Re: Re: Re: Re: Re: [PATCH net v2 0/2] Revert the 'socket_alloc' life cycle change

From: Paul E. McKenney
Date: Wed May 06 2020 - 10:41:56 EST


On Wed, May 06, 2020 at 02:59:26PM +0200, SeongJae Park wrote:
> TL; DR: It was not kernel's fault, but the benchmark program.
>
> So, the problem is reproducible using the lebench[1] only. I carefully read
> it's code again.
>
> Before running the problem occurred "poll big" sub test, lebench executes
> "context switch" sub test. For the test, it sets the cpu affinity[2] and
> process priority[3] of itself to '0' and '-20', respectively. However, it
> doesn't restore the values to original value even after the "context switch" is
> finished. For the reason, "select big" sub test also run binded on CPU 0 and
> has lowest nice value. Therefore, it can disturb the RCU callback thread for
> the CPU 0, which processes the deferred deallocations of the sockets, and as a
> result it triggers the OOM.
>
> We confirmed the problem disappears by offloading the RCU callbacks from the
> CPU 0 using rcu_nocbs=0 boot parameter or simply restoring the affinity and/or
> priority.
>
> Someone _might_ still argue that this is kernel problem because the problem
> didn't occur on the old kernels prior to the Al's patches. However, setting
> the affinity and priority was available because the program received the
> permission. Therefore, it would be reasonable to blame the system
> administrators rather than the kernel.
>
> So, please ignore this patchset, apology for making confuse. If you still has
> some doubts or need more tests, please let me know.
>
> [1] https://github.com/LinuxPerfStudy/LEBench
> [2] https://github.com/LinuxPerfStudy/LEBench/blob/master/TEST_DIR/OS_Eval.c#L820
> [3] https://github.com/LinuxPerfStudy/LEBench/blob/master/TEST_DIR/OS_Eval.c#L822

Thank you for chasing this down!

I have had this sort of thing on my list as a potential issue, but given
that it is now really showing up, it sounds like it is time to bump
up its priority a bit. Of course there are limits, so if userspace is
running at any of the real-time priorities, making sufficient CPU time
available to RCU's kthreads becomes userspace's responsibility. But if
everything is running at SCHED_OTHER (which is this case here, correct?),
then it is reasonable for RCU to do some work to avoid this situation.

But still, yes, the immediate job is fixing the benchmark. ;-)

Thanx, Paul

PS. Why not just attack all potential issues on my list? Because I
usually learn quite a bit from seeing the problem actually happen.
And sometimes other changes in RCU eliminate the potential issue
before it has a chance to happen.