xref: /freebsd/sys/kern/sched_4bsd.c (revision ebccf1e3a6b11b97cbf5f813dd76636e892a9035) 
1b43179fbSJeff Roberson /*-
2b43179fbSJeff Roberson  * Copyright (c) 1982, 1986, 1990, 1991, 1993
3b43179fbSJeff Roberson  *	The Regents of the University of California.  All rights reserved.
4b43179fbSJeff Roberson  * (c) UNIX System Laboratories, Inc.
5b43179fbSJeff Roberson  * All or some portions of this file are derived from material licensed
6b43179fbSJeff Roberson  * to the University of California by American Telephone and Telegraph
7b43179fbSJeff Roberson  * Co. or Unix System Laboratories, Inc. and are reproduced herein with
8b43179fbSJeff Roberson  * the permission of UNIX System Laboratories, Inc.
9b43179fbSJeff Roberson  *
10b43179fbSJeff Roberson  * Redistribution and use in source and binary forms, with or without
11b43179fbSJeff Roberson  * modification, are permitted provided that the following conditions
12b43179fbSJeff Roberson  * are met:
13b43179fbSJeff Roberson  * 1. Redistributions of source code must retain the above copyright
14b43179fbSJeff Roberson  *    notice, this list of conditions and the following disclaimer.
15b43179fbSJeff Roberson  * 2. Redistributions in binary form must reproduce the above copyright
16b43179fbSJeff Roberson  *    notice, this list of conditions and the following disclaimer in the
17b43179fbSJeff Roberson  *    documentation and/or other materials provided with the distribution.
18b43179fbSJeff Roberson  * 4. Neither the name of the University nor the names of its contributors
19b43179fbSJeff Roberson  *    may be used to endorse or promote products derived from this software
20b43179fbSJeff Roberson  *    without specific prior written permission.
21b43179fbSJeff Roberson  *
22b43179fbSJeff Roberson  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
23b43179fbSJeff Roberson  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
24b43179fbSJeff Roberson  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
25b43179fbSJeff Roberson  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
26b43179fbSJeff Roberson  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
27b43179fbSJeff Roberson  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
28b43179fbSJeff Roberson  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
29b43179fbSJeff Roberson  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
30b43179fbSJeff Roberson  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
31b43179fbSJeff Roberson  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
32b43179fbSJeff Roberson  * SUCH DAMAGE.
33b43179fbSJeff Roberson  */
34b43179fbSJeff Roberson 
35677b542eSDavid E. O'Brien #include <sys/cdefs.h>
36677b542eSDavid E. O'Brien __FBSDID("$FreeBSD$");
37677b542eSDavid E. O'Brien 
38ed062c8dSJulian Elischer #define kse td_sched
39ed062c8dSJulian Elischer 
40b43179fbSJeff Roberson #include <sys/param.h>
41b43179fbSJeff Roberson #include <sys/systm.h>
42b43179fbSJeff Roberson #include <sys/kernel.h>
43b43179fbSJeff Roberson #include <sys/ktr.h>
44b43179fbSJeff Roberson #include <sys/lock.h>
45c55bbb6cSJohn Baldwin #include <sys/kthread.h>
46b43179fbSJeff Roberson #include <sys/mutex.h>
47b43179fbSJeff Roberson #include <sys/proc.h>
48b43179fbSJeff Roberson #include <sys/resourcevar.h>
49b43179fbSJeff Roberson #include <sys/sched.h>
50b43179fbSJeff Roberson #include <sys/smp.h>
51b43179fbSJeff Roberson #include <sys/sysctl.h>
52b43179fbSJeff Roberson #include <sys/sx.h>
53f5c157d9SJohn Baldwin #include <sys/turnstile.h>
54293968d8SJulian Elischer #include <machine/smp.h>
55b43179fbSJeff Roberson 
56ebccf1e3SJoseph Koshy #ifdef HWPMC_HOOKS
57ebccf1e3SJoseph Koshy #include <sys/pmckern.h>
58ebccf1e3SJoseph Koshy #endif
59ebccf1e3SJoseph Koshy 
6006439a04SJeff Roberson /*
6106439a04SJeff Roberson  * INVERSE_ESTCPU_WEIGHT is only suitable for statclock() frequencies in
6206439a04SJeff Roberson  * the range 100-256 Hz (approximately).
6306439a04SJeff Roberson  */
6406439a04SJeff Roberson #define	ESTCPULIM(e) \
6506439a04SJeff Roberson     min((e), INVERSE_ESTCPU_WEIGHT * (NICE_WEIGHT * (PRIO_MAX - PRIO_MIN) - \
6606439a04SJeff Roberson     RQ_PPQ) + INVERSE_ESTCPU_WEIGHT - 1)
67b698380fSBruce Evans #ifdef SMP
68b698380fSBruce Evans #define	INVERSE_ESTCPU_WEIGHT	(8 * smp_cpus)
69b698380fSBruce Evans #else
7006439a04SJeff Roberson #define	INVERSE_ESTCPU_WEIGHT	8	/* 1 / (priorities per estcpu level). */
71b698380fSBruce Evans #endif
7206439a04SJeff Roberson #define	NICE_WEIGHT		1	/* Priorities per nice level. */
7306439a04SJeff Roberson 
74ed062c8dSJulian Elischer /*
75ed062c8dSJulian Elischer  * The schedulable entity that can be given a context to run.
76ed062c8dSJulian Elischer  * A process may have several of these. Probably one per processor
77ed062c8dSJulian Elischer  * but posibly a few more. In this universe they are grouped
78ed062c8dSJulian Elischer  * with a KSEG that contains the priority and niceness
79ed062c8dSJulian Elischer  * for the group.
80ed062c8dSJulian Elischer  */
81ed062c8dSJulian Elischer struct kse {
82ed062c8dSJulian Elischer 	TAILQ_ENTRY(kse) ke_procq;	/* (j/z) Run queue. */
83ed062c8dSJulian Elischer 	struct thread	*ke_thread;	/* (*) Active associated thread. */
84ed062c8dSJulian Elischer 	fixpt_t		ke_pctcpu;	/* (j) %cpu during p_swtime. */
85ed062c8dSJulian Elischer 	char		ke_rqindex;	/* (j) Run queue index. */
86ed062c8dSJulian Elischer 	enum {
87ed062c8dSJulian Elischer 		KES_THREAD = 0x0,	/* slaved to thread state */
88ed062c8dSJulian Elischer 		KES_ONRUNQ
89ed062c8dSJulian Elischer 	} ke_state;			/* (j) KSE status. */
90ed062c8dSJulian Elischer 	int		ke_cpticks;	/* (j) Ticks of cpu time. */
91ed062c8dSJulian Elischer 	struct runq	*ke_runq;	/* runq the kse is currently on */
92bcb06d59SJeff Roberson };
93ed062c8dSJulian Elischer 
94ed062c8dSJulian Elischer #define ke_proc		ke_thread->td_proc
95ed062c8dSJulian Elischer #define ke_ksegrp	ke_thread->td_ksegrp
96ed062c8dSJulian Elischer 
97ed062c8dSJulian Elischer #define td_kse td_sched
98ed062c8dSJulian Elischer 
99ed062c8dSJulian Elischer /* flags kept in td_flags */
100ed062c8dSJulian Elischer #define TDF_DIDRUN	TDF_SCHED0	/* KSE actually ran. */
101ed062c8dSJulian Elischer #define TDF_EXIT	TDF_SCHED1	/* KSE is being killed. */
102ed062c8dSJulian Elischer #define TDF_BOUND	TDF_SCHED2
103ed062c8dSJulian Elischer 
104ed062c8dSJulian Elischer #define ke_flags	ke_thread->td_flags
105ed062c8dSJulian Elischer #define KEF_DIDRUN	TDF_DIDRUN /* KSE actually ran. */
106ed062c8dSJulian Elischer #define KEF_EXIT	TDF_EXIT /* KSE is being killed. */
107ed062c8dSJulian Elischer #define KEF_BOUND	TDF_BOUND /* stuck to one CPU */
108bcb06d59SJeff Roberson 
109e17c57b1SJeff Roberson #define SKE_RUNQ_PCPU(ke)						\
110e17c57b1SJeff Roberson     ((ke)->ke_runq != 0 && (ke)->ke_runq != &runq)
111e17c57b1SJeff Roberson 
112ed062c8dSJulian Elischer struct kg_sched {
113ed062c8dSJulian Elischer 	struct thread	*skg_last_assigned; /* (j) Last thread assigned to */
114ed062c8dSJulian Elischer 					   /* the system scheduler. */
115ed062c8dSJulian Elischer 	int	skg_avail_opennings;	/* (j) Num KSEs requested in group. */
116ed062c8dSJulian Elischer 	int	skg_concurrency;	/* (j) Num KSEs requested in group. */
117ed062c8dSJulian Elischer };
118ed062c8dSJulian Elischer #define kg_last_assigned	kg_sched->skg_last_assigned
119ed062c8dSJulian Elischer #define kg_avail_opennings	kg_sched->skg_avail_opennings
120ed062c8dSJulian Elischer #define kg_concurrency		kg_sched->skg_concurrency
121ed062c8dSJulian Elischer 
122d39063f2SJulian Elischer #define SLOT_RELEASE(kg)						\
123d39063f2SJulian Elischer do {									\
124d39063f2SJulian Elischer 	kg->kg_avail_opennings++; 					\
125d39063f2SJulian Elischer 	CTR3(KTR_RUNQ, "kg %p(%d) Slot released (->%d)",		\
126d39063f2SJulian Elischer 	kg,								\
127d39063f2SJulian Elischer 	kg->kg_concurrency,						\
128d39063f2SJulian Elischer 	 kg->kg_avail_opennings);					\
129d39063f2SJulian Elischer /*	KASSERT((kg->kg_avail_opennings <= kg->kg_concurrency),		\
130d39063f2SJulian Elischer 	    ("slots out of whack"));*/					\
131d39063f2SJulian Elischer } while (0)
132d39063f2SJulian Elischer 
133d39063f2SJulian Elischer #define SLOT_USE(kg)							\
134d39063f2SJulian Elischer do {									\
135d39063f2SJulian Elischer 	kg->kg_avail_opennings--; 					\
136d39063f2SJulian Elischer 	CTR3(KTR_RUNQ, "kg %p(%d) Slot used (->%d)",			\
137d39063f2SJulian Elischer 	kg,								\
138d39063f2SJulian Elischer 	kg->kg_concurrency,						\
139d39063f2SJulian Elischer 	 kg->kg_avail_opennings);					\
140d39063f2SJulian Elischer /*	KASSERT((kg->kg_avail_opennings >= 0),				\
141d39063f2SJulian Elischer 	    ("slots out of whack"));*/					\
142d39063f2SJulian Elischer } while (0)
143d39063f2SJulian Elischer 
144e17c57b1SJeff Roberson /*
145e17c57b1SJeff Roberson  * KSE_CAN_MIGRATE macro returns true if the kse can migrate between
146f2f51f8aSJeff Roberson  * cpus.
147e17c57b1SJeff Roberson  */
148e17c57b1SJeff Roberson #define KSE_CAN_MIGRATE(ke)						\
1491e7fad6bSScott Long     ((ke)->ke_thread->td_pinned == 0 && ((ke)->ke_flags & KEF_BOUND) == 0)
150bcb06d59SJeff Roberson 
151ed062c8dSJulian Elischer static struct kse kse0;
152ed062c8dSJulian Elischer static struct kg_sched kg_sched0;
153b43179fbSJeff Roberson 
154ca59f152SJeff Roberson static int	sched_tdcnt;	/* Total runnable threads in the system. */
155b43179fbSJeff Roberson static int	sched_quantum;	/* Roundrobin scheduling quantum in ticks. */
1564974b53eSMaxime Henrion #define	SCHED_QUANTUM	(hz / 10)	/* Default sched quantum */
157b43179fbSJeff Roberson 
158b43179fbSJeff Roberson static struct callout roundrobin_callout;
159b43179fbSJeff Roberson 
160ed062c8dSJulian Elischer static void	slot_fill(struct ksegrp *kg);
161ed062c8dSJulian Elischer static struct kse *sched_choose(void);		/* XXX Should be thread * */
162ed062c8dSJulian Elischer 
163e17c57b1SJeff Roberson static void	setup_runqs(void);
164b43179fbSJeff Roberson static void	roundrobin(void *arg);
165c55bbb6cSJohn Baldwin static void	schedcpu(void);
166e17c57b1SJeff Roberson static void	schedcpu_thread(void);
167f5c157d9SJohn Baldwin static void	sched_priority(struct thread *td, u_char prio);
168b43179fbSJeff Roberson static void	sched_setup(void *dummy);
169b43179fbSJeff Roberson static void	maybe_resched(struct thread *td);
170b43179fbSJeff Roberson static void	updatepri(struct ksegrp *kg);
171b43179fbSJeff Roberson static void	resetpriority(struct ksegrp *kg);
172f5c157d9SJohn Baldwin static void	resetpriority_thread(struct thread *td, struct ksegrp *kg);
17300b0483dSJulian Elischer #ifdef SMP
17482a1dfc1SJulian Elischer static int	forward_wakeup(int  cpunum);
17500b0483dSJulian Elischer #endif
176b43179fbSJeff Roberson 
177e17c57b1SJeff Roberson static struct kproc_desc sched_kp = {
178e17c57b1SJeff Roberson         "schedcpu",
179e17c57b1SJeff Roberson         schedcpu_thread,
180e17c57b1SJeff Roberson         NULL
181e17c57b1SJeff Roberson };
182e17c57b1SJeff Roberson SYSINIT(schedcpu, SI_SUB_RUN_SCHEDULER, SI_ORDER_FIRST, kproc_start, &sched_kp)
183e17c57b1SJeff Roberson SYSINIT(sched_setup, SI_SUB_RUN_QUEUE, SI_ORDER_FIRST, sched_setup, NULL)
184b43179fbSJeff Roberson 
185b43179fbSJeff Roberson /*
186b43179fbSJeff Roberson  * Global run queue.
187b43179fbSJeff Roberson  */
188b43179fbSJeff Roberson static struct runq runq;
189e17c57b1SJeff Roberson 
190e17c57b1SJeff Roberson #ifdef SMP
191e17c57b1SJeff Roberson /*
192e17c57b1SJeff Roberson  * Per-CPU run queues
193e17c57b1SJeff Roberson  */
194e17c57b1SJeff Roberson static struct runq runq_pcpu[MAXCPU];
195e17c57b1SJeff Roberson #endif
196e17c57b1SJeff Roberson 
197e17c57b1SJeff Roberson static void
198e17c57b1SJeff Roberson setup_runqs(void)
199e17c57b1SJeff Roberson {
200e17c57b1SJeff Roberson #ifdef SMP
201e17c57b1SJeff Roberson 	int i;
202e17c57b1SJeff Roberson 
203e17c57b1SJeff Roberson 	for (i = 0; i < MAXCPU; ++i)
204e17c57b1SJeff Roberson 		runq_init(&runq_pcpu[i]);
205e17c57b1SJeff Roberson #endif
206e17c57b1SJeff Roberson 
207e17c57b1SJeff Roberson 	runq_init(&runq);
208e17c57b1SJeff Roberson }
209b43179fbSJeff Roberson 
210b43179fbSJeff Roberson static int
211b43179fbSJeff Roberson sysctl_kern_quantum(SYSCTL_HANDLER_ARGS)
212b43179fbSJeff Roberson {
213b43179fbSJeff Roberson 	int error, new_val;
214b43179fbSJeff Roberson 
215b43179fbSJeff Roberson 	new_val = sched_quantum * tick;
216b43179fbSJeff Roberson 	error = sysctl_handle_int(oidp, &new_val, 0, req);
217b43179fbSJeff Roberson         if (error != 0 || req->newptr == NULL)
218b43179fbSJeff Roberson 		return (error);
219b43179fbSJeff Roberson 	if (new_val < tick)
220b43179fbSJeff Roberson 		return (EINVAL);
221b43179fbSJeff Roberson 	sched_quantum = new_val / tick;
222b43179fbSJeff Roberson 	hogticks = 2 * sched_quantum;
223b43179fbSJeff Roberson 	return (0);
224b43179fbSJeff Roberson }
225b43179fbSJeff Roberson 
226e038d354SScott Long SYSCTL_NODE(_kern, OID_AUTO, sched, CTLFLAG_RD, 0, "Scheduler");
227dc095794SScott Long 
228e038d354SScott Long SYSCTL_STRING(_kern_sched, OID_AUTO, name, CTLFLAG_RD, "4BSD", 0,
229e038d354SScott Long     "Scheduler name");
230dc095794SScott Long 
231dc095794SScott Long SYSCTL_PROC(_kern_sched, OID_AUTO, quantum, CTLTYPE_INT | CTLFLAG_RW,
232b43179fbSJeff Roberson     0, sizeof sched_quantum, sysctl_kern_quantum, "I",
233b43179fbSJeff Roberson     "Roundrobin scheduling quantum in microseconds");
234b43179fbSJeff Roberson 
23537c28a02SJulian Elischer #ifdef SMP
23682a1dfc1SJulian Elischer /* Enable forwarding of wakeups to all other cpus */
23782a1dfc1SJulian Elischer SYSCTL_NODE(_kern_sched, OID_AUTO, ipiwakeup, CTLFLAG_RD, NULL, "Kernel SMP");
23882a1dfc1SJulian Elischer 
239bce73aedSJulian Elischer static int forward_wakeup_enabled = 1;
24082a1dfc1SJulian Elischer SYSCTL_INT(_kern_sched_ipiwakeup, OID_AUTO, enabled, CTLFLAG_RW,
24182a1dfc1SJulian Elischer 	   &forward_wakeup_enabled, 0,
24282a1dfc1SJulian Elischer 	   "Forwarding of wakeup to idle CPUs");
24382a1dfc1SJulian Elischer 
24482a1dfc1SJulian Elischer static int forward_wakeups_requested = 0;
24582a1dfc1SJulian Elischer SYSCTL_INT(_kern_sched_ipiwakeup, OID_AUTO, requested, CTLFLAG_RD,
24682a1dfc1SJulian Elischer 	   &forward_wakeups_requested, 0,
24782a1dfc1SJulian Elischer 	   "Requests for Forwarding of wakeup to idle CPUs");
24882a1dfc1SJulian Elischer 
24982a1dfc1SJulian Elischer static int forward_wakeups_delivered = 0;
25082a1dfc1SJulian Elischer SYSCTL_INT(_kern_sched_ipiwakeup, OID_AUTO, delivered, CTLFLAG_RD,
25182a1dfc1SJulian Elischer 	   &forward_wakeups_delivered, 0,
25282a1dfc1SJulian Elischer 	   "Completed Forwarding of wakeup to idle CPUs");
25382a1dfc1SJulian Elischer 
254bce73aedSJulian Elischer static int forward_wakeup_use_mask = 1;
25582a1dfc1SJulian Elischer SYSCTL_INT(_kern_sched_ipiwakeup, OID_AUTO, usemask, CTLFLAG_RW,
25682a1dfc1SJulian Elischer 	   &forward_wakeup_use_mask, 0,
25782a1dfc1SJulian Elischer 	   "Use the mask of idle cpus");
25882a1dfc1SJulian Elischer 
25982a1dfc1SJulian Elischer static int forward_wakeup_use_loop = 0;
26082a1dfc1SJulian Elischer SYSCTL_INT(_kern_sched_ipiwakeup, OID_AUTO, useloop, CTLFLAG_RW,
26182a1dfc1SJulian Elischer 	   &forward_wakeup_use_loop, 0,
26282a1dfc1SJulian Elischer 	   "Use a loop to find idle cpus");
26382a1dfc1SJulian Elischer 
26482a1dfc1SJulian Elischer static int forward_wakeup_use_single = 0;
26582a1dfc1SJulian Elischer SYSCTL_INT(_kern_sched_ipiwakeup, OID_AUTO, onecpu, CTLFLAG_RW,
26682a1dfc1SJulian Elischer 	   &forward_wakeup_use_single, 0,
26782a1dfc1SJulian Elischer 	   "Only signal one idle cpu");
26882a1dfc1SJulian Elischer 
26982a1dfc1SJulian Elischer static int forward_wakeup_use_htt = 0;
27082a1dfc1SJulian Elischer SYSCTL_INT(_kern_sched_ipiwakeup, OID_AUTO, htt2, CTLFLAG_RW,
27182a1dfc1SJulian Elischer 	   &forward_wakeup_use_htt, 0,
27282a1dfc1SJulian Elischer 	   "account for htt");
2733389af30SJulian Elischer 
27437c28a02SJulian Elischer #endif
2753389af30SJulian Elischer static int sched_followon = 0;
2763389af30SJulian Elischer SYSCTL_INT(_kern_sched, OID_AUTO, followon, CTLFLAG_RW,
2773389af30SJulian Elischer 	   &sched_followon, 0,
2783389af30SJulian Elischer 	   "allow threads to share a quantum");
2793389af30SJulian Elischer 
2803389af30SJulian Elischer static int sched_pfollowons = 0;
2813389af30SJulian Elischer SYSCTL_INT(_kern_sched, OID_AUTO, pfollowons, CTLFLAG_RD,
2823389af30SJulian Elischer 	   &sched_pfollowons, 0,
2833389af30SJulian Elischer 	   "number of followons done to a different ksegrp");
2843389af30SJulian Elischer 
2853389af30SJulian Elischer static int sched_kgfollowons = 0;
2863389af30SJulian Elischer SYSCTL_INT(_kern_sched, OID_AUTO, kgfollowons, CTLFLAG_RD,
2873389af30SJulian Elischer 	   &sched_kgfollowons, 0,
2883389af30SJulian Elischer 	   "number of followons done in a ksegrp");
28982a1dfc1SJulian Elischer 
290907bdbc2SJeff Roberson static __inline void
291907bdbc2SJeff Roberson sched_load_add(void)
292907bdbc2SJeff Roberson {
293907bdbc2SJeff Roberson 	sched_tdcnt++;
294907bdbc2SJeff Roberson 	CTR1(KTR_SCHED, "global load: %d", sched_tdcnt);
295907bdbc2SJeff Roberson }
296907bdbc2SJeff Roberson 
297907bdbc2SJeff Roberson static __inline void
298907bdbc2SJeff Roberson sched_load_rem(void)
299907bdbc2SJeff Roberson {
300907bdbc2SJeff Roberson 	sched_tdcnt--;
301907bdbc2SJeff Roberson 	CTR1(KTR_SCHED, "global load: %d", sched_tdcnt);
302907bdbc2SJeff Roberson }
303b43179fbSJeff Roberson /*
304b43179fbSJeff Roberson  * Arrange to reschedule if necessary, taking the priorities and
305b43179fbSJeff Roberson  * schedulers into account.
306b43179fbSJeff Roberson  */
307b43179fbSJeff Roberson static void
308b43179fbSJeff Roberson maybe_resched(struct thread *td)
309b43179fbSJeff Roberson {
310b43179fbSJeff Roberson 
311b43179fbSJeff Roberson 	mtx_assert(&sched_lock, MA_OWNED);
312ed062c8dSJulian Elischer 	if (td->td_priority < curthread->td_priority)
3134a338afdSJulian Elischer 		curthread->td_flags |= TDF_NEEDRESCHED;
314b43179fbSJeff Roberson }
315b43179fbSJeff Roberson 
316b43179fbSJeff Roberson /*
317b43179fbSJeff Roberson  * Force switch among equal priority processes every 100ms.
318b43179fbSJeff Roberson  * We don't actually need to force a context switch of the current process.
319b43179fbSJeff Roberson  * The act of firing the event triggers a context switch to softclock() and
320b43179fbSJeff Roberson  * then switching back out again which is equivalent to a preemption, thus
321b43179fbSJeff Roberson  * no further work is needed on the local CPU.
322b43179fbSJeff Roberson  */
323b43179fbSJeff Roberson /* ARGSUSED */
324b43179fbSJeff Roberson static void
325b43179fbSJeff Roberson roundrobin(void *arg)
326b43179fbSJeff Roberson {
327b43179fbSJeff Roberson 
328b43179fbSJeff Roberson #ifdef SMP
329b43179fbSJeff Roberson 	mtx_lock_spin(&sched_lock);
330b43179fbSJeff Roberson 	forward_roundrobin();
331b43179fbSJeff Roberson 	mtx_unlock_spin(&sched_lock);
332b43179fbSJeff Roberson #endif
333b43179fbSJeff Roberson 
334b43179fbSJeff Roberson 	callout_reset(&roundrobin_callout, sched_quantum, roundrobin, NULL);
335b43179fbSJeff Roberson }
336b43179fbSJeff Roberson 
337b43179fbSJeff Roberson /*
338b43179fbSJeff Roberson  * Constants for digital decay and forget:
33970fca427SJohn Baldwin  *	90% of (kg_estcpu) usage in 5 * loadav time
34070fca427SJohn Baldwin  *	95% of (ke_pctcpu) usage in 60 seconds (load insensitive)
341b43179fbSJeff Roberson  *          Note that, as ps(1) mentions, this can let percentages
342b43179fbSJeff Roberson  *          total over 100% (I've seen 137.9% for 3 processes).
343b43179fbSJeff Roberson  *
34470fca427SJohn Baldwin  * Note that schedclock() updates kg_estcpu and p_cpticks asynchronously.
345b43179fbSJeff Roberson  *
34670fca427SJohn Baldwin  * We wish to decay away 90% of kg_estcpu in (5 * loadavg) seconds.
347b43179fbSJeff Roberson  * That is, the system wants to compute a value of decay such
348b43179fbSJeff Roberson  * that the following for loop:
349b43179fbSJeff Roberson  * 	for (i = 0; i < (5 * loadavg); i++)
35070fca427SJohn Baldwin  * 		kg_estcpu *= decay;
351b43179fbSJeff Roberson  * will compute
35270fca427SJohn Baldwin  * 	kg_estcpu *= 0.1;
353b43179fbSJeff Roberson  * for all values of loadavg:
354b43179fbSJeff Roberson  *
355b43179fbSJeff Roberson  * Mathematically this loop can be expressed by saying:
356b43179fbSJeff Roberson  * 	decay ** (5 * loadavg) ~= .1
357b43179fbSJeff Roberson  *
358b43179fbSJeff Roberson  * The system computes decay as:
359b43179fbSJeff Roberson  * 	decay = (2 * loadavg) / (2 * loadavg + 1)
360b43179fbSJeff Roberson  *
361b43179fbSJeff Roberson  * We wish to prove that the system's computation of decay
362b43179fbSJeff Roberson  * will always fulfill the equation:
363b43179fbSJeff Roberson  * 	decay ** (5 * loadavg) ~= .1
364b43179fbSJeff Roberson  *
365b43179fbSJeff Roberson  * If we compute b as:
366b43179fbSJeff Roberson  * 	b = 2 * loadavg
367b43179fbSJeff Roberson  * then
368b43179fbSJeff Roberson  * 	decay = b / (b + 1)
369b43179fbSJeff Roberson  *
370b43179fbSJeff Roberson  * We now need to prove two things:
371b43179fbSJeff Roberson  *	1) Given factor ** (5 * loadavg) ~= .1, prove factor == b/(b+1)
372b43179fbSJeff Roberson  *	2) Given b/(b+1) ** power ~= .1, prove power == (5 * loadavg)
373b43179fbSJeff Roberson  *
374b43179fbSJeff Roberson  * Facts:
375b43179fbSJeff Roberson  *         For x close to zero, exp(x) =~ 1 + x, since
376b43179fbSJeff Roberson  *              exp(x) = 0! + x**1/1! + x**2/2! + ... .
377b43179fbSJeff Roberson  *              therefore exp(-1/b) =~ 1 - (1/b) = (b-1)/b.
378b43179fbSJeff Roberson  *         For x close to zero, ln(1+x) =~ x, since
379b43179fbSJeff Roberson  *              ln(1+x) = x - x**2/2 + x**3/3 - ...     -1 < x < 1
380b43179fbSJeff Roberson  *              therefore ln(b/(b+1)) = ln(1 - 1/(b+1)) =~ -1/(b+1).
381b43179fbSJeff Roberson  *         ln(.1) =~ -2.30
382b43179fbSJeff Roberson  *
383b43179fbSJeff Roberson  * Proof of (1):
384b43179fbSJeff Roberson  *    Solve (factor)**(power) =~ .1 given power (5*loadav):
385b43179fbSJeff Roberson  *	solving for factor,
386b43179fbSJeff Roberson  *      ln(factor) =~ (-2.30/5*loadav), or
387b43179fbSJeff Roberson  *      factor =~ exp(-1/((5/2.30)*loadav)) =~ exp(-1/(2*loadav)) =
388b43179fbSJeff Roberson  *          exp(-1/b) =~ (b-1)/b =~ b/(b+1).                    QED
389b43179fbSJeff Roberson  *
390b43179fbSJeff Roberson  * Proof of (2):
391b43179fbSJeff Roberson  *    Solve (factor)**(power) =~ .1 given factor == (b/(b+1)):
392b43179fbSJeff Roberson  *	solving for power,
393b43179fbSJeff Roberson  *      power*ln(b/(b+1)) =~ -2.30, or
394b43179fbSJeff Roberson  *      power =~ 2.3 * (b + 1) = 4.6*loadav + 2.3 =~ 5*loadav.  QED
395b43179fbSJeff Roberson  *
396b43179fbSJeff Roberson  * Actual power values for the implemented algorithm are as follows:
397b43179fbSJeff Roberson  *      loadav: 1       2       3       4
398b43179fbSJeff Roberson  *      power:  5.68    10.32   14.94   19.55
399b43179fbSJeff Roberson  */
400b43179fbSJeff Roberson 
401b43179fbSJeff Roberson /* calculations for digital decay to forget 90% of usage in 5*loadav sec */
402b43179fbSJeff Roberson #define	loadfactor(loadav)	(2 * (loadav))
403b43179fbSJeff Roberson #define	decay_cpu(loadfac, cpu)	(((loadfac) * (cpu)) / ((loadfac) + FSCALE))
404b43179fbSJeff Roberson 
40570fca427SJohn Baldwin /* decay 95% of `ke_pctcpu' in 60 seconds; see CCPU_SHIFT before changing */
406b43179fbSJeff Roberson static fixpt_t	ccpu = 0.95122942450071400909 * FSCALE;	/* exp(-1/20) */
407b43179fbSJeff Roberson SYSCTL_INT(_kern, OID_AUTO, ccpu, CTLFLAG_RD, &ccpu, 0, "");
408b43179fbSJeff Roberson 
409b43179fbSJeff Roberson /*
410b43179fbSJeff Roberson  * If `ccpu' is not equal to `exp(-1/20)' and you still want to use the
411b43179fbSJeff Roberson  * faster/more-accurate formula, you'll have to estimate CCPU_SHIFT below
412b43179fbSJeff Roberson  * and possibly adjust FSHIFT in "param.h" so that (FSHIFT >= CCPU_SHIFT).
413b43179fbSJeff Roberson  *
414b43179fbSJeff Roberson  * To estimate CCPU_SHIFT for exp(-1/20), the following formula was used:
415b43179fbSJeff Roberson  *	1 - exp(-1/20) ~= 0.0487 ~= 0.0488 == 1 (fixed pt, *11* bits).
416b43179fbSJeff Roberson  *
417b43179fbSJeff Roberson  * If you don't want to bother with the faster/more-accurate formula, you
418b43179fbSJeff Roberson  * can set CCPU_SHIFT to (FSHIFT + 1) which will use a slower/less-accurate
419b43179fbSJeff Roberson  * (more general) method of calculating the %age of CPU used by a process.
420b43179fbSJeff Roberson  */
421b43179fbSJeff Roberson #define	CCPU_SHIFT	11
422b43179fbSJeff Roberson 
423b43179fbSJeff Roberson /*
424b43179fbSJeff Roberson  * Recompute process priorities, every hz ticks.
425b43179fbSJeff Roberson  * MP-safe, called without the Giant mutex.
426b43179fbSJeff Roberson  */
427b43179fbSJeff Roberson /* ARGSUSED */
428b43179fbSJeff Roberson static void
429c55bbb6cSJohn Baldwin schedcpu(void)
430b43179fbSJeff Roberson {
431b43179fbSJeff Roberson 	register fixpt_t loadfac = loadfactor(averunnable.ldavg[0]);
432b43179fbSJeff Roberson 	struct thread *td;
433b43179fbSJeff Roberson 	struct proc *p;
434b43179fbSJeff Roberson 	struct kse *ke;
435b43179fbSJeff Roberson 	struct ksegrp *kg;
43670fca427SJohn Baldwin 	int awake, realstathz;
437b43179fbSJeff Roberson 
438b43179fbSJeff Roberson 	realstathz = stathz ? stathz : hz;
439b43179fbSJeff Roberson 	sx_slock(&allproc_lock);
440b43179fbSJeff Roberson 	FOREACH_PROC_IN_SYSTEM(p) {
44170fca427SJohn Baldwin 		/*
44270fca427SJohn Baldwin 		 * Prevent state changes and protect run queue.
44370fca427SJohn Baldwin 		 */
444b43179fbSJeff Roberson 		mtx_lock_spin(&sched_lock);
44570fca427SJohn Baldwin 		/*
44670fca427SJohn Baldwin 		 * Increment time in/out of memory.  We ignore overflow; with
44770fca427SJohn Baldwin 		 * 16-bit int's (remember them?) overflow takes 45 days.
44870fca427SJohn Baldwin 		 */
449b43179fbSJeff Roberson 		p->p_swtime++;
450b43179fbSJeff Roberson 		FOREACH_KSEGRP_IN_PROC(p, kg) {
451b43179fbSJeff Roberson 			awake = 0;
452ed062c8dSJulian Elischer 			FOREACH_THREAD_IN_GROUP(kg, td) {
453ed062c8dSJulian Elischer 				ke = td->td_kse;
454b43179fbSJeff Roberson 				/*
45570fca427SJohn Baldwin 				 * Increment sleep time (if sleeping).  We
45670fca427SJohn Baldwin 				 * ignore overflow, as above.
457b43179fbSJeff Roberson 				 */
458b43179fbSJeff Roberson 				/*
459b43179fbSJeff Roberson 				 * The kse slptimes are not touched in wakeup
460b43179fbSJeff Roberson 				 * because the thread may not HAVE a KSE.
461b43179fbSJeff Roberson 				 */
462b43179fbSJeff Roberson 				if (ke->ke_state == KES_ONRUNQ) {
463b43179fbSJeff Roberson 					awake = 1;
464b43179fbSJeff Roberson 					ke->ke_flags &= ~KEF_DIDRUN;
465b43179fbSJeff Roberson 				} else if ((ke->ke_state == KES_THREAD) &&
466ed062c8dSJulian Elischer 				    (TD_IS_RUNNING(td))) {
467b43179fbSJeff Roberson 					awake = 1;
468b43179fbSJeff Roberson 					/* Do not clear KEF_DIDRUN */
469b43179fbSJeff Roberson 				} else if (ke->ke_flags & KEF_DIDRUN) {
470b43179fbSJeff Roberson 					awake = 1;
471b43179fbSJeff Roberson 					ke->ke_flags &= ~KEF_DIDRUN;
472b43179fbSJeff Roberson 				}
473b43179fbSJeff Roberson 
474b43179fbSJeff Roberson 				/*
47570fca427SJohn Baldwin 				 * ke_pctcpu is only for ps and ttyinfo().
47670fca427SJohn Baldwin 				 * Do it per kse, and add them up at the end?
477b43179fbSJeff Roberson 				 * XXXKSE
478b43179fbSJeff Roberson 				 */
47970fca427SJohn Baldwin 				ke->ke_pctcpu = (ke->ke_pctcpu * ccpu) >>
480bcb06d59SJeff Roberson 				    FSHIFT;
481b43179fbSJeff Roberson 				/*
482b43179fbSJeff Roberson 				 * If the kse has been idle the entire second,
483b43179fbSJeff Roberson 				 * stop recalculating its priority until
484b43179fbSJeff Roberson 				 * it wakes up.
485b43179fbSJeff Roberson 				 */
486ad59c36bSJulian Elischer 				if (ke->ke_cpticks == 0)
487b43179fbSJeff Roberson 					continue;
488b43179fbSJeff Roberson #if	(FSHIFT >= CCPU_SHIFT)
4898fb913faSJeff Roberson 				ke->ke_pctcpu += (realstathz == 100)
490ad59c36bSJulian Elischer 				    ? ((fixpt_t) ke->ke_cpticks) <<
491b43179fbSJeff Roberson 				    (FSHIFT - CCPU_SHIFT) :
492ad59c36bSJulian Elischer 				    100 * (((fixpt_t) ke->ke_cpticks)
493bcb06d59SJeff Roberson 				    << (FSHIFT - CCPU_SHIFT)) / realstathz;
494b43179fbSJeff Roberson #else
4958fb913faSJeff Roberson 				ke->ke_pctcpu += ((FSCALE - ccpu) *
496ad59c36bSJulian Elischer 				    (ke->ke_cpticks *
497bcb06d59SJeff Roberson 				    FSCALE / realstathz)) >> FSHIFT;
498b43179fbSJeff Roberson #endif
499ad59c36bSJulian Elischer 				ke->ke_cpticks = 0;
500b43179fbSJeff Roberson 			} /* end of kse loop */
501b43179fbSJeff Roberson 			/*
502b43179fbSJeff Roberson 			 * If there are ANY running threads in this KSEGRP,
503b43179fbSJeff Roberson 			 * then don't count it as sleeping.
504b43179fbSJeff Roberson 			 */
505b43179fbSJeff Roberson 			if (awake) {
506b43179fbSJeff Roberson 				if (kg->kg_slptime > 1) {
507b43179fbSJeff Roberson 					/*
508b43179fbSJeff Roberson 					 * In an ideal world, this should not
509b43179fbSJeff Roberson 					 * happen, because whoever woke us
510b43179fbSJeff Roberson 					 * up from the long sleep should have
511b43179fbSJeff Roberson 					 * unwound the slptime and reset our
512b43179fbSJeff Roberson 					 * priority before we run at the stale
513b43179fbSJeff Roberson 					 * priority.  Should KASSERT at some
514b43179fbSJeff Roberson 					 * point when all the cases are fixed.
515b43179fbSJeff Roberson 					 */
516b43179fbSJeff Roberson 					updatepri(kg);
517b43179fbSJeff Roberson 				}
518b43179fbSJeff Roberson 				kg->kg_slptime = 0;
51970fca427SJohn Baldwin 			} else
520b43179fbSJeff Roberson 				kg->kg_slptime++;
521b43179fbSJeff Roberson 			if (kg->kg_slptime > 1)
522b43179fbSJeff Roberson 				continue;
523b43179fbSJeff Roberson 			kg->kg_estcpu = decay_cpu(loadfac, kg->kg_estcpu);
524b43179fbSJeff Roberson 		      	resetpriority(kg);
525b43179fbSJeff Roberson 			FOREACH_THREAD_IN_GROUP(kg, td) {
526f5c157d9SJohn Baldwin 				resetpriority_thread(td, kg);
527b43179fbSJeff Roberson 			}
528b43179fbSJeff Roberson 		} /* end of ksegrp loop */
529b43179fbSJeff Roberson 		mtx_unlock_spin(&sched_lock);
530b43179fbSJeff Roberson 	} /* end of process loop */
531b43179fbSJeff Roberson 	sx_sunlock(&allproc_lock);
532c55bbb6cSJohn Baldwin }
533c55bbb6cSJohn Baldwin 
534c55bbb6cSJohn Baldwin /*
535c55bbb6cSJohn Baldwin  * Main loop for a kthread that executes schedcpu once a second.
536c55bbb6cSJohn Baldwin  */
537c55bbb6cSJohn Baldwin static void
538e17c57b1SJeff Roberson schedcpu_thread(void)
539c55bbb6cSJohn Baldwin {
540c55bbb6cSJohn Baldwin 	int nowake;
541c55bbb6cSJohn Baldwin 
542c55bbb6cSJohn Baldwin 	for (;;) {
543c55bbb6cSJohn Baldwin 		schedcpu();
544c55bbb6cSJohn Baldwin 		tsleep(&nowake, curthread->td_priority, "-", hz);
545c55bbb6cSJohn Baldwin 	}
546b43179fbSJeff Roberson }
547b43179fbSJeff Roberson 
548b43179fbSJeff Roberson /*
549b43179fbSJeff Roberson  * Recalculate the priority of a process after it has slept for a while.
55070fca427SJohn Baldwin  * For all load averages >= 1 and max kg_estcpu of 255, sleeping for at
55170fca427SJohn Baldwin  * least six times the loadfactor will decay kg_estcpu to zero.
552b43179fbSJeff Roberson  */
553b43179fbSJeff Roberson static void
554b43179fbSJeff Roberson updatepri(struct ksegrp *kg)
555b43179fbSJeff Roberson {
55670fca427SJohn Baldwin 	register fixpt_t loadfac;
557b43179fbSJeff Roberson 	register unsigned int newcpu;
558b43179fbSJeff Roberson 
55970fca427SJohn Baldwin 	loadfac = loadfactor(averunnable.ldavg[0]);
560b43179fbSJeff Roberson 	if (kg->kg_slptime > 5 * loadfac)
561b43179fbSJeff Roberson 		kg->kg_estcpu = 0;
562b43179fbSJeff Roberson 	else {
56370fca427SJohn Baldwin 		newcpu = kg->kg_estcpu;
56470fca427SJohn Baldwin 		kg->kg_slptime--;	/* was incremented in schedcpu() */
565b43179fbSJeff Roberson 		while (newcpu && --kg->kg_slptime)
566b43179fbSJeff Roberson 			newcpu = decay_cpu(loadfac, newcpu);
567b43179fbSJeff Roberson 		kg->kg_estcpu = newcpu;
568b43179fbSJeff Roberson 	}
569b43179fbSJeff Roberson }
570b43179fbSJeff Roberson 
571b43179fbSJeff Roberson /*
572b43179fbSJeff Roberson  * Compute the priority of a process when running in user mode.
573b43179fbSJeff Roberson  * Arrange to reschedule if the resulting priority is better
574b43179fbSJeff Roberson  * than that of the current process.
575b43179fbSJeff Roberson  */
576b43179fbSJeff Roberson static void
577b43179fbSJeff Roberson resetpriority(struct ksegrp *kg)
578b43179fbSJeff Roberson {
579b43179fbSJeff Roberson 	register unsigned int newpriority;
580b43179fbSJeff Roberson 
581b43179fbSJeff Roberson 	if (kg->kg_pri_class == PRI_TIMESHARE) {
582b43179fbSJeff Roberson 		newpriority = PUSER + kg->kg_estcpu / INVERSE_ESTCPU_WEIGHT +
583fa885116SJulian Elischer 		    NICE_WEIGHT * (kg->kg_proc->p_nice - PRIO_MIN);
584b43179fbSJeff Roberson 		newpriority = min(max(newpriority, PRI_MIN_TIMESHARE),
585b43179fbSJeff Roberson 		    PRI_MAX_TIMESHARE);
586b43179fbSJeff Roberson 		kg->kg_user_pri = newpriority;
587b43179fbSJeff Roberson 	}
588b43179fbSJeff Roberson }
589f5c157d9SJohn Baldwin 
590f5c157d9SJohn Baldwin /*
591f5c157d9SJohn Baldwin  * Update the thread's priority when the associated ksegroup's user
592f5c157d9SJohn Baldwin  * priority changes.
593f5c157d9SJohn Baldwin  */
594f5c157d9SJohn Baldwin static void
595f5c157d9SJohn Baldwin resetpriority_thread(struct thread *td, struct ksegrp *kg)
596f5c157d9SJohn Baldwin {
597f5c157d9SJohn Baldwin 
598f5c157d9SJohn Baldwin 	/* Only change threads with a time sharing user priority. */
599f5c157d9SJohn Baldwin 	if (td->td_priority < PRI_MIN_TIMESHARE ||
600f5c157d9SJohn Baldwin 	    td->td_priority > PRI_MAX_TIMESHARE)
601f5c157d9SJohn Baldwin 		return;
602f5c157d9SJohn Baldwin 
603f5c157d9SJohn Baldwin 	/* XXX the whole needresched thing is broken, but not silly. */
604f5c157d9SJohn Baldwin 	maybe_resched(td);
605f5c157d9SJohn Baldwin 
606f5c157d9SJohn Baldwin 	sched_prio(td, kg->kg_user_pri);
607b43179fbSJeff Roberson }
608b43179fbSJeff Roberson 
609b43179fbSJeff Roberson /* ARGSUSED */
610b43179fbSJeff Roberson static void
611b43179fbSJeff Roberson sched_setup(void *dummy)
612b43179fbSJeff Roberson {
613e17c57b1SJeff Roberson 	setup_runqs();
61470fca427SJohn Baldwin 
615b43179fbSJeff Roberson 	if (sched_quantum == 0)
616b43179fbSJeff Roberson 		sched_quantum = SCHED_QUANTUM;
617b43179fbSJeff Roberson 	hogticks = 2 * sched_quantum;
618b43179fbSJeff Roberson 
6198cbec0c8SRobert Watson 	callout_init(&roundrobin_callout, CALLOUT_MPSAFE);
620b43179fbSJeff Roberson 
621b43179fbSJeff Roberson 	/* Kick off timeout driven events by calling first time. */
622b43179fbSJeff Roberson 	roundrobin(NULL);
623ca59f152SJeff Roberson 
624ca59f152SJeff Roberson 	/* Account for thread0. */
625907bdbc2SJeff Roberson 	sched_load_add();
626b43179fbSJeff Roberson }
627b43179fbSJeff Roberson 
628b43179fbSJeff Roberson /* External interfaces start here */
629ed062c8dSJulian Elischer /*
630ed062c8dSJulian Elischer  * Very early in the boot some setup of scheduler-specific
631f3050486SMaxim Konovalov  * parts of proc0 and of some scheduler resources needs to be done.
632ed062c8dSJulian Elischer  * Called from:
633ed062c8dSJulian Elischer  *  proc0_init()
634ed062c8dSJulian Elischer  */
635ed062c8dSJulian Elischer void
636ed062c8dSJulian Elischer schedinit(void)
637ed062c8dSJulian Elischer {
638ed062c8dSJulian Elischer 	/*
639ed062c8dSJulian Elischer 	 * Set up the scheduler specific parts of proc0.
640ed062c8dSJulian Elischer 	 */
641ed062c8dSJulian Elischer 	proc0.p_sched = NULL; /* XXX */
642ed062c8dSJulian Elischer 	ksegrp0.kg_sched = &kg_sched0;
643ed062c8dSJulian Elischer 	thread0.td_sched = &kse0;
644ed062c8dSJulian Elischer 	kse0.ke_thread = &thread0;
645ed062c8dSJulian Elischer 	kse0.ke_state = KES_THREAD;
646ed062c8dSJulian Elischer 	kg_sched0.skg_concurrency = 1;
647ed062c8dSJulian Elischer 	kg_sched0.skg_avail_opennings = 0; /* we are already running */
648ed062c8dSJulian Elischer }
649ed062c8dSJulian Elischer 
650b43179fbSJeff Roberson int
651b43179fbSJeff Roberson sched_runnable(void)
652b43179fbSJeff Roberson {
653e17c57b1SJeff Roberson #ifdef SMP
654e17c57b1SJeff Roberson 	return runq_check(&runq) + runq_check(&runq_pcpu[PCPU_GET(cpuid)]);
655e17c57b1SJeff Roberson #else
656b43179fbSJeff Roberson 	return runq_check(&runq);
657e17c57b1SJeff Roberson #endif
658b43179fbSJeff Roberson }
659b43179fbSJeff Roberson 
660b43179fbSJeff Roberson int
661b43179fbSJeff Roberson sched_rr_interval(void)
662b43179fbSJeff Roberson {
663b43179fbSJeff Roberson 	if (sched_quantum == 0)
664b43179fbSJeff Roberson 		sched_quantum = SCHED_QUANTUM;
665b43179fbSJeff Roberson 	return (sched_quantum);
666b43179fbSJeff Roberson }
667b43179fbSJeff Roberson 
668b43179fbSJeff Roberson /*
669b43179fbSJeff Roberson  * We adjust the priority of the current process.  The priority of
670b43179fbSJeff Roberson  * a process gets worse as it accumulates CPU time.  The cpu usage
67170fca427SJohn Baldwin  * estimator (kg_estcpu) is increased here.  resetpriority() will
67270fca427SJohn Baldwin  * compute a different priority each time kg_estcpu increases by
673b43179fbSJeff Roberson  * INVERSE_ESTCPU_WEIGHT
674b43179fbSJeff Roberson  * (until MAXPRI is reached).  The cpu usage estimator ramps up
675b43179fbSJeff Roberson  * quite quickly when the process is running (linearly), and decays
676b43179fbSJeff Roberson  * away exponentially, at a rate which is proportionally slower when
677b43179fbSJeff Roberson  * the system is busy.  The basic principle is that the system will
678b43179fbSJeff Roberson  * 90% forget that the process used a lot of CPU time in 5 * loadav
679b43179fbSJeff Roberson  * seconds.  This causes the system to favor processes which haven't
680b43179fbSJeff Roberson  * run much recently, and to round-robin among other processes.
681b43179fbSJeff Roberson  */
682b43179fbSJeff Roberson void
6837cf90fb3SJeff Roberson sched_clock(struct thread *td)
684b43179fbSJeff Roberson {
685b43179fbSJeff Roberson 	struct ksegrp *kg;
6867cf90fb3SJeff Roberson 	struct kse *ke;
687b43179fbSJeff Roberson 
6882056d0a1SJohn Baldwin 	mtx_assert(&sched_lock, MA_OWNED);
6897cf90fb3SJeff Roberson 	kg = td->td_ksegrp;
6907cf90fb3SJeff Roberson 	ke = td->td_kse;
691f7f9e7f3SJeff Roberson 
692ad59c36bSJulian Elischer 	ke->ke_cpticks++;
693b43179fbSJeff Roberson 	kg->kg_estcpu = ESTCPULIM(kg->kg_estcpu + 1);
694b43179fbSJeff Roberson 	if ((kg->kg_estcpu % INVERSE_ESTCPU_WEIGHT) == 0) {
695b43179fbSJeff Roberson 		resetpriority(kg);
696f5c157d9SJohn Baldwin 		resetpriority_thread(td, kg);
697b43179fbSJeff Roberson 	}
698b43179fbSJeff Roberson }
69970fca427SJohn Baldwin 
700b43179fbSJeff Roberson /*
701b43179fbSJeff Roberson  * charge childs scheduling cpu usage to parent.
702b43179fbSJeff Roberson  *
703b43179fbSJeff Roberson  * XXXKSE assume only one thread & kse & ksegrp keep estcpu in each ksegrp.
704b43179fbSJeff Roberson  * Charge it to the ksegrp that did the wait since process estcpu is sum of
705b43179fbSJeff Roberson  * all ksegrps, this is strictly as expected.  Assume that the child process
706b43179fbSJeff Roberson  * aggregated all the estcpu into the 'built-in' ksegrp.
707b43179fbSJeff Roberson  */
708b43179fbSJeff Roberson void
70955d44f79SJulian Elischer sched_exit(struct proc *p, struct thread *td)
710f7f9e7f3SJeff Roberson {
71155d44f79SJulian Elischer 	sched_exit_ksegrp(FIRST_KSEGRP_IN_PROC(p), td);
71255d44f79SJulian Elischer 	sched_exit_thread(FIRST_THREAD_IN_PROC(p), td);
713f7f9e7f3SJeff Roberson }
714f7f9e7f3SJeff Roberson 
715f7f9e7f3SJeff Roberson void
71655d44f79SJulian Elischer sched_exit_ksegrp(struct ksegrp *kg, struct thread *childtd)
717b43179fbSJeff Roberson {
7182056d0a1SJohn Baldwin 
7192056d0a1SJohn Baldwin 	mtx_assert(&sched_lock, MA_OWNED);
72055d44f79SJulian Elischer 	kg->kg_estcpu = ESTCPULIM(kg->kg_estcpu + childtd->td_ksegrp->kg_estcpu);
721b43179fbSJeff Roberson }
722b43179fbSJeff Roberson 
723b43179fbSJeff Roberson void
724f7f9e7f3SJeff Roberson sched_exit_thread(struct thread *td, struct thread *child)
725b43179fbSJeff Roberson {
726907bdbc2SJeff Roberson 	CTR3(KTR_SCHED, "sched_exit_thread: %p(%s) prio %d",
727907bdbc2SJeff Roberson 	    child, child->td_proc->p_comm, child->td_priority);
7287d5ea13fSDoug Rabson 	if ((child->td_proc->p_flag & P_NOLOAD) == 0)
729907bdbc2SJeff Roberson 		sched_load_rem();
730f7f9e7f3SJeff Roberson }
731bcb06d59SJeff Roberson 
732f7f9e7f3SJeff Roberson void
733ed062c8dSJulian Elischer sched_fork(struct thread *td, struct thread *childtd)
734f7f9e7f3SJeff Roberson {
735ed062c8dSJulian Elischer 	sched_fork_ksegrp(td, childtd->td_ksegrp);
736ed062c8dSJulian Elischer 	sched_fork_thread(td, childtd);
737f7f9e7f3SJeff Roberson }
738f7f9e7f3SJeff Roberson 
739f7f9e7f3SJeff Roberson void
74055d44f79SJulian Elischer sched_fork_ksegrp(struct thread *td, struct ksegrp *child)
741f7f9e7f3SJeff Roberson {
7422056d0a1SJohn Baldwin 	mtx_assert(&sched_lock, MA_OWNED);
74355d44f79SJulian Elischer 	child->kg_estcpu = td->td_ksegrp->kg_estcpu;
744f7f9e7f3SJeff Roberson }
745bcb06d59SJeff Roberson 
746f7f9e7f3SJeff Roberson void
747ed062c8dSJulian Elischer sched_fork_thread(struct thread *td, struct thread *childtd)
748f7f9e7f3SJeff Roberson {
749ed062c8dSJulian Elischer 	sched_newthread(childtd);
750b43179fbSJeff Roberson }
751b43179fbSJeff Roberson 
752b43179fbSJeff Roberson void
753fa885116SJulian Elischer sched_nice(struct proc *p, int nice)
754b43179fbSJeff Roberson {
755fa885116SJulian Elischer 	struct ksegrp *kg;
756f5c157d9SJohn Baldwin 	struct thread *td;
7570b5318c8SJohn Baldwin 
758fa885116SJulian Elischer 	PROC_LOCK_ASSERT(p, MA_OWNED);
7590b5318c8SJohn Baldwin 	mtx_assert(&sched_lock, MA_OWNED);
760fa885116SJulian Elischer 	p->p_nice = nice;
761fa885116SJulian Elischer 	FOREACH_KSEGRP_IN_PROC(p, kg) {
762b43179fbSJeff Roberson 		resetpriority(kg);
763f5c157d9SJohn Baldwin 		FOREACH_THREAD_IN_GROUP(kg, td) {
764f5c157d9SJohn Baldwin 			resetpriority_thread(td, kg);
765f5c157d9SJohn Baldwin 		}
766b43179fbSJeff Roberson 	}
767fa885116SJulian Elischer }
768b43179fbSJeff Roberson 
769f7f9e7f3SJeff Roberson void
770f7f9e7f3SJeff Roberson sched_class(struct ksegrp *kg, int class)
771f7f9e7f3SJeff Roberson {
7722056d0a1SJohn Baldwin 	mtx_assert(&sched_lock, MA_OWNED);
773f7f9e7f3SJeff Roberson 	kg->kg_pri_class = class;
774f7f9e7f3SJeff Roberson }
775f7f9e7f3SJeff Roberson 
7761f955e2dSJulian Elischer /*
7771f955e2dSJulian Elischer  * Adjust the priority of a thread.
7781f955e2dSJulian Elischer  * This may include moving the thread within the KSEGRP,
7791f955e2dSJulian Elischer  * changing the assignment of a kse to the thread,
7801f955e2dSJulian Elischer  * and moving a KSE in the system run queue.
7811f955e2dSJulian Elischer  */
782f5c157d9SJohn Baldwin static void
783f5c157d9SJohn Baldwin sched_priority(struct thread *td, u_char prio)
784b43179fbSJeff Roberson {
785907bdbc2SJeff Roberson 	CTR6(KTR_SCHED, "sched_prio: %p(%s) prio %d newprio %d by %p(%s)",
786907bdbc2SJeff Roberson 	    td, td->td_proc->p_comm, td->td_priority, prio, curthread,
787907bdbc2SJeff Roberson 	    curthread->td_proc->p_comm);
788b43179fbSJeff Roberson 
7892056d0a1SJohn Baldwin 	mtx_assert(&sched_lock, MA_OWNED);
790f5c157d9SJohn Baldwin 	if (td->td_priority == prio)
791f5c157d9SJohn Baldwin 		return;
792b43179fbSJeff Roberson 	if (TD_ON_RUNQ(td)) {
7931f955e2dSJulian Elischer 		adjustrunqueue(td, prio);
7941f955e2dSJulian Elischer 	} else {
7951f955e2dSJulian Elischer 		td->td_priority = prio;
796b43179fbSJeff Roberson 	}
797b43179fbSJeff Roberson }
798b43179fbSJeff Roberson 
799f5c157d9SJohn Baldwin /*
800f5c157d9SJohn Baldwin  * Update a thread's priority when it is lent another thread's
801f5c157d9SJohn Baldwin  * priority.
802f5c157d9SJohn Baldwin  */
803f5c157d9SJohn Baldwin void
804f5c157d9SJohn Baldwin sched_lend_prio(struct thread *td, u_char prio)
805f5c157d9SJohn Baldwin {
806f5c157d9SJohn Baldwin 
807f5c157d9SJohn Baldwin 	td->td_flags |= TDF_BORROWING;
808f5c157d9SJohn Baldwin 	sched_priority(td, prio);
809f5c157d9SJohn Baldwin }
810f5c157d9SJohn Baldwin 
811f5c157d9SJohn Baldwin /*
812f5c157d9SJohn Baldwin  * Restore a thread's priority when priority propagation is
813f5c157d9SJohn Baldwin  * over.  The prio argument is the minimum priority the thread
814f5c157d9SJohn Baldwin  * needs to have to satisfy other possible priority lending
815f5c157d9SJohn Baldwin  * requests.  If the thread's regulary priority is less
816f5c157d9SJohn Baldwin  * important than prio the thread will keep a priority boost
817f5c157d9SJohn Baldwin  * of prio.
818f5c157d9SJohn Baldwin  */
819f5c157d9SJohn Baldwin void
820f5c157d9SJohn Baldwin sched_unlend_prio(struct thread *td, u_char prio)
821f5c157d9SJohn Baldwin {
822f5c157d9SJohn Baldwin 	u_char base_pri;
823f5c157d9SJohn Baldwin 
824f5c157d9SJohn Baldwin 	if (td->td_base_pri >= PRI_MIN_TIMESHARE &&
825f5c157d9SJohn Baldwin 	    td->td_base_pri <= PRI_MAX_TIMESHARE)
826f5c157d9SJohn Baldwin 		base_pri = td->td_ksegrp->kg_user_pri;
827f5c157d9SJohn Baldwin 	else
828f5c157d9SJohn Baldwin 		base_pri = td->td_base_pri;
829f5c157d9SJohn Baldwin 	if (prio >= base_pri) {
830f5c157d9SJohn Baldwin 		td->td_flags &= ~TDF_BORROWING;
831f5c157d9SJohn Baldwin 		sched_prio(td, base_pri);
832f5c157d9SJohn Baldwin 	} else
833f5c157d9SJohn Baldwin 		sched_lend_prio(td, prio);
834f5c157d9SJohn Baldwin }
835f5c157d9SJohn Baldwin 
836f5c157d9SJohn Baldwin void
837f5c157d9SJohn Baldwin sched_prio(struct thread *td, u_char prio)
838f5c157d9SJohn Baldwin {
839f5c157d9SJohn Baldwin 	u_char oldprio;
840f5c157d9SJohn Baldwin 
841f5c157d9SJohn Baldwin 	/* First, update the base priority. */
842f5c157d9SJohn Baldwin 	td->td_base_pri = prio;
843f5c157d9SJohn Baldwin 
844f5c157d9SJohn Baldwin 	/*
845f5c157d9SJohn Baldwin 	 * If the thread is borrowing another thread's priority, don't ever
846f5c157d9SJohn Baldwin 	 * lower the priority.
847f5c157d9SJohn Baldwin 	 */
848f5c157d9SJohn Baldwin 	if (td->td_flags & TDF_BORROWING && td->td_priority < prio)
849f5c157d9SJohn Baldwin 		return;
850f5c157d9SJohn Baldwin 
851f5c157d9SJohn Baldwin 	/* Change the real priority. */
852f5c157d9SJohn Baldwin 	oldprio = td->td_priority;
853f5c157d9SJohn Baldwin 	sched_priority(td, prio);
854f5c157d9SJohn Baldwin 
855f5c157d9SJohn Baldwin 	/*
856f5c157d9SJohn Baldwin 	 * If the thread is on a turnstile, then let the turnstile update
857f5c157d9SJohn Baldwin 	 * its state.
858f5c157d9SJohn Baldwin 	 */
859f5c157d9SJohn Baldwin 	if (TD_ON_LOCK(td) && oldprio != prio)
860f5c157d9SJohn Baldwin 		turnstile_adjust(td, oldprio);
861f5c157d9SJohn Baldwin }
862f5c157d9SJohn Baldwin 
863b43179fbSJeff Roberson void
86444f3b092SJohn Baldwin sched_sleep(struct thread *td)
865b43179fbSJeff Roberson {
8662056d0a1SJohn Baldwin 
8672056d0a1SJohn Baldwin 	mtx_assert(&sched_lock, MA_OWNED);
868b43179fbSJeff Roberson 	td->td_ksegrp->kg_slptime = 0;
869b43179fbSJeff Roberson }
870b43179fbSJeff Roberson 
8713389af30SJulian Elischer static void remrunqueue(struct thread *td);
8723389af30SJulian Elischer 
873b43179fbSJeff Roberson void
8743389af30SJulian Elischer sched_switch(struct thread *td, struct thread *newtd, int flags)
875b43179fbSJeff Roberson {
876b43179fbSJeff Roberson 	struct kse *ke;
8773389af30SJulian Elischer 	struct ksegrp *kg;
878b43179fbSJeff Roberson 	struct proc *p;
879b43179fbSJeff Roberson 
880b43179fbSJeff Roberson 	ke = td->td_kse;
881b43179fbSJeff Roberson 	p = td->td_proc;
882b43179fbSJeff Roberson 
8832056d0a1SJohn Baldwin 	mtx_assert(&sched_lock, MA_OWNED);
884b43179fbSJeff Roberson 
885f2f51f8aSJeff Roberson 	if ((p->p_flag & P_NOLOAD) == 0)
886907bdbc2SJeff Roberson 		sched_load_rem();
8873389af30SJulian Elischer 	/*
8883389af30SJulian Elischer 	 * We are volunteering to switch out so we get to nominate
8893389af30SJulian Elischer 	 * a successor for the rest of our quantum
8903389af30SJulian Elischer 	 * First try another thread in our ksegrp, and then look for
8913389af30SJulian Elischer 	 * other ksegrps in our process.
8923389af30SJulian Elischer 	 */
8933389af30SJulian Elischer 	if (sched_followon &&
8943389af30SJulian Elischer 	    (p->p_flag & P_HADTHREADS) &&
8953389af30SJulian Elischer 	    (flags & SW_VOL) &&
8963389af30SJulian Elischer 	    newtd == NULL) {
8973389af30SJulian Elischer 		/* lets schedule another thread from this process */
8983389af30SJulian Elischer 		 kg = td->td_ksegrp;
8993389af30SJulian Elischer 		 if ((newtd = TAILQ_FIRST(&kg->kg_runq))) {
9003389af30SJulian Elischer 			remrunqueue(newtd);
9013389af30SJulian Elischer 			sched_kgfollowons++;
9023389af30SJulian Elischer 		 } else {
9033389af30SJulian Elischer 			FOREACH_KSEGRP_IN_PROC(p, kg) {
9043389af30SJulian Elischer 				if ((newtd = TAILQ_FIRST(&kg->kg_runq))) {
9053389af30SJulian Elischer 					sched_pfollowons++;
9063389af30SJulian Elischer 					remrunqueue(newtd);
9073389af30SJulian Elischer 					break;
9083389af30SJulian Elischer 				}
9093389af30SJulian Elischer 			}
9103389af30SJulian Elischer 		}
9113389af30SJulian Elischer 	}
9123389af30SJulian Elischer 
91356564741SStephan Uphoff 	if (newtd)
91456564741SStephan Uphoff 		newtd->td_flags |= (td->td_flags & TDF_NEEDRESCHED);
91556564741SStephan Uphoff 
916060563ecSJulian Elischer 	td->td_lastcpu = td->td_oncpu;
91752eb8464SJohn Baldwin 	td->td_flags &= ~TDF_NEEDRESCHED;
91877918643SStephan Uphoff 	td->td_owepreempt = 0;
919ca59f152SJeff Roberson 	td->td_oncpu = NOCPU;
920b43179fbSJeff Roberson 	/*
921b43179fbSJeff Roberson 	 * At the last moment, if this thread is still marked RUNNING,
922b43179fbSJeff Roberson 	 * then put it back on the run queue as it has not been suspended
923bf0acc27SJohn Baldwin 	 * or stopped or any thing else similar.  We never put the idle
924bf0acc27SJohn Baldwin 	 * threads on the run queue, however.
925b43179fbSJeff Roberson 	 */
926bf0acc27SJohn Baldwin 	if (td == PCPU_GET(idlethread))
927bf0acc27SJohn Baldwin 		TD_SET_CAN_RUN(td);
928ed062c8dSJulian Elischer 	else {
929d39063f2SJulian Elischer 		SLOT_RELEASE(td->td_ksegrp);
930ed062c8dSJulian Elischer 		if (TD_IS_RUNNING(td)) {
931b43179fbSJeff Roberson 			/* Put us back on the run queue (kse and all). */
932c20c691bSJulian Elischer 			setrunqueue(td, (flags & SW_PREEMPT) ?
933c20c691bSJulian Elischer 			    SRQ_OURSELF|SRQ_YIELDING|SRQ_PREEMPTED :
934c20c691bSJulian Elischer 			    SRQ_OURSELF|SRQ_YIELDING);
935ed062c8dSJulian Elischer 		} else if (p->p_flag & P_HADTHREADS) {
936b43179fbSJeff Roberson 			/*
937b43179fbSJeff Roberson 			 * We will not be on the run queue. So we must be
938b43179fbSJeff Roberson 			 * sleeping or similar. As it's available,
939b43179fbSJeff Roberson 			 * someone else can use the KSE if they need it.
940c20c691bSJulian Elischer 			 * It's NOT available if we are about to need it
941b43179fbSJeff Roberson 			 */
942c20c691bSJulian Elischer 			if (newtd == NULL || newtd->td_ksegrp != td->td_ksegrp)
943ed062c8dSJulian Elischer 				slot_fill(td->td_ksegrp);
944ed062c8dSJulian Elischer 		}
945b43179fbSJeff Roberson 	}
946c20c691bSJulian Elischer 	if (newtd) {
947c20c691bSJulian Elischer 		/*
948c20c691bSJulian Elischer 		 * The thread we are about to run needs to be counted
949c20c691bSJulian Elischer 		 * as if it had been added to the run queue and selected.
950c20c691bSJulian Elischer 		 * It came from:
951c20c691bSJulian Elischer 		 * * A preemption
952c20c691bSJulian Elischer 		 * * An upcall
953c20c691bSJulian Elischer 		 * * A followon
954c20c691bSJulian Elischer 		 */
955c20c691bSJulian Elischer 		KASSERT((newtd->td_inhibitors == 0),
956c20c691bSJulian Elischer 			("trying to run inhibitted thread"));
957c20c691bSJulian Elischer 		SLOT_USE(newtd->td_ksegrp);
958c20c691bSJulian Elischer 		newtd->td_kse->ke_flags |= KEF_DIDRUN;
959c20c691bSJulian Elischer         	TD_SET_RUNNING(newtd);
960c20c691bSJulian Elischer 		if ((newtd->td_proc->p_flag & P_NOLOAD) == 0)
961907bdbc2SJeff Roberson 			sched_load_add();
962c20c691bSJulian Elischer 	} else {
963ae53b483SJeff Roberson 		newtd = choosethread();
964c20c691bSJulian Elischer 	}
965c20c691bSJulian Elischer 
966ebccf1e3SJoseph Koshy 	if (td != newtd) {
967ebccf1e3SJoseph Koshy #ifdef	HWPMC_HOOKS
968ebccf1e3SJoseph Koshy 		if (PMC_PROC_IS_USING_PMCS(td->td_proc))
969ebccf1e3SJoseph Koshy 			PMC_SWITCH_CONTEXT(td, PMC_FN_CSW_OUT);
970ebccf1e3SJoseph Koshy #endif
971ae53b483SJeff Roberson 		cpu_switch(td, newtd);
972ebccf1e3SJoseph Koshy #ifdef	HWPMC_HOOKS
973ebccf1e3SJoseph Koshy 		if (PMC_PROC_IS_USING_PMCS(td->td_proc))
974ebccf1e3SJoseph Koshy 			PMC_SWITCH_CONTEXT(td, PMC_FN_CSW_IN);
975ebccf1e3SJoseph Koshy #endif
976ebccf1e3SJoseph Koshy 	}
977ebccf1e3SJoseph Koshy 
978ae53b483SJeff Roberson 	sched_lock.mtx_lock = (uintptr_t)td;
979ae53b483SJeff Roberson 	td->td_oncpu = PCPU_GET(cpuid);
980b43179fbSJeff Roberson }
981b43179fbSJeff Roberson 
982b43179fbSJeff Roberson void
983b43179fbSJeff Roberson sched_wakeup(struct thread *td)
984b43179fbSJeff Roberson {
985b43179fbSJeff Roberson 	struct ksegrp *kg;
986b43179fbSJeff Roberson 
9872056d0a1SJohn Baldwin 	mtx_assert(&sched_lock, MA_OWNED);
988b43179fbSJeff Roberson 	kg = td->td_ksegrp;
989f5c157d9SJohn Baldwin 	if (kg->kg_slptime > 1) {
990b43179fbSJeff Roberson 		updatepri(kg);
991f5c157d9SJohn Baldwin 		resetpriority(kg);
992f5c157d9SJohn Baldwin 	}
993b43179fbSJeff Roberson 	kg->kg_slptime = 0;
9942630e4c9SJulian Elischer 	setrunqueue(td, SRQ_BORING);
995b43179fbSJeff Roberson }
996b43179fbSJeff Roberson 
99737c28a02SJulian Elischer #ifdef SMP
99882a1dfc1SJulian Elischer /* enable HTT_2 if you have a 2-way HTT cpu.*/
99982a1dfc1SJulian Elischer static int
100082a1dfc1SJulian Elischer forward_wakeup(int  cpunum)
100182a1dfc1SJulian Elischer {
100282a1dfc1SJulian Elischer 	cpumask_t map, me, dontuse;
100382a1dfc1SJulian Elischer 	cpumask_t map2;
100482a1dfc1SJulian Elischer 	struct pcpu *pc;
100582a1dfc1SJulian Elischer 	cpumask_t id, map3;
100682a1dfc1SJulian Elischer 
100782a1dfc1SJulian Elischer 	mtx_assert(&sched_lock, MA_OWNED);
100882a1dfc1SJulian Elischer 
1009ed062c8dSJulian Elischer 	CTR0(KTR_RUNQ, "forward_wakeup()");
101082a1dfc1SJulian Elischer 
101182a1dfc1SJulian Elischer 	if ((!forward_wakeup_enabled) ||
101282a1dfc1SJulian Elischer 	     (forward_wakeup_use_mask == 0 && forward_wakeup_use_loop == 0))
101382a1dfc1SJulian Elischer 		return (0);
101482a1dfc1SJulian Elischer 	if (!smp_started || cold || panicstr)
101582a1dfc1SJulian Elischer 		return (0);
101682a1dfc1SJulian Elischer 
101782a1dfc1SJulian Elischer 	forward_wakeups_requested++;
101882a1dfc1SJulian Elischer 
101982a1dfc1SJulian Elischer /*
102082a1dfc1SJulian Elischer  * check the idle mask we received against what we calculated before
102182a1dfc1SJulian Elischer  * in the old version.
102282a1dfc1SJulian Elischer  */
102382a1dfc1SJulian Elischer 	me = PCPU_GET(cpumask);
102482a1dfc1SJulian Elischer 	/*
102582a1dfc1SJulian Elischer 	 * don't bother if we should be doing it ourself..
102682a1dfc1SJulian Elischer 	 */
102782a1dfc1SJulian Elischer 	if ((me & idle_cpus_mask) && (cpunum == NOCPU || me == (1 << cpunum)))
102882a1dfc1SJulian Elischer 		return (0);
102982a1dfc1SJulian Elischer 
103082a1dfc1SJulian Elischer 	dontuse = me | stopped_cpus | hlt_cpus_mask;
103182a1dfc1SJulian Elischer 	map3 = 0;
103282a1dfc1SJulian Elischer 	if (forward_wakeup_use_loop) {
103382a1dfc1SJulian Elischer 		SLIST_FOREACH(pc, &cpuhead, pc_allcpu) {
103482a1dfc1SJulian Elischer 			id = pc->pc_cpumask;
103582a1dfc1SJulian Elischer 			if ( (id & dontuse) == 0 &&
103682a1dfc1SJulian Elischer 			    pc->pc_curthread == pc->pc_idlethread) {
103782a1dfc1SJulian Elischer 				map3 |= id;
103882a1dfc1SJulian Elischer 			}
103982a1dfc1SJulian Elischer 		}
104082a1dfc1SJulian Elischer 	}
104182a1dfc1SJulian Elischer 
104282a1dfc1SJulian Elischer 	if (forward_wakeup_use_mask) {
104382a1dfc1SJulian Elischer 		map = 0;
104482a1dfc1SJulian Elischer 		map = idle_cpus_mask & ~dontuse;
104582a1dfc1SJulian Elischer 
104682a1dfc1SJulian Elischer 		/* If they are both on, compare and use loop if different */
104782a1dfc1SJulian Elischer 		if (forward_wakeup_use_loop) {
104882a1dfc1SJulian Elischer 			if (map != map3) {
104982a1dfc1SJulian Elischer 				printf("map (%02X) != map3 (%02X)\n",
105082a1dfc1SJulian Elischer 						map, map3);
105182a1dfc1SJulian Elischer 				map = map3;
105282a1dfc1SJulian Elischer 			}
105382a1dfc1SJulian Elischer 		}
105482a1dfc1SJulian Elischer 	} else {
105582a1dfc1SJulian Elischer 		map = map3;
105682a1dfc1SJulian Elischer 	}
105782a1dfc1SJulian Elischer 	/* If we only allow a specific CPU, then mask off all the others */
105882a1dfc1SJulian Elischer 	if (cpunum != NOCPU) {
105982a1dfc1SJulian Elischer 		KASSERT((cpunum <= mp_maxcpus),("forward_wakeup: bad cpunum."));
106082a1dfc1SJulian Elischer 		map &= (1 << cpunum);
106182a1dfc1SJulian Elischer 	} else {
106282a1dfc1SJulian Elischer 		/* Try choose an idle die. */
106382a1dfc1SJulian Elischer 		if (forward_wakeup_use_htt) {
106482a1dfc1SJulian Elischer 			map2 =  (map & (map >> 1)) & 0x5555;
106582a1dfc1SJulian Elischer 			if (map2) {
106682a1dfc1SJulian Elischer 				map = map2;
106782a1dfc1SJulian Elischer 			}
106882a1dfc1SJulian Elischer 		}
106982a1dfc1SJulian Elischer 
107082a1dfc1SJulian Elischer 		/* set only one bit */
107182a1dfc1SJulian Elischer 		if (forward_wakeup_use_single) {
107282a1dfc1SJulian Elischer 			map = map & ((~map) + 1);
107382a1dfc1SJulian Elischer 		}
107482a1dfc1SJulian Elischer 	}
107582a1dfc1SJulian Elischer 	if (map) {
107682a1dfc1SJulian Elischer 		forward_wakeups_delivered++;
107782a1dfc1SJulian Elischer 		ipi_selected(map, IPI_AST);
107882a1dfc1SJulian Elischer 		return (1);
107982a1dfc1SJulian Elischer 	}
108082a1dfc1SJulian Elischer 	if (cpunum == NOCPU)
108182a1dfc1SJulian Elischer 		printf("forward_wakeup: Idle processor not found\n");
108282a1dfc1SJulian Elischer 	return (0);
108382a1dfc1SJulian Elischer }
108437c28a02SJulian Elischer #endif
108582a1dfc1SJulian Elischer 
1086b43179fbSJeff Roberson void
10872630e4c9SJulian Elischer sched_add(struct thread *td, int flags)
1088b43179fbSJeff Roberson {
10897cf90fb3SJeff Roberson 	struct kse *ke;
10906804a3abSJulian Elischer #ifdef SMP
10916804a3abSJulian Elischer 	int forwarded = 0;
10926804a3abSJulian Elischer 	int cpu;
10936804a3abSJulian Elischer #endif
10947cf90fb3SJeff Roberson 
10957cf90fb3SJeff Roberson 	ke = td->td_kse;
1096b43179fbSJeff Roberson 	mtx_assert(&sched_lock, MA_OWNED);
1097b43179fbSJeff Roberson 	KASSERT(ke->ke_state != KES_ONRUNQ,
10985a2b158dSJeff Roberson 	    ("sched_add: kse %p (%s) already in run queue", ke,
1099b43179fbSJeff Roberson 	    ke->ke_proc->p_comm));
1100b43179fbSJeff Roberson 	KASSERT(ke->ke_proc->p_sflag & PS_INMEM,
11015a2b158dSJeff Roberson 	    ("sched_add: process swapped out"));
1102907bdbc2SJeff Roberson 	CTR5(KTR_SCHED, "sched_add: %p(%s) prio %d by %p(%s)",
1103907bdbc2SJeff Roberson 	    td, td->td_proc->p_comm, td->td_priority, curthread,
1104907bdbc2SJeff Roberson 	    curthread->td_proc->p_comm);
11050c0b25aeSJohn Baldwin 
11060c0b25aeSJohn Baldwin #ifdef SMP
1107e17c57b1SJeff Roberson 	if (KSE_CAN_MIGRATE(ke)) {
11086804a3abSJulian Elischer 		CTR2(KTR_RUNQ,
11096804a3abSJulian Elischer 		    "sched_add: adding kse:%p (td:%p) to gbl runq", ke, td);
11106804a3abSJulian Elischer 		cpu = NOCPU;
1111e17c57b1SJeff Roberson 		ke->ke_runq = &runq;
1112e17c57b1SJeff Roberson 	} else {
1113e17c57b1SJeff Roberson 		if (!SKE_RUNQ_PCPU(ke))
11146804a3abSJulian Elischer 			ke->ke_runq = &runq_pcpu[(cpu = PCPU_GET(cpuid))];
11156804a3abSJulian Elischer 		else
11166804a3abSJulian Elischer 			cpu = td->td_lastcpu;
11176804a3abSJulian Elischer 		CTR3(KTR_RUNQ,
11186804a3abSJulian Elischer 		    "sched_add: Put kse:%p(td:%p) on cpu%d runq", ke, td, cpu);
1119e17c57b1SJeff Roberson 	}
1120e17c57b1SJeff Roberson #else
1121732d9528SJulian Elischer 	CTR2(KTR_RUNQ, "sched_add: adding kse:%p (td:%p) to runq", ke, td);
1122e17c57b1SJeff Roberson 	ke->ke_runq = &runq;
11236804a3abSJulian Elischer 
1124e17c57b1SJeff Roberson #endif
11256804a3abSJulian Elischer 	/*
11266804a3abSJulian Elischer 	 * If we are yielding (on the way out anyhow)
11276804a3abSJulian Elischer 	 * or the thread being saved is US,
11286804a3abSJulian Elischer 	 * then don't try be smart about preemption
11296804a3abSJulian Elischer 	 * or kicking off another CPU
11306804a3abSJulian Elischer 	 * as it won't help and may hinder.
11316804a3abSJulian Elischer 	 * In the YIEDLING case, we are about to run whoever is
11326804a3abSJulian Elischer 	 * being put in the queue anyhow, and in the
11336804a3abSJulian Elischer 	 * OURSELF case, we are puting ourself on the run queue
11346804a3abSJulian Elischer 	 * which also only happens when we are about to yield.
11356804a3abSJulian Elischer 	 */
11366804a3abSJulian Elischer 	if((flags & SRQ_YIELDING) == 0) {
11376804a3abSJulian Elischer #ifdef SMP
11386804a3abSJulian Elischer 		cpumask_t me = PCPU_GET(cpumask);
11396804a3abSJulian Elischer 		int idle = idle_cpus_mask & me;
11406804a3abSJulian Elischer 		/*
11416804a3abSJulian Elischer 		 * Only try to kick off another CPU if
11426804a3abSJulian Elischer 		 * the thread is unpinned
11436804a3abSJulian Elischer 		 * or pinned to another cpu,
11446804a3abSJulian Elischer 		 * and there are other available and idle CPUs.
11456a574b2aSJulian Elischer 		 * if we are idle, or it's an interrupt,
11466a574b2aSJulian Elischer 		 * then skip straight to preemption.
11476804a3abSJulian Elischer 		 */
11486a574b2aSJulian Elischer 		if ( (! idle) && ((flags & SRQ_INTR) == 0) &&
11496804a3abSJulian Elischer 		    (idle_cpus_mask & ~(hlt_cpus_mask | me)) &&
11506804a3abSJulian Elischer 		    ( KSE_CAN_MIGRATE(ke) ||
11516804a3abSJulian Elischer 		      ke->ke_runq != &runq_pcpu[PCPU_GET(cpuid)])) {
11526804a3abSJulian Elischer 			forwarded = forward_wakeup(cpu);
11536804a3abSJulian Elischer 		}
11546804a3abSJulian Elischer 		/*
11556804a3abSJulian Elischer 		 * If we failed to kick off another cpu, then look to
11566804a3abSJulian Elischer 		 * see if we should preempt this CPU. Only allow this
11576804a3abSJulian Elischer 		 * if it is not pinned or IS pinned to this CPU.
11586804a3abSJulian Elischer 		 * If we are the idle thread, we also try do preempt.
11596804a3abSJulian Elischer 		 * as it will be quicker and being idle, we won't
11606804a3abSJulian Elischer 		 * lose in doing so..
11616804a3abSJulian Elischer 		 */
11626804a3abSJulian Elischer 		if ((!forwarded) &&
11636804a3abSJulian Elischer 		    (ke->ke_runq == &runq ||
11646804a3abSJulian Elischer 		     ke->ke_runq == &runq_pcpu[PCPU_GET(cpuid)]))
11656804a3abSJulian Elischer #endif
11666804a3abSJulian Elischer 
11676804a3abSJulian Elischer 		{
11686804a3abSJulian Elischer 			if (maybe_preempt(td))
11696804a3abSJulian Elischer 				return;
11706804a3abSJulian Elischer 		}
11716804a3abSJulian Elischer 	}
1172f2f51f8aSJeff Roberson 	if ((td->td_proc->p_flag & P_NOLOAD) == 0)
1173907bdbc2SJeff Roberson 		sched_load_add();
1174d39063f2SJulian Elischer 	SLOT_USE(td->td_ksegrp);
1175c20c691bSJulian Elischer 	runq_add(ke->ke_runq, ke, flags);
11760f54f482SJulian Elischer 	ke->ke_state = KES_ONRUNQ;
11776942d433SJohn Baldwin 	maybe_resched(td);
1178b43179fbSJeff Roberson }
1179b43179fbSJeff Roberson 
1180b43179fbSJeff Roberson void
11817cf90fb3SJeff Roberson sched_rem(struct thread *td)
1182b43179fbSJeff Roberson {
11837cf90fb3SJeff Roberson 	struct kse *ke;
11847cf90fb3SJeff Roberson 
11857cf90fb3SJeff Roberson 	ke = td->td_kse;
1186b43179fbSJeff Roberson 	KASSERT(ke->ke_proc->p_sflag & PS_INMEM,
11875a2b158dSJeff Roberson 	    ("sched_rem: process swapped out"));
11885a2b158dSJeff Roberson 	KASSERT((ke->ke_state == KES_ONRUNQ),
11895a2b158dSJeff Roberson 	    ("sched_rem: KSE not on run queue"));
1190b43179fbSJeff Roberson 	mtx_assert(&sched_lock, MA_OWNED);
1191907bdbc2SJeff Roberson 	CTR5(KTR_SCHED, "sched_rem: %p(%s) prio %d by %p(%s)",
1192907bdbc2SJeff Roberson 	    td, td->td_proc->p_comm, td->td_priority, curthread,
1193907bdbc2SJeff Roberson 	    curthread->td_proc->p_comm);
1194b43179fbSJeff Roberson 
1195f2f51f8aSJeff Roberson 	if ((td->td_proc->p_flag & P_NOLOAD) == 0)
1196907bdbc2SJeff Roberson 		sched_load_rem();
1197d39063f2SJulian Elischer 	SLOT_RELEASE(td->td_ksegrp);
1198ad59c36bSJulian Elischer 	runq_remove(ke->ke_runq, ke);
1199e17c57b1SJeff Roberson 
1200b43179fbSJeff Roberson 	ke->ke_state = KES_THREAD;
1201b43179fbSJeff Roberson }
1202b43179fbSJeff Roberson 
120314f0e2e9SJulian Elischer /*
120414f0e2e9SJulian Elischer  * Select threads to run.
120514f0e2e9SJulian Elischer  * Notice that the running threads still consume a slot.
120614f0e2e9SJulian Elischer  */
1207b43179fbSJeff Roberson struct kse *
1208b43179fbSJeff Roberson sched_choose(void)
1209b43179fbSJeff Roberson {
1210b43179fbSJeff Roberson 	struct kse *ke;
1211e17c57b1SJeff Roberson 	struct runq *rq;
1212b43179fbSJeff Roberson 
1213e17c57b1SJeff Roberson #ifdef SMP
1214e17c57b1SJeff Roberson 	struct kse *kecpu;
1215e17c57b1SJeff Roberson 
1216e17c57b1SJeff Roberson 	rq = &runq;
1217b43179fbSJeff Roberson 	ke = runq_choose(&runq);
1218e17c57b1SJeff Roberson 	kecpu = runq_choose(&runq_pcpu[PCPU_GET(cpuid)]);
1219e17c57b1SJeff Roberson 
1220e17c57b1SJeff Roberson 	if (ke == NULL ||
1221e17c57b1SJeff Roberson 	    (kecpu != NULL &&
1222e17c57b1SJeff Roberson 	     kecpu->ke_thread->td_priority < ke->ke_thread->td_priority)) {
1223732d9528SJulian Elischer 		CTR2(KTR_RUNQ, "choosing kse %p from pcpu runq %d", kecpu,
1224e17c57b1SJeff Roberson 		     PCPU_GET(cpuid));
1225e17c57b1SJeff Roberson 		ke = kecpu;
1226e17c57b1SJeff Roberson 		rq = &runq_pcpu[PCPU_GET(cpuid)];
1227e17c57b1SJeff Roberson 	} else {
1228732d9528SJulian Elischer 		CTR1(KTR_RUNQ, "choosing kse %p from main runq", ke);
1229e17c57b1SJeff Roberson 	}
1230e17c57b1SJeff Roberson 
1231e17c57b1SJeff Roberson #else
1232e17c57b1SJeff Roberson 	rq = &runq;
1233e17c57b1SJeff Roberson 	ke = runq_choose(&runq);
1234e17c57b1SJeff Roberson #endif
1235b43179fbSJeff Roberson 
1236b43179fbSJeff Roberson 	if (ke != NULL) {
1237e17c57b1SJeff Roberson 		runq_remove(rq, ke);
1238b43179fbSJeff Roberson 		ke->ke_state = KES_THREAD;
1239b43179fbSJeff Roberson 
1240b43179fbSJeff Roberson 		KASSERT(ke->ke_proc->p_sflag & PS_INMEM,
12415a2b158dSJeff Roberson 		    ("sched_choose: process swapped out"));
1242b43179fbSJeff Roberson 	}
1243b43179fbSJeff Roberson 	return (ke);
1244b43179fbSJeff Roberson }
1245b43179fbSJeff Roberson 
1246b43179fbSJeff Roberson void
1247b43179fbSJeff Roberson sched_userret(struct thread *td)
1248b43179fbSJeff Roberson {
1249b43179fbSJeff Roberson 	struct ksegrp *kg;
1250b43179fbSJeff Roberson 	/*
1251b43179fbSJeff Roberson 	 * XXX we cheat slightly on the locking here to avoid locking in
1252b43179fbSJeff Roberson 	 * the usual case.  Setting td_priority here is essentially an
1253b43179fbSJeff Roberson 	 * incomplete workaround for not setting it properly elsewhere.
1254b43179fbSJeff Roberson 	 * Now that some interrupt handlers are threads, not setting it
1255b43179fbSJeff Roberson 	 * properly elsewhere can clobber it in the window between setting
1256b43179fbSJeff Roberson 	 * it here and returning to user mode, so don't waste time setting
1257b43179fbSJeff Roberson 	 * it perfectly here.
1258b43179fbSJeff Roberson 	 */
1259f5c157d9SJohn Baldwin 	KASSERT((td->td_flags & TDF_BORROWING) == 0,
1260f5c157d9SJohn Baldwin 	    ("thread with borrowed priority returning to userland"));
1261b43179fbSJeff Roberson 	kg = td->td_ksegrp;
1262b43179fbSJeff Roberson 	if (td->td_priority != kg->kg_user_pri) {
1263b43179fbSJeff Roberson 		mtx_lock_spin(&sched_lock);
1264b43179fbSJeff Roberson 		td->td_priority = kg->kg_user_pri;
1265f5c157d9SJohn Baldwin 		td->td_base_pri = kg->kg_user_pri;
1266b43179fbSJeff Roberson 		mtx_unlock_spin(&sched_lock);
1267b43179fbSJeff Roberson 	}
1268b43179fbSJeff Roberson }
1269de028f5aSJeff Roberson 
1270e17c57b1SJeff Roberson void
1271e17c57b1SJeff Roberson sched_bind(struct thread *td, int cpu)
1272e17c57b1SJeff Roberson {
1273e17c57b1SJeff Roberson 	struct kse *ke;
1274e17c57b1SJeff Roberson 
1275e17c57b1SJeff Roberson 	mtx_assert(&sched_lock, MA_OWNED);
1276e17c57b1SJeff Roberson 	KASSERT(TD_IS_RUNNING(td),
1277e17c57b1SJeff Roberson 	    ("sched_bind: cannot bind non-running thread"));
1278e17c57b1SJeff Roberson 
1279e17c57b1SJeff Roberson 	ke = td->td_kse;
1280e17c57b1SJeff Roberson 
1281e17c57b1SJeff Roberson 	ke->ke_flags |= KEF_BOUND;
1282e17c57b1SJeff Roberson #ifdef SMP
1283e17c57b1SJeff Roberson 	ke->ke_runq = &runq_pcpu[cpu];
1284e17c57b1SJeff Roberson 	if (PCPU_GET(cpuid) == cpu)
1285e17c57b1SJeff Roberson 		return;
1286e17c57b1SJeff Roberson 
1287e17c57b1SJeff Roberson 	ke->ke_state = KES_THREAD;
1288e17c57b1SJeff Roberson 
1289bf0acc27SJohn Baldwin 	mi_switch(SW_VOL, NULL);
1290e17c57b1SJeff Roberson #endif
1291e17c57b1SJeff Roberson }
1292e17c57b1SJeff Roberson 
1293e17c57b1SJeff Roberson void
1294e17c57b1SJeff Roberson sched_unbind(struct thread* td)
1295e17c57b1SJeff Roberson {
1296e17c57b1SJeff Roberson 	mtx_assert(&sched_lock, MA_OWNED);
1297e17c57b1SJeff Roberson 	td->td_kse->ke_flags &= ~KEF_BOUND;
1298e17c57b1SJeff Roberson }
1299e17c57b1SJeff Roberson 
1300de028f5aSJeff Roberson int
1301ebccf1e3SJoseph Koshy sched_is_bound(struct thread *td)
1302ebccf1e3SJoseph Koshy {
1303ebccf1e3SJoseph Koshy 	mtx_assert(&sched_lock, MA_OWNED);
1304ebccf1e3SJoseph Koshy 	return (td->td_kse->ke_flags & KEF_BOUND);
1305ebccf1e3SJoseph Koshy }
1306ebccf1e3SJoseph Koshy 
1307ebccf1e3SJoseph Koshy int
1308ca59f152SJeff Roberson sched_load(void)
1309ca59f152SJeff Roberson {
1310ca59f152SJeff Roberson 	return (sched_tdcnt);
1311ca59f152SJeff Roberson }
1312ca59f152SJeff Roberson 
1313ca59f152SJeff Roberson int
1314de028f5aSJeff Roberson sched_sizeof_ksegrp(void)
1315de028f5aSJeff Roberson {
1316ed062c8dSJulian Elischer 	return (sizeof(struct ksegrp) + sizeof(struct kg_sched));
1317de028f5aSJeff Roberson }
1318de028f5aSJeff Roberson int
1319de028f5aSJeff Roberson sched_sizeof_proc(void)
1320de028f5aSJeff Roberson {
1321de028f5aSJeff Roberson 	return (sizeof(struct proc));
1322de028f5aSJeff Roberson }
1323de028f5aSJeff Roberson int
1324de028f5aSJeff Roberson sched_sizeof_thread(void)
1325de028f5aSJeff Roberson {
1326ed062c8dSJulian Elischer 	return (sizeof(struct thread) + sizeof(struct kse));
1327de028f5aSJeff Roberson }
132879acfc49SJeff Roberson 
132979acfc49SJeff Roberson fixpt_t
13307cf90fb3SJeff Roberson sched_pctcpu(struct thread *td)
133179acfc49SJeff Roberson {
133255f2099aSJeff Roberson 	struct kse *ke;
133355f2099aSJeff Roberson 
133455f2099aSJeff Roberson 	ke = td->td_kse;
133555f2099aSJeff Roberson 	return (ke->ke_pctcpu);
133655f2099aSJeff Roberson 
133755f2099aSJeff Roberson 	return (0);
133879acfc49SJeff Roberson }
1339ed062c8dSJulian Elischer #define KERN_SWITCH_INCLUDE 1
1340ed062c8dSJulian Elischer #include "kern/kern_switch.c"
1341