On 29/06/2024 00.15, Yosry Ahmed wrote:
[..]
+ /* Obtained lock, record this cgrp as the ongoing flusher */
+ if (!READ_ONCE(cgrp_rstat_ongoing_flusher)) {
Can the above condition will ever be false?
Yes, I think so, because I realized that cgroup_rstat_flush_locked() can
release/"yield" the lock. Thus, other CPUs/threads have a chance to
call cgroup_rstat_flush, and try to become the "ongoing-flusher".
Right, there may actually be multiple ongoing flushers. I am now
wondering if it would be better if we drop cgrp_rstat_ongoing_flusher
completely, add a per-cgroup under_flush boolean/flag, and have the
cgroup iterate its parents here to check if any of them is under_flush
and wait for it instead.
Yes, we have to add parent iteration here, but I think it may be fine
because the flush path is already expensive. This will allow us to
detect if any ongoing flush is overlapping with us, not just the one
that happened to update cgrp_rstat_ongoing_flusher first.
WDYT?
No, I don't think we should complicate the code to "support" multiple
ongoing flushers (there is no parallel execution of these). The lock
yielding cause the (I assume) unintended side-effect that multiple
ongoing flushers can exist. We should work towards only having a single
ongoing flusher.
With the current kswapd rstat contention issue, yielding the lock in the
loop, creates the worst possible case of cache-line trashing, as these
kthreads run on 12 different NUMA nodes.
I'm working towards changing rstat lock to a mutex. When doing so, we
should not yield the lock in the loop. This will guarantee only having
a single ongoing flusher, and reduce cache-line trashing.
--Jesper