv_sec * 1000;
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ret += tv->tv_usec / 1000;
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return ret;
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}
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/*
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* Converts a struct timeval to a number of milliseconds.
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*/
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REGPRM2 static inline struct timeval * __tv_from_ms(struct timeval *tv, unsigned long ms)
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{
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tv->tv_sec = ms / 1000;
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tv->tv_usec = (ms % 1000) * 1000;
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return tv;
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}
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/* Return a number of 1024Hz ticks between 0 and 1023 for input number of
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* usecs between 0 and 999999. This function has been optimized to remove
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* any divide and multiply, as it is completely optimized away by the compiler
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* on CPUs which don't have a fast multiply. Its avg error rate is 305 ppm,
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* which is almost twice as low as a direct usec to ms conversion. This version
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* also has the benefit of returning 1024 for 1000000.
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*/
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REGPRM1 static inline unsigned int __usec_to_1024th(unsigned int usec)
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{
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return (usec * 1073 + 742516) >> 20;
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}
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/**** comparison functions and macros ***********************************/
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/* tv_cmp: compares <tv1> and <tv2> : returns 0 if equal, -1 if tv1 < tv2, 1 if tv1 > tv2. */
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REGPRM2 static inline int __tv_cmp(const struct timeval *tv1, const struct timeval *tv2)
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{
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if ((unsigned)tv1->tv_sec < (unsigned)tv2->tv_sec)
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return -1;
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else if ((unsigned)tv1->tv_sec > (unsigned)tv2->tv_sec)
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return 1;
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else if ((unsigned)tv1->tv_usec < (unsigned)tv2->tv_usec)
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return -1;
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else if ((unsigned)tv1->tv_usec > (unsigned)tv2->tv_usec)
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return 1;
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else
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return 0;
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}
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/* tv_iseq: compares <tv1> and <tv2> : returns 1 if tv1 == tv2, otherwise 0 */
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#define tv_iseq __tv_iseq
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REGPRM2 static inline int __tv_iseq(const struct timeval *tv1, const struct timeval *tv2)
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{
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return ((unsigned)tv1->tv_sec == (unsigned)tv2->tv_sec) &&
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((unsigned)tv1->tv_usec == (unsigned)tv2->tv_usec);
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}
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/* tv_isgt: compares <tv1> and <tv2> : returns 1 if tv1 > tv2, otherwise 0 */
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#define tv_isgt _tv_isgt
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REGPRM2 int _tv_isgt(const struct timeval *tv1, const struct timeval *tv2);
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REGPRM2 static inline int __tv_isgt(const struct timeval *tv1, const struct timeval *tv2)
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{
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return
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((unsigned)tv1->tv_sec == (unsigned)tv2->tv_sec) ?
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((unsigned)tv1->tv_usec > (unsigned)tv2->tv_usec) :
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((unsigned)tv1->tv_sec > (unsigned)tv2->tv_sec);
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}
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/* tv_isge: compares <tv1> and <tv2> : returns 1 if tv1 >= tv2, otherwise 0 */
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#define tv_isge __tv_isge
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REGPRM2 static inline int __tv_isge(const struct timeval *tv1, const struct timeval *tv2)
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{
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return
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((unsigned)tv1->tv_sec == (unsigned)tv2->tv_sec) ?
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((unsigned)tv1->tv_usec >= (unsigned)tv2->tv_usec) :
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((unsigned)tv1->tv_sec > (unsigned)tv2->tv_sec);
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}
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/* tv_islt: compares <tv1> and <tv2> : returns 1 if tv1 < tv2, otherwise 0 */
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#define tv_islt __tv_islt
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REGPRM2 static inline int __tv_islt(const struct timeval *tv1, const struct timeval *tv2)
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{
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return
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((unsigned)tv1->tv_sec == (unsigned)tv2->tv_sec) ?
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((unsigned)tv1->tv_usec < (unsigned)tv2->tv_usec) :
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((unsigned)tv1->tv_sec < (unsigned)tv2->tv_sec);
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}
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/* tv_isle: compares <tv1> and <tv2> : returns 1 if tv1 <= tv2, otherwise 0 */
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#define tv_isle _tv_isle
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REGPRM2 int _tv_isle(const struct timeval *tv1, const struct timeval *tv2);
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REGPRM2 static inline int __tv_isle(const struct timeval *tv1, const struct timeval *tv2)
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{
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return
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((unsigned)tv1->tv_sec == (unsigned)tv2->tv_sec) ?
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((unsigned)tv1->tv_usec <= (unsigned)tv2->tv_usec) :
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((unsigned)tv1->tv_sec < (unsigned)tv2->tv_sec);
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}
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/*
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* compares <tv1> and <tv2> modulo 1ms: returns 0 if equal, -1 if tv1 < tv2, 1 if tv1 > tv2
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* Must not be used when either argument is eternity. Use tv_ms_cmp2() for that.
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*/
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#define tv_ms_cmp _tv_ms_cmp
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REGPRM2 int _tv_ms_cmp(const struct timeval *tv1, const struct timeval *tv2);
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REGPRM2 static inline int __tv_ms_cmp(const struct timeval *tv1, const struct timeval *tv2)
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{
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if ((unsigned)tv1->tv_sec == (unsigned)tv2->tv_sec) {
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if ((unsigned)tv2->tv_usec >= (unsigned)tv1->tv_usec + 1000)
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return -1;
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else if ((unsigned)tv1->tv_usec >= (unsigned)tv2->tv_usec + 1000)
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return 1;
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else
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return 0;
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}
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else if (((unsigned)tv2->tv_sec > (unsigned)tv1->tv_sec + 1) ||
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(((unsigned)tv2->tv_sec == (unsigned)tv1->tv_sec + 1) &&
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((unsigned)tv2->tv_usec + 1000000 >= (unsigned)tv1->tv_usec + 1000)))
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return -1;
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else if (((unsigned)tv1->tv_sec > (unsigned)tv2->tv_sec + 1) ||
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(((unsigned)tv1->tv_sec == (unsigned)tv2->tv_sec + 1) &&
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((unsigned)tv1->tv_usec + 1000000 >= (unsigned)tv2->tv_usec + 1000)))
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return 1;
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else
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return 0;
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}
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/*
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* compares <tv1> and <tv2> modulo 1 ms: returns 0 if equal, -1 if tv1 < tv2, 1 if tv1 > tv2,
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* assuming that TV_ETERNITY is greater than everything.
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*/
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#define tv_ms_cmp2 _tv_ms_cmp2
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REGPRM2 int _tv_ms_cmp2(const struct timeval *tv1, const struct timeval *tv2);
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REGPRM2 static inline int __tv_ms_cmp2(const struct timeval *tv1, const struct timeval *tv2)
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{
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if (tv_iseternity(tv1))
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if (tv_iseternity(tv2))
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return 0; /* same */
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else
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return 1; /* tv1 later than tv2 */
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else if (tv_iseternity(tv2))
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return -1; /* tv2 later than tv1 */
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return tv_ms_cmp(tv1, tv2);
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}
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/*
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* compares <tv1> and <tv2> modulo 1 ms: returns 1 if tv1 <= tv2, 0 if tv1 > tv2,
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* assuming that TV_ETERNITY is greater than everything. Returns 0 if tv1 is
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* TV_ETERNITY, and always assumes that tv2 != TV_ETERNITY. Designed to replace
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* occurrences of (tv_ms_cmp2(tv,now) <= 0).
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*/
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#define tv_ms_le2 _tv_ms_le2
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REGPRM2 int _tv_ms_le2(const struct timeval *tv1, const struct timeval *tv2);
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REGPRM2 static inline int __tv_ms_le2(const struct timeval *tv1, const struct timeval *tv2)
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{
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if (likely((unsigned)tv1->tv_sec > (unsigned)tv2->tv_sec + 1))
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return 0;
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if (likely((unsigned)tv1->tv_sec < (unsigned)tv2->tv_sec))
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return 1;
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if (likely((unsigned)tv1->tv_sec == (unsigned)tv2->tv_sec)) {
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if ((unsigned)tv2->tv_usec >= (unsigned)tv1->tv_usec + 1000)
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return 1;
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else
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return 0;
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}
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if (unlikely(((unsigned)tv1->tv_sec == (unsigned)tv2->tv_sec + 1) &&
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((unsigned)tv1->tv_usec + 1000000 >= (unsigned)tv2->tv_usec + 1000)))
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return 0;
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else
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return 1;
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}
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/**** operators **********************************************************/
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/*
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* Returns the time in ms elapsed between tv1 and tv2, assuming that tv1<=tv2.
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* Must not be used when either argument is eternity.
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*/
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#define tv_ms_elapsed __tv_ms_elapsed
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REGPRM2 unsigned long _tv_ms_elapsed(const struct timeval *tv1, const struct timeval *tv2);
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REGPRM2 static inline unsigned long __tv_ms_elapsed(const struct timeval *tv1, const struct timeval *tv2)
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{
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unsigned long ret;
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ret = ((signed long)(tv2->tv_sec - tv1->tv_sec)) * 1000;
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ret += ((signed long)(tv2->tv_usec - tv1->tv_usec)) / 1000;
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return ret;
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}
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/*
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* returns the remaining time between tv1=now and event=tv2
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* if tv2 is passed, 0 is returned.
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* Must not be used when either argument is eternity.
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*/
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#define tv_ms_remain __tv_ms_remain
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REGPRM2 unsigned long _tv_ms_remain(const struct timeval *tv1, const struct timeval *tv2);
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REGPRM2 static inline unsigned long __tv_ms_remain(const struct timeval *tv1, const struct timeval *tv2)
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{
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if (tv_ms_cmp(tv1, tv2) >= 0)
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return 0; /* event elapsed */
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return __tv_ms_elapsed(tv1, tv2);
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}
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/*
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* returns the remaining time between tv1=now and event=tv2
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* if tv2 is passed, 0 is returned.
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* Returns TIME_ETERNITY if tv2 is eternity.
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*/
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#define tv_ms_remain2 _tv_ms_remain2
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REGPRM2 unsigned long _tv_ms_remain2(const struct timeval *tv1, const struct timeval *tv2);
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REGPRM2 static inline unsigned long __tv_ms_remain2(const struct timeval *tv1, const struct timeval *tv2)
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{
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if (tv_iseternity(tv2))
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return TIME_ETERNITY;
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return tv_ms_remain(tv1, tv2);
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}
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/*
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* adds <inc> to <from>, set the result to <tv> and returns a pointer <tv>
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*/
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#define tv_add _tv_add
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REGPRM3 struct timeval *_tv_add(struct timeval *tv, const struct timeval *from, const struct timeval *inc);
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REGPRM3 static inline struct timeval *__tv_add(struct timeval *tv, const struct timeval *from, const struct timeval *inc)
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{
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tv->tv_usec = from->tv_usec + inc->tv_usec;
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tv->tv_sec = from->tv_sec + inc->tv_sec;
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if (tv->tv_usec >= 1000000) {
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tv->tv_usec -= 1000000;
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tv->tv_sec++;
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}
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return tv;
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}
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/*
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* If <inc> is set, then add it to <from> and set the result to <tv>, then
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* return 1, otherwise return 0. It is meant to be used in if conditions.
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*/
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#define tv_add_ifset _tv_add_ifset
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REGPRM3 int _tv_add_ifset(struct timeval *tv, const struct timeval *from, const struct timeval *inc);
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REGPRM3 static inline int __tv_add_ifset(struct timeval *tv, const struct timeval *from, const struct timeval *inc)
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{
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if (tv_iseternity(inc))
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return 0;
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tv->tv_usec = from->tv_usec + inc->tv_usec;
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tv->tv_sec = from->tv_sec + inc->tv_sec;
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if (tv->tv_usec >= 1000000) {
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tv->tv_usec -= 1000000;
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tv->tv_sec++;
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}
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return 1;
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}
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/*
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* adds <inc> to <tv> and returns a pointer <tv>
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*/
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REGPRM2 static inline struct timeval *__tv_add2(struct timeval *tv, const struct timeval *inc)
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{
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tv->tv_usec += inc->tv_usec;
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tv->tv_sec += inc->tv_sec;
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if (tv->tv_usec >= 1000000) {
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tv->tv_usec -= 1000000;
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tv->tv_sec++;
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}
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return tv;
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}
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/*
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* Computes the remaining time between tv1=now and event=tv2. if tv2 is passed,
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* 0 is returned. The result is stored into tv.
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*/
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#define tv_remain _tv_remain
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REGPRM3 struct timeval *_tv_remain(const struct timeval *tv1, const struct timeval *tv2, struct timeval *tv);
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REGPRM3 static inline struct timeval *__tv_remain(const struct timeval *tv1, const struct timeval *tv2, struct timeval *tv)
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{
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tv->tv_usec = tv2->tv_usec - tv1->tv_usec;
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tv->tv_sec = tv2->tv_sec - tv1->tv_sec;
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if ((signed)tv->tv_sec > 0) {
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if ((signed)tv->tv_usec < 0) {
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tv->tv_usec += 1000000;
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tv->tv_sec--;
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}
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} else if (tv->tv_sec == 0) {
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if ((signed)tv->tv_usec < 0)
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tv->tv_usec = 0;
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} else {
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tv->tv_sec = 0;
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tv->tv_usec = 0;
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}
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return tv;
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}
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/*
|
|
* Computes the remaining time between tv1=now and event=tv2. if tv2 is passed,
|
|
* 0 is returned. The result is stored into tv. Returns ETERNITY if tv2 is
|
|
* eternity.
|
|
*/
|
|
#define tv_remain2 _tv_remain2
|
|
REGPRM3 struct timeval *_tv_remain2(const struct timeval *tv1, const struct timeval *tv2, struct timeval *tv);
|
|
REGPRM3 static inline struct timeval *__tv_remain2(const struct timeval *tv1, const struct timeval *tv2, struct timeval *tv)
|
|
{
|
|
if (tv_iseternity(tv2))
|
|
return tv_eternity(tv);
|
|
return __tv_remain(tv1, tv2, tv);
|
|
}
|
|
|
|
|
|
/*
|
|
* adds <ms> ms to <from>, set the result to <tv> and returns a pointer <tv>
|
|
*/
|
|
#define tv_ms_add _tv_ms_add
|
|
REGPRM3 struct timeval *_tv_ms_add(struct timeval *tv, const struct timeval *from, int ms);
|
|
REGPRM3 static inline struct timeval *__tv_ms_add(struct timeval *tv, const struct timeval *from, int ms)
|
|
{
|
|
tv->tv_usec = from->tv_usec + (ms % 1000) * 1000;
|
|
tv->tv_sec = from->tv_sec + (ms / 1000);
|
|
while (tv->tv_usec >= 1000000) {
|
|
tv->tv_usec -= 1000000;
|
|
tv->tv_sec++;
|
|
}
|
|
return tv;
|
|
}
|
|
|
|
|
|
/*
|
|
* compares <tv1> and <tv2> : returns 1 if <tv1> is before <tv2>, otherwise 0.
|
|
* This should be very fast because it's used in schedulers.
|
|
* It has been optimized to return 1 (so call it in a loop which continues
|
|
* as long as tv1<=tv2)
|
|
*/
|
|
|
|
#define tv_isbefore(tv1, tv2) \
|
|
(unlikely((unsigned)(tv1)->tv_sec < (unsigned)(tv2)->tv_sec) ? 1 : \
|
|
(unlikely((unsigned)(tv1)->tv_sec > (unsigned)(tv2)->tv_sec) ? 0 : \
|
|
unlikely((unsigned)(tv1)->tv_usec < (unsigned)(tv2)->tv_usec)))
|
|
|
|
/*
|
|
* returns the first event between <tv1> and <tv2> into <tvmin>.
|
|
* a zero tv is ignored. <tvmin> is returned. If <tvmin> is known
|
|
* to be the same as <tv1> or <tv2>, it is recommended to use
|
|
* tv_bound instead.
|
|
*/
|
|
#define tv_min(tvmin, tv1, tv2) ({ \
|
|
if (tv_isbefore(tv1, tv2)) { \
|
|
*tvmin = *tv1; \
|
|
} \
|
|
else { \
|
|
*tvmin = *tv2; \
|
|
} \
|
|
tvmin; \
|
|
})
|
|
|
|
/*
|
|
* returns the first event between <tv1> and <tv2> into <tvmin>.
|
|
* a zero tv is ignored. <tvmin> is returned. This function has been
|
|
* optimized to be called as tv_min(a,a,b) or tv_min(b,a,b).
|
|
*/
|
|
#define tv_bound(tv1, tv2) ({ \
|
|
if (tv_isbefore(tv2, tv1)) \
|
|
*tv1 = *tv2; \
|
|
tv1; \
|
|
})
|
|
|
|
/* Update the idle time value twice a second, to be called after
|
|
* tv_update_date() when called after poll(). It relies on <before_poll> to be
|
|
* updated to the system time before calling poll().
|
|
*/
|
|
static inline void measure_idle()
|
|
{
|
|
/* Let's compute the idle to work ratio. We worked between after_poll
|
|
* and before_poll, and slept between before_poll and date. The idle_pct
|
|
* is updated at most twice every second. Note that the current second
|
|
* rarely changes so we avoid a multiply when not needed.
|
|
*/
|
|
int delta;
|
|
|
|
if ((delta = date.tv_sec - before_poll.tv_sec))
|
|
delta *= 1000000;
|
|
idle_time += delta + (date.tv_usec - before_poll.tv_usec);
|
|
|
|
if ((delta = date.tv_sec - after_poll.tv_sec))
|
|
delta *= 1000000;
|
|
samp_time += delta + (date.tv_usec - after_poll.tv_usec);
|
|
|
|
after_poll.tv_sec = date.tv_sec; after_poll.tv_usec = date.tv_usec;
|
|
if (samp_time < 500000)
|
|
return;
|
|
|
|
idle_pct = (100 * idle_time + samp_time / 2) / samp_time;
|
|
idle_time = samp_time = 0;
|
|
}
|
|
|
|
#endif /* _COMMON_TIME_H */
|
|
|
|
/*
|
|
* Local variables:
|
|
* c-indent-level: 8
|
|
* c-basic-offset: 8
|
|
* End:
|
|
*/
|