On 2015/12/15 20:02, Vladimir Davydov wrote:
On Tue, Dec 15, 2015 at 12:22:41PM +0900, Kamezawa Hiroyuki wrote:
On 2015/12/15 4:42, Vladimir Davydov wrote:
On Mon, Dec 14, 2015 at 04:30:37PM +0100, Michal Hocko wrote:
On Thu 10-12-15 14:39:14, Vladimir Davydov wrote:
In the legacy hierarchy we charge memsw, which is dubious, because:
- memsw.limit must be >= memory.limit, so it is impossible to limit
swap usage less than memory usage. Taking into account the fact that
the primary limiting mechanism in the unified hierarchy is
memory.high while memory.limit is either left unset or set to a very
large value, moving memsw.limit knob to the unified hierarchy would
effectively make it impossible to limit swap usage according to the
user preference.
- memsw.usage != memory.usage + swap.usage, because a page occupying
both swap entry and a swap cache page is charged only once to memsw
counter. As a result, it is possible to effectively eat up to
memory.limit of memory pages *and* memsw.limit of swap entries, which
looks unexpected.
That said, we should provide a different swap limiting mechanism for
cgroup2.
This patch adds mem_cgroup->swap counter, which charges the actual
number of swap entries used by a cgroup. It is only charged in the
unified hierarchy, while the legacy hierarchy memsw logic is left
intact.
I agree that the previous semantic was awkward. The problem I can see
with this approach is that once the swap limit is reached the anon
memory pressure might spill over to other and unrelated memcgs during
the global memory pressure. I guess this is what Kame referred to as
anon would become mlocked basically. This would be even more of an issue
with resource delegation to sub-hierarchies because nobody will prevent
setting the swap amount to a small value and use that as an anon memory
protection.
AFAICS such anon memory protection has a side-effect: real-life
workloads need page cache to run smoothly (at least for mapping
executables). Disabling swapping would switch pressure to page caches,
resulting in performance degradation. So, I don't think per memcg swap
limit can be abused to boost your workload on an overcommitted system.
If you mean malicious users, well, they already have plenty ways to eat
all available memory up to the hard limit by creating unreclaimable
kernel objects.
"protect anon" user's malicious degree is far lower than such cracker like users.
What do you mean by "malicious degree"? What is such a user trying to
achieve? Killing the system? Well, there are much more effective ways to
do so. Or does it want to exploit a system specific feature to get
benefit for itself? If so, it will hardly win by mlocking all anonymous
memory, because this will result in higher pressure exerted upon its
page cache and dcache, which normal workloads just can't get along
without.
I wanted to say almost all application developers want to set swap.limit=0 if allowed.
So, it's a usual people who can kill the system if swap imbalance is allowed.
Anyway, if you don't trust a container you'd better set the hard memory
limit so that it can't hurt others no matter what it runs and how it
tweaks its sub-tree knobs.
Limiting swap can easily cause "OOM-Killer even while there are
available swap" with easy mistake.
What do you mean by "easy mistake"? Misconfiguration? If so, it's a lame
excuse IMO. Admin should take system configuration seriously. If the
host is not overcommitted, it's trivial. Otherwise, there's always a
chance that things will go south, so it's not going to be easy. It's up
to admin to analyze risks and set limits accordingly. Exporting knobs
with clear meaning is the best we can do here. swap.max is one such knob
It defines maximal usage of swap resource. Allowing to breach it just
does not add up.
Can't you add "swap excess" switch to sysctl to allow global memory
reclaim can ignore swap limitation ?
I'd be opposed to it, because this would obscure the user API. OTOH, a
kind of swap soft limit (swap.high?) might be considered. I'm not sure
if it's really necessary though, because all arguments for it do not
look convincing to me for now. So, personally, I would refrain from
implementing it until it is really called for by users of cgroup v2.
Considering my customers, running OOM-Killer while there are free swap space is
system's error rather than their misconfiguration.
BTW, mlock() requires CAP_IPC_LOCK.
please set default unlimited and check capability at setting swap limit, at least.
Thanks,
-Kame
Thanks,
Vladimir
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