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 384da0d332SPeter Wemm #include "opt_hwpmc_hooks.h" 39a564bfc7SJeff Roberson #include "opt_sched.h" 404da0d332SPeter Wemm 41b43179fbSJeff Roberson #include <sys/param.h> 42b43179fbSJeff Roberson #include <sys/systm.h> 43f5a3ef99SMarcel Moolenaar #include <sys/cpuset.h> 44b43179fbSJeff Roberson #include <sys/kernel.h> 45b43179fbSJeff Roberson #include <sys/ktr.h> 46b43179fbSJeff Roberson #include <sys/lock.h> 47c55bbb6cSJohn Baldwin #include <sys/kthread.h> 48b43179fbSJeff Roberson #include <sys/mutex.h> 49b43179fbSJeff Roberson #include <sys/proc.h> 50b43179fbSJeff Roberson #include <sys/resourcevar.h> 51b43179fbSJeff Roberson #include <sys/sched.h> 52b43179fbSJeff Roberson #include <sys/smp.h> 53b43179fbSJeff Roberson #include <sys/sysctl.h> 54b43179fbSJeff Roberson #include <sys/sx.h> 55f5c157d9SJohn Baldwin #include <sys/turnstile.h> 563db720fdSDavid Xu #include <sys/umtx.h> 572e4db89cSDavid E. O'Brien #include <machine/pcb.h> 58293968d8SJulian Elischer #include <machine/smp.h> 59b43179fbSJeff Roberson 60ebccf1e3SJoseph Koshy #ifdef HWPMC_HOOKS 61ebccf1e3SJoseph Koshy #include <sys/pmckern.h> 62ebccf1e3SJoseph Koshy #endif 63ebccf1e3SJoseph Koshy 6406439a04SJeff Roberson /* 6506439a04SJeff Roberson * INVERSE_ESTCPU_WEIGHT is only suitable for statclock() frequencies in 6606439a04SJeff Roberson * the range 100-256 Hz (approximately). 6706439a04SJeff Roberson */ 6806439a04SJeff Roberson #define ESTCPULIM(e) \ 6906439a04SJeff Roberson min((e), INVERSE_ESTCPU_WEIGHT * (NICE_WEIGHT * (PRIO_MAX - PRIO_MIN) - \ 7006439a04SJeff Roberson RQ_PPQ) + INVERSE_ESTCPU_WEIGHT - 1) 71b698380fSBruce Evans #ifdef SMP 72b698380fSBruce Evans #define INVERSE_ESTCPU_WEIGHT (8 * smp_cpus) 73b698380fSBruce Evans #else 7406439a04SJeff Roberson #define INVERSE_ESTCPU_WEIGHT 8 /* 1 / (priorities per estcpu level). */ 75b698380fSBruce Evans #endif 7606439a04SJeff Roberson #define NICE_WEIGHT 1 /* Priorities per nice level. */ 7706439a04SJeff Roberson 788460a577SJohn Birrell /* 798460a577SJohn Birrell * The schedulable entity that runs a context. 80ad1e7d28SJulian Elischer * This is an extension to the thread structure and is tailored to 81ad1e7d28SJulian Elischer * the requirements of this scheduler 828460a577SJohn Birrell */ 83ad1e7d28SJulian Elischer struct td_sched { 84ad1e7d28SJulian Elischer fixpt_t ts_pctcpu; /* (j) %cpu during p_swtime. */ 85ad1e7d28SJulian Elischer int ts_cpticks; /* (j) Ticks of cpu time. */ 8654b0e65fSJeff Roberson int ts_slptime; /* (j) Seconds !RUNNING. */ 87ad1e7d28SJulian Elischer struct runq *ts_runq; /* runq the thread is currently on */ 88bcb06d59SJeff Roberson }; 89ed062c8dSJulian Elischer 90ed062c8dSJulian Elischer /* flags kept in td_flags */ 91ad1e7d28SJulian Elischer #define TDF_DIDRUN TDF_SCHED0 /* thread actually ran. */ 929727e637SJeff Roberson #define TDF_BOUND TDF_SCHED1 /* Bound to one CPU. */ 93bcb06d59SJeff Roberson 94ad1e7d28SJulian Elischer #define SKE_RUNQ_PCPU(ts) \ 95ad1e7d28SJulian Elischer ((ts)->ts_runq != 0 && (ts)->ts_runq != &runq) 96e17c57b1SJeff Roberson 97ad1e7d28SJulian Elischer static struct td_sched td_sched0; 986ea38de8SJeff Roberson struct mtx sched_lock; 99b43179fbSJeff Roberson 100ca59f152SJeff Roberson static int sched_tdcnt; /* Total runnable threads in the system. */ 101b43179fbSJeff Roberson static int sched_quantum; /* Roundrobin scheduling quantum in ticks. */ 1024974b53eSMaxime Henrion #define SCHED_QUANTUM (hz / 10) /* Default sched quantum */ 103b43179fbSJeff Roberson 104e17c57b1SJeff Roberson static void setup_runqs(void); 105c55bbb6cSJohn Baldwin static void schedcpu(void); 106e17c57b1SJeff Roberson static void schedcpu_thread(void); 107f5c157d9SJohn Baldwin static void sched_priority(struct thread *td, u_char prio); 108b43179fbSJeff Roberson static void sched_setup(void *dummy); 109b43179fbSJeff Roberson static void maybe_resched(struct thread *td); 1108460a577SJohn Birrell static void updatepri(struct thread *td); 1118460a577SJohn Birrell static void resetpriority(struct thread *td); 1128460a577SJohn Birrell static void resetpriority_thread(struct thread *td); 11300b0483dSJulian Elischer #ifdef SMP 11482a1dfc1SJulian Elischer static int forward_wakeup(int cpunum); 11500b0483dSJulian Elischer #endif 116b43179fbSJeff Roberson 117e17c57b1SJeff Roberson static struct kproc_desc sched_kp = { 118e17c57b1SJeff Roberson "schedcpu", 119e17c57b1SJeff Roberson schedcpu_thread, 120e17c57b1SJeff Roberson NULL 121e17c57b1SJeff Roberson }; 122237fdd78SRobert Watson SYSINIT(schedcpu, SI_SUB_RUN_SCHEDULER, SI_ORDER_FIRST, kproc_start, 123237fdd78SRobert Watson &sched_kp); 124237fdd78SRobert Watson SYSINIT(sched_setup, SI_SUB_RUN_QUEUE, SI_ORDER_FIRST, sched_setup, NULL); 125b43179fbSJeff Roberson 126b43179fbSJeff Roberson /* 127b43179fbSJeff Roberson * Global run queue. 128b43179fbSJeff Roberson */ 129b43179fbSJeff Roberson static struct runq runq; 130e17c57b1SJeff Roberson 131e17c57b1SJeff Roberson #ifdef SMP 132e17c57b1SJeff Roberson /* 133e17c57b1SJeff Roberson * Per-CPU run queues 134e17c57b1SJeff Roberson */ 135e17c57b1SJeff Roberson static struct runq runq_pcpu[MAXCPU]; 136e17c57b1SJeff Roberson #endif 137e17c57b1SJeff Roberson 138e17c57b1SJeff Roberson static void 139e17c57b1SJeff Roberson setup_runqs(void) 140e17c57b1SJeff Roberson { 141e17c57b1SJeff Roberson #ifdef SMP 142e17c57b1SJeff Roberson int i; 143e17c57b1SJeff Roberson 144e17c57b1SJeff Roberson for (i = 0; i < MAXCPU; ++i) 145e17c57b1SJeff Roberson runq_init(&runq_pcpu[i]); 146e17c57b1SJeff Roberson #endif 147e17c57b1SJeff Roberson 148e17c57b1SJeff Roberson runq_init(&runq); 149e17c57b1SJeff Roberson } 150b43179fbSJeff Roberson 151b43179fbSJeff Roberson static int 152b43179fbSJeff Roberson sysctl_kern_quantum(SYSCTL_HANDLER_ARGS) 153b43179fbSJeff Roberson { 154b43179fbSJeff Roberson int error, new_val; 155b43179fbSJeff Roberson 156b43179fbSJeff Roberson new_val = sched_quantum * tick; 157b43179fbSJeff Roberson error = sysctl_handle_int(oidp, &new_val, 0, req); 158b43179fbSJeff Roberson if (error != 0 || req->newptr == NULL) 159b43179fbSJeff Roberson return (error); 160b43179fbSJeff Roberson if (new_val < tick) 161b43179fbSJeff Roberson return (EINVAL); 162b43179fbSJeff Roberson sched_quantum = new_val / tick; 163b43179fbSJeff Roberson hogticks = 2 * sched_quantum; 164b43179fbSJeff Roberson return (0); 165b43179fbSJeff Roberson } 166b43179fbSJeff Roberson 167e038d354SScott Long SYSCTL_NODE(_kern, OID_AUTO, sched, CTLFLAG_RD, 0, "Scheduler"); 168dc095794SScott Long 169e038d354SScott Long SYSCTL_STRING(_kern_sched, OID_AUTO, name, CTLFLAG_RD, "4BSD", 0, 170e038d354SScott Long "Scheduler name"); 171dc095794SScott Long 172dc095794SScott Long SYSCTL_PROC(_kern_sched, OID_AUTO, quantum, CTLTYPE_INT | CTLFLAG_RW, 173b43179fbSJeff Roberson 0, sizeof sched_quantum, sysctl_kern_quantum, "I", 174b43179fbSJeff Roberson "Roundrobin scheduling quantum in microseconds"); 175b43179fbSJeff Roberson 17637c28a02SJulian Elischer #ifdef SMP 17782a1dfc1SJulian Elischer /* Enable forwarding of wakeups to all other cpus */ 17882a1dfc1SJulian Elischer SYSCTL_NODE(_kern_sched, OID_AUTO, ipiwakeup, CTLFLAG_RD, NULL, "Kernel SMP"); 17982a1dfc1SJulian Elischer 180a90f3f25SJeff Roberson static int runq_fuzz = 1; 181a90f3f25SJeff Roberson SYSCTL_INT(_kern_sched, OID_AUTO, runq_fuzz, CTLFLAG_RW, &runq_fuzz, 0, ""); 182a90f3f25SJeff Roberson 183bce73aedSJulian Elischer static int forward_wakeup_enabled = 1; 18482a1dfc1SJulian Elischer SYSCTL_INT(_kern_sched_ipiwakeup, OID_AUTO, enabled, CTLFLAG_RW, 18582a1dfc1SJulian Elischer &forward_wakeup_enabled, 0, 18682a1dfc1SJulian Elischer "Forwarding of wakeup to idle CPUs"); 18782a1dfc1SJulian Elischer 18882a1dfc1SJulian Elischer static int forward_wakeups_requested = 0; 18982a1dfc1SJulian Elischer SYSCTL_INT(_kern_sched_ipiwakeup, OID_AUTO, requested, CTLFLAG_RD, 19082a1dfc1SJulian Elischer &forward_wakeups_requested, 0, 19182a1dfc1SJulian Elischer "Requests for Forwarding of wakeup to idle CPUs"); 19282a1dfc1SJulian Elischer 19382a1dfc1SJulian Elischer static int forward_wakeups_delivered = 0; 19482a1dfc1SJulian Elischer SYSCTL_INT(_kern_sched_ipiwakeup, OID_AUTO, delivered, CTLFLAG_RD, 19582a1dfc1SJulian Elischer &forward_wakeups_delivered, 0, 19682a1dfc1SJulian Elischer "Completed Forwarding of wakeup to idle CPUs"); 19782a1dfc1SJulian Elischer 198bce73aedSJulian Elischer static int forward_wakeup_use_mask = 1; 19982a1dfc1SJulian Elischer SYSCTL_INT(_kern_sched_ipiwakeup, OID_AUTO, usemask, CTLFLAG_RW, 20082a1dfc1SJulian Elischer &forward_wakeup_use_mask, 0, 20182a1dfc1SJulian Elischer "Use the mask of idle cpus"); 20282a1dfc1SJulian Elischer 20382a1dfc1SJulian Elischer static int forward_wakeup_use_loop = 0; 20482a1dfc1SJulian Elischer SYSCTL_INT(_kern_sched_ipiwakeup, OID_AUTO, useloop, CTLFLAG_RW, 20582a1dfc1SJulian Elischer &forward_wakeup_use_loop, 0, 20682a1dfc1SJulian Elischer "Use a loop to find idle cpus"); 20782a1dfc1SJulian Elischer 20882a1dfc1SJulian Elischer static int forward_wakeup_use_single = 0; 20982a1dfc1SJulian Elischer SYSCTL_INT(_kern_sched_ipiwakeup, OID_AUTO, onecpu, CTLFLAG_RW, 21082a1dfc1SJulian Elischer &forward_wakeup_use_single, 0, 21182a1dfc1SJulian Elischer "Only signal one idle cpu"); 21282a1dfc1SJulian Elischer 21382a1dfc1SJulian Elischer static int forward_wakeup_use_htt = 0; 21482a1dfc1SJulian Elischer SYSCTL_INT(_kern_sched_ipiwakeup, OID_AUTO, htt2, CTLFLAG_RW, 21582a1dfc1SJulian Elischer &forward_wakeup_use_htt, 0, 21682a1dfc1SJulian Elischer "account for htt"); 2173389af30SJulian Elischer 21837c28a02SJulian Elischer #endif 219ad1e7d28SJulian Elischer #if 0 2203389af30SJulian Elischer static int sched_followon = 0; 2213389af30SJulian Elischer SYSCTL_INT(_kern_sched, OID_AUTO, followon, CTLFLAG_RW, 2223389af30SJulian Elischer &sched_followon, 0, 2233389af30SJulian Elischer "allow threads to share a quantum"); 2248460a577SJohn Birrell #endif 22582a1dfc1SJulian Elischer 226907bdbc2SJeff Roberson static __inline void 227907bdbc2SJeff Roberson sched_load_add(void) 228907bdbc2SJeff Roberson { 229907bdbc2SJeff Roberson sched_tdcnt++; 230907bdbc2SJeff Roberson CTR1(KTR_SCHED, "global load: %d", sched_tdcnt); 231907bdbc2SJeff Roberson } 232907bdbc2SJeff Roberson 233907bdbc2SJeff Roberson static __inline void 234907bdbc2SJeff Roberson sched_load_rem(void) 235907bdbc2SJeff Roberson { 236907bdbc2SJeff Roberson sched_tdcnt--; 237907bdbc2SJeff Roberson CTR1(KTR_SCHED, "global load: %d", sched_tdcnt); 238907bdbc2SJeff Roberson } 239b43179fbSJeff Roberson /* 240b43179fbSJeff Roberson * Arrange to reschedule if necessary, taking the priorities and 241b43179fbSJeff Roberson * schedulers into account. 242b43179fbSJeff Roberson */ 243b43179fbSJeff Roberson static void 244b43179fbSJeff Roberson maybe_resched(struct thread *td) 245b43179fbSJeff Roberson { 246b43179fbSJeff Roberson 2477b20fb19SJeff Roberson THREAD_LOCK_ASSERT(td, MA_OWNED); 248ed062c8dSJulian Elischer if (td->td_priority < curthread->td_priority) 2494a338afdSJulian Elischer curthread->td_flags |= TDF_NEEDRESCHED; 250b43179fbSJeff Roberson } 251b43179fbSJeff Roberson 252b43179fbSJeff Roberson /* 253a90f3f25SJeff Roberson * This function is called when a thread is about to be put on run queue 254a90f3f25SJeff Roberson * because it has been made runnable or its priority has been adjusted. It 255a90f3f25SJeff Roberson * determines if the new thread should be immediately preempted to. If so, 256a90f3f25SJeff Roberson * it switches to it and eventually returns true. If not, it returns false 257a90f3f25SJeff Roberson * so that the caller may place the thread on an appropriate run queue. 258a90f3f25SJeff Roberson */ 259a90f3f25SJeff Roberson int 260a90f3f25SJeff Roberson maybe_preempt(struct thread *td) 261a90f3f25SJeff Roberson { 262a90f3f25SJeff Roberson #ifdef PREEMPTION 263a90f3f25SJeff Roberson struct thread *ctd; 264a90f3f25SJeff Roberson int cpri, pri; 265a90f3f25SJeff Roberson #endif 266a90f3f25SJeff Roberson 267a90f3f25SJeff Roberson #ifdef PREEMPTION 268a90f3f25SJeff Roberson /* 269a90f3f25SJeff Roberson * The new thread should not preempt the current thread if any of the 270a90f3f25SJeff Roberson * following conditions are true: 271a90f3f25SJeff Roberson * 272a90f3f25SJeff Roberson * - The kernel is in the throes of crashing (panicstr). 273a90f3f25SJeff Roberson * - The current thread has a higher (numerically lower) or 274a90f3f25SJeff Roberson * equivalent priority. Note that this prevents curthread from 275a90f3f25SJeff Roberson * trying to preempt to itself. 276a90f3f25SJeff Roberson * - It is too early in the boot for context switches (cold is set). 277a90f3f25SJeff Roberson * - The current thread has an inhibitor set or is in the process of 278a90f3f25SJeff Roberson * exiting. In this case, the current thread is about to switch 279a90f3f25SJeff Roberson * out anyways, so there's no point in preempting. If we did, 280a90f3f25SJeff Roberson * the current thread would not be properly resumed as well, so 281a90f3f25SJeff Roberson * just avoid that whole landmine. 282a90f3f25SJeff Roberson * - If the new thread's priority is not a realtime priority and 283a90f3f25SJeff Roberson * the current thread's priority is not an idle priority and 284a90f3f25SJeff Roberson * FULL_PREEMPTION is disabled. 285a90f3f25SJeff Roberson * 286a90f3f25SJeff Roberson * If all of these conditions are false, but the current thread is in 287a90f3f25SJeff Roberson * a nested critical section, then we have to defer the preemption 288a90f3f25SJeff Roberson * until we exit the critical section. Otherwise, switch immediately 289a90f3f25SJeff Roberson * to the new thread. 290a90f3f25SJeff Roberson */ 291a90f3f25SJeff Roberson ctd = curthread; 292a90f3f25SJeff Roberson THREAD_LOCK_ASSERT(td, MA_OWNED); 293a90f3f25SJeff Roberson KASSERT((td->td_inhibitors == 0), 294a90f3f25SJeff Roberson ("maybe_preempt: trying to run inhibited thread")); 295a90f3f25SJeff Roberson pri = td->td_priority; 296a90f3f25SJeff Roberson cpri = ctd->td_priority; 297a90f3f25SJeff Roberson if (panicstr != NULL || pri >= cpri || cold /* || dumping */ || 298a90f3f25SJeff Roberson TD_IS_INHIBITED(ctd)) 299a90f3f25SJeff Roberson return (0); 300a90f3f25SJeff Roberson #ifndef FULL_PREEMPTION 301a90f3f25SJeff Roberson if (pri > PRI_MAX_ITHD && cpri < PRI_MIN_IDLE) 302a90f3f25SJeff Roberson return (0); 303a90f3f25SJeff Roberson #endif 304a90f3f25SJeff Roberson 305a90f3f25SJeff Roberson if (ctd->td_critnest > 1) { 306a90f3f25SJeff Roberson CTR1(KTR_PROC, "maybe_preempt: in critical section %d", 307a90f3f25SJeff Roberson ctd->td_critnest); 308a90f3f25SJeff Roberson ctd->td_owepreempt = 1; 309a90f3f25SJeff Roberson return (0); 310a90f3f25SJeff Roberson } 311a90f3f25SJeff Roberson /* 312a90f3f25SJeff Roberson * Thread is runnable but not yet put on system run queue. 313a90f3f25SJeff Roberson */ 314a90f3f25SJeff Roberson MPASS(ctd->td_lock == td->td_lock); 315a90f3f25SJeff Roberson MPASS(TD_ON_RUNQ(td)); 316a90f3f25SJeff Roberson TD_SET_RUNNING(td); 317a90f3f25SJeff Roberson CTR3(KTR_PROC, "preempting to thread %p (pid %d, %s)\n", td, 318a90f3f25SJeff Roberson td->td_proc->p_pid, td->td_name); 319a90f3f25SJeff Roberson SCHED_STAT_INC(switch_preempt); 320a90f3f25SJeff Roberson mi_switch(SW_INVOL|SW_PREEMPT, td); 321a90f3f25SJeff Roberson /* 322a90f3f25SJeff Roberson * td's lock pointer may have changed. We have to return with it 323a90f3f25SJeff Roberson * locked. 324a90f3f25SJeff Roberson */ 325a90f3f25SJeff Roberson spinlock_enter(); 326a90f3f25SJeff Roberson thread_unlock(ctd); 327a90f3f25SJeff Roberson thread_lock(td); 328a90f3f25SJeff Roberson spinlock_exit(); 329a90f3f25SJeff Roberson return (1); 330a90f3f25SJeff Roberson #else 331a90f3f25SJeff Roberson return (0); 332a90f3f25SJeff Roberson #endif 333a90f3f25SJeff Roberson } 334a90f3f25SJeff Roberson 335a90f3f25SJeff Roberson /* 336b43179fbSJeff Roberson * Constants for digital decay and forget: 3378460a577SJohn Birrell * 90% of (td_estcpu) usage in 5 * loadav time 338ad1e7d28SJulian Elischer * 95% of (ts_pctcpu) usage in 60 seconds (load insensitive) 339b43179fbSJeff Roberson * Note that, as ps(1) mentions, this can let percentages 340b43179fbSJeff Roberson * total over 100% (I've seen 137.9% for 3 processes). 341b43179fbSJeff Roberson * 3428460a577SJohn Birrell * Note that schedclock() updates td_estcpu and p_cpticks asynchronously. 343b43179fbSJeff Roberson * 3448460a577SJohn Birrell * We wish to decay away 90% of td_estcpu in (5 * loadavg) seconds. 345b43179fbSJeff Roberson * That is, the system wants to compute a value of decay such 346b43179fbSJeff Roberson * that the following for loop: 347b43179fbSJeff Roberson * for (i = 0; i < (5 * loadavg); i++) 3488460a577SJohn Birrell * td_estcpu *= decay; 349b43179fbSJeff Roberson * will compute 3508460a577SJohn Birrell * td_estcpu *= 0.1; 351b43179fbSJeff Roberson * for all values of loadavg: 352b43179fbSJeff Roberson * 353b43179fbSJeff Roberson * Mathematically this loop can be expressed by saying: 354b43179fbSJeff Roberson * decay ** (5 * loadavg) ~= .1 355b43179fbSJeff Roberson * 356b43179fbSJeff Roberson * The system computes decay as: 357b43179fbSJeff Roberson * decay = (2 * loadavg) / (2 * loadavg + 1) 358b43179fbSJeff Roberson * 359b43179fbSJeff Roberson * We wish to prove that the system's computation of decay 360b43179fbSJeff Roberson * will always fulfill the equation: 361b43179fbSJeff Roberson * decay ** (5 * loadavg) ~= .1 362b43179fbSJeff Roberson * 363b43179fbSJeff Roberson * If we compute b as: 364b43179fbSJeff Roberson * b = 2 * loadavg 365b43179fbSJeff Roberson * then 366b43179fbSJeff Roberson * decay = b / (b + 1) 367b43179fbSJeff Roberson * 368b43179fbSJeff Roberson * We now need to prove two things: 369b43179fbSJeff Roberson * 1) Given factor ** (5 * loadavg) ~= .1, prove factor == b/(b+1) 370b43179fbSJeff Roberson * 2) Given b/(b+1) ** power ~= .1, prove power == (5 * loadavg) 371b43179fbSJeff Roberson * 372b43179fbSJeff Roberson * Facts: 373b43179fbSJeff Roberson * For x close to zero, exp(x) =~ 1 + x, since 374b43179fbSJeff Roberson * exp(x) = 0! + x**1/1! + x**2/2! + ... . 375b43179fbSJeff Roberson * therefore exp(-1/b) =~ 1 - (1/b) = (b-1)/b. 376b43179fbSJeff Roberson * For x close to zero, ln(1+x) =~ x, since 377b43179fbSJeff Roberson * ln(1+x) = x - x**2/2 + x**3/3 - ... -1 < x < 1 378b43179fbSJeff Roberson * therefore ln(b/(b+1)) = ln(1 - 1/(b+1)) =~ -1/(b+1). 379b43179fbSJeff Roberson * ln(.1) =~ -2.30 380b43179fbSJeff Roberson * 381b43179fbSJeff Roberson * Proof of (1): 382b43179fbSJeff Roberson * Solve (factor)**(power) =~ .1 given power (5*loadav): 383b43179fbSJeff Roberson * solving for factor, 384b43179fbSJeff Roberson * ln(factor) =~ (-2.30/5*loadav), or 385b43179fbSJeff Roberson * factor =~ exp(-1/((5/2.30)*loadav)) =~ exp(-1/(2*loadav)) = 386b43179fbSJeff Roberson * exp(-1/b) =~ (b-1)/b =~ b/(b+1). QED 387b43179fbSJeff Roberson * 388b43179fbSJeff Roberson * Proof of (2): 389b43179fbSJeff Roberson * Solve (factor)**(power) =~ .1 given factor == (b/(b+1)): 390b43179fbSJeff Roberson * solving for power, 391b43179fbSJeff Roberson * power*ln(b/(b+1)) =~ -2.30, or 392b43179fbSJeff Roberson * power =~ 2.3 * (b + 1) = 4.6*loadav + 2.3 =~ 5*loadav. QED 393b43179fbSJeff Roberson * 394b43179fbSJeff Roberson * Actual power values for the implemented algorithm are as follows: 395b43179fbSJeff Roberson * loadav: 1 2 3 4 396b43179fbSJeff Roberson * power: 5.68 10.32 14.94 19.55 397b43179fbSJeff Roberson */ 398b43179fbSJeff Roberson 399b43179fbSJeff Roberson /* calculations for digital decay to forget 90% of usage in 5*loadav sec */ 400b43179fbSJeff Roberson #define loadfactor(loadav) (2 * (loadav)) 401b43179fbSJeff Roberson #define decay_cpu(loadfac, cpu) (((loadfac) * (cpu)) / ((loadfac) + FSCALE)) 402b43179fbSJeff Roberson 403ad1e7d28SJulian Elischer /* decay 95% of `ts_pctcpu' in 60 seconds; see CCPU_SHIFT before changing */ 404b43179fbSJeff Roberson static fixpt_t ccpu = 0.95122942450071400909 * FSCALE; /* exp(-1/20) */ 4055c06d111SJohn-Mark Gurney SYSCTL_INT(_kern, OID_AUTO, ccpu, CTLFLAG_RD, &ccpu, 0, ""); 406b43179fbSJeff Roberson 407b43179fbSJeff Roberson /* 408b43179fbSJeff Roberson * If `ccpu' is not equal to `exp(-1/20)' and you still want to use the 409b43179fbSJeff Roberson * faster/more-accurate formula, you'll have to estimate CCPU_SHIFT below 410b43179fbSJeff Roberson * and possibly adjust FSHIFT in "param.h" so that (FSHIFT >= CCPU_SHIFT). 411b43179fbSJeff Roberson * 412b43179fbSJeff Roberson * To estimate CCPU_SHIFT for exp(-1/20), the following formula was used: 413b43179fbSJeff Roberson * 1 - exp(-1/20) ~= 0.0487 ~= 0.0488 == 1 (fixed pt, *11* bits). 414b43179fbSJeff Roberson * 415b43179fbSJeff Roberson * If you don't want to bother with the faster/more-accurate formula, you 416b43179fbSJeff Roberson * can set CCPU_SHIFT to (FSHIFT + 1) which will use a slower/less-accurate 417b43179fbSJeff Roberson * (more general) method of calculating the %age of CPU used by a process. 418b43179fbSJeff Roberson */ 419b43179fbSJeff Roberson #define CCPU_SHIFT 11 420b43179fbSJeff Roberson 421b43179fbSJeff Roberson /* 422b43179fbSJeff Roberson * Recompute process priorities, every hz ticks. 423b43179fbSJeff Roberson * MP-safe, called without the Giant mutex. 424b43179fbSJeff Roberson */ 425b43179fbSJeff Roberson /* ARGSUSED */ 426b43179fbSJeff Roberson static void 427c55bbb6cSJohn Baldwin schedcpu(void) 428b43179fbSJeff Roberson { 429b43179fbSJeff Roberson register fixpt_t loadfac = loadfactor(averunnable.ldavg[0]); 430b43179fbSJeff Roberson struct thread *td; 431b43179fbSJeff Roberson struct proc *p; 432ad1e7d28SJulian Elischer struct td_sched *ts; 43370fca427SJohn Baldwin int awake, realstathz; 434b43179fbSJeff Roberson 435b43179fbSJeff Roberson realstathz = stathz ? stathz : hz; 436b43179fbSJeff Roberson sx_slock(&allproc_lock); 437b43179fbSJeff Roberson FOREACH_PROC_IN_SYSTEM(p) { 438374ae2a3SJeff Roberson PROC_LOCK(p); 4398460a577SJohn Birrell FOREACH_THREAD_IN_PROC(p, td) { 440b43179fbSJeff Roberson awake = 0; 4417b20fb19SJeff Roberson thread_lock(td); 442ad1e7d28SJulian Elischer ts = td->td_sched; 443b43179fbSJeff Roberson /* 44470fca427SJohn Baldwin * Increment sleep time (if sleeping). We 44570fca427SJohn Baldwin * ignore overflow, as above. 446b43179fbSJeff Roberson */ 447b43179fbSJeff Roberson /* 448ad1e7d28SJulian Elischer * The td_sched slptimes are not touched in wakeup 449ad1e7d28SJulian Elischer * because the thread may not HAVE everything in 450ad1e7d28SJulian Elischer * memory? XXX I think this is out of date. 451b43179fbSJeff Roberson */ 452f0393f06SJeff Roberson if (TD_ON_RUNQ(td)) { 453b43179fbSJeff Roberson awake = 1; 4549727e637SJeff Roberson td->td_flags &= ~TDF_DIDRUN; 455f0393f06SJeff Roberson } else if (TD_IS_RUNNING(td)) { 456b43179fbSJeff Roberson awake = 1; 4579727e637SJeff Roberson /* Do not clear TDF_DIDRUN */ 4589727e637SJeff Roberson } else if (td->td_flags & TDF_DIDRUN) { 459b43179fbSJeff Roberson awake = 1; 4609727e637SJeff Roberson td->td_flags &= ~TDF_DIDRUN; 461b43179fbSJeff Roberson } 462b43179fbSJeff Roberson 463b43179fbSJeff Roberson /* 464ad1e7d28SJulian Elischer * ts_pctcpu is only for ps and ttyinfo(). 465b43179fbSJeff Roberson */ 466ad1e7d28SJulian Elischer ts->ts_pctcpu = (ts->ts_pctcpu * ccpu) >> FSHIFT; 467b43179fbSJeff Roberson /* 468ad1e7d28SJulian Elischer * If the td_sched has been idle the entire second, 469b43179fbSJeff Roberson * stop recalculating its priority until 470b43179fbSJeff Roberson * it wakes up. 471b43179fbSJeff Roberson */ 472ad1e7d28SJulian Elischer if (ts->ts_cpticks != 0) { 473b43179fbSJeff Roberson #if (FSHIFT >= CCPU_SHIFT) 474ad1e7d28SJulian Elischer ts->ts_pctcpu += (realstathz == 100) 475ad1e7d28SJulian Elischer ? ((fixpt_t) ts->ts_cpticks) << 476b43179fbSJeff Roberson (FSHIFT - CCPU_SHIFT) : 477ad1e7d28SJulian Elischer 100 * (((fixpt_t) ts->ts_cpticks) 478bcb06d59SJeff Roberson << (FSHIFT - CCPU_SHIFT)) / realstathz; 479b43179fbSJeff Roberson #else 480ad1e7d28SJulian Elischer ts->ts_pctcpu += ((FSCALE - ccpu) * 481ad1e7d28SJulian Elischer (ts->ts_cpticks * 482bcb06d59SJeff Roberson FSCALE / realstathz)) >> FSHIFT; 483b43179fbSJeff Roberson #endif 484ad1e7d28SJulian Elischer ts->ts_cpticks = 0; 4858460a577SJohn Birrell } 4868460a577SJohn Birrell /* 4878460a577SJohn Birrell * If there are ANY running threads in this process, 488b43179fbSJeff Roberson * then don't count it as sleeping. 489ad1e7d28SJulian Elischer XXX this is broken 490ad1e7d28SJulian Elischer 491b43179fbSJeff Roberson */ 492b43179fbSJeff Roberson if (awake) { 49354b0e65fSJeff Roberson if (ts->ts_slptime > 1) { 494b43179fbSJeff Roberson /* 495b43179fbSJeff Roberson * In an ideal world, this should not 496b43179fbSJeff Roberson * happen, because whoever woke us 497b43179fbSJeff Roberson * up from the long sleep should have 498b43179fbSJeff Roberson * unwound the slptime and reset our 499b43179fbSJeff Roberson * priority before we run at the stale 500b43179fbSJeff Roberson * priority. Should KASSERT at some 501b43179fbSJeff Roberson * point when all the cases are fixed. 502b43179fbSJeff Roberson */ 5038460a577SJohn Birrell updatepri(td); 5048460a577SJohn Birrell } 50554b0e65fSJeff Roberson ts->ts_slptime = 0; 5068460a577SJohn Birrell } else 50754b0e65fSJeff Roberson ts->ts_slptime++; 50854b0e65fSJeff Roberson if (ts->ts_slptime > 1) { 5097b20fb19SJeff Roberson thread_unlock(td); 5108460a577SJohn Birrell continue; 5117b20fb19SJeff Roberson } 5128460a577SJohn Birrell td->td_estcpu = decay_cpu(loadfac, td->td_estcpu); 5138460a577SJohn Birrell resetpriority(td); 5148460a577SJohn Birrell resetpriority_thread(td); 5157b20fb19SJeff Roberson thread_unlock(td); 5168460a577SJohn Birrell } /* end of thread loop */ 517374ae2a3SJeff Roberson PROC_UNLOCK(p); 518b43179fbSJeff Roberson } /* end of process loop */ 519b43179fbSJeff Roberson sx_sunlock(&allproc_lock); 520c55bbb6cSJohn Baldwin } 521c55bbb6cSJohn Baldwin 522c55bbb6cSJohn Baldwin /* 523c55bbb6cSJohn Baldwin * Main loop for a kthread that executes schedcpu once a second. 524c55bbb6cSJohn Baldwin */ 525c55bbb6cSJohn Baldwin static void 526e17c57b1SJeff Roberson schedcpu_thread(void) 527c55bbb6cSJohn Baldwin { 528c55bbb6cSJohn Baldwin 529c55bbb6cSJohn Baldwin for (;;) { 530c55bbb6cSJohn Baldwin schedcpu(); 5314d70511aSJohn Baldwin pause("-", hz); 532c55bbb6cSJohn Baldwin } 533b43179fbSJeff Roberson } 534b43179fbSJeff Roberson 535b43179fbSJeff Roberson /* 536b43179fbSJeff Roberson * Recalculate the priority of a process after it has slept for a while. 5378460a577SJohn Birrell * For all load averages >= 1 and max td_estcpu of 255, sleeping for at 5388460a577SJohn Birrell * least six times the loadfactor will decay td_estcpu to zero. 539b43179fbSJeff Roberson */ 540b43179fbSJeff Roberson static void 5418460a577SJohn Birrell updatepri(struct thread *td) 542b43179fbSJeff Roberson { 54354b0e65fSJeff Roberson struct td_sched *ts; 54454b0e65fSJeff Roberson fixpt_t loadfac; 54554b0e65fSJeff Roberson unsigned int newcpu; 546b43179fbSJeff Roberson 54754b0e65fSJeff Roberson ts = td->td_sched; 54870fca427SJohn Baldwin loadfac = loadfactor(averunnable.ldavg[0]); 54954b0e65fSJeff Roberson if (ts->ts_slptime > 5 * loadfac) 5508460a577SJohn Birrell td->td_estcpu = 0; 551b43179fbSJeff Roberson else { 5528460a577SJohn Birrell newcpu = td->td_estcpu; 55354b0e65fSJeff Roberson ts->ts_slptime--; /* was incremented in schedcpu() */ 55454b0e65fSJeff Roberson while (newcpu && --ts->ts_slptime) 555b43179fbSJeff Roberson newcpu = decay_cpu(loadfac, newcpu); 5568460a577SJohn Birrell td->td_estcpu = newcpu; 557b43179fbSJeff Roberson } 558b43179fbSJeff Roberson } 559b43179fbSJeff Roberson 560b43179fbSJeff Roberson /* 561b43179fbSJeff Roberson * Compute the priority of a process when running in user mode. 562b43179fbSJeff Roberson * Arrange to reschedule if the resulting priority is better 563b43179fbSJeff Roberson * than that of the current process. 564b43179fbSJeff Roberson */ 565b43179fbSJeff Roberson static void 5668460a577SJohn Birrell resetpriority(struct thread *td) 567b43179fbSJeff Roberson { 568b43179fbSJeff Roberson register unsigned int newpriority; 569b43179fbSJeff Roberson 5708460a577SJohn Birrell if (td->td_pri_class == PRI_TIMESHARE) { 5718460a577SJohn Birrell newpriority = PUSER + td->td_estcpu / INVERSE_ESTCPU_WEIGHT + 5728460a577SJohn Birrell NICE_WEIGHT * (td->td_proc->p_nice - PRIO_MIN); 573b43179fbSJeff Roberson newpriority = min(max(newpriority, PRI_MIN_TIMESHARE), 574b43179fbSJeff Roberson PRI_MAX_TIMESHARE); 5758460a577SJohn Birrell sched_user_prio(td, newpriority); 576b43179fbSJeff Roberson } 577b43179fbSJeff Roberson } 578f5c157d9SJohn Baldwin 579f5c157d9SJohn Baldwin /* 580ad1e7d28SJulian Elischer * Update the thread's priority when the associated process's user 581f5c157d9SJohn Baldwin * priority changes. 582f5c157d9SJohn Baldwin */ 583f5c157d9SJohn Baldwin static void 5848460a577SJohn Birrell resetpriority_thread(struct thread *td) 585f5c157d9SJohn Baldwin { 586f5c157d9SJohn Baldwin 587f5c157d9SJohn Baldwin /* Only change threads with a time sharing user priority. */ 588f5c157d9SJohn Baldwin if (td->td_priority < PRI_MIN_TIMESHARE || 589f5c157d9SJohn Baldwin td->td_priority > PRI_MAX_TIMESHARE) 590f5c157d9SJohn Baldwin return; 591f5c157d9SJohn Baldwin 592f5c157d9SJohn Baldwin /* XXX the whole needresched thing is broken, but not silly. */ 593f5c157d9SJohn Baldwin maybe_resched(td); 594f5c157d9SJohn Baldwin 5958460a577SJohn Birrell sched_prio(td, td->td_user_pri); 596b43179fbSJeff Roberson } 597b43179fbSJeff Roberson 598b43179fbSJeff Roberson /* ARGSUSED */ 599b43179fbSJeff Roberson static void 600b43179fbSJeff Roberson sched_setup(void *dummy) 601b43179fbSJeff Roberson { 602e17c57b1SJeff Roberson setup_runqs(); 60370fca427SJohn Baldwin 604b43179fbSJeff Roberson if (sched_quantum == 0) 605b43179fbSJeff Roberson sched_quantum = SCHED_QUANTUM; 606b43179fbSJeff Roberson hogticks = 2 * sched_quantum; 607b43179fbSJeff Roberson 608ca59f152SJeff Roberson /* Account for thread0. */ 609907bdbc2SJeff Roberson sched_load_add(); 610b43179fbSJeff Roberson } 611b43179fbSJeff Roberson 612b43179fbSJeff Roberson /* External interfaces start here */ 613ed062c8dSJulian Elischer /* 614ed062c8dSJulian Elischer * Very early in the boot some setup of scheduler-specific 615f3050486SMaxim Konovalov * parts of proc0 and of some scheduler resources needs to be done. 616ed062c8dSJulian Elischer * Called from: 617ed062c8dSJulian Elischer * proc0_init() 618ed062c8dSJulian Elischer */ 619ed062c8dSJulian Elischer void 620ed062c8dSJulian Elischer schedinit(void) 621ed062c8dSJulian Elischer { 622ed062c8dSJulian Elischer /* 623ed062c8dSJulian Elischer * Set up the scheduler specific parts of proc0. 624ed062c8dSJulian Elischer */ 625ed062c8dSJulian Elischer proc0.p_sched = NULL; /* XXX */ 626ad1e7d28SJulian Elischer thread0.td_sched = &td_sched0; 6277b20fb19SJeff Roberson thread0.td_lock = &sched_lock; 6286ea38de8SJeff Roberson mtx_init(&sched_lock, "sched lock", NULL, MTX_SPIN | MTX_RECURSE); 629ed062c8dSJulian Elischer } 630ed062c8dSJulian Elischer 631b43179fbSJeff Roberson int 632b43179fbSJeff Roberson sched_runnable(void) 633b43179fbSJeff Roberson { 634e17c57b1SJeff Roberson #ifdef SMP 635e17c57b1SJeff Roberson return runq_check(&runq) + runq_check(&runq_pcpu[PCPU_GET(cpuid)]); 636e17c57b1SJeff Roberson #else 637b43179fbSJeff Roberson return runq_check(&runq); 638e17c57b1SJeff Roberson #endif 639b43179fbSJeff Roberson } 640b43179fbSJeff Roberson 641b43179fbSJeff Roberson int 642b43179fbSJeff Roberson sched_rr_interval(void) 643b43179fbSJeff Roberson { 644b43179fbSJeff Roberson if (sched_quantum == 0) 645b43179fbSJeff Roberson sched_quantum = SCHED_QUANTUM; 646b43179fbSJeff Roberson return (sched_quantum); 647b43179fbSJeff Roberson } 648b43179fbSJeff Roberson 649b43179fbSJeff Roberson /* 650b43179fbSJeff Roberson * We adjust the priority of the current process. The priority of 651b43179fbSJeff Roberson * a process gets worse as it accumulates CPU time. The cpu usage 6528460a577SJohn Birrell * estimator (td_estcpu) is increased here. resetpriority() will 6538460a577SJohn Birrell * compute a different priority each time td_estcpu increases by 654b43179fbSJeff Roberson * INVERSE_ESTCPU_WEIGHT 655b43179fbSJeff Roberson * (until MAXPRI is reached). The cpu usage estimator ramps up 656b43179fbSJeff Roberson * quite quickly when the process is running (linearly), and decays 657b43179fbSJeff Roberson * away exponentially, at a rate which is proportionally slower when 658b43179fbSJeff Roberson * the system is busy. The basic principle is that the system will 659b43179fbSJeff Roberson * 90% forget that the process used a lot of CPU time in 5 * loadav 660b43179fbSJeff Roberson * seconds. This causes the system to favor processes which haven't 661b43179fbSJeff Roberson * run much recently, and to round-robin among other processes. 662b43179fbSJeff Roberson */ 663b43179fbSJeff Roberson void 6647cf90fb3SJeff Roberson sched_clock(struct thread *td) 665b43179fbSJeff Roberson { 666ad1e7d28SJulian Elischer struct td_sched *ts; 667b43179fbSJeff Roberson 6687b20fb19SJeff Roberson THREAD_LOCK_ASSERT(td, MA_OWNED); 669ad1e7d28SJulian Elischer ts = td->td_sched; 670f7f9e7f3SJeff Roberson 671ad1e7d28SJulian Elischer ts->ts_cpticks++; 6728460a577SJohn Birrell td->td_estcpu = ESTCPULIM(td->td_estcpu + 1); 6738460a577SJohn Birrell if ((td->td_estcpu % INVERSE_ESTCPU_WEIGHT) == 0) { 6748460a577SJohn Birrell resetpriority(td); 6758460a577SJohn Birrell resetpriority_thread(td); 676b43179fbSJeff Roberson } 6779dddab6fSJohn Baldwin 6789dddab6fSJohn Baldwin /* 6799dddab6fSJohn Baldwin * Force a context switch if the current thread has used up a full 6809dddab6fSJohn Baldwin * quantum (default quantum is 100ms). 6819dddab6fSJohn Baldwin */ 6829dddab6fSJohn Baldwin if (!TD_IS_IDLETHREAD(td) && 6839dddab6fSJohn Baldwin ticks - PCPU_GET(switchticks) >= sched_quantum) 6849dddab6fSJohn Baldwin td->td_flags |= TDF_NEEDRESCHED; 685b43179fbSJeff Roberson } 68670fca427SJohn Baldwin 6878460a577SJohn Birrell /* 6888460a577SJohn Birrell * charge childs scheduling cpu usage to parent. 6898460a577SJohn Birrell */ 690b43179fbSJeff Roberson void 69155d44f79SJulian Elischer sched_exit(struct proc *p, struct thread *td) 692f7f9e7f3SJeff Roberson { 6938460a577SJohn Birrell 6948460a577SJohn Birrell CTR3(KTR_SCHED, "sched_exit: %p(%s) prio %d", 695431f8906SJulian Elischer td, td->td_name, td->td_priority); 696374ae2a3SJeff Roberson PROC_LOCK_ASSERT(p, MA_OWNED); 697ad1e7d28SJulian Elischer sched_exit_thread(FIRST_THREAD_IN_PROC(p), td); 698b43179fbSJeff Roberson } 699b43179fbSJeff Roberson 700b43179fbSJeff Roberson void 701f7f9e7f3SJeff Roberson sched_exit_thread(struct thread *td, struct thread *child) 702b43179fbSJeff Roberson { 703ad1e7d28SJulian Elischer 704907bdbc2SJeff Roberson CTR3(KTR_SCHED, "sched_exit_thread: %p(%s) prio %d", 705431f8906SJulian Elischer child, child->td_name, child->td_priority); 7067b20fb19SJeff Roberson thread_lock(td); 707ad1e7d28SJulian Elischer td->td_estcpu = ESTCPULIM(td->td_estcpu + child->td_estcpu); 7087b20fb19SJeff Roberson thread_unlock(td); 7097b20fb19SJeff Roberson mtx_lock_spin(&sched_lock); 7107d5ea13fSDoug Rabson if ((child->td_proc->p_flag & P_NOLOAD) == 0) 711907bdbc2SJeff Roberson sched_load_rem(); 7127b20fb19SJeff Roberson mtx_unlock_spin(&sched_lock); 713f7f9e7f3SJeff Roberson } 714bcb06d59SJeff Roberson 715f7f9e7f3SJeff Roberson void 716ed062c8dSJulian Elischer sched_fork(struct thread *td, struct thread *childtd) 717f7f9e7f3SJeff Roberson { 718ed062c8dSJulian Elischer sched_fork_thread(td, childtd); 719f7f9e7f3SJeff Roberson } 720bcb06d59SJeff Roberson 721f7f9e7f3SJeff Roberson void 722ed062c8dSJulian Elischer sched_fork_thread(struct thread *td, struct thread *childtd) 723f7f9e7f3SJeff Roberson { 7248b16c208SJeff Roberson struct td_sched *ts; 7258b16c208SJeff Roberson 726ad1e7d28SJulian Elischer childtd->td_estcpu = td->td_estcpu; 7277b20fb19SJeff Roberson childtd->td_lock = &sched_lock; 728f5a3ef99SMarcel Moolenaar childtd->td_cpuset = cpuset_ref(td->td_cpuset); 7298b16c208SJeff Roberson ts = childtd->td_sched; 7308b16c208SJeff Roberson bzero(ts, sizeof(*ts)); 731b43179fbSJeff Roberson } 732b43179fbSJeff Roberson 733b43179fbSJeff Roberson void 734fa885116SJulian Elischer sched_nice(struct proc *p, int nice) 735b43179fbSJeff Roberson { 736f5c157d9SJohn Baldwin struct thread *td; 7370b5318c8SJohn Baldwin 738fa885116SJulian Elischer PROC_LOCK_ASSERT(p, MA_OWNED); 739fa885116SJulian Elischer p->p_nice = nice; 7408460a577SJohn Birrell FOREACH_THREAD_IN_PROC(p, td) { 7417b20fb19SJeff Roberson thread_lock(td); 7428460a577SJohn Birrell resetpriority(td); 7438460a577SJohn Birrell resetpriority_thread(td); 7447b20fb19SJeff Roberson thread_unlock(td); 7458460a577SJohn Birrell } 746fa885116SJulian Elischer } 747b43179fbSJeff Roberson 748f7f9e7f3SJeff Roberson void 7498460a577SJohn Birrell sched_class(struct thread *td, int class) 750f7f9e7f3SJeff Roberson { 7517b20fb19SJeff Roberson THREAD_LOCK_ASSERT(td, MA_OWNED); 7528460a577SJohn Birrell td->td_pri_class = class; 753f7f9e7f3SJeff Roberson } 754f7f9e7f3SJeff Roberson 7558460a577SJohn Birrell /* 7568460a577SJohn Birrell * Adjust the priority of a thread. 7578460a577SJohn Birrell */ 758f5c157d9SJohn Baldwin static void 759f5c157d9SJohn Baldwin sched_priority(struct thread *td, u_char prio) 760b43179fbSJeff Roberson { 761907bdbc2SJeff Roberson CTR6(KTR_SCHED, "sched_prio: %p(%s) prio %d newprio %d by %p(%s)", 762431f8906SJulian Elischer td, td->td_name, td->td_priority, prio, curthread, 763431f8906SJulian Elischer curthread->td_name); 764b43179fbSJeff Roberson 7657b20fb19SJeff Roberson THREAD_LOCK_ASSERT(td, MA_OWNED); 766f5c157d9SJohn Baldwin if (td->td_priority == prio) 767f5c157d9SJohn Baldwin return; 7681f955e2dSJulian Elischer td->td_priority = prio; 7699727e637SJeff Roberson if (TD_ON_RUNQ(td) && td->td_rqindex != (prio / RQ_PPQ)) { 770f0393f06SJeff Roberson sched_rem(td); 771f0393f06SJeff Roberson sched_add(td, SRQ_BORING); 772b43179fbSJeff Roberson } 773b43179fbSJeff Roberson } 774b43179fbSJeff Roberson 775f5c157d9SJohn Baldwin /* 776f5c157d9SJohn Baldwin * Update a thread's priority when it is lent another thread's 777f5c157d9SJohn Baldwin * priority. 778f5c157d9SJohn Baldwin */ 779f5c157d9SJohn Baldwin void 780f5c157d9SJohn Baldwin sched_lend_prio(struct thread *td, u_char prio) 781f5c157d9SJohn Baldwin { 782f5c157d9SJohn Baldwin 783f5c157d9SJohn Baldwin td->td_flags |= TDF_BORROWING; 784f5c157d9SJohn Baldwin sched_priority(td, prio); 785f5c157d9SJohn Baldwin } 786f5c157d9SJohn Baldwin 787f5c157d9SJohn Baldwin /* 788f5c157d9SJohn Baldwin * Restore a thread's priority when priority propagation is 789f5c157d9SJohn Baldwin * over. The prio argument is the minimum priority the thread 790f5c157d9SJohn Baldwin * needs to have to satisfy other possible priority lending 791f5c157d9SJohn Baldwin * requests. If the thread's regulary priority is less 792f5c157d9SJohn Baldwin * important than prio the thread will keep a priority boost 793f5c157d9SJohn Baldwin * of prio. 794f5c157d9SJohn Baldwin */ 795f5c157d9SJohn Baldwin void 796f5c157d9SJohn Baldwin sched_unlend_prio(struct thread *td, u_char prio) 797f5c157d9SJohn Baldwin { 798f5c157d9SJohn Baldwin u_char base_pri; 799f5c157d9SJohn Baldwin 800f5c157d9SJohn Baldwin if (td->td_base_pri >= PRI_MIN_TIMESHARE && 801f5c157d9SJohn Baldwin td->td_base_pri <= PRI_MAX_TIMESHARE) 8028460a577SJohn Birrell base_pri = td->td_user_pri; 803f5c157d9SJohn Baldwin else 804f5c157d9SJohn Baldwin base_pri = td->td_base_pri; 805f5c157d9SJohn Baldwin if (prio >= base_pri) { 806f5c157d9SJohn Baldwin td->td_flags &= ~TDF_BORROWING; 807f5c157d9SJohn Baldwin sched_prio(td, base_pri); 808f5c157d9SJohn Baldwin } else 809f5c157d9SJohn Baldwin sched_lend_prio(td, prio); 810f5c157d9SJohn Baldwin } 811f5c157d9SJohn Baldwin 812f5c157d9SJohn Baldwin void 813f5c157d9SJohn Baldwin sched_prio(struct thread *td, u_char prio) 814f5c157d9SJohn Baldwin { 815f5c157d9SJohn Baldwin u_char oldprio; 816f5c157d9SJohn Baldwin 817f5c157d9SJohn Baldwin /* First, update the base priority. */ 818f5c157d9SJohn Baldwin td->td_base_pri = prio; 819f5c157d9SJohn Baldwin 820f5c157d9SJohn Baldwin /* 821f5c157d9SJohn Baldwin * If the thread is borrowing another thread's priority, don't ever 822f5c157d9SJohn Baldwin * lower the priority. 823f5c157d9SJohn Baldwin */ 824f5c157d9SJohn Baldwin if (td->td_flags & TDF_BORROWING && td->td_priority < prio) 825f5c157d9SJohn Baldwin return; 826f5c157d9SJohn Baldwin 827f5c157d9SJohn Baldwin /* Change the real priority. */ 828f5c157d9SJohn Baldwin oldprio = td->td_priority; 829f5c157d9SJohn Baldwin sched_priority(td, prio); 830f5c157d9SJohn Baldwin 831f5c157d9SJohn Baldwin /* 832f5c157d9SJohn Baldwin * If the thread is on a turnstile, then let the turnstile update 833f5c157d9SJohn Baldwin * its state. 834f5c157d9SJohn Baldwin */ 835f5c157d9SJohn Baldwin if (TD_ON_LOCK(td) && oldprio != prio) 836f5c157d9SJohn Baldwin turnstile_adjust(td, oldprio); 837f5c157d9SJohn Baldwin } 838f5c157d9SJohn Baldwin 839b43179fbSJeff Roberson void 8408460a577SJohn Birrell sched_user_prio(struct thread *td, u_char prio) 8413db720fdSDavid Xu { 8423db720fdSDavid Xu u_char oldprio; 8433db720fdSDavid Xu 844435806d3SDavid Xu THREAD_LOCK_ASSERT(td, MA_OWNED); 8458460a577SJohn Birrell td->td_base_user_pri = prio; 8465a215147SDavid Xu if (td->td_flags & TDF_UBORROWING && td->td_user_pri <= prio) 8475a215147SDavid Xu return; 8488460a577SJohn Birrell oldprio = td->td_user_pri; 8498460a577SJohn Birrell td->td_user_pri = prio; 8503db720fdSDavid Xu } 8513db720fdSDavid Xu 8523db720fdSDavid Xu void 8533db720fdSDavid Xu sched_lend_user_prio(struct thread *td, u_char prio) 8543db720fdSDavid Xu { 8553db720fdSDavid Xu u_char oldprio; 8563db720fdSDavid Xu 857435806d3SDavid Xu THREAD_LOCK_ASSERT(td, MA_OWNED); 8583db720fdSDavid Xu td->td_flags |= TDF_UBORROWING; 8598460a577SJohn Birrell oldprio = td->td_user_pri; 8608460a577SJohn Birrell td->td_user_pri = prio; 8613db720fdSDavid Xu } 8623db720fdSDavid Xu 8633db720fdSDavid Xu void 8643db720fdSDavid Xu sched_unlend_user_prio(struct thread *td, u_char prio) 8653db720fdSDavid Xu { 8663db720fdSDavid Xu u_char base_pri; 8673db720fdSDavid Xu 868435806d3SDavid Xu THREAD_LOCK_ASSERT(td, MA_OWNED); 8698460a577SJohn Birrell base_pri = td->td_base_user_pri; 8703db720fdSDavid Xu if (prio >= base_pri) { 8713db720fdSDavid Xu td->td_flags &= ~TDF_UBORROWING; 8728460a577SJohn Birrell sched_user_prio(td, base_pri); 873435806d3SDavid Xu } else { 8743db720fdSDavid Xu sched_lend_user_prio(td, prio); 8753db720fdSDavid Xu } 876435806d3SDavid Xu } 8773db720fdSDavid Xu 8783db720fdSDavid Xu void 879c5aa6b58SJeff Roberson sched_sleep(struct thread *td, int pri) 880b43179fbSJeff Roberson { 8812056d0a1SJohn Baldwin 8827b20fb19SJeff Roberson THREAD_LOCK_ASSERT(td, MA_OWNED); 88354b0e65fSJeff Roberson td->td_slptick = ticks; 88454b0e65fSJeff Roberson td->td_sched->ts_slptime = 0; 885c5aa6b58SJeff Roberson if (pri) 886c5aa6b58SJeff Roberson sched_prio(td, pri); 887c5aa6b58SJeff Roberson if (TD_IS_SUSPENDED(td) || pri <= PSOCK) 888c5aa6b58SJeff Roberson td->td_flags |= TDF_CANSWAP; 889b43179fbSJeff Roberson } 890b43179fbSJeff Roberson 891b43179fbSJeff Roberson void 8923389af30SJulian Elischer sched_switch(struct thread *td, struct thread *newtd, int flags) 893b43179fbSJeff Roberson { 894ad1e7d28SJulian Elischer struct td_sched *ts; 895b43179fbSJeff Roberson struct proc *p; 896b43179fbSJeff Roberson 897ad1e7d28SJulian Elischer ts = td->td_sched; 898b43179fbSJeff Roberson p = td->td_proc; 899b43179fbSJeff Roberson 9007b20fb19SJeff Roberson THREAD_LOCK_ASSERT(td, MA_OWNED); 9017b20fb19SJeff Roberson /* 9027b20fb19SJeff Roberson * Switch to the sched lock to fix things up and pick 9037b20fb19SJeff Roberson * a new thread. 9047b20fb19SJeff Roberson */ 9057b20fb19SJeff Roberson if (td->td_lock != &sched_lock) { 9067b20fb19SJeff Roberson mtx_lock_spin(&sched_lock); 9077b20fb19SJeff Roberson thread_unlock(td); 9087b20fb19SJeff Roberson } 909b43179fbSJeff Roberson 910f2f51f8aSJeff Roberson if ((p->p_flag & P_NOLOAD) == 0) 911907bdbc2SJeff Roberson sched_load_rem(); 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 */ 926c6226eeaSJulian Elischer if (td->td_flags & TDF_IDLETD) { 927bf0acc27SJohn Baldwin TD_SET_CAN_RUN(td); 928c6226eeaSJulian Elischer #ifdef SMP 929c6226eeaSJulian Elischer idle_cpus_mask &= ~PCPU_GET(cpumask); 930c6226eeaSJulian Elischer #endif 931c6226eeaSJulian Elischer } else { 932ed062c8dSJulian Elischer if (TD_IS_RUNNING(td)) { 933ad1e7d28SJulian Elischer /* Put us back on the run queue. */ 934f0393f06SJeff Roberson sched_add(td, (flags & SW_PREEMPT) ? 935c20c691bSJulian Elischer SRQ_OURSELF|SRQ_YIELDING|SRQ_PREEMPTED : 936c20c691bSJulian Elischer SRQ_OURSELF|SRQ_YIELDING); 937ed062c8dSJulian Elischer } 938b43179fbSJeff Roberson } 939c20c691bSJulian Elischer if (newtd) { 940c20c691bSJulian Elischer /* 941c20c691bSJulian Elischer * The thread we are about to run needs to be counted 942c20c691bSJulian Elischer * as if it had been added to the run queue and selected. 943c20c691bSJulian Elischer * It came from: 944c20c691bSJulian Elischer * * A preemption 945c20c691bSJulian Elischer * * An upcall 946c20c691bSJulian Elischer * * A followon 947c20c691bSJulian Elischer */ 948c20c691bSJulian Elischer KASSERT((newtd->td_inhibitors == 0), 9492da78e38SRobert Watson ("trying to run inhibited thread")); 9509727e637SJeff Roberson newtd->td_flags |= TDF_DIDRUN; 951c20c691bSJulian Elischer TD_SET_RUNNING(newtd); 952c20c691bSJulian Elischer if ((newtd->td_proc->p_flag & P_NOLOAD) == 0) 953907bdbc2SJeff Roberson sched_load_add(); 954c20c691bSJulian Elischer } else { 955ae53b483SJeff Roberson newtd = choosethread(); 956c20c691bSJulian Elischer } 9577b20fb19SJeff Roberson MPASS(newtd->td_lock == &sched_lock); 958c20c691bSJulian Elischer 959ebccf1e3SJoseph Koshy if (td != newtd) { 960ebccf1e3SJoseph Koshy #ifdef HWPMC_HOOKS 961ebccf1e3SJoseph Koshy if (PMC_PROC_IS_USING_PMCS(td->td_proc)) 962ebccf1e3SJoseph Koshy PMC_SWITCH_CONTEXT(td, PMC_FN_CSW_OUT); 963ebccf1e3SJoseph Koshy #endif 964c6226eeaSJulian Elischer /* I feel sleepy */ 965eea4f254SJeff Roberson lock_profile_release_lock(&sched_lock.lock_object); 966710eacdcSJeff Roberson cpu_switch(td, newtd, td->td_lock); 967eea4f254SJeff Roberson lock_profile_obtain_lock_success(&sched_lock.lock_object, 968eea4f254SJeff Roberson 0, 0, __FILE__, __LINE__); 969c6226eeaSJulian Elischer /* 970c6226eeaSJulian Elischer * Where am I? What year is it? 971c6226eeaSJulian Elischer * We are in the same thread that went to sleep above, 972c6226eeaSJulian Elischer * but any amount of time may have passed. All out context 973c6226eeaSJulian Elischer * will still be available as will local variables. 974c6226eeaSJulian Elischer * PCPU values however may have changed as we may have 975c6226eeaSJulian Elischer * changed CPU so don't trust cached values of them. 976c6226eeaSJulian Elischer * New threads will go to fork_exit() instead of here 977c6226eeaSJulian Elischer * so if you change things here you may need to change 978c6226eeaSJulian Elischer * things there too. 979c6226eeaSJulian Elischer * If the thread above was exiting it will never wake 980c6226eeaSJulian Elischer * up again here, so either it has saved everything it 981c6226eeaSJulian Elischer * needed to, or the thread_wait() or wait() will 982c6226eeaSJulian Elischer * need to reap it. 983c6226eeaSJulian Elischer */ 984ebccf1e3SJoseph Koshy #ifdef HWPMC_HOOKS 985ebccf1e3SJoseph Koshy if (PMC_PROC_IS_USING_PMCS(td->td_proc)) 986ebccf1e3SJoseph Koshy PMC_SWITCH_CONTEXT(td, PMC_FN_CSW_IN); 987ebccf1e3SJoseph Koshy #endif 988ebccf1e3SJoseph Koshy } 989ebccf1e3SJoseph Koshy 990c6226eeaSJulian Elischer #ifdef SMP 991c6226eeaSJulian Elischer if (td->td_flags & TDF_IDLETD) 992c6226eeaSJulian Elischer idle_cpus_mask |= PCPU_GET(cpumask); 993c6226eeaSJulian Elischer #endif 994ae53b483SJeff Roberson sched_lock.mtx_lock = (uintptr_t)td; 995ae53b483SJeff Roberson td->td_oncpu = PCPU_GET(cpuid); 9967b20fb19SJeff Roberson MPASS(td->td_lock == &sched_lock); 997b43179fbSJeff Roberson } 998b43179fbSJeff Roberson 999b43179fbSJeff Roberson void 1000b43179fbSJeff Roberson sched_wakeup(struct thread *td) 1001b43179fbSJeff Roberson { 100254b0e65fSJeff Roberson struct td_sched *ts; 100354b0e65fSJeff Roberson 10047b20fb19SJeff Roberson THREAD_LOCK_ASSERT(td, MA_OWNED); 100554b0e65fSJeff Roberson ts = td->td_sched; 1006c5aa6b58SJeff Roberson td->td_flags &= ~TDF_CANSWAP; 100754b0e65fSJeff Roberson if (ts->ts_slptime > 1) { 10088460a577SJohn Birrell updatepri(td); 10098460a577SJohn Birrell resetpriority(td); 10108460a577SJohn Birrell } 101154b0e65fSJeff Roberson td->td_slptick = ticks; 101254b0e65fSJeff Roberson ts->ts_slptime = 0; 1013f0393f06SJeff Roberson sched_add(td, SRQ_BORING); 1014b43179fbSJeff Roberson } 1015b43179fbSJeff Roberson 101637c28a02SJulian Elischer #ifdef SMP 101782a1dfc1SJulian Elischer /* enable HTT_2 if you have a 2-way HTT cpu.*/ 101882a1dfc1SJulian Elischer static int 101982a1dfc1SJulian Elischer forward_wakeup(int cpunum) 102082a1dfc1SJulian Elischer { 102182a1dfc1SJulian Elischer cpumask_t map, me, dontuse; 102282a1dfc1SJulian Elischer cpumask_t map2; 102382a1dfc1SJulian Elischer struct pcpu *pc; 102482a1dfc1SJulian Elischer cpumask_t id, map3; 102582a1dfc1SJulian Elischer 102682a1dfc1SJulian Elischer mtx_assert(&sched_lock, MA_OWNED); 102782a1dfc1SJulian Elischer 1028ed062c8dSJulian Elischer CTR0(KTR_RUNQ, "forward_wakeup()"); 102982a1dfc1SJulian Elischer 103082a1dfc1SJulian Elischer if ((!forward_wakeup_enabled) || 103182a1dfc1SJulian Elischer (forward_wakeup_use_mask == 0 && forward_wakeup_use_loop == 0)) 103282a1dfc1SJulian Elischer return (0); 103382a1dfc1SJulian Elischer if (!smp_started || cold || panicstr) 103482a1dfc1SJulian Elischer return (0); 103582a1dfc1SJulian Elischer 103682a1dfc1SJulian Elischer forward_wakeups_requested++; 103782a1dfc1SJulian Elischer 103882a1dfc1SJulian Elischer /* 103982a1dfc1SJulian Elischer * check the idle mask we received against what we calculated before 104082a1dfc1SJulian Elischer * in the old version. 104182a1dfc1SJulian Elischer */ 104282a1dfc1SJulian Elischer me = PCPU_GET(cpumask); 104382a1dfc1SJulian Elischer /* 104482a1dfc1SJulian Elischer * don't bother if we should be doing it ourself.. 104582a1dfc1SJulian Elischer */ 104682a1dfc1SJulian Elischer if ((me & idle_cpus_mask) && (cpunum == NOCPU || me == (1 << cpunum))) 104782a1dfc1SJulian Elischer return (0); 104882a1dfc1SJulian Elischer 104982a1dfc1SJulian Elischer dontuse = me | stopped_cpus | hlt_cpus_mask; 105082a1dfc1SJulian Elischer map3 = 0; 105182a1dfc1SJulian Elischer if (forward_wakeup_use_loop) { 105282a1dfc1SJulian Elischer SLIST_FOREACH(pc, &cpuhead, pc_allcpu) { 105382a1dfc1SJulian Elischer id = pc->pc_cpumask; 105482a1dfc1SJulian Elischer if ( (id & dontuse) == 0 && 105582a1dfc1SJulian Elischer pc->pc_curthread == pc->pc_idlethread) { 105682a1dfc1SJulian Elischer map3 |= id; 105782a1dfc1SJulian Elischer } 105882a1dfc1SJulian Elischer } 105982a1dfc1SJulian Elischer } 106082a1dfc1SJulian Elischer 106182a1dfc1SJulian Elischer if (forward_wakeup_use_mask) { 106282a1dfc1SJulian Elischer map = 0; 106382a1dfc1SJulian Elischer map = idle_cpus_mask & ~dontuse; 106482a1dfc1SJulian Elischer 106582a1dfc1SJulian Elischer /* If they are both on, compare and use loop if different */ 106682a1dfc1SJulian Elischer if (forward_wakeup_use_loop) { 106782a1dfc1SJulian Elischer if (map != map3) { 106882a1dfc1SJulian Elischer printf("map (%02X) != map3 (%02X)\n", 106982a1dfc1SJulian Elischer map, map3); 107082a1dfc1SJulian Elischer map = map3; 107182a1dfc1SJulian Elischer } 107282a1dfc1SJulian Elischer } 107382a1dfc1SJulian Elischer } else { 107482a1dfc1SJulian Elischer map = map3; 107582a1dfc1SJulian Elischer } 107682a1dfc1SJulian Elischer /* If we only allow a specific CPU, then mask off all the others */ 107782a1dfc1SJulian Elischer if (cpunum != NOCPU) { 107882a1dfc1SJulian Elischer KASSERT((cpunum <= mp_maxcpus),("forward_wakeup: bad cpunum.")); 107982a1dfc1SJulian Elischer map &= (1 << cpunum); 108082a1dfc1SJulian Elischer } else { 108182a1dfc1SJulian Elischer /* Try choose an idle die. */ 108282a1dfc1SJulian Elischer if (forward_wakeup_use_htt) { 108382a1dfc1SJulian Elischer map2 = (map & (map >> 1)) & 0x5555; 108482a1dfc1SJulian Elischer if (map2) { 108582a1dfc1SJulian Elischer map = map2; 108682a1dfc1SJulian Elischer } 108782a1dfc1SJulian Elischer } 108882a1dfc1SJulian Elischer 108982a1dfc1SJulian Elischer /* set only one bit */ 109082a1dfc1SJulian Elischer if (forward_wakeup_use_single) { 109182a1dfc1SJulian Elischer map = map & ((~map) + 1); 109282a1dfc1SJulian Elischer } 109382a1dfc1SJulian Elischer } 109482a1dfc1SJulian Elischer if (map) { 109582a1dfc1SJulian Elischer forward_wakeups_delivered++; 109682a1dfc1SJulian Elischer ipi_selected(map, IPI_AST); 109782a1dfc1SJulian Elischer return (1); 109882a1dfc1SJulian Elischer } 109982a1dfc1SJulian Elischer if (cpunum == NOCPU) 110082a1dfc1SJulian Elischer printf("forward_wakeup: Idle processor not found\n"); 110182a1dfc1SJulian Elischer return (0); 110282a1dfc1SJulian Elischer } 110337c28a02SJulian Elischer #endif 110482a1dfc1SJulian Elischer 1105f3a0f873SStephan Uphoff #ifdef SMP 1106a3f2d842SStephan Uphoff static void kick_other_cpu(int pri,int cpuid); 1107f3a0f873SStephan Uphoff 1108f3a0f873SStephan Uphoff static void 1109f3a0f873SStephan Uphoff kick_other_cpu(int pri,int cpuid) 1110f3a0f873SStephan Uphoff { 1111f3a0f873SStephan Uphoff struct pcpu * pcpu = pcpu_find(cpuid); 1112f3a0f873SStephan Uphoff int cpri = pcpu->pc_curthread->td_priority; 1113f3a0f873SStephan Uphoff 1114f3a0f873SStephan Uphoff if (idle_cpus_mask & pcpu->pc_cpumask) { 1115f3a0f873SStephan Uphoff forward_wakeups_delivered++; 1116f3a0f873SStephan Uphoff ipi_selected(pcpu->pc_cpumask, IPI_AST); 1117f3a0f873SStephan Uphoff return; 1118f3a0f873SStephan Uphoff } 1119f3a0f873SStephan Uphoff 1120f3a0f873SStephan Uphoff if (pri >= cpri) 1121f3a0f873SStephan Uphoff return; 1122f3a0f873SStephan Uphoff 1123f3a0f873SStephan Uphoff #if defined(IPI_PREEMPTION) && defined(PREEMPTION) 1124f3a0f873SStephan Uphoff #if !defined(FULL_PREEMPTION) 1125f3a0f873SStephan Uphoff if (pri <= PRI_MAX_ITHD) 1126f3a0f873SStephan Uphoff #endif /* ! FULL_PREEMPTION */ 1127f3a0f873SStephan Uphoff { 1128f3a0f873SStephan Uphoff ipi_selected(pcpu->pc_cpumask, IPI_PREEMPT); 1129f3a0f873SStephan Uphoff return; 1130f3a0f873SStephan Uphoff } 1131f3a0f873SStephan Uphoff #endif /* defined(IPI_PREEMPTION) && defined(PREEMPTION) */ 1132f3a0f873SStephan Uphoff 1133f3a0f873SStephan Uphoff pcpu->pc_curthread->td_flags |= TDF_NEEDRESCHED; 1134f3a0f873SStephan Uphoff ipi_selected( pcpu->pc_cpumask , IPI_AST); 1135f3a0f873SStephan Uphoff return; 1136f3a0f873SStephan Uphoff } 1137f3a0f873SStephan Uphoff #endif /* SMP */ 1138f3a0f873SStephan Uphoff 1139b43179fbSJeff Roberson void 11402630e4c9SJulian Elischer sched_add(struct thread *td, int flags) 11416804a3abSJulian Elischer #ifdef SMP 1142f3a0f873SStephan Uphoff { 1143ad1e7d28SJulian Elischer struct td_sched *ts; 11446804a3abSJulian Elischer int forwarded = 0; 11456804a3abSJulian Elischer int cpu; 1146f3a0f873SStephan Uphoff int single_cpu = 0; 11477cf90fb3SJeff Roberson 1148ad1e7d28SJulian Elischer ts = td->td_sched; 11497b20fb19SJeff Roberson THREAD_LOCK_ASSERT(td, MA_OWNED); 1150f0393f06SJeff Roberson KASSERT((td->td_inhibitors == 0), 1151f0393f06SJeff Roberson ("sched_add: trying to run inhibited thread")); 1152f0393f06SJeff Roberson KASSERT((TD_CAN_RUN(td) || TD_IS_RUNNING(td)), 1153f0393f06SJeff Roberson ("sched_add: bad thread state")); 1154b61ce5b0SJeff Roberson KASSERT(td->td_flags & TDF_INMEM, 1155b61ce5b0SJeff Roberson ("sched_add: thread swapped out")); 1156907bdbc2SJeff Roberson CTR5(KTR_SCHED, "sched_add: %p(%s) prio %d by %p(%s)", 1157431f8906SJulian Elischer td, td->td_name, td->td_priority, curthread, 1158431f8906SJulian Elischer curthread->td_name); 11597b20fb19SJeff Roberson /* 11607b20fb19SJeff Roberson * Now that the thread is moving to the run-queue, set the lock 11617b20fb19SJeff Roberson * to the scheduler's lock. 11627b20fb19SJeff Roberson */ 11637b20fb19SJeff Roberson if (td->td_lock != &sched_lock) { 11647b20fb19SJeff Roberson mtx_lock_spin(&sched_lock); 11657b20fb19SJeff Roberson thread_lock_set(td, &sched_lock); 11667b20fb19SJeff Roberson } 1167f0393f06SJeff Roberson TD_SET_RUNQ(td); 1168f3a0f873SStephan Uphoff 1169f3a0f873SStephan Uphoff if (td->td_pinned != 0) { 1170f3a0f873SStephan Uphoff cpu = td->td_lastcpu; 1171ad1e7d28SJulian Elischer ts->ts_runq = &runq_pcpu[cpu]; 1172f3a0f873SStephan Uphoff single_cpu = 1; 1173f3a0f873SStephan Uphoff CTR3(KTR_RUNQ, 1174ad1e7d28SJulian Elischer "sched_add: Put td_sched:%p(td:%p) on cpu%d runq", ts, td, cpu); 11759727e637SJeff Roberson } else if ((td)->td_flags & TDF_BOUND) { 1176f3a0f873SStephan Uphoff /* Find CPU from bound runq */ 1177ad1e7d28SJulian Elischer KASSERT(SKE_RUNQ_PCPU(ts),("sched_add: bound td_sched not on cpu runq")); 1178ad1e7d28SJulian Elischer cpu = ts->ts_runq - &runq_pcpu[0]; 1179f3a0f873SStephan Uphoff single_cpu = 1; 1180f3a0f873SStephan Uphoff CTR3(KTR_RUNQ, 1181ad1e7d28SJulian Elischer "sched_add: Put td_sched:%p(td:%p) on cpu%d runq", ts, td, cpu); 1182f3a0f873SStephan Uphoff } else { 11836804a3abSJulian Elischer CTR2(KTR_RUNQ, 1184ad1e7d28SJulian Elischer "sched_add: adding td_sched:%p (td:%p) to gbl runq", ts, td); 11856804a3abSJulian Elischer cpu = NOCPU; 1186ad1e7d28SJulian Elischer ts->ts_runq = &runq; 1187e17c57b1SJeff Roberson } 1188f3a0f873SStephan Uphoff 1189a3f2d842SStephan Uphoff if (single_cpu && (cpu != PCPU_GET(cpuid))) { 1190f3a0f873SStephan Uphoff kick_other_cpu(td->td_priority,cpu); 1191f3a0f873SStephan Uphoff } else { 1192f3a0f873SStephan Uphoff 1193f3a0f873SStephan Uphoff if (!single_cpu) { 1194f3a0f873SStephan Uphoff cpumask_t me = PCPU_GET(cpumask); 1195f3a0f873SStephan Uphoff int idle = idle_cpus_mask & me; 1196f3a0f873SStephan Uphoff 1197f3a0f873SStephan Uphoff if (!idle && ((flags & SRQ_INTR) == 0) && 1198f3a0f873SStephan Uphoff (idle_cpus_mask & ~(hlt_cpus_mask | me))) 1199f3a0f873SStephan Uphoff forwarded = forward_wakeup(cpu); 1200f3a0f873SStephan Uphoff } 1201f3a0f873SStephan Uphoff 1202f3a0f873SStephan Uphoff if (!forwarded) { 1203a3f2d842SStephan Uphoff if ((flags & SRQ_YIELDING) == 0 && maybe_preempt(td)) 1204f3a0f873SStephan Uphoff return; 1205f3a0f873SStephan Uphoff else 1206f3a0f873SStephan Uphoff maybe_resched(td); 1207f3a0f873SStephan Uphoff } 1208f3a0f873SStephan Uphoff } 1209f3a0f873SStephan Uphoff 1210f3a0f873SStephan Uphoff if ((td->td_proc->p_flag & P_NOLOAD) == 0) 1211f3a0f873SStephan Uphoff sched_load_add(); 12129727e637SJeff Roberson runq_add(ts->ts_runq, td, flags); 1213f3a0f873SStephan Uphoff } 1214f3a0f873SStephan Uphoff #else /* SMP */ 1215f3a0f873SStephan Uphoff { 1216ad1e7d28SJulian Elischer struct td_sched *ts; 1217ad1e7d28SJulian Elischer ts = td->td_sched; 12187b20fb19SJeff Roberson THREAD_LOCK_ASSERT(td, MA_OWNED); 1219f0393f06SJeff Roberson KASSERT((td->td_inhibitors == 0), 1220f0393f06SJeff Roberson ("sched_add: trying to run inhibited thread")); 1221f0393f06SJeff Roberson KASSERT((TD_CAN_RUN(td) || TD_IS_RUNNING(td)), 1222f0393f06SJeff Roberson ("sched_add: bad thread state")); 1223b61ce5b0SJeff Roberson KASSERT(td->td_flags & TDF_INMEM, 1224b61ce5b0SJeff Roberson ("sched_add: thread swapped out")); 1225f3a0f873SStephan Uphoff CTR5(KTR_SCHED, "sched_add: %p(%s) prio %d by %p(%s)", 1226431f8906SJulian Elischer td, td->td_name, td->td_priority, curthread, 1227431f8906SJulian Elischer curthread->td_name); 12287b20fb19SJeff Roberson /* 12297b20fb19SJeff Roberson * Now that the thread is moving to the run-queue, set the lock 12307b20fb19SJeff Roberson * to the scheduler's lock. 12317b20fb19SJeff Roberson */ 12327b20fb19SJeff Roberson if (td->td_lock != &sched_lock) { 12337b20fb19SJeff Roberson mtx_lock_spin(&sched_lock); 12347b20fb19SJeff Roberson thread_lock_set(td, &sched_lock); 12357b20fb19SJeff Roberson } 1236f0393f06SJeff Roberson TD_SET_RUNQ(td); 1237ad1e7d28SJulian Elischer CTR2(KTR_RUNQ, "sched_add: adding td_sched:%p (td:%p) to runq", ts, td); 1238ad1e7d28SJulian Elischer ts->ts_runq = &runq; 12396804a3abSJulian Elischer 12406804a3abSJulian Elischer /* 12416804a3abSJulian Elischer * If we are yielding (on the way out anyhow) 12426804a3abSJulian Elischer * or the thread being saved is US, 12436804a3abSJulian Elischer * then don't try be smart about preemption 12446804a3abSJulian Elischer * or kicking off another CPU 12456804a3abSJulian Elischer * as it won't help and may hinder. 12466804a3abSJulian Elischer * In the YIEDLING case, we are about to run whoever is 12476804a3abSJulian Elischer * being put in the queue anyhow, and in the 12486804a3abSJulian Elischer * OURSELF case, we are puting ourself on the run queue 12496804a3abSJulian Elischer * which also only happens when we are about to yield. 12506804a3abSJulian Elischer */ 12516804a3abSJulian Elischer if((flags & SRQ_YIELDING) == 0) { 12526804a3abSJulian Elischer if (maybe_preempt(td)) 12536804a3abSJulian Elischer return; 12546804a3abSJulian Elischer } 1255f2f51f8aSJeff Roberson if ((td->td_proc->p_flag & P_NOLOAD) == 0) 1256907bdbc2SJeff Roberson sched_load_add(); 12579727e637SJeff Roberson runq_add(ts->ts_runq, td, flags); 12586942d433SJohn Baldwin maybe_resched(td); 1259b43179fbSJeff Roberson } 1260f3a0f873SStephan Uphoff #endif /* SMP */ 1261f3a0f873SStephan Uphoff 1262b43179fbSJeff Roberson void 12637cf90fb3SJeff Roberson sched_rem(struct thread *td) 1264b43179fbSJeff Roberson { 1265ad1e7d28SJulian Elischer struct td_sched *ts; 12667cf90fb3SJeff Roberson 1267ad1e7d28SJulian Elischer ts = td->td_sched; 1268b61ce5b0SJeff Roberson KASSERT(td->td_flags & TDF_INMEM, 1269b61ce5b0SJeff Roberson ("sched_rem: thread swapped out")); 1270f0393f06SJeff Roberson KASSERT(TD_ON_RUNQ(td), 1271ad1e7d28SJulian Elischer ("sched_rem: thread not on run queue")); 1272b43179fbSJeff Roberson mtx_assert(&sched_lock, MA_OWNED); 1273907bdbc2SJeff Roberson CTR5(KTR_SCHED, "sched_rem: %p(%s) prio %d by %p(%s)", 1274431f8906SJulian Elischer td, td->td_name, td->td_priority, curthread, 1275431f8906SJulian Elischer curthread->td_name); 1276b43179fbSJeff Roberson 1277f2f51f8aSJeff Roberson if ((td->td_proc->p_flag & P_NOLOAD) == 0) 1278907bdbc2SJeff Roberson sched_load_rem(); 12799727e637SJeff Roberson runq_remove(ts->ts_runq, td); 1280f0393f06SJeff Roberson TD_SET_CAN_RUN(td); 1281b43179fbSJeff Roberson } 1282b43179fbSJeff Roberson 128314f0e2e9SJulian Elischer /* 128414f0e2e9SJulian Elischer * Select threads to run. 128514f0e2e9SJulian Elischer * Notice that the running threads still consume a slot. 128614f0e2e9SJulian Elischer */ 1287f0393f06SJeff Roberson struct thread * 1288b43179fbSJeff Roberson sched_choose(void) 1289b43179fbSJeff Roberson { 12909727e637SJeff Roberson struct thread *td; 1291e17c57b1SJeff Roberson struct runq *rq; 1292b43179fbSJeff Roberson 12937b20fb19SJeff Roberson mtx_assert(&sched_lock, MA_OWNED); 1294e17c57b1SJeff Roberson #ifdef SMP 12959727e637SJeff Roberson struct thread *tdcpu; 1296e17c57b1SJeff Roberson 1297e17c57b1SJeff Roberson rq = &runq; 12989727e637SJeff Roberson td = runq_choose_fuzz(&runq, runq_fuzz); 12999727e637SJeff Roberson tdcpu = runq_choose(&runq_pcpu[PCPU_GET(cpuid)]); 1300e17c57b1SJeff Roberson 13019727e637SJeff Roberson if (td == NULL || 13029727e637SJeff Roberson (tdcpu != NULL && 13039727e637SJeff Roberson tdcpu->td_priority < td->td_priority)) { 13049727e637SJeff Roberson CTR2(KTR_RUNQ, "choosing td %p from pcpu runq %d", tdcpu, 1305e17c57b1SJeff Roberson PCPU_GET(cpuid)); 13069727e637SJeff Roberson td = tdcpu; 1307e17c57b1SJeff Roberson rq = &runq_pcpu[PCPU_GET(cpuid)]; 1308e17c57b1SJeff Roberson } else { 13099727e637SJeff Roberson CTR1(KTR_RUNQ, "choosing td_sched %p from main runq", td); 1310e17c57b1SJeff Roberson } 1311e17c57b1SJeff Roberson 1312e17c57b1SJeff Roberson #else 1313e17c57b1SJeff Roberson rq = &runq; 13149727e637SJeff Roberson td = runq_choose(&runq); 1315e17c57b1SJeff Roberson #endif 1316b43179fbSJeff Roberson 13179727e637SJeff Roberson if (td) { 13189727e637SJeff Roberson runq_remove(rq, td); 13199727e637SJeff Roberson td->td_flags |= TDF_DIDRUN; 1320b43179fbSJeff Roberson 13219727e637SJeff Roberson KASSERT(td->td_flags & TDF_INMEM, 1322b61ce5b0SJeff Roberson ("sched_choose: thread swapped out")); 13239727e637SJeff Roberson return (td); 1324b43179fbSJeff Roberson } 1325f0393f06SJeff Roberson return (PCPU_GET(idlethread)); 1326b43179fbSJeff Roberson } 1327b43179fbSJeff Roberson 1328b43179fbSJeff Roberson void 13291e24c28fSJeff Roberson sched_preempt(struct thread *td) 13301e24c28fSJeff Roberson { 13311e24c28fSJeff Roberson thread_lock(td); 13321e24c28fSJeff Roberson if (td->td_critnest > 1) 13331e24c28fSJeff Roberson td->td_owepreempt = 1; 13341e24c28fSJeff Roberson else 13351e24c28fSJeff Roberson mi_switch(SW_INVOL | SW_PREEMPT, NULL); 13361e24c28fSJeff Roberson thread_unlock(td); 13371e24c28fSJeff Roberson } 13381e24c28fSJeff Roberson 13391e24c28fSJeff Roberson void 1340b43179fbSJeff Roberson sched_userret(struct thread *td) 1341b43179fbSJeff Roberson { 1342b43179fbSJeff Roberson /* 1343b43179fbSJeff Roberson * XXX we cheat slightly on the locking here to avoid locking in 1344b43179fbSJeff Roberson * the usual case. Setting td_priority here is essentially an 1345b43179fbSJeff Roberson * incomplete workaround for not setting it properly elsewhere. 1346b43179fbSJeff Roberson * Now that some interrupt handlers are threads, not setting it 1347b43179fbSJeff Roberson * properly elsewhere can clobber it in the window between setting 1348b43179fbSJeff Roberson * it here and returning to user mode, so don't waste time setting 1349b43179fbSJeff Roberson * it perfectly here. 1350b43179fbSJeff Roberson */ 1351f5c157d9SJohn Baldwin KASSERT((td->td_flags & TDF_BORROWING) == 0, 1352f5c157d9SJohn Baldwin ("thread with borrowed priority returning to userland")); 13538460a577SJohn Birrell if (td->td_priority != td->td_user_pri) { 13547b20fb19SJeff Roberson thread_lock(td); 13558460a577SJohn Birrell td->td_priority = td->td_user_pri; 13568460a577SJohn Birrell td->td_base_pri = td->td_user_pri; 13577b20fb19SJeff Roberson thread_unlock(td); 13588460a577SJohn Birrell } 1359b43179fbSJeff Roberson } 1360de028f5aSJeff Roberson 1361e17c57b1SJeff Roberson void 1362e17c57b1SJeff Roberson sched_bind(struct thread *td, int cpu) 1363e17c57b1SJeff Roberson { 1364ad1e7d28SJulian Elischer struct td_sched *ts; 1365e17c57b1SJeff Roberson 13667b20fb19SJeff Roberson THREAD_LOCK_ASSERT(td, MA_OWNED); 1367e17c57b1SJeff Roberson KASSERT(TD_IS_RUNNING(td), 1368e17c57b1SJeff Roberson ("sched_bind: cannot bind non-running thread")); 1369e17c57b1SJeff Roberson 1370ad1e7d28SJulian Elischer ts = td->td_sched; 1371e17c57b1SJeff Roberson 13729727e637SJeff Roberson td->td_flags |= TDF_BOUND; 1373e17c57b1SJeff Roberson #ifdef SMP 1374ad1e7d28SJulian Elischer ts->ts_runq = &runq_pcpu[cpu]; 1375e17c57b1SJeff Roberson if (PCPU_GET(cpuid) == cpu) 1376e17c57b1SJeff Roberson return; 1377e17c57b1SJeff Roberson 1378bf0acc27SJohn Baldwin mi_switch(SW_VOL, NULL); 1379e17c57b1SJeff Roberson #endif 1380e17c57b1SJeff Roberson } 1381e17c57b1SJeff Roberson 1382e17c57b1SJeff Roberson void 1383e17c57b1SJeff Roberson sched_unbind(struct thread* td) 1384e17c57b1SJeff Roberson { 13857b20fb19SJeff Roberson THREAD_LOCK_ASSERT(td, MA_OWNED); 13869727e637SJeff Roberson td->td_flags &= ~TDF_BOUND; 1387e17c57b1SJeff Roberson } 1388e17c57b1SJeff Roberson 1389de028f5aSJeff Roberson int 1390ebccf1e3SJoseph Koshy sched_is_bound(struct thread *td) 1391ebccf1e3SJoseph Koshy { 13927b20fb19SJeff Roberson THREAD_LOCK_ASSERT(td, MA_OWNED); 13939727e637SJeff Roberson return (td->td_flags & TDF_BOUND); 1394ebccf1e3SJoseph Koshy } 1395ebccf1e3SJoseph Koshy 139636ec198bSDavid Xu void 139736ec198bSDavid Xu sched_relinquish(struct thread *td) 139836ec198bSDavid Xu { 13997b20fb19SJeff Roberson thread_lock(td); 14007b20fb19SJeff Roberson SCHED_STAT_INC(switch_relinquish); 140136ec198bSDavid Xu mi_switch(SW_VOL, NULL); 14027b20fb19SJeff Roberson thread_unlock(td); 140336ec198bSDavid Xu } 140436ec198bSDavid Xu 1405ebccf1e3SJoseph Koshy int 1406ca59f152SJeff Roberson sched_load(void) 1407ca59f152SJeff Roberson { 1408ca59f152SJeff Roberson return (sched_tdcnt); 1409ca59f152SJeff Roberson } 1410ca59f152SJeff Roberson 1411de028f5aSJeff Roberson int 1412de028f5aSJeff Roberson sched_sizeof_proc(void) 1413de028f5aSJeff Roberson { 1414de028f5aSJeff Roberson return (sizeof(struct proc)); 1415de028f5aSJeff Roberson } 141636ec198bSDavid Xu 1417de028f5aSJeff Roberson int 1418de028f5aSJeff Roberson sched_sizeof_thread(void) 1419de028f5aSJeff Roberson { 1420ad1e7d28SJulian Elischer return (sizeof(struct thread) + sizeof(struct td_sched)); 1421de028f5aSJeff Roberson } 142279acfc49SJeff Roberson 142379acfc49SJeff Roberson fixpt_t 14247cf90fb3SJeff Roberson sched_pctcpu(struct thread *td) 142579acfc49SJeff Roberson { 1426ad1e7d28SJulian Elischer struct td_sched *ts; 142755f2099aSJeff Roberson 1428ad1e7d28SJulian Elischer ts = td->td_sched; 1429ad1e7d28SJulian Elischer return (ts->ts_pctcpu); 143079acfc49SJeff Roberson } 1431b41f1452SDavid Xu 1432b41f1452SDavid Xu void 1433b41f1452SDavid Xu sched_tick(void) 1434b41f1452SDavid Xu { 1435b41f1452SDavid Xu } 1436f0393f06SJeff Roberson 1437f0393f06SJeff Roberson /* 1438f0393f06SJeff Roberson * The actual idle process. 1439f0393f06SJeff Roberson */ 1440f0393f06SJeff Roberson void 1441f0393f06SJeff Roberson sched_idletd(void *dummy) 1442f0393f06SJeff Roberson { 1443f0393f06SJeff Roberson 1444f0393f06SJeff Roberson for (;;) { 1445f0393f06SJeff Roberson mtx_assert(&Giant, MA_NOTOWNED); 1446f0393f06SJeff Roberson 1447f0393f06SJeff Roberson while (sched_runnable() == 0) 1448f0393f06SJeff Roberson cpu_idle(); 1449f0393f06SJeff Roberson 1450f0393f06SJeff Roberson mtx_lock_spin(&sched_lock); 1451f0393f06SJeff Roberson mi_switch(SW_VOL, NULL); 1452f0393f06SJeff Roberson mtx_unlock_spin(&sched_lock); 1453f0393f06SJeff Roberson } 1454f0393f06SJeff Roberson } 1455f0393f06SJeff Roberson 14567b20fb19SJeff Roberson /* 14577b20fb19SJeff Roberson * A CPU is entering for the first time or a thread is exiting. 14587b20fb19SJeff Roberson */ 14597b20fb19SJeff Roberson void 14607b20fb19SJeff Roberson sched_throw(struct thread *td) 14617b20fb19SJeff Roberson { 14627b20fb19SJeff Roberson /* 14637b20fb19SJeff Roberson * Correct spinlock nesting. The idle thread context that we are 14647b20fb19SJeff Roberson * borrowing was created so that it would start out with a single 14657b20fb19SJeff Roberson * spin lock (sched_lock) held in fork_trampoline(). Since we've 14667b20fb19SJeff Roberson * explicitly acquired locks in this function, the nesting count 14677b20fb19SJeff Roberson * is now 2 rather than 1. Since we are nested, calling 14687b20fb19SJeff Roberson * spinlock_exit() will simply adjust the counts without allowing 14697b20fb19SJeff Roberson * spin lock using code to interrupt us. 14707b20fb19SJeff Roberson */ 14717b20fb19SJeff Roberson if (td == NULL) { 14727b20fb19SJeff Roberson mtx_lock_spin(&sched_lock); 14737b20fb19SJeff Roberson spinlock_exit(); 14747b20fb19SJeff Roberson } else { 1475eea4f254SJeff Roberson lock_profile_release_lock(&sched_lock.lock_object); 14767b20fb19SJeff Roberson MPASS(td->td_lock == &sched_lock); 14777b20fb19SJeff Roberson } 14787b20fb19SJeff Roberson mtx_assert(&sched_lock, MA_OWNED); 14797b20fb19SJeff Roberson KASSERT(curthread->td_md.md_spinlock_count == 1, ("invalid count")); 14807b20fb19SJeff Roberson PCPU_SET(switchtime, cpu_ticks()); 14817b20fb19SJeff Roberson PCPU_SET(switchticks, ticks); 14827b20fb19SJeff Roberson cpu_throw(td, choosethread()); /* doesn't return */ 14837b20fb19SJeff Roberson } 14847b20fb19SJeff Roberson 14857b20fb19SJeff Roberson void 1486fe54587fSJeff Roberson sched_fork_exit(struct thread *td) 14877b20fb19SJeff Roberson { 14887b20fb19SJeff Roberson 14897b20fb19SJeff Roberson /* 14907b20fb19SJeff Roberson * Finish setting up thread glue so that it begins execution in a 14917b20fb19SJeff Roberson * non-nested critical section with sched_lock held but not recursed. 14927b20fb19SJeff Roberson */ 1493fe54587fSJeff Roberson td->td_oncpu = PCPU_GET(cpuid); 1494fe54587fSJeff Roberson sched_lock.mtx_lock = (uintptr_t)td; 1495eea4f254SJeff Roberson lock_profile_obtain_lock_success(&sched_lock.lock_object, 1496eea4f254SJeff Roberson 0, 0, __FILE__, __LINE__); 1497fe54587fSJeff Roberson THREAD_LOCK_ASSERT(td, MA_OWNED | MA_NOTRECURSED); 14987b20fb19SJeff Roberson } 14997b20fb19SJeff Roberson 1500885d51a3SJeff Roberson void 1501885d51a3SJeff Roberson sched_affinity(struct thread *td) 1502885d51a3SJeff Roberson { 1503885d51a3SJeff Roberson } 1504