[Devel] Re: [PATCH v2][memcg+dirtylimit] Fix overwriting global vm dirty limit setting by memcg (Re: [PATCH v3 00/11] memcg: per cgroup dirty page accounting
KAMEZAWA Hiroyuki
kamezawa.hiroyu at jp.fujitsu.com
Mon Oct 25 00:08:26 PDT 2010
On Mon, 25 Oct 2010 12:33:23 +0530
Ciju Rajan K <ciju at linux.vnet.ibm.com> wrote:
> Greg Thelen wrote:
> > KAMEZAWA Hiroyuki <kamezawa.hiroyu at jp.fujitsu.com> writes:
> >
> >
> >> Fixed one here.
> >> ==
> >> From: KAMEZAWA Hiroyuki <kamezawa.hiroyu at jp.fujitsu.com>
> >>
> >> Now, at calculating dirty limit, vm_dirty_param() is called.
> >> This function returns dirty-limit related parameters considering
> >> memory cgroup settings.
> >>
> >> Now, assume that vm_dirty_bytes=100M (global dirty limit) and
> >> memory cgroup has 1G of pages and 40 dirty_ratio, dirtyable memory is
> >> 500MB.
> >>
> >> In this case, global_dirty_limits will consider dirty_limt as
> >> 500 *0.4 = 200MB. This is bad...memory cgroup is not back door.
> >>
> >> This patch limits the return value of vm_dirty_param() considring
> >> global settings.
> >>
> >> Changelog:
> >> - fixed an argument "mem" int to u64
> >> - fixed to use global available memory to cap memcg's value.
> >>
> >> Signed-off-by: KAMEZAWA Hiroyuki <kamezawa.hiroyu at jp.fujitsu.com>
> >> ---
> >> include/linux/memcontrol.h | 5 +++--
> >> mm/memcontrol.c | 30 +++++++++++++++++++++++++++++-
> >> mm/page-writeback.c | 3 ++-
> >> 3 files changed, 34 insertions(+), 4 deletions(-)
> >>
> >> Index: dirty_limit_new/mm/memcontrol.c
> >> ===================================================================
> >> --- dirty_limit_new.orig/mm/memcontrol.c
> >> +++ dirty_limit_new/mm/memcontrol.c
> >> @@ -1171,9 +1171,11 @@ static void __mem_cgroup_dirty_param(str
> >> * can be moved after our access and writeback tends to take long time. At
> >> * least, "memcg" will not be freed while holding rcu_read_lock().
> >> */
> >> -void vm_dirty_param(struct vm_dirty_param *param)
> >> +void vm_dirty_param(struct vm_dirty_param *param,
> >> + u64 mem, u64 global)
> >> {
> >> struct mem_cgroup *memcg;
> >> + u64 limit, bglimit;
> >>
> >> if (mem_cgroup_disabled()) {
> >> global_vm_dirty_param(param);
> >> @@ -1183,6 +1185,32 @@ void vm_dirty_param(struct vm_dirty_para
> >> rcu_read_lock();
> >> memcg = mem_cgroup_from_task(current);
> >> __mem_cgroup_dirty_param(param, memcg);
> >> + /*
> >> + * A limitation under memory cgroup is under global vm, too.
> >> + */
> >> + if (vm_dirty_ratio)
> >> + limit = global * vm_dirty_ratio / 100;
> >> + else
> >> + limit = vm_dirty_bytes;
> >> + if (param->dirty_ratio) {
> >> + param->dirty_bytes = mem * param->dirty_ratio / 100;
> >> + param->dirty_ratio = 0;
> >> + }
> >> + if (param->dirty_bytes > limit)
> >> + param->dirty_bytes = limit;
> >> +
> >> + if (dirty_background_ratio)
> >> + bglimit = global * dirty_background_ratio / 100;
> >> + else
> >> + bglimit = dirty_background_bytes;
> >> +
> >> + if (param->dirty_background_ratio) {
> >> + param->dirty_background_bytes =
> >> + mem * param->dirty_background_ratio / 100;
> >> + param->dirty_background_ratio = 0;
> >> + }
> >> + if (param->dirty_background_bytes > bglimit)
> >> + param->dirty_background_bytes = bglimit;
> >> rcu_read_unlock();
> >> }
> >>
> >> Index: dirty_limit_new/include/linux/memcontrol.h
> >> ===================================================================
> >> --- dirty_limit_new.orig/include/linux/memcontrol.h
> >> +++ dirty_limit_new/include/linux/memcontrol.h
> >> @@ -171,7 +171,7 @@ static inline void mem_cgroup_dec_page_s
> >> }
> >>
> >> bool mem_cgroup_has_dirty_limit(void);
> >> -void vm_dirty_param(struct vm_dirty_param *param);
> >> +void vm_dirty_param(struct vm_dirty_param *param, u64 mem, u64 global);
> >> s64 mem_cgroup_page_stat(enum mem_cgroup_nr_pages_item item);
> >>
> >> unsigned long mem_cgroup_soft_limit_reclaim(struct zone *zone, int order,
> >> @@ -360,7 +360,8 @@ static inline bool mem_cgroup_has_dirty_
> >> return false;
> >> }
> >>
> >> -static inline void vm_dirty_param(struct vm_dirty_param *param)
> >> +static inline void vm_dirty_param(struct vm_dirty_param *param,
> >> + u64 mem, u64 global)
> >> {
> >> global_vm_dirty_param(param);
> >> }
> >> Index: dirty_limit_new/mm/page-writeback.c
> >> ===================================================================
> >> --- dirty_limit_new.orig/mm/page-writeback.c
> >> +++ dirty_limit_new/mm/page-writeback.c
> >> @@ -466,7 +466,8 @@ void global_dirty_limits(unsigned long *
> >> struct task_struct *tsk;
> >> struct vm_dirty_param dirty_param;
> >>
> >> - vm_dirty_param(&dirty_param);
> >> + vm_dirty_param(&dirty_param,
> >> + available_memory, global_dirtyable_memory());
> >>
> >> if (dirty_param.dirty_bytes)
> >> dirty = DIV_ROUND_UP(dirty_param.dirty_bytes, PAGE_SIZE);
> >>
> >
> > I think there is a problem with the patch above. In the patch
> > vm_dirty_param() sets param->dirty_[background_]bytes to the smallest
> > limits considering the memcg and global limits. Assuming the current
> > task is in a memcg, then the memcg dirty (not system-wide) usage is
> > always compared to the selected limits (which may be per-memcg or
> > system). The problem is that if:
> > a) per-memcg dirty limit is smaller than system then vm_dirty_param()
> > will select per-memcg dirty limit, and
> > b) per-memcg dirty usage is well below memcg dirty limit, and
> > b) system usage is at system limit
> > Then the above patch will not trigger writeback. Example with two
> > memcg:
> > sys
> > B C
> >
> > limit usage
> > sys 10 10
> > B 7 6
> > C 5 4
> >
> > If B wants to grow, the system will exceed system limit of 10 and should
> > be throttled. However, the smaller limit (7) will be selected and
> > applied to memcg usage (6), which indicates no need to throttle, so the
> > system could get as bad as:
> >
> > limit usage
> > sys 10 12
> > B 7 7
> > C 5 5
> >
> > In this case the system usage exceeds the system limit because each
> > the per-memcg checks see no per-memcg problems.
> >
> >
> What about the following scenarios?
> a) limit usage
> sys 9 7
> B 8 6
> A 4 1
> Now assume B consumes 2 more. The total of B reaches 8 (memcg max) and
> the system total reaches 9 (Global limit).
> The scenario will be like this.
>
> limit usage
> sys 9 9
> B 8 8
> A 4 1
>
> In this case, group A is not getting a fair chance to utilize its limit.
> Do we need to consider this case also?
>
IMHO, it's admin's job to make the limitation fair.
In general, all cgroups should use the same dirty_ratio for getting fairness.
> b) Even though we are defining per cgroup dirty limit, it is not
> actually the case.
> Is it indirectly dependent on the the total system wide limit in this
> implementation?
>
Yes, it should be. memory cgroup isn't a backdoor to break system's control.
Thanks,
-Kame
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