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SubjectRe: sched_{set,get}attr() manpage
On Wed, Apr 30, 2014 at 01:09:25PM +0200, Michael Kerrisk (man-pages) wrote:
> Hi Peter,
>
> Thanks for the revision. More comments below. Could you revise in
> the light of those comments, and hopefully also after feedback from
> Juri and Dario?

New text below; hopefully a little clearer. If not, do holler.

---
> [1] A page describing the sched_setattr() and sched_getattr() APIs

NAME
sched_setattr, sched_getattr - set and get scheduling policy/attributes

SYNOPSIS
#include <sched.h>

struct sched_attr {
u32 size;
u32 sched_policy;
u64 sched_flags;

/* SCHED_NORMAL, SCHED_BATCH */
s32 sched_nice;

/* SCHED_FIFO, SCHED_RR */
u32 sched_priority;

/* SCHED_DEADLINE */
u64 sched_runtime;
u64 sched_deadline;
u64 sched_period;
};

int sched_setattr(pid_t pid, const struct sched_attr *attr, unsigned int flags);

int sched_getattr(pid_t pid, const struct sched_attr *attr, unsigned int size, unsigned int flags);

DESCRIPTION
sched_setattr() sets both the scheduling policy and the
associated attributes for the process whose ID is specified in
pid.

sched_setattr() replaces sched_setscheduler(), sched_setparam(),
nice() and some of setpriority().

If pid equals zero, the scheduling policy and attributes
of the calling process will be set. The interpretation of the
argument attr depends on the selected policy. Currently, Linux
supports the following "normal" (i.e., non-real-time) scheduling
policies:

SCHED_OTHER the standard "fair" time-sharing policy;

SCHED_BATCH for "batch" style execution of processes; and

SCHED_IDLE for running very low priority background jobs.

The following "real-time" policies are also supported, for
special time-critical applications that need precise control
over the way in which runnable processes are selected for
execution:

SCHED_FIFO a static priority first-in, first-out policy;

SCHED_RR a static priority round-robin policy; and

SCHED_DEADLINE a dynamic priority deadline policy.

The semantics of each of these policies are detailed in
sched(7).

sched_attr::size must be set to the size of the structure, as in
sizeof(struct sched_attr), if the provided structure is smaller
than the kernel structure, any additional fields are assumed
'0'. If the provided structure is larger than the kernel
structure, the kernel verifies all additional fields are '0' if
not the syscall will fail with -E2BIG.

sched_attr::sched_policy the desired scheduling policy.

sched_attr::sched_flags additional flags that can influence
scheduling behaviour. Currently as per Linux kernel 3.14:

SCHED_FLAG_RESET_ON_FORK - resets the scheduling policy
to: (struct sched_attr){ .sched_policy = SCHED_OTHER, }
on fork().

is the only supported flag.

sched_attr::sched_nice should only be set for SCHED_OTHER,
SCHED_BATCH, the desired nice value [-20,19], see sched(7).

sched_attr::sched_priority should only be set for SCHED_FIFO,
SCHED_RR, the desired static priority [1,99], see sched(7).

sched_attr::sched_runtime in nanoseconds,
sched_attr::sched_deadline in nanoseconds,
sched_attr::sched_period in nanoseconds, should only be set for
SCHED_DEADLINE and are the traditional sporadic task model
parameters, see sched(7).

The flags argument should be 0.

sched_getattr() queries the scheduling policy currently applied
to the process identified by pid.

Similar to sched_setattr(), sched_getattr() replaces
sched_getscheduler(), sched_getparam() and some of
getpriority().

If pid equals zero, the policy of the calling process will be
retrieved.

The size argument should reflect the size of struct sched_attr
as known to userspace. The kernel fills out sched_attr::size to
the size of its sched_attr structure. If the user provided
structure is larger, additional fields are not touched. If the
user provided structure is smaller, but the kernel needs to
return values outside the provided space, the syscall will fail
with -E2BIG.

The flags argument should be 0.

The other sched_attr fields are filled out as described in
sched_setattr().

RETURN VALUE
On success, sched_setattr() and sched_getattr() return 0. On
error, -1 is returned, and errno is set appropriately.

ERRORS
EINVAL The scheduling policy is not one of the recognized policies,
param is NULL, or param does not make sense for the selected
policy.

EPERM The calling process does not have appropriate privileges.

ESRCH The process whose ID is pid could not be found.

E2BIG The provided storage for struct sched_attr is either too
big, see sched_setattr(), or too small, see sched_getattr().

EBUSY SCHED_DEADLINE admission control failure, see sched(7).

NOTES
While the text above (and in sched_setscheduler(2)) talks about
processes, in actual fact these system calls are thread specific.

While the SCHED_DEADLINE parameters are in nanoseconds, current
kernels truncate the lower 10 bits and we get an effective
microsecond resolution.

> [2] A piece of text describing the SCHED_DEADLINE policy, which I can
> drop into sched(7).

SCHED_DEADLINE: Sporadic task model deadline scheduling
SCHED_DEADLINE is currently implemented using GEDF (Global
Earliest Deadline First) with additional CBS (Constant Bandwidth
Server).

A sporadic task is on that has a sequence of jobs, where each job
is activated at most once per period [ns]. Each job will have an
absolute deadline relative to its activation before which it must
finish its execution, and it shall at no time run longer
than runtime [ns] after its release.

activation/wakeup absolute deadline
| release |
v v v
-------x--------x--------------x--------x-------
|<- Runtime -->|
|<---------- Deadline ->|
|<---------- Period ----------->|

This gives: runtime <= (rel) deadline <= period.

The CBS guarantees non-interference between tasks, by throttling
tasks that attempt to over-run their specified runtime.

In general the set of all SCHED_DEADLINE tasks is not
feasible/schedulable within the given constraints. Therefore we
must do an admittance test on setting/changing SCHED_DEADLINE
policy/attributes.

This admission test calculates that the task set is
feasible/schedulable, failing this, sched_setattr() will return
-EBUSY.

For example, it is required (but not necessarily sufficient) for
the total utilization to be less or equal to the total amount of
CPUs available, where, since each task can maximally run for
runtime [us] per period [us], that task's utilization is its
runtime/period.

Because we must be able to calculate admittance SCHED_DEADLINE
tasks are the highest priority (user controllable) tasks in the
system, if any SCHED_DEADLINE task is runnable it will preempt
any FIFO/RR/OTHER/BATCH/IDLE task.

SCHED_DEADLINE tasks will fail fork(2) with -EAGAIN, except when
the forking task has SCHED_FLAG_RESET_ON_FORK set.

A SCHED_DEADLINE task calling sched_yield() will 'yield' the
current job and wait for a new period to begin.



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