Return-Path: Received: (majordomo@vger.kernel.org) by vger.kernel.org via listexpand id S1753510AbaA0LXq (ORCPT ); Mon, 27 Jan 2014 06:23:46 -0500 Received: from mail-we0-f180.google.com ([74.125.82.180]:39800 "EHLO mail-we0-f180.google.com" rhost-flags-OK-OK-OK-OK) by vger.kernel.org with ESMTP id S1753366AbaA0LXo (ORCPT ); Mon, 27 Jan 2014 06:23:44 -0500 Message-ID: <52E641BC.6010608@gmail.com> Date: Mon, 27 Jan 2014 12:23:40 +0100 From: Juri Lelli User-Agent: Mozilla/5.0 (X11; Linux x86_64; rv:24.0) Gecko/20100101 Thunderbird/24.2.0 MIME-Version: 1.0 To: peterz@infradead.org, tglx@linutronix.de CC: mingo@redhat.com, rostedt@goodmis.org, oleg@redhat.com, fweisbec@gmail.com, darren@dvhart.com, johan.eker@ericsson.com, p.faure@akatech.ch, linux-kernel@vger.kernel.org, claudio@evidence.eu.com, michael@amarulasolutions.com, fchecconi@gmail.com, tommaso.cucinotta@sssup.it, juri.lelli@gmail.com, nicola.manica@disi.unitn.it, luca.abeni@unitn.it, dhaval.giani@gmail.com, hgu1972@gmail.com, paulmck@linux.vnet.ibm.com, raistlin@linux.it, insop.song@gmail.com, liming.wang@windriver.com, jkacur@redhat.com, harald.gustafsson@ericsson.com, vincent.guittot@linaro.org, bruce.ashfield@windriver.com, linux-doc@vger.kernel.org, rob@landley.net Subject: Re: [PATCH] sched/deadline: Add sched_dl documentation References: <1390821615-23247-1-git-send-email-juri.lelli@gmail.com> In-Reply-To: <1390821615-23247-1-git-send-email-juri.lelli@gmail.com> Content-Type: text/plain; charset=ISO-8859-1 Content-Transfer-Encoding: 7bit Sender: linux-kernel-owner@vger.kernel.org List-ID: X-Mailing-List: linux-kernel@vger.kernel.org On 01/27/2014 12:20 PM, Juri Lelli wrote: > From: Dario Faggioli > > Add in Documentation/scheduler/ some hints about the design > choices, the usage and the future possible developments of the > sched_dl scheduling class and of the SCHED_DEADLINE policy. > > Cc: bruce.ashfield@windriver.com > Cc: claudio@evidence.eu.com > Cc: darren@dvhart.com > Cc: dhaval.giani@gmail.com > Cc: fchecconi@gmail.com > Cc: fweisbec@gmail.com > Cc: harald.gustafsson@ericsson.com > Cc: hgu1972@gmail.com > Cc: insop.song@gmail.com > Cc: jkacur@redhat.com > Cc: johan.eker@ericsson.com > Cc: liming.wang@windriver.com > Cc: michael@amarulasolutions.com > Cc: mingo@redhat.com > Cc: nicola.manica@disi.unitn.it > Cc: oleg@redhat.com > Cc: paulmck@linux.vnet.ibm.com > Cc: p.faure@akatech.ch > Cc: rob@landley.net > Cc: rostedt@goodmis.org > Cc: tglx@linutronix.de > Cc: tommaso.cucinotta@sssup.it > Cc: vincent.guittot@linaro.org > Signed-off-by: Dario Faggioli > Signed-off-by: Juri Lelli > Signed-off-by: Peter Zijlstra > [ Re-wrote sections 2 and 3. ] > Signed-off-by: Luca Abeni > --- > Documentation/scheduler/00-INDEX | 2 + > Documentation/scheduler/sched-deadline.txt | 281 ++++++++++++++++++++++++++++ > kernel/sched/deadline.c | 3 +- > 3 files changed, 285 insertions(+), 1 deletion(-) > create mode 100644 Documentation/scheduler/sched-deadline.txt > > diff --git a/Documentation/scheduler/00-INDEX b/Documentation/scheduler/00-INDEX > index d2651c4..46702e4 100644 > --- a/Documentation/scheduler/00-INDEX > +++ b/Documentation/scheduler/00-INDEX > @@ -10,5 +10,7 @@ sched-nice-design.txt > - How and why the scheduler's nice levels are implemented. > sched-rt-group.txt > - real-time group scheduling. > +sched-deadline.txt > + - deadline scheduling. > sched-stats.txt > - information on schedstats (Linux Scheduler Statistics). > diff --git a/Documentation/scheduler/sched-deadline.txt b/Documentation/scheduler/sched-deadline.txt > new file mode 100644 > index 0000000..18adc92 > --- /dev/null > +++ b/Documentation/scheduler/sched-deadline.txt > @@ -0,0 +1,281 @@ > + Deadline Task Scheduling > + ------------------------ > + > +CONTENTS > +======== > + > + 0. WARNING > + 1. Overview > + 2. Scheduling algorithm > + 3. Scheduling Real-Time Tasks We also plan to add here something more about admission control in the next future. Best, - Juri > + 4. Bandwidth management > + 4.1 System-wide settings > + 4.2 Task interface > + 4.3 Default behavior > + 5. Tasks CPU affinity > + 5.1 SCHED_DEADLINE and cpusets HOWTO > + 6. Future plans > + > + > +0. WARNING > +========== > + > + Fiddling with these settings can result in an unpredictable or even unstable > + system behavior. As for -rt (group) scheduling, it is assumed that root users > + know what they're doing. > + > + > +1. Overview > +=========== > + > + The SCHED_DEADLINE policy contained inside the sched_dl scheduling class is > + basically an implementation of the Earliest Deadline First (EDF) scheduling > + algorithm, augmented with a mechanism (called Constant Bandwidth Server, CBS) > + that makes it possible to isolate the behavior of tasks between each other. > + > + > +2. Scheduling algorithm > +================== > + > + SCHED_DEADLINE uses three parameters, named "runtime", "period", and > + "deadline" to schedule tasks. A SCHED_DEADLINE task is guaranteed to receive > + "runtime" microseconds of execution time every "period" microseconds, and > + these "runtime" microseconds are available within "deadline" microseconds > + from the beginning of the period. In order to implement this behaviour, > + every time the task wakes up, the scheduler computes a "scheduling deadline" > + consistent with the guarantee (using the CBS[2,3] algorithm). Tasks are then > + scheduled using EDF[1] on these scheduling deadlines (the task with the > + smallest scheduling deadline is selected for execution). Notice that this > + guaranteed is respected if a proper "admission control" strategy (see Section > + "4. Bandwidth management") is used. > + > + Summing up, the CBS[2,3] algorithms assigns scheduling deadlines to tasks so > + that each task runs for at most its runtime every period, avoiding any > + interference between different tasks (bandwidth isolation), while the EDF[1] > + algorithm selects the task with the smallest scheduling deadline as the one > + to be executed first. Thanks to this feature, also tasks that do not > + strictly comply with the "traditional" real-time task model (see Section 3) > + can effectively use the new policy. > + > + In more details, the CBS algorithm assigns scheduling deadlines to > + tasks in the following way: > + > + - Each SCHED_DEADLINE task is characterised by the "runtime", > + "deadline", and "period" parameters; > + > + - The state of the task is described by a "scheduling deadline", and > + a "current runtime". These two parameters are initially set to 0; > + > + - When a SCHED_DEADLINE task wakes up (becomes ready for execution), > + the scheduler checks if > + > + current runtime runtime > + ---------------------------------- > ---------------- > + scheduling deadline - current time period > + > + then, if the scheduling deadline is smaller than the current time, or > + this condition is verified, the scheduling deadline and the > + current budget are re-initialised as > + > + scheduling deadline = current time + deadline > + current runtime = runtime > + > + otherwise, the scheduling deadline and the current runtime are > + left unchanged; > + > + - When a SCHED_DEADLINE task executes for an amount of time t, its > + current runtime is decreased as > + > + current runtime = current runtime - t > + > + (technically, the runtime is decreased at every tick, or when the > + task is descheduled / preempted); > + > + - When the current runtime becomes less or equal than 0, the task is > + said to be "throttled" (also known as "depleted" in real-time literature) > + and cannot be scheduled until its scheduling deadline. The "replenishment > + time" for this task (see next item) is set to be equal to the current > + value of the scheduling deadline; > + > + - When the current time is equal to the replenishment time of a > + throttled task, the scheduling deadline and the current runtime are > + updated as > + > + scheduling deadline = scheduling deadline + period > + current runtime = current runtime + runtime > + > + > +3. Scheduling Real-Time Tasks > +============================= > + > + * BIG FAT WARNING ****************************************************** > + * > + * This section contains a (not-thorough) summary on classical deadline > + * scheduling theory, and how it applies to SCHED_DEADLINE. > + * The reader can "safely" skip to Section 4 if only interested in seeing > + * how the scheduling policy can be used. Anyway, we strongly recommend > + * to come back here and continue reading (once the urge for testing is > + * satisfied :P) to be sure of fully understanding all technical details. > + ************************************************************************ > + > + There are no limitations on what kind of task can exploit this new > + scheduling discipline, even if it must be said that it is particularly > + suited for periodic or sporadic real-time tasks that need guarantees on their > + timing behavior, e.g., multimedia, streaming, control applications, etc. > + > + A typical real-time task is composed of a repetition of computation phases > + (task instances, or jobs) which are activated on a periodic or sporadic > + fashion. > + Each job J_j (where J_j is the j^th job of the task) is characterised by an > + arrival time r_j (the time when the job starts), an amount of computation > + time c_j needed to finish the job, and a job absolute deadline d_j, which > + is the time within which the job should be finished. The maximum execution > + time max_j{c_j} is called "Worst Case Execution Time" (WCET) for the task. > + A real-time task can be periodic with period P if r_{j+1} = r_j + P, or > + sporadic with minimum inter-arrival time P is r_{j+1} >= r_j + P. Finally, > + d_j = r_j + D, where D is the task's relative deadline. > + > + SCHED_DEADLINE can be used to schedule real-time tasks guaranteeing that > + the jobs' deadlines of a task are respected. In order to do this, a task > + must be scheduled by setting: > + > + - runtime >= WCET > + - deadline = D > + - period <= P > + > + IOW, if runtime >= WCET and if period is >= P, then the scheduling deadlines > + and the absolute deadlines (d_j) coincide, so a proper admission control > + allows to respect the jobs' absolute deadlines for this task (this is what is > + called "hard schedulability property" and is an extension of Lemma 1 of [2]). > + > + References: > + 1 - C. L. Liu and J. W. Layland. Scheduling algorithms for multiprogram- > + ming in a hard-real-time environment. Journal of the Association for > + Computing Machinery, 20(1), 1973. > + 2 - L. Abeni , G. Buttazzo. Integrating Multimedia Applications in Hard > + Real-Time Systems. Proceedings of the 19th IEEE Real-time Systems > + Symposium, 1998. http://retis.sssup.it/~giorgio/paps/1998/rtss98-cbs.pdf > + 3 - L. Abeni. Server Mechanisms for Multimedia Applications. ReTiS Lab > + Technical Report. http://xoomer.virgilio.it/lucabe72/pubs/tr-98-01.ps > + > +4. Bandwidth management > +======================= > + > + In order for the -deadline scheduling to be effective and useful, it is > + important to have some method to keep the allocation of the available CPU > + bandwidth to the tasks under control. > + This is usually called "admission control" and if it is not performed at all, > + no guarantee can be given on the actual scheduling of the -deadline tasks. > + > + Since when RT-throttling has been introduced each task group has a bandwidth > + associated, calculated as a certain amount of runtime over a period. > + Moreover, to make it possible to manipulate such bandwidth, readable/writable > + controls have been added to both procfs (for system wide settings) and cgroupfs > + (for per-group settings). > + Therefore, the same interface is being used for controlling the bandwidth > + distrubution to -deadline tasks. > + > + However, more discussion is needed in order to figure out how we want to manage > + SCHED_DEADLINE bandwidth at the task group level. Therefore, SCHED_DEADLINE > + uses (for now) a less sophisticated, but actually very sensible, mechanism to > + ensure that a certain utilization cap is not overcome per each root_domain. > + > + Another main difference between deadline bandwidth management and RT-throttling > + is that -deadline tasks have bandwidth on their own (while -rt ones don't!), > + and thus we don't need an higher level throttling mechanism to enforce the > + desired bandwidth. > + > +4.1 System wide settings > +------------------------ > + > + The system wide settings are configured under the /proc virtual file system. > + > + For now the -rt knobs are used for dl admission control and the -deadline > + runtime is accounted against the -rt runtime. We realise that this isn't > + entirely desirable; however, it is better to have a small interface for now, > + and be able to change it easily later. The ideal situation (see 5.) is to run > + -rt tasks from a -deadline server; in which case the -rt bandwidth is a direct > + subset of dl_bw. > + > + This means that, for a root_domain comprising M CPUs, -deadline tasks > + can be created while the sum of their bandwidths stays below: > + > + M * (sched_rt_runtime_us / sched_rt_period_us) > + > + It is also possible to disable this bandwidth management logic, and > + be thus free of oversubscribing the system up to any arbitrary level. > + This is done by writing -1 in /proc/sys/kernel/sched_rt_runtime_us. > + > + > +4.2 Task interface > +------------------ > + > + Specifying a periodic/sporadic task that executes for a given amount of > + runtime at each instance, and that is scheduled according to the urgency of > + its own timing constraints needs, in general, a way of declaring: > + - a (maximum/typical) instance execution time, > + - a minimum interval between consecutive instances, > + - a time constraint by which each instance must be completed. > + > + Therefore: > + * a new struct sched_attr, containing all the necessary fields is > + provided; > + * the new scheduling related syscalls that manipulate it, i.e., > + sched_setattr() and sched_getattr() are implemented. > + > + > +4.3 Default behavior > +--------------------- > + > + The default value for SCHED_DEADLINE bandwidth is to have rt_runtime equal to > + 950000. With rt_period equal to 1000000, by default, it means that -deadline > + tasks can use at most 95%, multiplied by the number of CPUs that compose the > + root_domain, for each root_domain. > + > + A -deadline task cannot fork. > + > +5. Tasks CPU affinity > +===================== > + > + -deadline tasks cannot have an affinity mask smaller that the entire > + root_domain they are created on. However, affinities can be specified > + through the cpuset facility (Documentation/cgroups/cpusets.txt). > + > +5.1 SCHED_DEADLINE and cpusets HOWTO > +------------------------------------ > + > + An example of a simple configuration (pin a -deadline task to CPU0) > + follows (rt-app is used to create a -deadline task). > + > + mkdir /dev/cpuset > + mount -t cgroup -o cpuset cpuset /dev/cpuset > + cd /dev/cpuset > + mkdir cpu0 > + echo 0 > cpu0/cpuset.cpus > + echo 0 > cpu0/cpuset.mems > + echo 1 > cpuset.cpu_exclusive > + echo 0 > cpuset.sched_load_balance > + echo 1 > cpu0/cpuset.cpu_exclusive > + echo 1 > cpu0/cpuset.mem_exclusive > + echo $$ > cpu0/tasks > + rt-app -t 100000:10000:d:0 -D5 (it is now actually superfluous to specify > + task affinity) > + > +6. Future plans > +=============== > + > + Still missing: > + > + - refinements to deadline inheritance, especially regarding the possibility > + of retaining bandwidth isolation among non-interacting tasks. This is > + being studied from both theoretical and practical points of view, and > + hopefully we should be able to produce some demonstrative code soon; > + - (c)group based bandwidth management, and maybe scheduling; > + - access control for non-root users (and related security concerns to > + address), which is the best way to allow unprivileged use of the mechanisms > + and how to prevent non-root users "cheat" the system? > + > + As already discussed, we are planning also to merge this work with the EDF > + throttling patches [https://lkml.org/lkml/2010/2/23/239] but we still are in > + the preliminary phases of the merge and we really seek feedback that would > + help us decide on the direction it should take. > diff --git a/kernel/sched/deadline.c b/kernel/sched/deadline.c > index 0de2482..0dd5e09 100644 > --- a/kernel/sched/deadline.c > +++ b/kernel/sched/deadline.c > @@ -351,7 +351,8 @@ static void replenish_dl_entity(struct sched_dl_entity *dl_se, > * disrupting the schedulability of the system. Otherwise, we should > * refill the runtime and set the deadline a period in the future, > * because keeping the current (absolute) deadline of the task would > - * result in breaking guarantees promised to other tasks. > + * result in breaking guarantees promised to other tasks (refer to > + * Documentation/scheduler/sched-deadline.txt for more informations). > * > * This function returns true if: > * > -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to majordomo@vger.kernel.org More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/