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SubjectRe: [PATCH v2 1/3] mm: memcg: fix stale protection of reclaim target memcg
On Wed, Nov 23, 2022 at 09:21:30AM +0000, Yosry Ahmed wrote:
> During reclaim, mem_cgroup_calculate_protection() is used to determine
> the effective protection (emin and elow) values of a memcg. The
> protection of the reclaim target is ignored, but we cannot set their
> effective protection to 0 due to a limitation of the current
> implementation (see comment in mem_cgroup_protection()). Instead,
> we leave their effective protection values unchaged, and later ignore it
> in mem_cgroup_protection().
>
> However, mem_cgroup_protection() is called later in
> shrink_lruvec()->get_scan_count(), which is after the
> mem_cgroup_below_{min/low}() checks in shrink_node_memcgs(). As a
> result, the stale effective protection values of the target memcg may
> lead us to skip reclaiming from the target memcg entirely, before
> calling shrink_lruvec(). This can be even worse with recursive
> protection, where the stale target memcg protection can be higher than
> its standalone protection. See two examples below (a similar version of
> example (a) is added to test_memcontrol in a later patch).
>
> (a) A simple example with proactive reclaim is as follows. Consider the
> following hierarchy:
> ROOT
> |
> A
> |
> B (memory.min = 10M)
>
> Consider the following scenario:
> - B has memory.current = 10M.
> - The system undergoes global reclaim (or memcg reclaim in A).
> - In shrink_node_memcgs():
> - mem_cgroup_calculate_protection() calculates the effective min (emin)
> of B as 10M.
> - mem_cgroup_below_min() returns true for B, we do not reclaim from B.
> - Now if we want to reclaim 5M from B using proactive reclaim
> (memory.reclaim), we should be able to, as the protection of the
> target memcg should be ignored.
> - In shrink_node_memcgs():
> - mem_cgroup_calculate_protection() immediately returns for B without
> doing anything, as B is the target memcg, relying on
> mem_cgroup_protection() to ignore B's stale effective min (still 10M).
> - mem_cgroup_below_min() reads the stale effective min for B and we
> skip it instead of ignoring its protection as intended, as we never
> reach mem_cgroup_protection().
>
> (b) An more complex example with recursive protection is as follows.
> Consider the following hierarchy with memory_recursiveprot:
> ROOT
> |
> A (memory.min = 50M)
> |
> B (memory.min = 10M, memory.high = 40M)
>
> Consider the following scenario:
> - B has memory.current = 35M.
> - The system undergoes global reclaim (target memcg is NULL).
> - B will have an effective min of 50M (all of A's unclaimed protection).
> - B will not be reclaimed from.
> - Now allocate 10M more memory in B, pushing it above it's high limit.
> - The system undergoes memcg reclaim from B (target memcg is B).
> - Like example (a), we do nothing in mem_cgroup_calculate_protection(),
> then call mem_cgroup_below_min(), which will read the stale effective
> min for B (50M) and skip it. In this case, it's even worse because we
> are not just considering B's standalone protection (10M), but we are
> reading a much higher stale protection (50M) which will cause us to not
> reclaim from B at all.
>
> This is an artifact of commit 45c7f7e1ef17 ("mm, memcg: decouple
> e{low,min} state mutations from protection checks") which made
> mem_cgroup_calculate_protection() only change the state without
> returning any value. Before that commit, we used to return
> MEMCG_PROT_NONE for the target memcg, which would cause us to skip the
> mem_cgroup_below_{min/low}() checks. After that commit we do not return
> anything and we end up checking the min & low effective protections for
> the target memcg, which are stale.
>
> Update mem_cgroup_supports_protection() to also check if we are
> reclaiming from the target, and rename it to mem_cgroup_unprotected()
> (now returns true if we should not protect the memcg, much simpler logic).
>
> Fixes: 45c7f7e1ef17 ("mm, memcg: decouple e{low,min} state mutations from protection checks")
> Signed-off-by: Yosry Ahmed <yosryahmed@google.com>

Reviewed-by: Roman Gushchin <roman.gushchin@linux.dev>

Thank you!

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