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From: Peter Zijlstra <peterz@infradead.org>
To: "Jan H. Schönherr" <jschoenh@amazon.de>
Cc: Ingo Molnar <mingo@redhat.com>,
	linux-kernel@vger.kernel.org, Paul Turner <pjt@google.com>,
	Vincent Guittot <vincent.guittot@linaro.org>,
	Morten Rasmussen <morten.rasmussen@arm.com>,
	Tim Chen <tim.c.chen@linux.intel.com>
Subject: Re: [RFC 00/60] Coscheduling for Linux
Date: Fri, 14 Sep 2018 13:12:51 +0200	[thread overview]
Message-ID: <20180914111251.GC24106@hirez.programming.kicks-ass.net> (raw)
In-Reply-To: <20180907214047.26914-1-jschoenh@amazon.de>

On Fri, Sep 07, 2018 at 11:39:47PM +0200, Jan H. Schönherr wrote:
> This patch series extends CFS with support for coscheduling. The
> implementation is versatile enough to cover many different coscheduling
> use-cases, while at the same time being non-intrusive, so that behavior of
> legacy workloads does not change.

I don't call this non-intrusive.

> Peter Zijlstra once called coscheduling a "scalability nightmare waiting to
> happen". Well, with this patch series, coscheduling certainly happened.

I'll beg to differ; this isn't anywhere near something to consider
merging. Also 'happened' suggests a certain stage of completeness, this
again doesn't qualify.

> However, I disagree on the scalability nightmare. :)

There are known scalability problems with the existing cgroup muck; you
just made things a ton worse. The existing cgroup overhead is
significant, you also made that many times worse.

The cgroup stuff needs cleanups and optimization, not this.

> B) Why would I want this?

>    In the L1TF context, it prevents other applications from loading
>    additional data into the L1 cache, while one application tries to leak
>    data.

That is the whole and only reason you did this; and it doesn't even
begin to cover the requirements for it.

Not to mention I detest cgroups; for their inherent complixity and the
performance costs associated with them.  _If_ we're going to do
something for L1TF then I feel it should not depend on cgroups.

It is after all, perfectly possible to run a kvm thingy without cgroups.

> 1. Execute parallel applications that rely on active waiting or synchronous
>    execution concurrently with other applications.
> 
>    The prime example in this class are probably virtual machines. Here,
>    coscheduling is an alternative to paravirtualized spinlocks, pause loop
>    exiting, and other techniques with its own set of advantages and
>    disadvantages over the other approaches.

Note that in order to avoid PLE and paravirt spinlocks and paravirt
tlb-invalidate you have to gang-schedule the _entire_ VM, not just SMT
siblings.

Now explain to me how you're going to gang-schedule a VM with a good
number of vCPU threads (say spanning a number of nodes) and preserving
the rest of CFS without it turning into a massive trainwreck?

Such things (gang scheduling VMs) _are_ possible, but not within the
confines of something like CFS, they are also fairly inefficient
because, as you do note, you will have to explicitly schedule idle time
for idle vCPUs.

Things like the Tableau scheduler are what come to mind; but I'm not
sure how to integrate that with a general purpose scheduling scheme. You
pretty much have to dedicate a set of CPUs to just scheduling VMs with
such a scheduler.

And that would call for cpuset-v2 integration along with a new
scheduling class.

And then people will complain again that partitioning a system isn't
dynamic enough and we need magic :/

(and this too would be tricky to virtualize itself)

> C) How does it work?
> --------------------
> 
> This patch series introduces hierarchical runqueues, that represent larger
> and larger fractions of the system. By default, there is one runqueue per
> scheduling domain. These additional levels of runqueues are activated by
> the "cosched_max_level=" kernel command line argument. The bottom level is
> 0.

You gloss over a ton of details here; many of which are non trivial and
marked broken in your patches. Unless you have solid suggestions on how
to deal with all of them, this is a complete non-starter.

The per-cpu IRQ/steal time accounting for example. The task timeline
isn't the same on every CPU because of those.

You now basically require steal time and IRQ load to match between CPUs.
That places very strict requirements and effectively breaks virt
invariance. That is, the scheduler now behaves significantly different
inside a VM than it does outside of it -- without the guest being gang
scheduled itself and having physical pinning to reflect the same
topology the coschedule=1 thing should not be exposed in a guest. And
that is a mayor failing IMO.

Also; I think you're sharing a cfs_rq between CPUs:

+       init_cfs_rq(&sd->shared->rq.cfs);

that is broken, the virtual runtime stuff needs nontrivial modifications
for multiple CPUs. And if you do that, I've no idea how you're dealing
with SMP affinities.

> You currently have to explicitly set affinities of tasks within coscheduled
> task groups, as load balancing is not implemented for them at this point.

You don't even begin to outline how you preserve smp-nice fairness.

> D) What can I *not* do with this?
> ---------------------------------
> 
> Besides the missing load-balancing within coscheduled task-groups, this
> implementation has the following properties, which might be considered
> short-comings.
> 
> This particular implementation focuses on SCHED_OTHER tasks managed by CFS
> and allows coscheduling them. Interrupts as well as tasks in higher
> scheduling classes are currently out-of-scope: they are assumed to be
> negligible interruptions as far as coscheduling is concerned and they do
> *not* cause a preemption of a whole group. This implementation could be
> extended to cover higher scheduling classes. Interrupts, however, are an
> orthogonal issue.
> 
> The collective context switch from one coscheduled set of tasks to another
> -- while fast -- is not atomic. If a use-case needs the absolute guarantee
> that all tasks of the previous set have stopped executing before any task
> of the next set starts executing, an additional hand-shake/barrier needs to
> be added.

IOW it's completely friggin useless for L1TF.

> E) What's the overhead?
> -----------------------
> 
> Each (active) hierarchy level has roughly the same effect as one additional
> level of nested cgroups. In addition -- at this stage -- there may be some
> additional lock contention if you coschedule larger fractions of the system
> with a dynamic task set.

Have you actually read your own code?

What about that atrocious locking you sprinkle all over the place?
'some additional lock contention' doesn't even begin to describe that
horror show.

Hint: we're not going to increase the lockdep subclasses, and most
certainly not for scheduler locking.


All in all, I'm not inclined to consider this approach, it complicates
an already overly complicated thing (cpu-cgroups) and has a ton of
unresolved issues while at the same time it doesn't (and cannot) meet
the goal it was made for.

  parent reply	other threads:[~2018-09-14 11:13 UTC|newest]

Thread overview: 114+ messages / expand[flat|nested]  mbox.gz  Atom feed  top
2018-09-07 21:39 Jan H. Schönherr
2018-09-07 21:39 ` [RFC 01/60] sched: Store task_group->se[] pointers as part of cfs_rq Jan H. Schönherr
2018-09-07 21:39 ` [RFC 02/60] sched: Introduce set_entity_cfs() to place a SE into a certain CFS runqueue Jan H. Schönherr
2018-09-07 21:39 ` [RFC 03/60] sched: Setup sched_domain_shared for all sched_domains Jan H. Schönherr
2018-09-07 21:39 ` [RFC 04/60] sched: Replace sd_numa_mask() hack with something sane Jan H. Schönherr
2018-09-07 21:39 ` [RFC 05/60] sched: Allow to retrieve the sched_domain_topology Jan H. Schönherr
2018-09-07 21:39 ` [RFC 06/60] sched: Add a lock-free variant of resched_cpu() Jan H. Schönherr
2018-09-07 21:39 ` [RFC 07/60] sched: Reduce dependencies of init_tg_cfs_entry() Jan H. Schönherr
2018-09-07 21:39 ` [RFC 08/60] sched: Move init_entity_runnable_average() into init_tg_cfs_entry() Jan H. Schönherr
2018-09-07 21:39 ` [RFC 09/60] sched: Do not require a CFS in init_tg_cfs_entry() Jan H. Schönherr
2018-09-07 21:39 ` [RFC 10/60] sched: Use parent_entity() in more places Jan H. Schönherr
2018-09-07 21:39 ` [RFC 11/60] locking/lockdep: Increase number of supported lockdep subclasses Jan H. Schönherr
2018-09-07 21:39 ` [RFC 12/60] locking/lockdep: Make cookie generator accessible Jan H. Schönherr
2018-09-07 21:40 ` [RFC 13/60] sched: Remove useless checks for root task-group Jan H. Schönherr
2018-09-07 21:40 ` [RFC 14/60] sched: Refactor sync_throttle() to accept a CFS runqueue as argument Jan H. Schönherr
2018-09-07 21:40 ` [RFC 15/60] sched: Introduce parent_cfs_rq() and use it Jan H. Schönherr
2018-09-07 21:40 ` [RFC 16/60] sched: Preparatory code movement Jan H. Schönherr
2018-09-07 21:40 ` [RFC 17/60] sched: Introduce and use generic task group CFS traversal functions Jan H. Schönherr
2018-09-07 21:40 ` [RFC 18/60] sched: Fix return value of SCHED_WARN_ON() Jan H. Schönherr
2018-09-07 21:40 ` [RFC 19/60] sched: Add entity variants of enqueue_task_fair() and dequeue_task_fair() Jan H. Schönherr
2018-09-07 21:40 ` [RFC 20/60] sched: Let {en,de}queue_entity_fair() work with a varying amount of tasks Jan H. Schönherr
2018-09-07 21:40 ` [RFC 21/60] sched: Add entity variants of put_prev_task_fair() and set_curr_task_fair() Jan H. Schönherr
2018-09-07 21:40 ` [RFC 22/60] cosched: Add config option for coscheduling support Jan H. Schönherr
2018-09-07 21:40 ` [RFC 23/60] cosched: Add core data structures for coscheduling Jan H. Schönherr
2018-09-07 21:40 ` [RFC 24/60] cosched: Do minimal pre-SMP coscheduler initialization Jan H. Schönherr
2018-09-07 21:40 ` [RFC 25/60] cosched: Prepare scheduling domain topology for coscheduling Jan H. Schönherr
2018-09-07 21:40 ` [RFC 26/60] cosched: Construct runqueue hierarchy Jan H. Schönherr
2018-09-07 21:40 ` [RFC 27/60] cosched: Add some small helper functions for later use Jan H. Schönherr
2018-09-07 21:40 ` [RFC 28/60] cosched: Add is_sd_se() to distinguish SD-SEs from TG-SEs Jan H. Schönherr
2018-09-07 21:40 ` [RFC 29/60] cosched: Adjust code reflecting on the total number of CFS tasks on a CPU Jan H. Schönherr
2018-09-07 21:40 ` [RFC 30/60] cosched: Disallow share modification on task groups for now Jan H. Schönherr
2018-09-07 21:40 ` [RFC 31/60] cosched: Don't disable idle tick " Jan H. Schönherr
2018-09-07 21:40 ` [RFC 32/60] cosched: Specialize parent_cfs_rq() for hierarchical runqueues Jan H. Schönherr
2018-09-07 21:40 ` [RFC 33/60] cosched: Allow resched_curr() to be called " Jan H. Schönherr
2018-09-07 21:40 ` [RFC 34/60] cosched: Add rq_of() variants for different use cases Jan H. Schönherr
2018-09-07 21:40 ` [RFC 35/60] cosched: Adjust rq_lock() functions to work with hierarchical runqueues Jan H. Schönherr
2018-09-07 21:40 ` [RFC 36/60] cosched: Use hrq_of() for rq_clock() and rq_clock_task() Jan H. Schönherr
2018-09-07 21:40 ` [RFC 37/60] cosched: Use hrq_of() for (indirect calls to) ___update_load_sum() Jan H. Schönherr
2018-09-07 21:40 ` [RFC 38/60] cosched: Skip updates on non-CPU runqueues in cfs_rq_util_change() Jan H. Schönherr
2018-09-07 21:40 ` [RFC 39/60] cosched: Adjust task group management for hierarchical runqueues Jan H. Schönherr
2018-09-07 21:40 ` [RFC 40/60] cosched: Keep track of task group hierarchy within each SD-RQ Jan H. Schönherr
2018-09-07 21:40 ` [RFC 41/60] cosched: Introduce locking for leader activities Jan H. Schönherr
2018-09-07 21:40 ` [RFC 42/60] cosched: Introduce locking for (mostly) enqueuing and dequeuing Jan H. Schönherr
2018-09-07 21:40 ` [RFC 43/60] cosched: Add for_each_sched_entity() variant for owned entities Jan H. Schönherr
2018-09-07 21:40 ` [RFC 44/60] cosched: Perform various rq_of() adjustments in scheduler code Jan H. Schönherr
2018-09-07 21:40 ` [RFC 45/60] cosched: Continue to account all load on per-CPU runqueues Jan H. Schönherr
2018-09-07 21:40 ` [RFC 46/60] cosched: Warn on throttling attempts of non-CPU runqueues Jan H. Schönherr
2018-09-07 21:40 ` [RFC 47/60] cosched: Adjust SE traversal and locking for common leader activities Jan H. Schönherr
2018-09-07 21:40 ` [RFC 48/60] cosched: Adjust SE traversal and locking for yielding and buddies Jan H. Schönherr
2018-09-07 21:40 ` [RFC 49/60] cosched: Adjust locking for enqueuing and dequeueing Jan H. Schönherr
2018-09-07 21:40 ` [RFC 50/60] cosched: Propagate load changes across hierarchy levels Jan H. Schönherr
2018-09-07 21:40 ` [RFC 51/60] cosched: Hacky work-around to avoid observing zero weight SD-SE Jan H. Schönherr
2018-09-07 21:40 ` [RFC 52/60] cosched: Support SD-SEs in enqueuing and dequeuing Jan H. Schönherr
2018-09-07 21:40 ` [RFC 53/60] cosched: Prevent balancing related functions from crossing hierarchy levels Jan H. Schönherr
2018-09-07 21:40 ` [RFC 54/60] cosched: Support idling in a coscheduled set Jan H. Schönherr
2018-09-07 21:40 ` [RFC 55/60] cosched: Adjust task selection for coscheduling Jan H. Schönherr
2018-09-07 21:40 ` [RFC 56/60] cosched: Adjust wakeup preemption rules " Jan H. Schönherr
2018-09-07 21:40 ` [RFC 57/60] cosched: Add sysfs interface to configure coscheduling on cgroups Jan H. Schönherr
2018-09-07 21:40 ` [RFC 58/60] cosched: Switch runqueues between regular scheduling and coscheduling Jan H. Schönherr
2018-09-07 21:40 ` [RFC 59/60] cosched: Handle non-atomicity during switches to and from coscheduling Jan H. Schönherr
2018-09-07 21:40 ` [RFC 60/60] cosched: Add command line argument to enable coscheduling Jan H. Schönherr
2018-09-10  2:50   ` Randy Dunlap
2018-09-12  0:24 ` [RFC 00/60] Coscheduling for Linux Nishanth Aravamudan
2018-09-12 19:34   ` Jan H. Schönherr
2018-09-12 23:15     ` Nishanth Aravamudan
2018-09-13 11:31       ` Jan H. Schönherr
2018-09-13 18:16         ` Nishanth Aravamudan
2018-09-12 23:18     ` Jan H. Schönherr
2018-09-13  3:05       ` Nishanth Aravamudan
2018-09-13 19:19 ` [RFC 61/60] cosched: Accumulated fixes and improvements Jan H. Schönherr
2018-09-26 17:25   ` Nishanth Aravamudan
2018-09-26 21:05     ` Nishanth Aravamudan
2018-10-01  9:13       ` Jan H. Schönherr
2018-09-14 11:12 ` Peter Zijlstra [this message]
2018-09-14 16:25   ` [RFC 00/60] Coscheduling for Linux Jan H. Schönherr
2018-09-15  8:48     ` Task group cleanups and optimizations (was: Re: [RFC 00/60] Coscheduling for Linux) Jan H. Schönherr
2018-09-17  9:48       ` Peter Zijlstra
2018-09-18 13:22         ` Jan H. Schönherr
2018-09-18 13:38           ` Peter Zijlstra
2018-09-18 13:54             ` Jan H. Schönherr
2018-09-18 13:42           ` Peter Zijlstra
2018-09-18 14:35           ` Rik van Riel
2018-09-19  9:23             ` Jan H. Schönherr
2018-11-23 16:51           ` Frederic Weisbecker
2018-12-04 13:23             ` Jan H. Schönherr
2018-09-17 11:33     ` [RFC 00/60] Coscheduling for Linux Peter Zijlstra
2018-11-02 22:13       ` Nishanth Aravamudan
2018-09-17 12:25     ` Peter Zijlstra
2018-09-26  9:58       ` Jan H. Schönherr
2018-09-27 18:36         ` Subhra Mazumdar
2018-11-23 16:29           ` Frederic Weisbecker
2018-09-17 13:37     ` Peter Zijlstra
2018-09-26  9:35       ` Jan H. Schönherr
2018-09-18 14:40     ` Rik van Riel
2018-09-24 15:23       ` Jan H. Schönherr
2018-09-24 18:01         ` Rik van Riel
2018-09-18  0:33 ` Subhra Mazumdar
2018-09-18 11:44   ` Jan H. Schönherr
2018-09-19 21:53     ` Subhra Mazumdar
2018-09-24 15:43       ` Jan H. Schönherr
2018-09-27 18:12         ` Subhra Mazumdar
2018-10-04 13:29 ` Jon Masters
2018-10-17  2:09 ` Frederic Weisbecker
2018-10-19 11:40   ` Jan H. Schönherr
2018-10-19 14:52     ` Frederic Weisbecker
2018-10-19 15:16     ` Rik van Riel
2018-10-19 15:33       ` Frederic Weisbecker
2018-10-19 15:45         ` Rik van Riel
2018-10-19 19:07           ` Jan H. Schönherr
2018-10-19  0:26 ` Subhra Mazumdar
2018-10-26 23:44   ` Jan H. Schönherr
2018-10-29 22:52     ` Subhra Mazumdar
2018-10-26 23:05 ` Subhra Mazumdar
2018-10-27  0:07   ` Jan H. Schönherr

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