pthread_setschedparam, pthread_getschedparam — set/get scheduling policy and parameters of a thread
#include <pthread.h>
int
pthread_setschedparam( |
pthread_t thread, |
int policy, | |
const struct sched_param *param) ; |
int
pthread_getschedparam( |
pthread_t thread, |
int *policy, | |
struct sched_param *param) ; |
Note | |
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Compile and link with |
The pthread_setschedparam
()
function sets the scheduling policy and parameters of the
thread thread
.
policy
specifies
the new scheduling policy for thread
. The supported values
for policy
, and their
semantics, are described in sched(7).
The structure pointed to by param
specifies the new
scheduling parameters for thread
. Scheduling parameters
are maintained in the following structure:
struct sched_param { int sched_priority
; /* Scheduling priority */};
As can be seen, only one scheduling parameter is supported. For details of the permitted ranges for scheduling priorities in each scheduling policy, see sched(7).
The pthread_getschedparam
()
function returns the scheduling policy and parameters of the
thread thread
, in the
buffers pointed to by policy
and param
, respectively. The
returned priority value is that set by the most recent
pthread_setschedparam
(),
pthread_setschedprio(3), or
pthread_create(3) call that
affected thread
. The
returned priority does not reflect any temporary priority
adjustments as a result of calls to any priority inheritance
or priority ceiling functions (see, for example, pthread_mutexattr_setprioceiling(3)
and pthread_mutexattr_setprotocol(3)).
On success, these functions return 0; on error, they
return a nonzero error number. If pthread_setschedparam
() fails, the
scheduling policy and parameters of thread
are not changed.
Both of these functions can fail with the following error:
No thread with the ID thread
could be
found.
pthread_setschedparam
() may
additionally fail with the following errors:
policy
is
not a recognized policy, or param
does not make sense
for the policy
.
The caller does not have appropriate privileges to set the specified scheduling policy and parameters.
POSIX.1 also documents an ENOTSUP ("attempt was made to set the
policy or scheduling parameters to an unsupported value")
error for pthread_setschedparam
().
For an explanation of the terms used in this section, see attributes(7).
Interface | Attribute | Value |
pthread_setschedparam (),
pthread_getschedparam () |
Thread safety | MT-Safe |
For a description of the permissions required to, and the effect of, changing a thread's scheduling policy and priority, and details of the permitted ranges for priorities in each scheduling policy, see sched(7).
The program below demonstrates the use of pthread_setschedparam
() and pthread_getschedparam
(), as well as the use
of a number of other scheduling-related pthreads
functions.
In the following run, the main thread sets its scheduling
policy to SCHED_FIFO
with a
priority of 10, and initializes a thread attributes object
with a scheduling policy attribute of SCHED_RR
and a scheduling priority
attribute of 20. The program then sets (using pthread_attr_setinheritsched(3))
the inherit scheduler attribute of the thread attributes
object to PTHREAD_EXPLICIT_SCHED
, meaning that
threads created using this attributes object should take
their scheduling attributes from the thread attributes
object. The program then creates a thread using the thread
attributes object, and that thread displays its scheduling
policy and priority.
$su
# Need privilege to set real-time scheduling policies Password: # ./a.out −mf10 −ar20 −i e Scheduler settings of main thread policy=SCHED_FIFO, priority=10 Scheduler settings in 'attr' policy=SCHED_RR, priority=20 inheritsched is EXPLICIT Scheduler attributes of new thread policy=SCHED_RR, priority=20
In the above output, one can see that the scheduling policy and priority were taken from the values specified in the thread attributes object.
The next run is the same as the previous, except that the
inherit scheduler attribute is set to PTHREAD_INHERIT_SCHED
, meaning that threads
created using the thread attributes object should ignore the
scheduling attributes specified in the attributes object and
instead take their scheduling attributes from the creating
thread.
# ./a.out −mf10 −ar20 −i i Scheduler settings of main thread policy=SCHED_FIFO, priority=10 Scheduler settings in 'attr' policy=SCHED_RR, priority=20 inheritsched is INHERIT Scheduler attributes of new thread policy=SCHED_FIFO, priority=10
In the above output, one can see that the scheduling policy and priority were taken from the creating thread, rather than the thread attributes object.
Note that if we had omitted the −i i
option, the output would have been
the same, since PTHREAD_INHERIT_SCHED
is the default for
the inherit scheduler attribute.
/* pthreads_sched_test.c */ #include <pthread.h> #include <stdio.h> #include <stdlib.h> #include <unistd.h> #include <errno.h> #define handle_error_en(en, msg) \ do { errno = en; perror(msg); exit(EXIT_FAILURE); } while (0) static void usage(char *prog_name, char *msg) { if (msg != NULL) fputs(msg, stderr); fprintf(stderr, "Usage: %s [options]\n", prog_name); fprintf(stderr, "Options are:\n"); #define fpe(msg) fprintf(stderr, "\t%s", msg); /* Shorter */ fpe("−a<policy><prio> Set scheduling policy and priority in\n"); fpe(" thread attributes object\n"); fpe(" <policy> can be\n"); fpe(" f SCHED_FIFO\n"); fpe(" r SCHED_RR\n"); fpe(" o SCHED_OTHER\n"); fpe("−A Use default thread attributes object\n"); fpe("−i {e|i} Set inherit scheduler attribute to\n"); fpe(" 'explicit' or 'inherit'\n"); fpe("−m<policy><prio> Set scheduling policy and priority on\n"); fpe(" main thread before pthread_create() call\n"); exit(EXIT_FAILURE); } static int get_policy(char p, int *policy) { switch (p) { case 'f': *policy = SCHED_FIFO; return 1; case 'r': *policy = SCHED_RR; return 1; case 'o': *policy = SCHED_OTHER; return 1; default: return 0; } } static void display_sched_attr(int policy, struct sched_param *param) { printf(" policy=%s, priority=%d\n", (policy == SCHED_FIFO) ? "SCHED_FIFO" : (policy == SCHED_RR) ? "SCHED_RR" : (policy == SCHED_OTHER) ? "SCHED_OTHER" : "???", param−>sched_priority); } static void display_thread_sched_attr(char *msg) { int policy, s; struct sched_param param; s = pthread_getschedparam(pthread_self(), &policy, ¶m); if (s != 0) handle_error_en(s, "pthread_getschedparam"); printf("%s\n", msg); display_sched_attr(policy, ¶m); } static void * thread_start(void *arg) { display_thread_sched_attr("Scheduler attributes of new thread"); return NULL; } int main(int argc, char *argv[]) { int s, opt, inheritsched, use_null_attrib, policy; pthread_t thread; pthread_attr_t attr; pthread_attr_t *attrp; char *attr_sched_str, *main_sched_str, *inheritsched_str; struct sched_param param; /* Process command−line options */ use_null_attrib = 0; attr_sched_str = NULL; main_sched_str = NULL; inheritsched_str = NULL; while ((opt = getopt(argc, argv, "a:Ai:m:")) != −1) { switch (opt) { case 'a': attr_sched_str = optarg; break; case 'A': use_null_attrib = 1; break; case 'i': inheritsched_str = optarg; break; case 'm': main_sched_str = optarg; break; default: usage(argv[0], "Unrecognized option\n"); } } if (use_null_attrib && (inheritsched_str != NULL || attr_sched_str != NULL)) usage(argv[0], "Can't specify −A with −i or −a\n"); /* Optionally set scheduling attributes of main thread, and display the attributes */ if (main_sched_str != NULL) { if (!get_policy(main_sched_str[0], &policy)) usage(argv[0], "Bad policy for main thread (−m)\n"); param.sched_priority = strtol(&main_sched_str[1], NULL, 0); s = pthread_setschedparam(pthread_self(), policy, ¶m); if (s != 0) handle_error_en(s, "pthread_setschedparam"); } display_thread_sched_attr("Scheduler settings of main thread"); printf("\n"); /* Initialize thread attributes object according to options */ attrp = NULL; if (!use_null_attrib) { s = pthread_attr_init(&attr); if (s != 0) handle_error_en(s, "pthread_attr_init"); attrp = &attr; } if (inheritsched_str != NULL) { if (inheritsched_str[0] == 'e') inheritsched = PTHREAD_EXPLICIT_SCHED; else if (inheritsched_str[0] == 'i') inheritsched = PTHREAD_INHERIT_SCHED; else usage(argv[0], "Value for −i must be 'e' or 'i'\n"); s = pthread_attr_setinheritsched(&attr, inheritsched); if (s != 0) handle_error_en(s, "pthread_attr_setinheritsched"); } if (attr_sched_str != NULL) { if (!get_policy(attr_sched_str[0], &policy)) usage(argv[0], "Bad policy for 'attr' (−a)\n"); param.sched_priority = strtol(&attr_sched_str[1], NULL, 0); s = pthread_attr_setschedpolicy(&attr, policy); if (s != 0) handle_error_en(s, "pthread_attr_setschedpolicy"); s = pthread_attr_setschedparam(&attr, ¶m); if (s != 0) handle_error_en(s, "pthread_attr_setschedparam"); } /* If we initialized a thread attributes object, display the scheduling attributes that were set in the object */ if (attrp != NULL) { s = pthread_attr_getschedparam(&attr, ¶m); if (s != 0) handle_error_en(s, "pthread_attr_getschedparam"); s = pthread_attr_getschedpolicy(&attr, &policy); if (s != 0) handle_error_en(s, "pthread_attr_getschedpolicy"); printf("Scheduler settings in 'attr'\n"); display_sched_attr(policy, ¶m); s = pthread_attr_getinheritsched(&attr, &inheritsched); printf(" inheritsched is %s\n", (inheritsched == PTHREAD_INHERIT_SCHED) ? "INHERIT" : (inheritsched == PTHREAD_EXPLICIT_SCHED) ? "EXPLICIT" : "???"); printf("\n"); } /* Create a thread that will display its scheduling attributes */ s = pthread_create(&thread, attrp, &thread_start, NULL); if (s != 0) handle_error_en(s, "pthread_create"); /* Destroy unneeded thread attributes object */ if (!use_null_attrib) { s = pthread_attr_destroy(&attr); if (s != 0) handle_error_en(s, "pthread_attr_destroy"); } s = pthread_join(thread, NULL); if (s != 0) handle_error_en(s, "pthread_join"); exit(EXIT_SUCCESS); }
getrlimit(2), sched_get_priority_min(2), pthread_attr_init(3), pthread_attr_setinheritsched(3), pthread_attr_setschedparam(3), pthread_attr_setschedpolicy(3), pthread_create(3), pthread_self(3), pthread_setschedprio(3), pthreads(7), sched(7)
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Copyright (c) 2008 Linux Foundation, written by Michael Kerrisk <mtk.manpagesgmail.com> %%%LICENSE_START(VERBATIM) Permission is granted to make and distribute verbatim copies of this manual provided the copyright notice and this permission notice are preserved on all copies. Permission is granted to copy and distribute modified versions of this manual under the conditions for verbatim copying, provided that the entire resulting derived work is distributed under the terms of a permission notice identical to this one. Since the Linux kernel and libraries are constantly changing, this manual page may be incorrect or out-of-date. The author(s) assume no responsibility for errors or omissions, or for damages resulting from the use of the information contained herein. The author(s) may not have taken the same level of care in the production of this manual, which is licensed free of charge, as they might when working professionally. Formatted or processed versions of this manual, if unaccompanied by the source, must acknowledge the copyright and authors of this work. %%%LICENSE_END |