qemu: Relax hard RSS limit

Currently, if there's no hard memory limit defined for a domain,
libvirt tries to calculate one, based on domain definition and magic
equation and set it upon the domain startup. The rationale behind was,
if there's a memory leak or exploit in qemu, we should prevent the
host system trashing. However, the equation was too tightening, as it
didn't reflect what the kernel counts into the memory used by a
process. Since many hosts do have a swap, nobody hasn't noticed
anything, because if hard memory limit is reached, process can
continue allocating memory on a swap. However, if there is no swap on
the host, the process gets killed by OOM killer. In our case, the qemu
process it is.

To prevent this, we need to relax the hard RSS limit. Moreover, we
should reflect more precisely the kernel way of accounting the memory
for process. That is, even the kernel caches are counted within the
memory used by a process (within cgroups at least). Hence the magic
equation has to be changed:

  limit = 1.5 * (domain memory + total video memory) + (32MB for cache
          per each disk) + 200MB
(cherry picked from commit 3c83df679e)
This commit is contained in:
Michal Privoznik 2013-01-08 10:15:49 +01:00
parent 61511ae63a
commit 48baba6a02

View File

@ -343,15 +343,18 @@ int qemuSetupCgroup(struct qemud_driver *driver,
unsigned long long hard_limit = vm->def->mem.hard_limit;
if (!hard_limit) {
/* If there is no hard_limit set, set a reasonable
* one to avoid system trashing caused by exploited qemu.
* As 'reasonable limit' has been chosen:
* (1 + k) * (domain memory + total video memory) + F
* where k = 0.02 and F = 200MB. */
/* If there is no hard_limit set, set a reasonable one to avoid
* system trashing caused by exploited qemu. As 'reasonable limit'
* has been chosen:
* (1 + k) * (domain memory + total video memory) + (32MB for
* cache per each disk) + F
* where k = 0.5 and F = 200MB. The cache for disks is important as
* kernel cache on the host side counts into the RSS limit. */
hard_limit = vm->def->mem.max_balloon;
for (i = 0; i < vm->def->nvideos; i++)
hard_limit += vm->def->videos[i]->vram;
hard_limit = hard_limit * 1.02 + 204800;
hard_limit = hard_limit * 1.5 + 204800;
hard_limit += vm->def->ndisks * 32768;
}
rc = virCgroupSetMemoryHardLimit(cgroup, hard_limit);