GETPRIORITY(2) Linux Programmer's Manual GETPRIORITY(2)NAME
getpriority, setpriority - get/set program scheduling priority
SYNOPSIS
#include <sys/time.h>
#include <sys/resource.h>
int getpriority(int which, id_t who);
int setpriority(int which, id_t who, int prio);
DESCRIPTION
The scheduling priority of the process, process group, or user, as
indicated by which and who is obtained with the getpriority() call and
set with the setpriority() call. The process attribute dealt with by
these system calls is the same attribute (also known as the "nice"
value) that is dealt with by nice(2).
The value which is one of PRIO_PROCESS, PRIO_PGRP, or PRIO_USER, and
who is interpreted relative to which (a process identifier for
PRIO_PROCESS, process group identifier for PRIO_PGRP, and a user ID for
PRIO_USER). A zero value for who denotes (respectively) the calling
process, the process group of the calling process, or the real user ID
of the calling process.
The prio argument is a value in the range -20 to 19 (but see NOTES
below). with -20 being the highest priority and 19 being the lowest
priority. Attempts to set a priority outside this range are silently
clamped to the range. The default priority is 0; lower values give a
process a higher scheduling priority.
The getpriority() call returns the highest priority (lowest numerical
value) enjoyed by any of the specified processes. The setpriority()
call sets the priorities of all of the specified processes to the spec‐
ified value.
Traditionally, only a privileged process could lower the nice value
(i.e., set a higher priority). However, since Linux 2.6.12, an unpriv‐
ileged process can decrease the nice value of a target process that has
a suitable RLIMIT_NICE soft limit; see getrlimit(2) for details.
RETURN VALUE
On success, getpriority() returns the calling thread's nice value,
which may be a negative number. On error, it returns -1 and sets errno
to indicate the cause of the error. Since a successful call to getpri‐
ority() can legitimately return the value -1, it is necessary to clear
the external variable errno prior to the call, then check it afterward
to determine if -1 is an error or a legitimate value.
setpriority() returns 0 on success. On error, it returns -1 and sets
errno to indicate the cause of the error.
ERRORS
EINVAL which was not one of PRIO_PROCESS, PRIO_PGRP, or PRIO_USER.
ESRCH No process was located using the which and who values specified.
In addition to the errors indicated above, setpriority() may fail if:
EACCES The caller attempted to set a lower nice value (i.e., a higher
process priority), but did not have the required privilege (on
Linux: did not have the CAP_SYS_NICE capability).
EPERM A process was located, but its effective user ID did not match
either the effective or the real user ID of the caller, and was
not privileged (on Linux: did not have the CAP_SYS_NICE capabil‐
ity). But see NOTES below.
CONFORMING TO
POSIX.1-2001, POSIX.1-2008, SVr4, 4.4BSD (these interfaces first
appeared in 4.2BSD).
NOTES
For further details on the nice value, see sched(7).
Note: the addition of the "autogroup" feature in Linux 2.6.38 means
that the nice value no longer has its traditional effect in many cir‐
cumstances. For details, see sched(7).
A child created by fork(2) inherits its parent's nice value. The nice
value is preserved across execve(2).
The details on the condition for EPERM depend on the system. The above
description is what POSIX.1-2001 says, and seems to be followed on all
System V-like systems. Linux kernels before 2.6.12 required the real
or effective user ID of the caller to match the real user of the
process who (instead of its effective user ID). Linux 2.6.12 and later
require the effective user ID of the caller to match the real or effec‐
tive user ID of the process who. All BSD-like systems (SunOS 4.1.3,
Ultrix 4.2, 4.3BSD, FreeBSD 4.3, OpenBSD-2.5, ...) behave in the same
manner as Linux 2.6.12 and later.
Including <sys/time.h> is not required these days, but increases porta‐
bility. (Indeed, <sys/resource.h> defines the rusage structure with
fields of type struct timeval defined in <sys/time.h>.)
C library/kernel differences
Within the kernel, nice values are actually represented using the range
40..1 (since negative numbers are error codes) and these are the values
employed by the setpriority() and getpriority() system calls. The
glibc wrapper functions for these system calls handle the translations
between the user-land and kernel representations of the nice value
according to the formula unice = 20 - knice. (Thus, the kernel's 40..1
range corresponds to the range -20..19 as seen by user space.)
BUGS
According to POSIX, the nice value is a per-process setting. However,
under the current Linux/NPTL implementation of POSIX threads, the nice
value is a per-thread attribute: different threads in the same process
can have different nice values. Portable applications should avoid
relying on the Linux behavior, which may be made standards conformant
in the future.
SEE ALSOnice(1), renice(1), fork(2), capabilities(7), sched(7)
Documentation/scheduler/sched-nice-design.txt in the Linux kernel
source tree (since Linux 2.6.23)
COLOPHON
This page is part of release 4.14 of the Linux man-pages project. A
description of the project, information about reporting bugs, and the
latest version of this page, can be found at
https://www.kernel.org/doc/man-pages/.
Linux 2017-09-15 GETPRIORITY(2)
