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[PATCH 00/10] memcg kmem limitation - slab. [message #47257] Wed, 25 July 2012 14:38 Go to previous message
Glauber Costa is currently offline  Glauber Costa
Messages: 916
Registered: October 2011
Senior Member
Hi,

This is the slab part of the kmem limitation mechanism in its last form. I
would like to have comments on it to see if we can agree in its form. I
consider it mature, since it doesn't change much in essence over the last
forms. However, I would still prefer to defer merging it and merge the
stack-only patchset first (even if inside the same merge window). That patchset
contains most of the infrastructure needed here, and merging them separately
would not only reduce the complexity for reviewers, but allow us a chance to
have independent testing on them both. I would also likely benefit from some
extra testing, to make sure the recent changes didn't introduce anything bad.

A general explanation of what this is all about follows:

The kernel memory limitation mechanism for memcg concerns itself with
disallowing potentially non-reclaimable allocations to happen in exagerate
quantities by a particular set of processes (cgroup). Those allocations could
create pressure that affects the behavior of a different and unrelated set of
processes.

Its basic working mechanism is to annotate some allocations with the
_GFP_KMEMCG flag. When this flag is set, the current process allocating will
have its memcg identified and charged against. When reaching a specific limit,
further allocations will be denied.

One example of such problematic pressure that can be prevented by this work is
a fork bomb conducted in a shell. We prevent it by noting that processes use a
limited amount of stack pages. Seen this way, a fork bomb is just a special
case of resource abuse. If the offender is unable to grab more pages for the
stack, no new processes can be created.

There are also other things the general mechanism protects against. For
example, using too much of pinned dentry and inode cache, by touching files an
leaving them in memory forever.

In fact, a simple:

while true; do mkdir x; cd x; done

can halt your system easily, because the file system limits are hard to reach
(big disks), but the kernel memory is not. Those are examples, but the list
certainly don't stop here.

An important use case for all that is concerned with people offering hosting
services through containers. In a physical box, we can put a limit to some
resources, like total number of processes or threads. But in an environment
where each independent user gets its own piece of the machine, we don't want a
potentially malicious user to destroy good users' services.

This might be true for systemd as well, that now groups services inside
cgroups. They generally want to put forward a set of guarantees that limits the
running service in a variety of ways, so that if they become badly behaved,
they won't interfere with the rest of the system.

There is, of course, there is a cost for that. To attempt to mitigate that,
static branches are used to make sure that even if the feature is compiled in
with potentially a lot of memory cgroups deployed this code will only be
enabled after the first user of this service configures any limit. Limits lower
than the user limit effectively means there is a separate kernel memory limit
that may be reached independently than the user limit. Values equal or greater
than the user limit implies only that kernel memory is tracked. This provides a
unified vision of "maximum memory", be it kernel or user memory. Because this
is all default-off, existing deployments will see no change in behavior.

Glauber Costa (10):
slab/slub: struct memcg_params
consider a memcg parameter in kmem_create_cache
memcg: infrastructure to match an allocation to the right cache
memcg: skip memcg kmem allocations in specified code regions
slab: allow enable_cpu_cache to use preset values for its tunables
sl[au]b: Allocate objects from memcg cache
memcg: destroy memcg caches
memcg/sl[au]b Track all the memcg children of a kmem_cache.
slab: slab-specific propagation changes.
memcg/sl[au]b: shrink dead caches

include/linux/memcontrol.h | 54 ++++++
include/linux/sched.h | 1 +
include/linux/slab.h | 25 +++
include/linux/slab_def.h | 4 +
include/linux/slub_def.h | 21 ++-
init/Kconfig | 2 +-
mm/memcontrol.c | 414 +++++++++++++++++++++++++++++++++++++++++++-
mm/slab.c | 57 +++++-
mm/slab.h | 55 +++++-
mm/slab_common.c | 69 +++++++-
mm/slub.c | 25 ++-
11 files changed, 702 insertions(+), 25 deletions(-)

--
1.7.10.4
 
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