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.\" Copyright (c) 2000-2001 John H. Baldwin <jhb@FreeBSD.org> .\" All rights reserved. .\" .\" Redistribution and use in source and binary forms, with or without .\" modification, are permitted provided that the following conditions .\" are met: .\" 1. Redistributions of source code must retain the above copyright .\" notice, this list of conditions and the following disclaimer. .\" 2. Redistributions in binary form must reproduce the above copyright .\" notice, this list of conditions and the following disclaimer in the .\" documentation and/or other materials provided with the distribution. .\" .\" THIS SOFTWARE IS PROVIDED BY THE DEVELOPERS ``AS IS'' AND ANY EXPRESS OR .\" IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES .\" OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. .\" IN NO EVENT SHALL THE DEVELOPERS BE LIABLE FOR ANY DIRECT, INDIRECT, .\" INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT .\" NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, .\" DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY .\" THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT .\" (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF .\" THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. .\" .\" $FreeBSD: release/9.1.0/share/man/man9/scheduler.9 108470 2002-12-30 21:18:15Z schweikh $ .\" .Dd November 3, 2000 .Dt SCHEDULER 9 .Os .Sh NAME .Nm curpriority_cmp , .Nm maybe_resched , .Nm resetpriority , .Nm roundrobin , .Nm roundrobin_interval , .Nm sched_setup , .Nm schedclock , .Nm schedcpu , .Nm setrunnable , .Nm updatepri .Nd perform round-robin scheduling of runnable processes .Sh SYNOPSIS .In sys/param.h .In sys/proc.h .Ft int .Fn curpriority_cmp "struct proc *p" .Ft void .Fn maybe_resched "struct thread *td" .Ft void .Fn propagate_priority "struct proc *p" .Ft void .Fn resetpriority "struct ksegrp *kg" .Ft void .Fn roundrobin "void *arg" .Ft int .Fn roundrobin_interval "void" .Ft void .Fn sched_setup "void *dummy" .Ft void .Fn schedclock "struct thread *td" .Ft void .Fn schedcpu "void *arg" .Ft void .Fn setrunnable "struct thread *td" .Ft void .Fn updatepri "struct thread *td" .Sh DESCRIPTION Each process has three different priorities stored in .Vt "struct proc" : .Va p_usrpri , .Va p_nativepri , and .Va p_priority . .Pp The .Va p_usrpri member is the user priority of the process calculated from a process' estimated CPU time and nice level. .Pp The .Va p_nativepri member is the saved priority used by .Fn propagate_priority . When a process obtains a mutex, its priority is saved in .Va p_nativepri . While it holds the mutex, the process's priority may be bumped by another process that blocks on the mutex. When the process releases the mutex, then its priority is restored to the priority saved in .Va p_nativepri . .Pp The .Va p_priority member is the actual priority of the process and is used to determine what .Xr runqueue 9 it runs on, for example. .Pp The .Fn curpriority_cmp function compares the cached priority of the currently running process with process .Fa p . If the currently running process has a higher priority, then it will return a value less than zero. If the current process has a lower priority, then it will return a value greater than zero. If the current process has the same priority as .Fa p , then .Fn curpriority_cmp will return zero. The cached priority of the currently running process is updated when a process resumes from .Xr tsleep 9 or returns to userland in .Fn userret and is stored in the private variable .Va curpriority . .Pp The .Fn maybe_resched function compares the priorities of the current thread and .Fa td . If .Fa td has a higher priority than the current thread, then a context switch is needed, and .Dv KEF_NEEDRESCHED is set. .Pp The .Fn propagate_priority looks at the process that owns the mutex .Fa p is blocked on. That process's priority is bumped to the priority of .Fa p if needed. If the process is currently running, then the function returns. If the process is on a .Xr runqueue 9 , then the process is moved to the appropriate .Xr runqueue 9 for its new priority. If the process is blocked on a mutex, its position in the list of processes blocked on the mutex in question is updated to reflect its new priority. Then, the function repeats the procedure using the process that owns the mutex just encountered. Note that a process's priorities are only bumped to the priority of the original process .Fa p , not to the priority of the previously encountered process. .Pp The .Fn resetpriority function recomputes the user priority of the ksegrp .Fa kg (stored in .Va kg_user_pri ) and calls .Fn maybe_resched to force a reschedule of each thread in the group if needed. .Pp The .Fn roundrobin function is used as a .Xr timeout 9 function to force a reschedule every .Va sched_quantum ticks. .Pp The .Fn roundrobin_interval function simply returns the number of clock ticks in between reschedules triggered by .Fn roundrobin . Thus, all it does is return the current value of .Va sched_quantum . .Pp The .Fn sched_setup function is a .Xr SYSINIT 9 that is called to start the callout driven scheduler functions. It just calls the .Fn roundrobin and .Fn schedcpu functions for the first time. After the initial call, the two functions will propagate themselves by registering their callout event again at the completion of the respective function. .Pp The .Fn schedclock function is called by .Fn statclock to adjust the priority of the currently running thread's ksegrp. It updates the group's estimated CPU time and then adjusts the priority via .Fn resetpriority . .Pp The .Fn schedcpu function updates all process priorities. First, it updates statistics that track how long processes have been in various process states. Secondly, it updates the estimated CPU time for the current process such that about 90% of the CPU usage is forgotten in 5 * load average seconds. For example, if the load average is 2.00, then at least 90% of the estimated CPU time for the process should be based on the amount of CPU time the process has had in the last 10 seconds. It then recomputes the priority of the process and moves it to the appropriate .Xr runqueue 9 if necessary. Thirdly, it updates the %CPU estimate used by utilities such as .Xr ps 1 and .Xr top 1 so that 95% of the CPU usage is forgotten in 60 seconds. Once all process priorities have been updated, .Fn schedcpu calls .Fn vmmeter to update various other statistics including the load average. Finally, it schedules itself to run again in .Va hz clock ticks. .Pp The .Fn setrunnable function is used to change a process's state to be runnable. The process is placed on a .Xr runqueue 9 if needed, and the swapper process is woken up and told to swap the process in if the process is swapped out. If the process has been asleep for at least one run of .Fn schedcpu , then .Fn updatepri is used to adjust the priority of the process. .Pp The .Fn updatepri function is used to adjust the priority of a process that has been asleep. It retroactively decays the estimated CPU time of the process for each .Fn schedcpu event that the process was asleep. Finally, it calls .Fn resetpriority to adjust the priority of the process. .Sh SEE ALSO .Xr mi_switch 9 , .Xr runqueue 9 , .Xr sleepqueue 9 , .Xr tsleep 9 .Sh BUGS The .Va curpriority variable really should be per-CPU. In addition, .Fn maybe_resched should compare the priority of .Fa chk with that of each CPU, and then send an IPI to the processor with the lowest priority to trigger a reschedule if needed. .Pp Priority propagation is broken and is thus disabled by default. The .Va p_nativepri variable is only updated if a process does not obtain a sleep mutex on the first try. Also, if a process obtains more than one sleep mutex in this manner, and had its priority bumped in between, then .Va p_nativepri will be clobbered.