1df8bae1dSRodney W. Grimes /* 2df8bae1dSRodney W. Grimes * Copyright (c) 1982, 1986, 1989, 1993 3df8bae1dSRodney W. Grimes * The Regents of the University of California. All rights reserved. 4df8bae1dSRodney W. Grimes * 5df8bae1dSRodney W. Grimes * Redistribution and use in source and binary forms, with or without 6df8bae1dSRodney W. Grimes * modification, are permitted provided that the following conditions 7df8bae1dSRodney W. Grimes * are met: 8df8bae1dSRodney W. Grimes * 1. Redistributions of source code must retain the above copyright 9df8bae1dSRodney W. Grimes * notice, this list of conditions and the following disclaimer. 10df8bae1dSRodney W. Grimes * 2. Redistributions in binary form must reproduce the above copyright 11df8bae1dSRodney W. Grimes * notice, this list of conditions and the following disclaimer in the 12df8bae1dSRodney W. Grimes * documentation and/or other materials provided with the distribution. 13df8bae1dSRodney W. Grimes * 3. All advertising materials mentioning features or use of this software 14df8bae1dSRodney W. Grimes * must display the following acknowledgement: 15df8bae1dSRodney W. Grimes * This product includes software developed by the University of 16df8bae1dSRodney W. Grimes * California, Berkeley and its contributors. 17df8bae1dSRodney W. Grimes * 4. Neither the name of the University nor the names of its contributors 18df8bae1dSRodney W. Grimes * may be used to endorse or promote products derived from this software 19df8bae1dSRodney W. Grimes * without specific prior written permission. 20df8bae1dSRodney W. Grimes * 21df8bae1dSRodney W. Grimes * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 22df8bae1dSRodney W. Grimes * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 23df8bae1dSRodney W. Grimes * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 24df8bae1dSRodney W. Grimes * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 25df8bae1dSRodney W. Grimes * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 26df8bae1dSRodney W. Grimes * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 27df8bae1dSRodney W. Grimes * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 28df8bae1dSRodney W. Grimes * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 29df8bae1dSRodney W. Grimes * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 30df8bae1dSRodney W. Grimes * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 31df8bae1dSRodney W. Grimes * SUCH DAMAGE. 32df8bae1dSRodney W. Grimes * 33df8bae1dSRodney W. Grimes * @(#)kern_time.c 8.1 (Berkeley) 6/10/93 347ec73f64SPoul-Henning Kamp * $Id: kern_time.c,v 1.40 1997/11/07 08:52:58 phk Exp $ 35df8bae1dSRodney W. Grimes */ 36df8bae1dSRodney W. Grimes 37df8bae1dSRodney W. Grimes #include <sys/param.h> 38d2d3e875SBruce Evans #include <sys/sysproto.h> 39df8bae1dSRodney W. Grimes #include <sys/resourcevar.h> 40797f2d22SPoul-Henning Kamp #include <sys/signalvar.h> 41df8bae1dSRodney W. Grimes #include <sys/kernel.h> 42df8bae1dSRodney W. Grimes #include <sys/systm.h> 4394c8fcd8SPeter Wemm #include <sys/sysent.h> 44df8bae1dSRodney W. Grimes #include <sys/proc.h> 45708e7684SPeter Wemm #include <sys/time.h> 46df8bae1dSRodney W. Grimes #include <sys/vnode.h> 475b870b7bSPeter Wemm #include <vm/vm.h> 485b870b7bSPeter Wemm #include <vm/vm_extern.h> 49df8bae1dSRodney W. Grimes 50ac7e6123SDavid Greenman struct timezone tz; 51ac7e6123SDavid Greenman 52df8bae1dSRodney W. Grimes /* 53df8bae1dSRodney W. Grimes * Time of day and interval timer support. 54df8bae1dSRodney W. Grimes * 55df8bae1dSRodney W. Grimes * These routines provide the kernel entry points to get and set 56df8bae1dSRodney W. Grimes * the time-of-day and per-process interval timers. Subroutines 57df8bae1dSRodney W. Grimes * here provide support for adding and subtracting timeval structures 58df8bae1dSRodney W. Grimes * and decrementing interval timers, optionally reloading the interval 59df8bae1dSRodney W. Grimes * timers when they expire. 60df8bae1dSRodney W. Grimes */ 61df8bae1dSRodney W. Grimes 625b870b7bSPeter Wemm static int nanosleep1 __P((struct proc *p, struct timespec *rqt, 635b870b7bSPeter Wemm struct timespec *rmt)); 647d7fb492SBruce Evans static int settime __P((struct timeval *)); 657d7fb492SBruce Evans static void timevalfix __P((struct timeval *)); 66cb226aaaSPoul-Henning Kamp static void no_lease_updatetime __P((int)); 6794c8fcd8SPeter Wemm 681b09ae77SPoul-Henning Kamp static void 691b09ae77SPoul-Henning Kamp no_lease_updatetime(deltat) 701b09ae77SPoul-Henning Kamp int deltat; 711b09ae77SPoul-Henning Kamp { 721b09ae77SPoul-Henning Kamp } 731b09ae77SPoul-Henning Kamp 741b09ae77SPoul-Henning Kamp void (*lease_updatetime) __P((int)) = no_lease_updatetime; 751b09ae77SPoul-Henning Kamp 7694c8fcd8SPeter Wemm static int 7794c8fcd8SPeter Wemm settime(tv) 7894c8fcd8SPeter Wemm struct timeval *tv; 7994c8fcd8SPeter Wemm { 8094c8fcd8SPeter Wemm struct timeval delta; 817ec73f64SPoul-Henning Kamp struct timespec ts; 8294c8fcd8SPeter Wemm struct proc *p; 8394c8fcd8SPeter Wemm int s; 8494c8fcd8SPeter Wemm 8594c8fcd8SPeter Wemm /* 86708e7684SPeter Wemm * Must not set clock backwards in highly secure mode. 8794c8fcd8SPeter Wemm */ 88708e7684SPeter Wemm s = splclock(); 8994c8fcd8SPeter Wemm delta.tv_sec = tv->tv_sec - time.tv_sec; 9094c8fcd8SPeter Wemm delta.tv_usec = tv->tv_usec - time.tv_usec; 91708e7684SPeter Wemm splx(s); 9294c8fcd8SPeter Wemm timevalfix(&delta); 9394c8fcd8SPeter Wemm if (delta.tv_sec < 0 && securelevel > 1) 9494c8fcd8SPeter Wemm return (EPERM); 9594c8fcd8SPeter Wemm 9694c8fcd8SPeter Wemm s = splclock(); 9794c8fcd8SPeter Wemm /* 9894c8fcd8SPeter Wemm * Recalculate delta directly to minimize clock interrupt 9994c8fcd8SPeter Wemm * latency. Fix it after the ipl has been lowered. 10094c8fcd8SPeter Wemm */ 10194c8fcd8SPeter Wemm delta.tv_sec = tv->tv_sec - time.tv_sec; 10294c8fcd8SPeter Wemm delta.tv_usec = tv->tv_usec - time.tv_usec; 1037ec73f64SPoul-Henning Kamp ts.tv_sec = tv->tv_sec; 1047ec73f64SPoul-Henning Kamp ts.tv_nsec = tv->tv_usec * 1000; 1057ec73f64SPoul-Henning Kamp set_timecounter(&ts); 10694c8fcd8SPeter Wemm /* 10794c8fcd8SPeter Wemm * XXX should arrange for microtime() to agree with *tv if 10894c8fcd8SPeter Wemm * it is called now. As it is, it may add up to about 10994c8fcd8SPeter Wemm * `tick' unwanted usec. 11094c8fcd8SPeter Wemm * Another problem is that clock interrupts may occur at 11194c8fcd8SPeter Wemm * other than multiples of `tick'. It's not worth fixing 11294c8fcd8SPeter Wemm * this here, since the problem is also caused by tick 11394c8fcd8SPeter Wemm * adjustments. 11494c8fcd8SPeter Wemm */ 11594c8fcd8SPeter Wemm (void) splsoftclock(); 116708e7684SPeter Wemm timevalfix(&delta); 11794c8fcd8SPeter Wemm timevaladd(&boottime, &delta); 11894c8fcd8SPeter Wemm timevaladd(&runtime, &delta); 1195b870b7bSPeter Wemm for (p = allproc.lh_first; p != 0; p = p->p_list.le_next) { 12094c8fcd8SPeter Wemm if (timerisset(&p->p_realtimer.it_value)) 12194c8fcd8SPeter Wemm timevaladd(&p->p_realtimer.it_value, &delta); 1225b870b7bSPeter Wemm if (p->p_sleepend) 1235b870b7bSPeter Wemm timevaladd(p->p_sleepend, &delta); 1245b870b7bSPeter Wemm } 12594c8fcd8SPeter Wemm lease_updatetime(delta.tv_sec); 12694c8fcd8SPeter Wemm splx(s); 12794c8fcd8SPeter Wemm resettodr(); 12894c8fcd8SPeter Wemm return (0); 12994c8fcd8SPeter Wemm } 13094c8fcd8SPeter Wemm 13194c8fcd8SPeter Wemm #ifndef _SYS_SYSPROTO_H_ 13294c8fcd8SPeter Wemm struct clock_gettime_args { 13394c8fcd8SPeter Wemm clockid_t clock_id; 13494c8fcd8SPeter Wemm struct timespec *tp; 13594c8fcd8SPeter Wemm }; 13694c8fcd8SPeter Wemm #endif 137708e7684SPeter Wemm 13894c8fcd8SPeter Wemm /* ARGSUSED */ 13994c8fcd8SPeter Wemm int 140cb226aaaSPoul-Henning Kamp clock_gettime(p, uap) 14194c8fcd8SPeter Wemm struct proc *p; 14294c8fcd8SPeter Wemm struct clock_gettime_args *uap; 14394c8fcd8SPeter Wemm { 14494c8fcd8SPeter Wemm struct timespec ats; 14594c8fcd8SPeter Wemm 146708e7684SPeter Wemm if (SCARG(uap, clock_id) != CLOCK_REALTIME) 14794c8fcd8SPeter Wemm return (EINVAL); 1487ec73f64SPoul-Henning Kamp nanotime(&ats); 149708e7684SPeter Wemm return (copyout(&ats, SCARG(uap, tp), sizeof(ats))); 15094c8fcd8SPeter Wemm } 15194c8fcd8SPeter Wemm 15294c8fcd8SPeter Wemm #ifndef _SYS_SYSPROTO_H_ 15394c8fcd8SPeter Wemm struct clock_settime_args { 15494c8fcd8SPeter Wemm clockid_t clock_id; 15594c8fcd8SPeter Wemm const struct timespec *tp; 15694c8fcd8SPeter Wemm }; 15794c8fcd8SPeter Wemm #endif 158708e7684SPeter Wemm 15994c8fcd8SPeter Wemm /* ARGSUSED */ 16094c8fcd8SPeter Wemm int 161cb226aaaSPoul-Henning Kamp clock_settime(p, uap) 16294c8fcd8SPeter Wemm struct proc *p; 16394c8fcd8SPeter Wemm struct clock_settime_args *uap; 16494c8fcd8SPeter Wemm { 16594c8fcd8SPeter Wemm struct timeval atv; 16694c8fcd8SPeter Wemm struct timespec ats; 16794c8fcd8SPeter Wemm int error; 16894c8fcd8SPeter Wemm 16994c8fcd8SPeter Wemm if ((error = suser(p->p_ucred, &p->p_acflag)) != 0) 17094c8fcd8SPeter Wemm return (error); 171708e7684SPeter Wemm if (SCARG(uap, clock_id) != CLOCK_REALTIME) 17294c8fcd8SPeter Wemm return (EINVAL); 17394c8fcd8SPeter Wemm if ((error = copyin(SCARG(uap, tp), &ats, sizeof(ats))) != 0) 17494c8fcd8SPeter Wemm return (error); 1753fc9295dSBruce Evans if (ats.tv_nsec < 0 || ats.tv_nsec >= 1000000000) 176708e7684SPeter Wemm return (EINVAL); 17794c8fcd8SPeter Wemm TIMESPEC_TO_TIMEVAL(&atv, &ats); 17894c8fcd8SPeter Wemm if ((error = settime(&atv))) 17994c8fcd8SPeter Wemm return (error); 180708e7684SPeter Wemm return (0); 18194c8fcd8SPeter Wemm } 18294c8fcd8SPeter Wemm 18394c8fcd8SPeter Wemm #ifndef _SYS_SYSPROTO_H_ 18494c8fcd8SPeter Wemm struct clock_getres_args { 18594c8fcd8SPeter Wemm clockid_t clock_id; 18694c8fcd8SPeter Wemm struct timespec *tp; 18794c8fcd8SPeter Wemm }; 18894c8fcd8SPeter Wemm #endif 189708e7684SPeter Wemm 19094c8fcd8SPeter Wemm int 191cb226aaaSPoul-Henning Kamp clock_getres(p, uap) 19294c8fcd8SPeter Wemm struct proc *p; 19394c8fcd8SPeter Wemm struct clock_getres_args *uap; 19494c8fcd8SPeter Wemm { 19594c8fcd8SPeter Wemm struct timespec ts; 196708e7684SPeter Wemm int error; 19794c8fcd8SPeter Wemm 198708e7684SPeter Wemm if (SCARG(uap, clock_id) != CLOCK_REALTIME) 19994c8fcd8SPeter Wemm return (EINVAL); 200708e7684SPeter Wemm error = 0; 20194c8fcd8SPeter Wemm if (SCARG(uap, tp)) { 20294c8fcd8SPeter Wemm ts.tv_sec = 0; 2037ec73f64SPoul-Henning Kamp ts.tv_nsec = 1000000000 / timecounter->frequency; 20494c8fcd8SPeter Wemm error = copyout(&ts, SCARG(uap, tp), sizeof(ts)); 20594c8fcd8SPeter Wemm } 206708e7684SPeter Wemm return (error); 20794c8fcd8SPeter Wemm } 20894c8fcd8SPeter Wemm 20994c8fcd8SPeter Wemm static int nanowait; 21094c8fcd8SPeter Wemm 2115b870b7bSPeter Wemm static int 2125b870b7bSPeter Wemm nanosleep1(p, rqt, rmt) 2135b870b7bSPeter Wemm struct proc *p; 2145b870b7bSPeter Wemm struct timespec *rqt, *rmt; 2155b870b7bSPeter Wemm { 21676aab1daSAndrey A. Chernov struct timeval atv, utv, rtv; 21776aab1daSAndrey A. Chernov int error, s, timo, i, n; 2185b870b7bSPeter Wemm 2197d7fb492SBruce Evans if (rqt->tv_nsec < 0 || rqt->tv_nsec >= 1000000000) 220708e7684SPeter Wemm return (EINVAL); 2217d7fb492SBruce Evans if (rqt->tv_sec < 0 || rqt->tv_sec == 0 && rqt->tv_nsec == 0) 2227d7fb492SBruce Evans return (0); 2235b870b7bSPeter Wemm TIMESPEC_TO_TIMEVAL(&atv, rqt) 22494c8fcd8SPeter Wemm 22576aab1daSAndrey A. Chernov if (itimerfix(&atv)) { 22676aab1daSAndrey A. Chernov n = atv.tv_sec / 100000000; 22776aab1daSAndrey A. Chernov rtv = atv; 22876aab1daSAndrey A. Chernov rtv.tv_sec %= 100000000; 22976aab1daSAndrey A. Chernov (void)itimerfix(&rtv); 23076aab1daSAndrey A. Chernov } else 23176aab1daSAndrey A. Chernov n = 0; 23276aab1daSAndrey A. Chernov 2337d7fb492SBruce Evans for (i = 0, error = EWOULDBLOCK; i <= n && error == EWOULDBLOCK; i++) { 23476aab1daSAndrey A. Chernov if (n > 0) { 23576aab1daSAndrey A. Chernov if (i == n) 23676aab1daSAndrey A. Chernov atv = rtv; 23776aab1daSAndrey A. Chernov else { 23876aab1daSAndrey A. Chernov atv.tv_sec = 100000000; 23976aab1daSAndrey A. Chernov atv.tv_usec = 0; 24076aab1daSAndrey A. Chernov } 24176aab1daSAndrey A. Chernov } 242708e7684SPeter Wemm /* 243708e7684SPeter Wemm * XXX this is not as careful as settimeofday() about minimising 244708e7684SPeter Wemm * interrupt latency. The hzto() interface is inconvenient as usual. 245708e7684SPeter Wemm */ 24694c8fcd8SPeter Wemm s = splclock(); 24794c8fcd8SPeter Wemm timevaladd(&atv, &time); 24894c8fcd8SPeter Wemm timo = hzto(&atv); 24994c8fcd8SPeter Wemm splx(s); 25094c8fcd8SPeter Wemm 2515b870b7bSPeter Wemm p->p_sleepend = &atv; 2525b870b7bSPeter Wemm error = tsleep(&nanowait, PWAIT | PCATCH, "nanslp", timo); 2535b870b7bSPeter Wemm p->p_sleepend = NULL; 25494c8fcd8SPeter Wemm if (error == ERESTART) 25594c8fcd8SPeter Wemm error = EINTR; 25676aab1daSAndrey A. Chernov if (rmt != NULL && (i == n || error != EWOULDBLOCK)) { 257708e7684SPeter Wemm /*- 258708e7684SPeter Wemm * XXX this is unnecessary and possibly wrong if the timeout 259708e7684SPeter Wemm * expired. Then the remaining time should be zero. If the 260708e7684SPeter Wemm * calculation gives a nonzero value, then we have a bug. 261708e7684SPeter Wemm * (1) if settimeofday() was called, then the calculation is 262708e7684SPeter Wemm * probably wrong, since `time' has probably become 263708e7684SPeter Wemm * inconsistent with the ending time `atv'. 2645b870b7bSPeter Wemm * XXX (1) should be fixed now with p->p_sleepend; 265708e7684SPeter Wemm * (2) otherwise, our calculation of `timo' was wrong, perhaps 266708e7684SPeter Wemm * due to `tick' being wrong when hzto() was called or 267708e7684SPeter Wemm * changing afterwards (it can be wrong or change due to 268708e7684SPeter Wemm * hzto() not knowing about adjtime(2) or tickadj(8)). 269708e7684SPeter Wemm * Then we should be sleeping again instead instead of 270708e7684SPeter Wemm * returning. Rounding up in hzto() probably fixes this 271708e7684SPeter Wemm * problem for small timeouts, but the absolute error may 272708e7684SPeter Wemm * be large for large timeouts. 273708e7684SPeter Wemm */ 27494c8fcd8SPeter Wemm s = splclock(); 27594c8fcd8SPeter Wemm utv = time; 27694c8fcd8SPeter Wemm splx(s); 2775332bc65SAndrey A. Chernov if (i != n) { 2785332bc65SAndrey A. Chernov atv.tv_sec += (n - i - 1) * 100000000; 2795332bc65SAndrey A. Chernov timevaladd(&atv, &rtv); 2805332bc65SAndrey A. Chernov } 28194c8fcd8SPeter Wemm timevalsub(&atv, &utv); 28294c8fcd8SPeter Wemm if (atv.tv_sec < 0) 28394c8fcd8SPeter Wemm timerclear(&atv); 2845b870b7bSPeter Wemm TIMEVAL_TO_TIMESPEC(&atv, rmt); 2855b870b7bSPeter Wemm } 28676aab1daSAndrey A. Chernov } 28776aab1daSAndrey A. Chernov return (error == EWOULDBLOCK ? 0 : error); 2885b870b7bSPeter Wemm } 28994c8fcd8SPeter Wemm 2905b870b7bSPeter Wemm #ifndef _SYS_SYSPROTO_H_ 2915b870b7bSPeter Wemm struct nanosleep_args { 2925b870b7bSPeter Wemm struct timespec *rqtp; 2935b870b7bSPeter Wemm struct timespec *rmtp; 2945b870b7bSPeter Wemm }; 2955b870b7bSPeter Wemm #endif 2965b870b7bSPeter Wemm 2975b870b7bSPeter Wemm /* ARGSUSED */ 2985b870b7bSPeter Wemm int 299cb226aaaSPoul-Henning Kamp nanosleep(p, uap) 3005b870b7bSPeter Wemm struct proc *p; 3015b870b7bSPeter Wemm struct nanosleep_args *uap; 3025b870b7bSPeter Wemm { 3035b870b7bSPeter Wemm struct timespec rmt, rqt; 3045b870b7bSPeter Wemm int error, error2; 3055b870b7bSPeter Wemm 3065b870b7bSPeter Wemm error = copyin(SCARG(uap, rqtp), &rqt, sizeof(rqt)); 3075b870b7bSPeter Wemm if (error) 3085b870b7bSPeter Wemm return (error); 309bf5acbf5SPeter Wemm if (SCARG(uap, rmtp)) 3105b870b7bSPeter Wemm if (!useracc((caddr_t)SCARG(uap, rmtp), sizeof(rmt), B_WRITE)) 3115b870b7bSPeter Wemm return (EFAULT); 3125b870b7bSPeter Wemm error = nanosleep1(p, &rqt, &rmt); 3135b870b7bSPeter Wemm if (SCARG(uap, rmtp)) { 314708e7684SPeter Wemm error2 = copyout(&rmt, SCARG(uap, rmtp), sizeof(rmt)); 3155b870b7bSPeter Wemm if (error2) /* XXX shouldn't happen, did useracc() above */ 316708e7684SPeter Wemm return (error2); 317708e7684SPeter Wemm } 318708e7684SPeter Wemm return (error); 31994c8fcd8SPeter Wemm } 32094c8fcd8SPeter Wemm 3215b870b7bSPeter Wemm #ifndef _SYS_SYSPROTO_H_ 3225b870b7bSPeter Wemm struct signanosleep_args { 3235b870b7bSPeter Wemm struct timespec *rqtp; 3245b870b7bSPeter Wemm struct timespec *rmtp; 3255b870b7bSPeter Wemm sigset_t *mask; 3265b870b7bSPeter Wemm }; 3275b870b7bSPeter Wemm #endif 3285b870b7bSPeter Wemm 3295b870b7bSPeter Wemm /* ARGSUSED */ 3305b870b7bSPeter Wemm int 331cb226aaaSPoul-Henning Kamp signanosleep(p, uap) 3325b870b7bSPeter Wemm struct proc *p; 3335b870b7bSPeter Wemm struct signanosleep_args *uap; 3345b870b7bSPeter Wemm { 3355b870b7bSPeter Wemm struct timespec rmt, rqt; 3365b870b7bSPeter Wemm int error, error2; 3375b870b7bSPeter Wemm sigset_t mask; 3385b870b7bSPeter Wemm 3395b870b7bSPeter Wemm error = copyin(SCARG(uap, rqtp), &rqt, sizeof(rqt)); 3405b870b7bSPeter Wemm if (error) 3415b870b7bSPeter Wemm return (error); 342bf5acbf5SPeter Wemm if (SCARG(uap, rmtp)) 3435b870b7bSPeter Wemm if (!useracc((caddr_t)SCARG(uap, rmtp), sizeof(rmt), B_WRITE)) 3445b870b7bSPeter Wemm return (EFAULT); 3455b870b7bSPeter Wemm error = copyin(SCARG(uap, mask), &mask, sizeof(mask)); 3465b870b7bSPeter Wemm if (error) 3475b870b7bSPeter Wemm return (error); 3485b870b7bSPeter Wemm 34998716364SPeter Wemm /* change mask for sleep */ 3505b870b7bSPeter Wemm p->p_sigmask = mask &~ sigcantmask; 3515b870b7bSPeter Wemm 3525b870b7bSPeter Wemm error = nanosleep1(p, &rqt, &rmt); 3535b870b7bSPeter Wemm 3545b870b7bSPeter Wemm if (SCARG(uap, rmtp)) { 3555b870b7bSPeter Wemm error2 = copyout(&rmt, SCARG(uap, rmtp), sizeof(rmt)); 3565b870b7bSPeter Wemm if (error2) /* XXX shouldn't happen, did useracc() above */ 3575b870b7bSPeter Wemm return (error2); 3585b870b7bSPeter Wemm } 3595b870b7bSPeter Wemm return (error); 3605b870b7bSPeter Wemm } 36180c07b66SBruce Evans 362d2d3e875SBruce Evans #ifndef _SYS_SYSPROTO_H_ 363df8bae1dSRodney W. Grimes struct gettimeofday_args { 364df8bae1dSRodney W. Grimes struct timeval *tp; 365df8bae1dSRodney W. Grimes struct timezone *tzp; 366df8bae1dSRodney W. Grimes }; 367d2d3e875SBruce Evans #endif 368df8bae1dSRodney W. Grimes /* ARGSUSED */ 36926f9a767SRodney W. Grimes int 370cb226aaaSPoul-Henning Kamp gettimeofday(p, uap) 371df8bae1dSRodney W. Grimes struct proc *p; 372df8bae1dSRodney W. Grimes register struct gettimeofday_args *uap; 373df8bae1dSRodney W. Grimes { 374df8bae1dSRodney W. Grimes struct timeval atv; 375df8bae1dSRodney W. Grimes int error = 0; 376df8bae1dSRodney W. Grimes 377df8bae1dSRodney W. Grimes if (uap->tp) { 378df8bae1dSRodney W. Grimes microtime(&atv); 379bb56ec4aSPoul-Henning Kamp if ((error = copyout((caddr_t)&atv, (caddr_t)uap->tp, 380bb56ec4aSPoul-Henning Kamp sizeof (atv)))) 381df8bae1dSRodney W. Grimes return (error); 382df8bae1dSRodney W. Grimes } 383df8bae1dSRodney W. Grimes if (uap->tzp) 384df8bae1dSRodney W. Grimes error = copyout((caddr_t)&tz, (caddr_t)uap->tzp, 385df8bae1dSRodney W. Grimes sizeof (tz)); 386df8bae1dSRodney W. Grimes return (error); 387df8bae1dSRodney W. Grimes } 388df8bae1dSRodney W. Grimes 389d2d3e875SBruce Evans #ifndef _SYS_SYSPROTO_H_ 390df8bae1dSRodney W. Grimes struct settimeofday_args { 391df8bae1dSRodney W. Grimes struct timeval *tv; 392df8bae1dSRodney W. Grimes struct timezone *tzp; 393df8bae1dSRodney W. Grimes }; 394d2d3e875SBruce Evans #endif 395df8bae1dSRodney W. Grimes /* ARGSUSED */ 39626f9a767SRodney W. Grimes int 397cb226aaaSPoul-Henning Kamp settimeofday(p, uap) 398df8bae1dSRodney W. Grimes struct proc *p; 399df8bae1dSRodney W. Grimes struct settimeofday_args *uap; 400df8bae1dSRodney W. Grimes { 401708e7684SPeter Wemm struct timeval atv; 402df8bae1dSRodney W. Grimes struct timezone atz; 403708e7684SPeter Wemm int error; 404df8bae1dSRodney W. Grimes 405bb56ec4aSPoul-Henning Kamp if ((error = suser(p->p_ucred, &p->p_acflag))) 406df8bae1dSRodney W. Grimes return (error); 407df8bae1dSRodney W. Grimes /* Verify all parameters before changing time. */ 408708e7684SPeter Wemm if (uap->tv) { 409708e7684SPeter Wemm if ((error = copyin((caddr_t)uap->tv, (caddr_t)&atv, 410708e7684SPeter Wemm sizeof(atv)))) 411df8bae1dSRodney W. Grimes return (error); 4120808c591SBruce Evans if (atv.tv_usec < 0 || atv.tv_usec >= 1000000) 4130808c591SBruce Evans return (EINVAL); 414708e7684SPeter Wemm } 415df8bae1dSRodney W. Grimes if (uap->tzp && 416df8bae1dSRodney W. Grimes (error = copyin((caddr_t)uap->tzp, (caddr_t)&atz, sizeof(atz)))) 417df8bae1dSRodney W. Grimes return (error); 41894c8fcd8SPeter Wemm if (uap->tv && (error = settime(&atv))) 41994c8fcd8SPeter Wemm return (error); 420df8bae1dSRodney W. Grimes if (uap->tzp) 421df8bae1dSRodney W. Grimes tz = atz; 422df8bae1dSRodney W. Grimes return (0); 423df8bae1dSRodney W. Grimes } 424df8bae1dSRodney W. Grimes 425df8bae1dSRodney W. Grimes int tickdelta; /* current clock skew, us. per tick */ 426df8bae1dSRodney W. Grimes long timedelta; /* unapplied time correction, us. */ 42787b6de2bSPoul-Henning Kamp static long bigadj = 1000000; /* use 10x skew above bigadj us. */ 428df8bae1dSRodney W. Grimes 429d2d3e875SBruce Evans #ifndef _SYS_SYSPROTO_H_ 430df8bae1dSRodney W. Grimes struct adjtime_args { 431df8bae1dSRodney W. Grimes struct timeval *delta; 432df8bae1dSRodney W. Grimes struct timeval *olddelta; 433df8bae1dSRodney W. Grimes }; 434d2d3e875SBruce Evans #endif 435df8bae1dSRodney W. Grimes /* ARGSUSED */ 43626f9a767SRodney W. Grimes int 437cb226aaaSPoul-Henning Kamp adjtime(p, uap) 438df8bae1dSRodney W. Grimes struct proc *p; 439df8bae1dSRodney W. Grimes register struct adjtime_args *uap; 440df8bae1dSRodney W. Grimes { 441df8bae1dSRodney W. Grimes struct timeval atv; 442df8bae1dSRodney W. Grimes register long ndelta, ntickdelta, odelta; 443df8bae1dSRodney W. Grimes int s, error; 444df8bae1dSRodney W. Grimes 445bb56ec4aSPoul-Henning Kamp if ((error = suser(p->p_ucred, &p->p_acflag))) 446df8bae1dSRodney W. Grimes return (error); 447bb56ec4aSPoul-Henning Kamp if ((error = 448bb56ec4aSPoul-Henning Kamp copyin((caddr_t)uap->delta, (caddr_t)&atv, sizeof(struct timeval)))) 449df8bae1dSRodney W. Grimes return (error); 450df8bae1dSRodney W. Grimes 451df8bae1dSRodney W. Grimes /* 452df8bae1dSRodney W. Grimes * Compute the total correction and the rate at which to apply it. 453df8bae1dSRodney W. Grimes * Round the adjustment down to a whole multiple of the per-tick 454df8bae1dSRodney W. Grimes * delta, so that after some number of incremental changes in 455df8bae1dSRodney W. Grimes * hardclock(), tickdelta will become zero, lest the correction 456df8bae1dSRodney W. Grimes * overshoot and start taking us away from the desired final time. 457df8bae1dSRodney W. Grimes */ 458df8bae1dSRodney W. Grimes ndelta = atv.tv_sec * 1000000 + atv.tv_usec; 4590cd97b20SBruce Evans if (ndelta > bigadj || ndelta < -bigadj) 460df8bae1dSRodney W. Grimes ntickdelta = 10 * tickadj; 461df8bae1dSRodney W. Grimes else 462df8bae1dSRodney W. Grimes ntickdelta = tickadj; 463df8bae1dSRodney W. Grimes if (ndelta % ntickdelta) 464df8bae1dSRodney W. Grimes ndelta = ndelta / ntickdelta * ntickdelta; 465df8bae1dSRodney W. Grimes 466df8bae1dSRodney W. Grimes /* 467df8bae1dSRodney W. Grimes * To make hardclock()'s job easier, make the per-tick delta negative 468df8bae1dSRodney W. Grimes * if we want time to run slower; then hardclock can simply compute 469df8bae1dSRodney W. Grimes * tick + tickdelta, and subtract tickdelta from timedelta. 470df8bae1dSRodney W. Grimes */ 471df8bae1dSRodney W. Grimes if (ndelta < 0) 472df8bae1dSRodney W. Grimes ntickdelta = -ntickdelta; 473df8bae1dSRodney W. Grimes s = splclock(); 474df8bae1dSRodney W. Grimes odelta = timedelta; 475df8bae1dSRodney W. Grimes timedelta = ndelta; 476df8bae1dSRodney W. Grimes tickdelta = ntickdelta; 477df8bae1dSRodney W. Grimes splx(s); 478df8bae1dSRodney W. Grimes 479df8bae1dSRodney W. Grimes if (uap->olddelta) { 480df8bae1dSRodney W. Grimes atv.tv_sec = odelta / 1000000; 481df8bae1dSRodney W. Grimes atv.tv_usec = odelta % 1000000; 482df8bae1dSRodney W. Grimes (void) copyout((caddr_t)&atv, (caddr_t)uap->olddelta, 483df8bae1dSRodney W. Grimes sizeof(struct timeval)); 484df8bae1dSRodney W. Grimes } 485df8bae1dSRodney W. Grimes return (0); 486df8bae1dSRodney W. Grimes } 487df8bae1dSRodney W. Grimes 488df8bae1dSRodney W. Grimes /* 489df8bae1dSRodney W. Grimes * Get value of an interval timer. The process virtual and 490df8bae1dSRodney W. Grimes * profiling virtual time timers are kept in the p_stats area, since 491df8bae1dSRodney W. Grimes * they can be swapped out. These are kept internally in the 492df8bae1dSRodney W. Grimes * way they are specified externally: in time until they expire. 493df8bae1dSRodney W. Grimes * 494df8bae1dSRodney W. Grimes * The real time interval timer is kept in the process table slot 495df8bae1dSRodney W. Grimes * for the process, and its value (it_value) is kept as an 496df8bae1dSRodney W. Grimes * absolute time rather than as a delta, so that it is easy to keep 497df8bae1dSRodney W. Grimes * periodic real-time signals from drifting. 498df8bae1dSRodney W. Grimes * 499df8bae1dSRodney W. Grimes * Virtual time timers are processed in the hardclock() routine of 500df8bae1dSRodney W. Grimes * kern_clock.c. The real time timer is processed by a timeout 501df8bae1dSRodney W. Grimes * routine, called from the softclock() routine. Since a callout 502df8bae1dSRodney W. Grimes * may be delayed in real time due to interrupt processing in the system, 503df8bae1dSRodney W. Grimes * it is possible for the real time timeout routine (realitexpire, given below), 504df8bae1dSRodney W. Grimes * to be delayed in real time past when it is supposed to occur. It 505df8bae1dSRodney W. Grimes * does not suffice, therefore, to reload the real timer .it_value from the 506df8bae1dSRodney W. Grimes * real time timers .it_interval. Rather, we compute the next time in 507df8bae1dSRodney W. Grimes * absolute time the timer should go off. 508df8bae1dSRodney W. Grimes */ 509d2d3e875SBruce Evans #ifndef _SYS_SYSPROTO_H_ 510df8bae1dSRodney W. Grimes struct getitimer_args { 511df8bae1dSRodney W. Grimes u_int which; 512df8bae1dSRodney W. Grimes struct itimerval *itv; 513df8bae1dSRodney W. Grimes }; 514d2d3e875SBruce Evans #endif 515df8bae1dSRodney W. Grimes /* ARGSUSED */ 51626f9a767SRodney W. Grimes int 517cb226aaaSPoul-Henning Kamp getitimer(p, uap) 518df8bae1dSRodney W. Grimes struct proc *p; 519df8bae1dSRodney W. Grimes register struct getitimer_args *uap; 520df8bae1dSRodney W. Grimes { 521df8bae1dSRodney W. Grimes struct itimerval aitv; 522df8bae1dSRodney W. Grimes int s; 523df8bae1dSRodney W. Grimes 524df8bae1dSRodney W. Grimes if (uap->which > ITIMER_PROF) 525df8bae1dSRodney W. Grimes return (EINVAL); 526df8bae1dSRodney W. Grimes s = splclock(); 527df8bae1dSRodney W. Grimes if (uap->which == ITIMER_REAL) { 528df8bae1dSRodney W. Grimes /* 529df8bae1dSRodney W. Grimes * Convert from absoulte to relative time in .it_value 530df8bae1dSRodney W. Grimes * part of real time timer. If time for real time timer 531df8bae1dSRodney W. Grimes * has passed return 0, else return difference between 532df8bae1dSRodney W. Grimes * current time and time for the timer to go off. 533df8bae1dSRodney W. Grimes */ 534df8bae1dSRodney W. Grimes aitv = p->p_realtimer; 535df8bae1dSRodney W. Grimes if (timerisset(&aitv.it_value)) 536df8bae1dSRodney W. Grimes if (timercmp(&aitv.it_value, &time, <)) 537df8bae1dSRodney W. Grimes timerclear(&aitv.it_value); 538df8bae1dSRodney W. Grimes else 539774fce94SBruce Evans timevalsub(&aitv.it_value, &time); 540df8bae1dSRodney W. Grimes } else 541df8bae1dSRodney W. Grimes aitv = p->p_stats->p_timer[uap->which]; 542df8bae1dSRodney W. Grimes splx(s); 543df8bae1dSRodney W. Grimes return (copyout((caddr_t)&aitv, (caddr_t)uap->itv, 544df8bae1dSRodney W. Grimes sizeof (struct itimerval))); 545df8bae1dSRodney W. Grimes } 546df8bae1dSRodney W. Grimes 547d2d3e875SBruce Evans #ifndef _SYS_SYSPROTO_H_ 548df8bae1dSRodney W. Grimes struct setitimer_args { 549df8bae1dSRodney W. Grimes u_int which; 550df8bae1dSRodney W. Grimes struct itimerval *itv, *oitv; 551df8bae1dSRodney W. Grimes }; 552d2d3e875SBruce Evans #endif 553df8bae1dSRodney W. Grimes /* ARGSUSED */ 55426f9a767SRodney W. Grimes int 555cb226aaaSPoul-Henning Kamp setitimer(p, uap) 556df8bae1dSRodney W. Grimes struct proc *p; 557df8bae1dSRodney W. Grimes register struct setitimer_args *uap; 558df8bae1dSRodney W. Grimes { 559df8bae1dSRodney W. Grimes struct itimerval aitv; 560df8bae1dSRodney W. Grimes register struct itimerval *itvp; 561df8bae1dSRodney W. Grimes int s, error; 562df8bae1dSRodney W. Grimes 563df8bae1dSRodney W. Grimes if (uap->which > ITIMER_PROF) 564df8bae1dSRodney W. Grimes return (EINVAL); 565df8bae1dSRodney W. Grimes itvp = uap->itv; 566df8bae1dSRodney W. Grimes if (itvp && (error = copyin((caddr_t)itvp, (caddr_t)&aitv, 567df8bae1dSRodney W. Grimes sizeof(struct itimerval)))) 568df8bae1dSRodney W. Grimes return (error); 5690808c591SBruce Evans if ((uap->itv = uap->oitv) && 570cb226aaaSPoul-Henning Kamp (error = getitimer(p, (struct getitimer_args *)uap))) 571df8bae1dSRodney W. Grimes return (error); 572df8bae1dSRodney W. Grimes if (itvp == 0) 573df8bae1dSRodney W. Grimes return (0); 574cd9f713dSAndrey A. Chernov if (itimerfix(&aitv.it_value)) 575cd9f713dSAndrey A. Chernov return (EINVAL); 576cd9f713dSAndrey A. Chernov if (!timerisset(&aitv.it_value)) 577cd9f713dSAndrey A. Chernov timerclear(&aitv.it_interval); 578cd9f713dSAndrey A. Chernov else if (itimerfix(&aitv.it_interval)) 579df8bae1dSRodney W. Grimes return (EINVAL); 580df8bae1dSRodney W. Grimes s = splclock(); 581df8bae1dSRodney W. Grimes if (uap->which == ITIMER_REAL) { 582ab36c067SJustin T. Gibbs if (timerisset(&p->p_realtimer.it_value)) 583ab36c067SJustin T. Gibbs untimeout(realitexpire, (caddr_t)p, p->p_ithandle); 584df8bae1dSRodney W. Grimes if (timerisset(&aitv.it_value)) { 585774fce94SBruce Evans timevaladd(&aitv.it_value, &time); 586ab36c067SJustin T. Gibbs p->p_ithandle = timeout(realitexpire, (caddr_t)p, 587ab36c067SJustin T. Gibbs hzto(&aitv.it_value)); 588df8bae1dSRodney W. Grimes } 589df8bae1dSRodney W. Grimes p->p_realtimer = aitv; 590df8bae1dSRodney W. Grimes } else 591df8bae1dSRodney W. Grimes p->p_stats->p_timer[uap->which] = aitv; 592df8bae1dSRodney W. Grimes splx(s); 593df8bae1dSRodney W. Grimes return (0); 594df8bae1dSRodney W. Grimes } 595df8bae1dSRodney W. Grimes 596df8bae1dSRodney W. Grimes /* 597df8bae1dSRodney W. Grimes * Real interval timer expired: 598df8bae1dSRodney W. Grimes * send process whose timer expired an alarm signal. 599df8bae1dSRodney W. Grimes * If time is not set up to reload, then just return. 600df8bae1dSRodney W. Grimes * Else compute next time timer should go off which is > current time. 601df8bae1dSRodney W. Grimes * This is where delay in processing this timeout causes multiple 602df8bae1dSRodney W. Grimes * SIGALRM calls to be compressed into one. 6039207f00aSBruce Evans * hzto() always adds 1 to allow for the time until the next clock 6049207f00aSBruce Evans * interrupt being strictly less than 1 clock tick, but we don't want 6059207f00aSBruce Evans * that here since we want to appear to be in sync with the clock 6069207f00aSBruce Evans * interrupt even when we're delayed. 607df8bae1dSRodney W. Grimes */ 608df8bae1dSRodney W. Grimes void 609df8bae1dSRodney W. Grimes realitexpire(arg) 610df8bae1dSRodney W. Grimes void *arg; 611df8bae1dSRodney W. Grimes { 612df8bae1dSRodney W. Grimes register struct proc *p; 613df8bae1dSRodney W. Grimes int s; 614df8bae1dSRodney W. Grimes 615df8bae1dSRodney W. Grimes p = (struct proc *)arg; 616df8bae1dSRodney W. Grimes psignal(p, SIGALRM); 617df8bae1dSRodney W. Grimes if (!timerisset(&p->p_realtimer.it_interval)) { 618df8bae1dSRodney W. Grimes timerclear(&p->p_realtimer.it_value); 619df8bae1dSRodney W. Grimes return; 620df8bae1dSRodney W. Grimes } 621df8bae1dSRodney W. Grimes for (;;) { 622df8bae1dSRodney W. Grimes s = splclock(); 623df8bae1dSRodney W. Grimes timevaladd(&p->p_realtimer.it_value, 624df8bae1dSRodney W. Grimes &p->p_realtimer.it_interval); 625df8bae1dSRodney W. Grimes if (timercmp(&p->p_realtimer.it_value, &time, >)) { 626ab36c067SJustin T. Gibbs p->p_ithandle = 627df8bae1dSRodney W. Grimes timeout(realitexpire, (caddr_t)p, 6289207f00aSBruce Evans hzto(&p->p_realtimer.it_value) - 1); 629df8bae1dSRodney W. Grimes splx(s); 630df8bae1dSRodney W. Grimes return; 631df8bae1dSRodney W. Grimes } 632df8bae1dSRodney W. Grimes splx(s); 633df8bae1dSRodney W. Grimes } 634df8bae1dSRodney W. Grimes } 635df8bae1dSRodney W. Grimes 636df8bae1dSRodney W. Grimes /* 637df8bae1dSRodney W. Grimes * Check that a proposed value to load into the .it_value or 638df8bae1dSRodney W. Grimes * .it_interval part of an interval timer is acceptable, and 639df8bae1dSRodney W. Grimes * fix it to have at least minimal value (i.e. if it is less 640df8bae1dSRodney W. Grimes * than the resolution of the clock, round it up.) 641df8bae1dSRodney W. Grimes */ 64226f9a767SRodney W. Grimes int 643df8bae1dSRodney W. Grimes itimerfix(tv) 644df8bae1dSRodney W. Grimes struct timeval *tv; 645df8bae1dSRodney W. Grimes { 646df8bae1dSRodney W. Grimes 647df8bae1dSRodney W. Grimes if (tv->tv_sec < 0 || tv->tv_sec > 100000000 || 648df8bae1dSRodney W. Grimes tv->tv_usec < 0 || tv->tv_usec >= 1000000) 649df8bae1dSRodney W. Grimes return (EINVAL); 650df8bae1dSRodney W. Grimes if (tv->tv_sec == 0 && tv->tv_usec != 0 && tv->tv_usec < tick) 651df8bae1dSRodney W. Grimes tv->tv_usec = tick; 652df8bae1dSRodney W. Grimes return (0); 653df8bae1dSRodney W. Grimes } 654df8bae1dSRodney W. Grimes 655df8bae1dSRodney W. Grimes /* 656df8bae1dSRodney W. Grimes * Decrement an interval timer by a specified number 657df8bae1dSRodney W. Grimes * of microseconds, which must be less than a second, 658df8bae1dSRodney W. Grimes * i.e. < 1000000. If the timer expires, then reload 659df8bae1dSRodney W. Grimes * it. In this case, carry over (usec - old value) to 660df8bae1dSRodney W. Grimes * reduce the value reloaded into the timer so that 661df8bae1dSRodney W. Grimes * the timer does not drift. This routine assumes 662df8bae1dSRodney W. Grimes * that it is called in a context where the timers 663df8bae1dSRodney W. Grimes * on which it is operating cannot change in value. 664df8bae1dSRodney W. Grimes */ 66526f9a767SRodney W. Grimes int 666df8bae1dSRodney W. Grimes itimerdecr(itp, usec) 667df8bae1dSRodney W. Grimes register struct itimerval *itp; 668df8bae1dSRodney W. Grimes int usec; 669df8bae1dSRodney W. Grimes { 670df8bae1dSRodney W. Grimes 671df8bae1dSRodney W. Grimes if (itp->it_value.tv_usec < usec) { 672df8bae1dSRodney W. Grimes if (itp->it_value.tv_sec == 0) { 673df8bae1dSRodney W. Grimes /* expired, and already in next interval */ 674df8bae1dSRodney W. Grimes usec -= itp->it_value.tv_usec; 675df8bae1dSRodney W. Grimes goto expire; 676df8bae1dSRodney W. Grimes } 677df8bae1dSRodney W. Grimes itp->it_value.tv_usec += 1000000; 678df8bae1dSRodney W. Grimes itp->it_value.tv_sec--; 679df8bae1dSRodney W. Grimes } 680df8bae1dSRodney W. Grimes itp->it_value.tv_usec -= usec; 681df8bae1dSRodney W. Grimes usec = 0; 682df8bae1dSRodney W. Grimes if (timerisset(&itp->it_value)) 683df8bae1dSRodney W. Grimes return (1); 684df8bae1dSRodney W. Grimes /* expired, exactly at end of interval */ 685df8bae1dSRodney W. Grimes expire: 686df8bae1dSRodney W. Grimes if (timerisset(&itp->it_interval)) { 687df8bae1dSRodney W. Grimes itp->it_value = itp->it_interval; 688df8bae1dSRodney W. Grimes itp->it_value.tv_usec -= usec; 689df8bae1dSRodney W. Grimes if (itp->it_value.tv_usec < 0) { 690df8bae1dSRodney W. Grimes itp->it_value.tv_usec += 1000000; 691df8bae1dSRodney W. Grimes itp->it_value.tv_sec--; 692df8bae1dSRodney W. Grimes } 693df8bae1dSRodney W. Grimes } else 694df8bae1dSRodney W. Grimes itp->it_value.tv_usec = 0; /* sec is already 0 */ 695df8bae1dSRodney W. Grimes return (0); 696df8bae1dSRodney W. Grimes } 697df8bae1dSRodney W. Grimes 698df8bae1dSRodney W. Grimes /* 699df8bae1dSRodney W. Grimes * Add and subtract routines for timevals. 700df8bae1dSRodney W. Grimes * N.B.: subtract routine doesn't deal with 701df8bae1dSRodney W. Grimes * results which are before the beginning, 702df8bae1dSRodney W. Grimes * it just gets very confused in this case. 703df8bae1dSRodney W. Grimes * Caveat emptor. 704df8bae1dSRodney W. Grimes */ 70526f9a767SRodney W. Grimes void 706df8bae1dSRodney W. Grimes timevaladd(t1, t2) 707df8bae1dSRodney W. Grimes struct timeval *t1, *t2; 708df8bae1dSRodney W. Grimes { 709df8bae1dSRodney W. Grimes 710df8bae1dSRodney W. Grimes t1->tv_sec += t2->tv_sec; 711df8bae1dSRodney W. Grimes t1->tv_usec += t2->tv_usec; 712df8bae1dSRodney W. Grimes timevalfix(t1); 713df8bae1dSRodney W. Grimes } 714df8bae1dSRodney W. Grimes 71526f9a767SRodney W. Grimes void 716df8bae1dSRodney W. Grimes timevalsub(t1, t2) 717df8bae1dSRodney W. Grimes struct timeval *t1, *t2; 718df8bae1dSRodney W. Grimes { 719df8bae1dSRodney W. Grimes 720df8bae1dSRodney W. Grimes t1->tv_sec -= t2->tv_sec; 721df8bae1dSRodney W. Grimes t1->tv_usec -= t2->tv_usec; 722df8bae1dSRodney W. Grimes timevalfix(t1); 723df8bae1dSRodney W. Grimes } 724df8bae1dSRodney W. Grimes 72587b6de2bSPoul-Henning Kamp static void 726df8bae1dSRodney W. Grimes timevalfix(t1) 727df8bae1dSRodney W. Grimes struct timeval *t1; 728df8bae1dSRodney W. Grimes { 729df8bae1dSRodney W. Grimes 730df8bae1dSRodney W. Grimes if (t1->tv_usec < 0) { 731df8bae1dSRodney W. Grimes t1->tv_sec--; 732df8bae1dSRodney W. Grimes t1->tv_usec += 1000000; 733df8bae1dSRodney W. Grimes } 734df8bae1dSRodney W. Grimes if (t1->tv_usec >= 1000000) { 735df8bae1dSRodney W. Grimes t1->tv_sec++; 736df8bae1dSRodney W. Grimes t1->tv_usec -= 1000000; 737df8bae1dSRodney W. Grimes } 738df8bae1dSRodney W. Grimes } 739