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34 * @(#)kern_clock.c 8.5 (Berkeley) 1/21/94
37 #include <sys/cdefs.h>
38 __FBSDID("$FreeBSD$");
41 #include "opt_device_polling.h"
42 #include "opt_hwpmc_hooks.h"
44 #include "opt_watchdog.h"
46 #include <sys/param.h>
47 #include <sys/systm.h>
48 #include <sys/callout.h>
50 #include <sys/kernel.h>
51 #include <sys/kthread.h>
54 #include <sys/mutex.h>
56 #include <sys/resource.h>
57 #include <sys/resourcevar.h>
58 #include <sys/sched.h>
59 #include <sys/signalvar.h>
60 #include <sys/sleepqueue.h>
64 #include <vm/vm_map.h>
65 #include <sys/sysctl.h>
67 #include <sys/interrupt.h>
68 #include <sys/limits.h>
69 #include <sys/timetc.h>
76 #include <sys/pmckern.h>
80 extern void hardclock_device_poll(void);
81 #endif /* DEVICE_POLLING */
83 static void initclocks(void *dummy);
84 SYSINIT(clocks, SI_SUB_CLOCKS, SI_ORDER_FIRST, initclocks, NULL);
86 /* Spin-lock protecting profiling statistics. */
87 static struct mtx time_lock;
90 sysctl_kern_cp_time(SYSCTL_HANDLER_ARGS)
93 long cp_time[CPUSTATES];
96 unsigned int cp_time32[CPUSTATES];
99 read_cpu_time(cp_time);
101 if (req->flags & SCTL_MASK32) {
103 return SYSCTL_OUT(req, 0, sizeof(cp_time32));
104 for (i = 0; i < CPUSTATES; i++)
105 cp_time32[i] = (unsigned int)cp_time[i];
106 error = SYSCTL_OUT(req, cp_time32, sizeof(cp_time32));
111 return SYSCTL_OUT(req, 0, sizeof(cp_time));
112 error = SYSCTL_OUT(req, cp_time, sizeof(cp_time));
117 SYSCTL_PROC(_kern, OID_AUTO, cp_time, CTLTYPE_LONG|CTLFLAG_RD|CTLFLAG_MPSAFE,
118 0,0, sysctl_kern_cp_time, "LU", "CPU time statistics");
120 static long empty[CPUSTATES];
123 sysctl_kern_cp_times(SYSCTL_HANDLER_ARGS)
130 unsigned int cp_time32[CPUSTATES];
136 if (req->flags & SCTL_MASK32)
137 return SYSCTL_OUT(req, 0, sizeof(cp_time32) * (mp_maxid + 1));
140 return SYSCTL_OUT(req, 0, sizeof(long) * CPUSTATES * (mp_maxid + 1));
142 for (error = 0, c = 0; error == 0 && c <= mp_maxid; c++) {
143 if (!CPU_ABSENT(c)) {
145 cp_time = pcpu->pc_cp_time;
150 if (req->flags & SCTL_MASK32) {
151 for (i = 0; i < CPUSTATES; i++)
152 cp_time32[i] = (unsigned int)cp_time[i];
153 error = SYSCTL_OUT(req, cp_time32, sizeof(cp_time32));
156 error = SYSCTL_OUT(req, cp_time, sizeof(long) * CPUSTATES);
161 SYSCTL_PROC(_kern, OID_AUTO, cp_times, CTLTYPE_LONG|CTLFLAG_RD|CTLFLAG_MPSAFE,
162 0,0, sysctl_kern_cp_times, "LU", "per-CPU time statistics");
165 static const char *blessed[] = {
171 static int slptime_threshold = 1800;
172 static int blktime_threshold = 900;
173 static int sleepfreq = 3;
181 int blkticks, i, slpticks, slptype, tryl, tticks;
185 blkticks = blktime_threshold * hz;
186 slpticks = slptime_threshold * hz;
189 * Avoid to sleep on the sx_lock in order to avoid a possible
190 * priority inversion problem leading to starvation.
191 * If the lock can't be held after 100 tries, panic.
193 if (!sx_try_slock(&allproc_lock)) {
195 panic("%s: possible deadlock detected on allproc_lock\n",
198 pause("allproc_lock deadlkres", sleepfreq * hz);
202 FOREACH_PROC_IN_SYSTEM(p) {
204 FOREACH_THREAD_IN_PROC(p, td) {
206 if (TD_ON_LOCK(td)) {
209 * The thread should be blocked on a
210 * turnstile, simply check if the
211 * turnstile channel is in good state.
213 MPASS(td->td_blocked != NULL);
215 /* Handle ticks wrap-up. */
216 if (ticks < td->td_blktick)
218 tticks = ticks - td->td_blktick;
220 if (tticks > blkticks) {
223 * Accordingly with provided
224 * thresholds, this thread is
225 * stuck for too long on a
229 sx_sunlock(&allproc_lock);
230 panic("%s: possible deadlock detected for %p, blocked for %d ticks\n",
231 __func__, td, tticks);
233 } else if (TD_IS_SLEEPING(td)) {
235 /* Handle ticks wrap-up. */
236 if (ticks < td->td_blktick)
240 * Check if the thread is sleeping on a
241 * lock, otherwise skip the check.
242 * Drop the thread lock in order to
243 * avoid a LOR with the sleepqueue
246 wchan = td->td_wchan;
247 tticks = ticks - td->td_slptick;
249 slptype = sleepq_type(wchan);
250 if ((slptype == SLEEPQ_SX ||
251 slptype == SLEEPQ_LK) &&
255 * Accordingly with provided
256 * thresholds, this thread is
257 * stuck for too long on a
259 * However, being on a
260 * sleepqueue, we might still
261 * check for the blessed
265 for (i = 0; blessed[i] != NULL;
267 if (!strcmp(blessed[i],
278 sx_sunlock(&allproc_lock);
279 panic("%s: possible deadlock detected for %p, blocked for %d ticks\n",
280 __func__, td, tticks);
287 sx_sunlock(&allproc_lock);
289 /* Sleep for sleepfreq seconds. */
290 pause("deadlkres", sleepfreq * hz);
294 static struct kthread_desc deadlkres_kd = {
297 (struct thread **)NULL
300 SYSINIT(deadlkres, SI_SUB_CLOCKS, SI_ORDER_ANY, kthread_start, &deadlkres_kd);
302 SYSCTL_NODE(_debug, OID_AUTO, deadlkres, CTLFLAG_RW, 0, "Deadlock resolver");
303 SYSCTL_INT(_debug_deadlkres, OID_AUTO, slptime_threshold, CTLFLAG_RW,
304 &slptime_threshold, 0,
305 "Number of seconds within is valid to sleep on a sleepqueue");
306 SYSCTL_INT(_debug_deadlkres, OID_AUTO, blktime_threshold, CTLFLAG_RW,
307 &blktime_threshold, 0,
308 "Number of seconds within is valid to block on a turnstile");
309 SYSCTL_INT(_debug_deadlkres, OID_AUTO, sleepfreq, CTLFLAG_RW, &sleepfreq, 0,
310 "Number of seconds between any deadlock resolver thread run");
311 #endif /* DEADLKRES */
314 read_cpu_time(long *cp_time)
319 /* Sum up global cp_time[]. */
320 bzero(cp_time, sizeof(long) * CPUSTATES);
321 for (i = 0; i <= mp_maxid; i++) {
325 for (j = 0; j < CPUSTATES; j++)
326 cp_time[j] += pc->pc_cp_time[j];
331 #include <sys/watchdog.h>
333 static int watchdog_ticks;
334 static int watchdog_enabled;
335 static void watchdog_fire(void);
336 static void watchdog_config(void *, u_int, int *);
337 #endif /* SW_WATCHDOG */
340 * Clock handling routines.
342 * This code is written to operate with two timers that run independently of
345 * The main timer, running hz times per second, is used to trigger interval
346 * timers, timeouts and rescheduling as needed.
348 * The second timer handles kernel and user profiling,
349 * and does resource use estimation. If the second timer is programmable,
350 * it is randomized to avoid aliasing between the two clocks. For example,
351 * the randomization prevents an adversary from always giving up the cpu
352 * just before its quantum expires. Otherwise, it would never accumulate
353 * cpu ticks. The mean frequency of the second timer is stathz.
355 * If no second timer exists, stathz will be zero; in this case we drive
356 * profiling and statistics off the main clock. This WILL NOT be accurate;
357 * do not do it unless absolutely necessary.
359 * The statistics clock may (or may not) be run at a higher rate while
360 * profiling. This profile clock runs at profhz. We require that profhz
361 * be an integral multiple of stathz.
363 * If the statistics clock is running fast, it must be divided by the ratio
364 * profhz/stathz for statistics. (For profiling, every tick counts.)
366 * Time-of-day is maintained using a "timecounter", which may or may
367 * not be related to the hardware generating the above mentioned
378 * Initialize clock frequencies and start both clocks running.
388 * Set divisors to 1 (normal case) and let the machine-specific
391 mtx_init(&time_lock, "time lock", NULL, MTX_SPIN);
395 * Compute profhz/stathz, and fix profhz if needed.
397 i = stathz ? stathz : hz;
400 psratio = profhz / i;
402 EVENTHANDLER_REGISTER(watchdog_list, watchdog_config, NULL, 0);
407 * Each time the real-time timer fires, this function is called on all CPUs.
408 * Note that hardclock() calls hardclock_cpu() for the boot CPU, so only
409 * the other CPUs in the system need to call this function.
412 hardclock_cpu(int usermode)
414 struct pstats *pstats;
415 struct thread *td = curthread;
416 struct proc *p = td->td_proc;
420 * Run current process's virtual and profile time, as needed.
425 timevalisset(&pstats->p_timer[ITIMER_VIRTUAL].it_value)) {
427 if (itimerdecr(&pstats->p_timer[ITIMER_VIRTUAL], tick) == 0)
428 flags |= TDF_ALRMPEND | TDF_ASTPENDING;
431 if (timevalisset(&pstats->p_timer[ITIMER_PROF].it_value)) {
433 if (itimerdecr(&pstats->p_timer[ITIMER_PROF], tick) == 0)
434 flags |= TDF_PROFPEND | TDF_ASTPENDING;
439 td->td_flags |= flags;
443 if (PMC_CPU_HAS_SAMPLES(PCPU_GET(cpuid)))
444 PMC_CALL_HOOK_UNLOCKED(curthread, PMC_FN_DO_SAMPLES, NULL);
450 * The real-time timer, interrupting hz times per second.
453 hardclock(int usermode, uintfptr_t pc)
456 atomic_add_int((volatile int *)&ticks, 1);
457 hardclock_cpu(usermode);
460 * If no separate statistics clock is available, run it from here.
462 * XXX: this only works for UP
465 profclock(usermode, pc);
468 #ifdef DEVICE_POLLING
469 hardclock_device_poll(); /* this is very short and quick */
470 #endif /* DEVICE_POLLING */
472 if (watchdog_enabled > 0 && --watchdog_ticks <= 0)
474 #endif /* SW_WATCHDOG */
478 * Compute number of ticks in the specified amount of time.
484 register unsigned long ticks;
485 register long sec, usec;
488 * If the number of usecs in the whole seconds part of the time
489 * difference fits in a long, then the total number of usecs will
490 * fit in an unsigned long. Compute the total and convert it to
491 * ticks, rounding up and adding 1 to allow for the current tick
492 * to expire. Rounding also depends on unsigned long arithmetic
495 * Otherwise, if the number of ticks in the whole seconds part of
496 * the time difference fits in a long, then convert the parts to
497 * ticks separately and add, using similar rounding methods and
498 * overflow avoidance. This method would work in the previous
499 * case but it is slightly slower and assumes that hz is integral.
501 * Otherwise, round the time difference down to the maximum
502 * representable value.
504 * If ints have 32 bits, then the maximum value for any timeout in
505 * 10ms ticks is 248 days.
519 printf("tvotohz: negative time difference %ld sec %ld usec\n",
523 } else if (sec <= LONG_MAX / 1000000)
524 ticks = (sec * 1000000 + (unsigned long)usec + (tick - 1))
526 else if (sec <= LONG_MAX / hz)
528 + ((unsigned long)usec + (tick - 1)) / tick + 1;
537 * Start profiling on a process.
539 * Kernel profiling passes proc0 which never exits and hence
540 * keeps the profile clock running constantly.
544 register struct proc *p;
547 PROC_LOCK_ASSERT(p, MA_OWNED);
548 if (p->p_flag & P_STOPPROF)
550 if ((p->p_flag & P_PROFIL) == 0) {
551 p->p_flag |= P_PROFIL;
552 mtx_lock_spin(&time_lock);
553 if (++profprocs == 1)
554 cpu_startprofclock();
555 mtx_unlock_spin(&time_lock);
560 * Stop profiling on a process.
564 register struct proc *p;
567 PROC_LOCK_ASSERT(p, MA_OWNED);
568 if (p->p_flag & P_PROFIL) {
569 if (p->p_profthreads != 0) {
570 p->p_flag |= P_STOPPROF;
571 while (p->p_profthreads != 0)
572 msleep(&p->p_profthreads, &p->p_mtx, PPAUSE,
574 p->p_flag &= ~P_STOPPROF;
576 if ((p->p_flag & P_PROFIL) == 0)
578 p->p_flag &= ~P_PROFIL;
579 mtx_lock_spin(&time_lock);
580 if (--profprocs == 0)
582 mtx_unlock_spin(&time_lock);
587 * Statistics clock. Updates rusage information and calls the scheduler
588 * to adjust priorities of the active thread.
590 * This should be called by all active processors.
593 statclock(int usermode)
605 cp_time = (long *)PCPU_PTR(cp_time);
608 * Charge the time as appropriate.
611 if (p->p_nice > NZERO)
617 * Came from kernel mode, so we were:
618 * - handling an interrupt,
619 * - doing syscall or trap work on behalf of the current
621 * - spinning in the idle loop.
622 * Whichever it is, charge the time as appropriate.
623 * Note that we charge interrupts to the current process,
624 * regardless of whether they are ``for'' that process,
625 * so that we know how much of its real time was spent
626 * in ``non-process'' (i.e., interrupt) work.
628 if ((td->td_pflags & TDP_ITHREAD) ||
629 td->td_intr_nesting_level >= 2) {
635 if (!TD_IS_IDLETHREAD(td))
642 /* Update resource usage integrals and maximums. */
643 MPASS(p->p_vmspace != NULL);
646 ru->ru_ixrss += pgtok(vm->vm_tsize);
647 ru->ru_idrss += pgtok(vm->vm_dsize);
648 ru->ru_isrss += pgtok(vm->vm_ssize);
649 rss = pgtok(vmspace_resident_count(vm));
650 if (ru->ru_maxrss < rss)
652 KTR_POINT2(KTR_SCHED, "thread", sched_tdname(td), "statclock",
653 "prio:%d", td->td_priority, "stathz:%d", (stathz)?stathz:hz);
654 thread_lock_flags(td, MTX_QUIET);
660 profclock(int usermode, uintfptr_t pc)
671 * Came from user mode; CPU was in user state.
672 * If this process is being profiled, record the tick.
673 * if there is no related user location yet, don't
674 * bother trying to count it.
676 if (td->td_proc->p_flag & P_PROFIL)
677 addupc_intr(td, pc, 1);
682 * Kernel statistics are just like addupc_intr, only easier.
685 if (g->state == GMON_PROF_ON && pc >= g->lowpc) {
687 if (i < g->textsize) {
696 * Return information about system clocks.
699 sysctl_kern_clockrate(SYSCTL_HANDLER_ARGS)
701 struct clockinfo clkinfo;
703 * Construct clockinfo structure.
705 bzero(&clkinfo, sizeof(clkinfo));
708 clkinfo.profhz = profhz;
709 clkinfo.stathz = stathz ? stathz : hz;
710 return (sysctl_handle_opaque(oidp, &clkinfo, sizeof clkinfo, req));
713 SYSCTL_PROC(_kern, KERN_CLOCKRATE, clockrate,
714 CTLTYPE_STRUCT|CTLFLAG_RD|CTLFLAG_MPSAFE,
715 0, 0, sysctl_kern_clockrate, "S,clockinfo",
716 "Rate and period of various kernel clocks");
721 watchdog_config(void *unused __unused, u_int cmd, int *error)
725 u = cmd & WD_INTERVAL;
726 if (u >= WD_TO_1SEC) {
727 watchdog_ticks = (1 << (u - WD_TO_1SEC)) * hz;
728 watchdog_enabled = 1;
731 watchdog_enabled = 0;
736 * Handle a watchdog timeout by dumping interrupt information and
737 * then either dropping to DDB or panicking.
750 nintr = eintrcnt - intrcnt;
752 printf("interrupt total\n");
753 while (--nintr >= 0) {
755 printf("%-12s %20lu\n", curname, *curintr);
756 curname += strlen(curname) + 1;
757 inttotal += *curintr++;
759 printf("Total %20ju\n", (uintmax_t)inttotal);
761 #if defined(KDB) && !defined(KDB_UNATTENDED)
763 kdb_enter(KDB_WHY_WATCHDOG, "watchdog timeout");
765 panic("watchdog timeout");
769 #endif /* SW_WATCHDOG */