On Mon, Oct 5, 2020 at 8:00 AM Qais Yousef qais.yousef@arm.com wrote:
+CC Steve and Peter - they might be interested.
On 10/02/20 11:07, Rob Clark wrote:
On Fri, Oct 2, 2020 at 4:01 AM Qais Yousef qais.yousef@arm.com wrote:
On 09/30/20 14:17, Rob Clark wrote:
From: Rob Clark robdclark@chromium.org
The android userspace treats the display pipeline as a realtime problem. And arguably, if your goal is to not miss frame deadlines (ie. vblank), it is. (See https://lwn.net/Articles/809545/ for the best explaination that I found.)
But this presents a problem with using workqueues for non-blocking atomic commit_work(), because the SCHED_FIFO userspace thread(s) can preempt the worker. Which is not really the outcome you want.. once the required fences are scheduled, you want to push the atomic commit down to hw ASAP.
For me thees 2 properties
1. Run ASAP 2. Finish the work un-interruptedScream the workers need to be SCHED_FIFO by default. CFS can't give you these guarantees.
fwiw, commit_work does sleep/block for some time until fences are signalled, but then once that happens we want it to run ASAP, preempting lower priority SCHED_FIFO.
IMO using sched_set_fifo() for these workers is the right thing.
Possibly, but we still have limited prioritization options (ie. not enough) to set these from the kernel. Giving userspace the control, so it can pick sensible priorities for commit_work and vblank_work, which fits in with the priorities of the other userspace threads seems like the sensible thing.
The problem is that the kernel can run on all types of systems. It's impossible to pick one value that fits all. Userspace must manage these priorities, and you can still export the TID to help with that.
But why do you need several priorities in your pipeline? I would have thought it should execute each stage sequentially and all tasks running at the same RT priority is fine.
On the kernel side, vblank work should complete during the vblank period, making it a harder real time requirement. So the thinking is this should be a higher priority.
But you are right, if you aren't overcommitted it probably doesn't matter.
On SMP priorities matter once you've overcomitted the systems. You need to have more RT tasks running than CPUs for priorities to matter. It seems you have a high count of RT tasks in your system?
I did some profiles on Android and found that being overcomitted is hard. But that was a while ago.
But the decision of whether commit_work should be RT or not really depends on what userspace is doing. For a pure CFS userspace display pipeline, commit_work() should remain SCHED_NORMAL.
I'm not sure I agree with this. I think it's better to characterize tasks based on their properties/requirements rather than what the rest of the userspace is using.
I mean, the issue is that userspace is already using a few different rt priority levels for different SF threads. We want commit_work to
Why are they at different priorities? Different priority levels means that some of them have more urgent deadlines to meet and it's okay to steal execution time from lower priority tasks. Is this the case?
tbh, I'm not fully aware of the background. It looks like most of the SF threads run at priority=2 (100-2==98), and the main one runs at priority=1
RT planning and partitioning is not easy task for sure. You might want to consider using affinities too to get stronger guarantees for some tasks and prevent cross-talking.
There is some cgroup stuff that is pinning SF and some other stuff to the small cores, fwiw.. I think the reasoning is that they shouldn't be doing anything heavy enough to need the big cores.
run ASAP once fences are signalled, and vblank_work to run at a slightly higher priority still. But the correct choice for priorities here depends on what userspace is using, it all needs to fit together properly.
By userspace here I think you mean none display pipeline related RT tasks that you need to coexit with and could still disrupt your pipeline?
I mean, commit_work should be higher priority than the other (display related) RT tasks. But the kernel doesn't know what those priorities are.
Using RT on Gerneral Purpose System is hard for sure. One of the major challenge is that there's no admin that has full view of the system to do proper RT planning.
We need proper RT balancer daemon that helps partitioning the system for multiple RT apps on these systems..
I do appreciate that maybe some of these tasks have varying requirements during their life time. e.g: they have RT property during specific critical section but otherwise are CFS tasks. I think the UI thread in Android behaves like that.
It's worth IMO trying that approach I pointed out earlier to see if making RT try to pick an idle CPU rather than preempt CFS helps. Not sure if it'd be accepted but IMHO it's a better direction to consider and discuss.
The problem I was seeing was actually the opposite.. commit_work becomes runnable (fences signalled) but doesn't get a chance to run because a SCHED_FIFO SF thread is running. (Maybe I misunderstood and you're approach would help this case too?)
Ah okay. Sorry I got it the wrong way around for some reason. I thought this task is preempting other CFS-based pipelined tasks.
So your system seems to be overcomitted. Is SF short for SufraceFlinger? Under what scenarios do you have many SurfaceFlinger tasks? On Android I remember seeing they have priority of 1 or 2.
yeah, SF==SurfaceFlinger, and yeah, 1 and 2..
sched_set_fifo() will use priority 50. If you set all your pipeline tasks to this priority, what happens?
I think this would work.. drm/msm doesn't use vblank work, so I wouldn't really have problems with commit_work preempting vblank_work. But I think the best option (and to handle the case if android changes the RT priorties around in the future) is to let userspace set the priorities.
Or maybe you can wrap userspace pipeline critical section lock such that any task holding it will automatically be promoted to SCHED_FIFO and then demoted to CFS once it releases it.
The SCHED_DEADLINE + token passing approach that the lwn article mentioned sounds interesting, if that eventually becomes possible. But doesn't really help today..
We were present in the room with Alessio when he gave that talk :-)
You might have seen Valentin's talk in LPC where he's trying to get proxy-execution into shape. Which is a pre-requisite to enable using of SCHED_DEADLINE for these scenarios. IIRC it should allow all dependent tasks to run from the context of the deadline task during the display pipeline critical section.
By the way, do you have issues with SoftIrqs delaying your RT tasks execution time?
I don't *think* so, but I'm not 100% sure if they are showing up in traces. So far it seems like SF stomping on commit_work. (There is the added complication that there are some chrome gpu-process tasks in between SF and the display, including CrGpuMain (which really doesn't want to be SCHED_FIFO when executing gl commands on behalf of something unrelated to the compositor.. the deadline approach, IIUC, might be the better option eventually for this?)
BR, -R
Thanks
-- Qais Yousef