2 * Copyright (c) 1982, 1986, 1993
3 * The Regents of the University of California. All rights reserved.
5 * Redistribution and use in source and binary forms, with or without
6 * modification, are permitted provided that the following conditions
8 * 1. Redistributions of source code must retain the above copyright
9 * notice, this list of conditions and the following disclaimer.
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12 * documentation and/or other materials provided with the distribution.
13 * 4. Neither the name of the University nor the names of its contributors
14 * may be used to endorse or promote products derived from this software
15 * without specific prior written permission.
17 * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
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19 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
20 * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
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23 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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29 * @(#)time.h 8.5 (Berkeley) 5/4/95
36 #include <sys/_timeval.h>
37 #include <sys/types.h>
38 #include <sys/timespec.h>
41 int tz_minuteswest; /* minutes west of Greenwich */
42 int tz_dsttime; /* type of dst correction */
44 #define DST_NONE 0 /* not on dst */
45 #define DST_USA 1 /* USA style dst */
46 #define DST_AUST 2 /* Australian style dst */
47 #define DST_WET 3 /* Western European dst */
48 #define DST_MET 4 /* Middle European dst */
49 #define DST_EET 5 /* Eastern European dst */
50 #define DST_CAN 6 /* Canada */
59 bintime_addx(struct bintime *_bt, uint64_t _x)
70 bintime_add(struct bintime *_bt, const struct bintime *_bt2)
75 _bt->frac += _bt2->frac;
78 _bt->sec += _bt2->sec;
82 bintime_sub(struct bintime *_bt, const struct bintime *_bt2)
87 _bt->frac -= _bt2->frac;
90 _bt->sec -= _bt2->sec;
94 bintime_mul(struct bintime *_bt, u_int _x)
98 _p1 = (_bt->frac & 0xffffffffull) * _x;
99 _p2 = (_bt->frac >> 32) * _x + (_p1 >> 32);
101 _bt->sec += (_p2 >> 32);
102 _bt->frac = (_p2 << 32) | (_p1 & 0xffffffffull);
106 bintime_shift(struct bintime *_bt, int _exp)
111 _bt->sec |= _bt->frac >> (64 - _exp);
113 } else if (_exp < 0) {
115 _bt->frac |= (uint64_t)_bt->sec << (64 + _exp);
120 #define bintime_clear(a) ((a)->sec = (a)->frac = 0)
121 #define bintime_isset(a) ((a)->sec || (a)->frac)
122 #define bintime_cmp(a, b, cmp) \
123 (((a)->sec == (b)->sec) ? \
124 ((a)->frac cmp (b)->frac) : \
125 ((a)->sec cmp (b)->sec))
127 #define SBT_1S ((sbintime_t)1 << 32)
128 #define SBT_1M (SBT_1S * 60)
129 #define SBT_1MS (SBT_1S / 1000)
130 #define SBT_1US (SBT_1S / 1000000)
131 #define SBT_1NS (SBT_1S / 1000000000) /* beware rounding, see nstosbt() */
132 #define SBT_MAX 0x7fffffffffffffffLL
135 sbintime_getsec(sbintime_t _sbt)
141 static __inline sbintime_t
142 bttosbt(const struct bintime _bt)
145 return (((sbintime_t)_bt.sec << 32) + (_bt.frac >> 32));
148 static __inline struct bintime
149 sbttobt(sbintime_t _sbt)
153 _bt.sec = _sbt >> 32;
154 _bt.frac = _sbt << 32;
159 * Decimal<->sbt conversions. Multiplying or dividing by SBT_1NS results in
160 * large roundoff errors which sbttons() and nstosbt() avoid. Millisecond and
161 * microsecond functions are also provided for completeness.
163 static __inline int64_t
164 sbttons(sbintime_t _sbt)
167 return ((1000000000 * _sbt) >> 32);
170 static __inline sbintime_t
174 return ((_ns * (((uint64_t)1 << 63) / 500000000)) >> 32);
177 static __inline int64_t
178 sbttous(sbintime_t _sbt)
181 return ((1000000 * _sbt) >> 32);
184 static __inline sbintime_t
188 return ((_us * (((uint64_t)1 << 63) / 500000)) >> 32);
191 static __inline int64_t
192 sbttoms(sbintime_t _sbt)
195 return ((1000 * _sbt) >> 32);
198 static __inline sbintime_t
202 return ((_ms * (((uint64_t)1 << 63) / 500)) >> 32);
206 * Background information:
208 * When converting between timestamps on parallel timescales of differing
209 * resolutions it is historical and scientific practice to round down rather
210 * than doing 4/5 rounding.
212 * The date changes at midnight, not at noon.
214 * Even at 15:59:59.999999999 it's not four'o'clock.
216 * time_second ticks after N.999999999 not after N.4999999999
220 bintime2timespec(const struct bintime *_bt, struct timespec *_ts)
223 _ts->tv_sec = _bt->sec;
224 _ts->tv_nsec = ((uint64_t)1000000000 *
225 (uint32_t)(_bt->frac >> 32)) >> 32;
229 timespec2bintime(const struct timespec *_ts, struct bintime *_bt)
232 _bt->sec = _ts->tv_sec;
233 /* 18446744073 = int(2^64 / 1000000000) */
234 _bt->frac = _ts->tv_nsec * (uint64_t)18446744073LL;
238 bintime2timeval(const struct bintime *_bt, struct timeval *_tv)
241 _tv->tv_sec = _bt->sec;
242 _tv->tv_usec = ((uint64_t)1000000 * (uint32_t)(_bt->frac >> 32)) >> 32;
246 timeval2bintime(const struct timeval *_tv, struct bintime *_bt)
249 _bt->sec = _tv->tv_sec;
250 /* 18446744073709 = int(2^64 / 1000000) */
251 _bt->frac = _tv->tv_usec * (uint64_t)18446744073709LL;
254 static __inline struct timespec
255 sbttots(sbintime_t _sbt)
259 _ts.tv_sec = _sbt >> 32;
260 _ts.tv_nsec = sbttons((uint32_t)_sbt);
264 static __inline sbintime_t
265 tstosbt(struct timespec _ts)
268 return (((sbintime_t)_ts.tv_sec << 32) + nstosbt(_ts.tv_nsec));
271 static __inline struct timeval
272 sbttotv(sbintime_t _sbt)
276 _tv.tv_sec = _sbt >> 32;
277 _tv.tv_usec = sbttous((uint32_t)_sbt);
281 static __inline sbintime_t
282 tvtosbt(struct timeval _tv)
285 return (((sbintime_t)_tv.tv_sec << 32) + ustosbt(_tv.tv_usec));
287 #endif /* __BSD_VISIBLE */
291 /* Operations on timespecs */
292 #define timespecclear(tvp) ((tvp)->tv_sec = (tvp)->tv_nsec = 0)
293 #define timespecisset(tvp) ((tvp)->tv_sec || (tvp)->tv_nsec)
294 #define timespeccmp(tvp, uvp, cmp) \
295 (((tvp)->tv_sec == (uvp)->tv_sec) ? \
296 ((tvp)->tv_nsec cmp (uvp)->tv_nsec) : \
297 ((tvp)->tv_sec cmp (uvp)->tv_sec))
298 #define timespecadd(vvp, uvp) \
300 (vvp)->tv_sec += (uvp)->tv_sec; \
301 (vvp)->tv_nsec += (uvp)->tv_nsec; \
302 if ((vvp)->tv_nsec >= 1000000000) { \
304 (vvp)->tv_nsec -= 1000000000; \
307 #define timespecsub(vvp, uvp) \
309 (vvp)->tv_sec -= (uvp)->tv_sec; \
310 (vvp)->tv_nsec -= (uvp)->tv_nsec; \
311 if ((vvp)->tv_nsec < 0) { \
313 (vvp)->tv_nsec += 1000000000; \
317 /* Operations on timevals. */
319 #define timevalclear(tvp) ((tvp)->tv_sec = (tvp)->tv_usec = 0)
320 #define timevalisset(tvp) ((tvp)->tv_sec || (tvp)->tv_usec)
321 #define timevalcmp(tvp, uvp, cmp) \
322 (((tvp)->tv_sec == (uvp)->tv_sec) ? \
323 ((tvp)->tv_usec cmp (uvp)->tv_usec) : \
324 ((tvp)->tv_sec cmp (uvp)->tv_sec))
326 /* timevaladd and timevalsub are not inlined */
330 #ifndef _KERNEL /* NetBSD/OpenBSD compatible interfaces */
332 #define timerclear(tvp) ((tvp)->tv_sec = (tvp)->tv_usec = 0)
333 #define timerisset(tvp) ((tvp)->tv_sec || (tvp)->tv_usec)
334 #define timercmp(tvp, uvp, cmp) \
335 (((tvp)->tv_sec == (uvp)->tv_sec) ? \
336 ((tvp)->tv_usec cmp (uvp)->tv_usec) : \
337 ((tvp)->tv_sec cmp (uvp)->tv_sec))
338 #define timeradd(tvp, uvp, vvp) \
340 (vvp)->tv_sec = (tvp)->tv_sec + (uvp)->tv_sec; \
341 (vvp)->tv_usec = (tvp)->tv_usec + (uvp)->tv_usec; \
342 if ((vvp)->tv_usec >= 1000000) { \
344 (vvp)->tv_usec -= 1000000; \
347 #define timersub(tvp, uvp, vvp) \
349 (vvp)->tv_sec = (tvp)->tv_sec - (uvp)->tv_sec; \
350 (vvp)->tv_usec = (tvp)->tv_usec - (uvp)->tv_usec; \
351 if ((vvp)->tv_usec < 0) { \
353 (vvp)->tv_usec += 1000000; \
359 * Names of the interval timers, and structure
360 * defining a timer setting.
362 #define ITIMER_REAL 0
363 #define ITIMER_VIRTUAL 1
364 #define ITIMER_PROF 2
367 struct timeval it_interval; /* timer interval */
368 struct timeval it_value; /* current value */
372 * Getkerninfo clock information structure
375 int hz; /* clock frequency */
376 int tick; /* micro-seconds per hz tick */
378 int stathz; /* statistics clock frequency */
379 int profhz; /* profiling clock frequency */
382 /* These macros are also in time.h. */
383 #ifndef CLOCK_REALTIME
384 #define CLOCK_REALTIME 0
385 #define CLOCK_VIRTUAL 1
387 #define CLOCK_MONOTONIC 4
388 #define CLOCK_UPTIME 5 /* FreeBSD-specific. */
389 #define CLOCK_UPTIME_PRECISE 7 /* FreeBSD-specific. */
390 #define CLOCK_UPTIME_FAST 8 /* FreeBSD-specific. */
391 #define CLOCK_REALTIME_PRECISE 9 /* FreeBSD-specific. */
392 #define CLOCK_REALTIME_FAST 10 /* FreeBSD-specific. */
393 #define CLOCK_MONOTONIC_PRECISE 11 /* FreeBSD-specific. */
394 #define CLOCK_MONOTONIC_FAST 12 /* FreeBSD-specific. */
395 #define CLOCK_SECOND 13 /* FreeBSD-specific. */
396 #define CLOCK_THREAD_CPUTIME_ID 14
397 #define CLOCK_PROCESS_CPUTIME_ID 15
400 #ifndef TIMER_ABSTIME
401 #define TIMER_RELTIME 0x0 /* relative timer */
402 #define TIMER_ABSTIME 0x1 /* absolute timer */
406 #define CPUCLOCK_WHICH_PID 0
407 #define CPUCLOCK_WHICH_TID 1
413 * Kernel to clock driver interface.
415 void inittodr(time_t base);
416 void resettodr(void);
418 extern volatile time_t time_second;
419 extern volatile time_t time_uptime;
420 extern struct bintime boottimebin;
421 extern struct timeval boottime;
422 extern struct bintime tc_tick_bt;
423 extern sbintime_t tc_tick_sbt;
424 extern struct bintime tick_bt;
425 extern sbintime_t tick_sbt;
426 extern int tc_precexp;
427 extern int tc_timepercentage;
428 extern struct bintime bt_timethreshold;
429 extern struct bintime bt_tickthreshold;
430 extern sbintime_t sbt_timethreshold;
431 extern sbintime_t sbt_tickthreshold;
434 * Functions for looking at our clock: [get]{bin,nano,micro}[up]time()
436 * Functions without the "get" prefix returns the best timestamp
437 * we can produce in the given format.
439 * "bin" == struct bintime == seconds + 64 bit fraction of seconds.
440 * "nano" == struct timespec == seconds + nanoseconds.
441 * "micro" == struct timeval == seconds + microseconds.
443 * Functions containing "up" returns time relative to boot and
444 * should be used for calculating time intervals.
446 * Functions without "up" returns GMT time.
448 * Functions with the "get" prefix returns a less precise result
449 * much faster than the functions without "get" prefix and should
450 * be used where a precision of 1/hz seconds is acceptable or where
451 * performance is priority. (NB: "precision", _not_ "resolution" !)
454 void binuptime(struct bintime *bt);
455 void nanouptime(struct timespec *tsp);
456 void microuptime(struct timeval *tvp);
458 static __inline sbintime_t
464 return (bttosbt(_bt));
467 void bintime(struct bintime *bt);
468 void nanotime(struct timespec *tsp);
469 void microtime(struct timeval *tvp);
471 void getbinuptime(struct bintime *bt);
472 void getnanouptime(struct timespec *tsp);
473 void getmicrouptime(struct timeval *tvp);
475 static __inline sbintime_t
481 return (bttosbt(_bt));
484 void getbintime(struct bintime *bt);
485 void getnanotime(struct timespec *tsp);
486 void getmicrotime(struct timeval *tvp);
488 /* Other functions */
489 int itimerdecr(struct itimerval *itp, int usec);
490 int itimerfix(struct timeval *tv);
491 int ppsratecheck(struct timeval *, int *, int);
492 int ratecheck(struct timeval *, const struct timeval *);
493 void timevaladd(struct timeval *t1, const struct timeval *t2);
494 void timevalsub(struct timeval *t1, const struct timeval *t2);
495 int tvtohz(struct timeval *tv);
497 #define TC_DEFAULTPERC 5
499 #define BT2FREQ(bt) \
500 (((uint64_t)0x8000000000000000 + ((bt)->frac >> 2)) / \
503 #define SBT2FREQ(sbt) ((SBT_1S + ((sbt) >> 1)) / (sbt))
505 #define FREQ2BT(freq, bt) \
508 (bt)->frac = ((uint64_t)0x8000000000000000 / (freq)) << 1; \
511 #define TIMESEL(sbt, sbt2) \
512 (((sbt2) >= sbt_timethreshold) ? \
513 ((*(sbt) = getsbinuptime()), 1) : ((*(sbt) = sbinuptime()), 0))
518 #include <sys/cdefs.h>
519 #include <sys/select.h>
522 int setitimer(int, const struct itimerval *, struct itimerval *);
523 int utimes(const char *, const struct timeval *);
526 int adjtime(const struct timeval *, struct timeval *);
527 int clock_getcpuclockid2(id_t, int, clockid_t *);
528 int futimes(int, const struct timeval *);
529 int futimesat(int, const char *, const struct timeval [2]);
530 int lutimes(const char *, const struct timeval *);
531 int settimeofday(const struct timeval *, const struct timezone *);
535 int getitimer(int, struct itimerval *);
536 int gettimeofday(struct timeval *, struct timezone *);
541 #endif /* !_KERNEL */
543 #endif /* !_SYS_TIME_H_ */