Hi, Greg! On Sun, Apr 22, 2018 at 01:26:10PM -0700, Greg Thelen wrote: > Roman's previously posted memory.low,min patches add per memcg effective > low limit to detect overcommitment of parental limits. But if we flip > low,min reclaim to bail if usage<{low,min} at any level, then we don't need > an effective low limit, which makes the code simpler. When parent limits > are overcommited memory.min will oom kill, which is more drastic but makes > the memory.low a simpler concept. If memcg a/b wants oom kill before > reclaim, then give it to them. It seems a bit strange for a/b/memory.low's > behaviour to depend on a/c/memory.low (i.e. a/b.low is strong unless > a/b.low+a/c.low exceed a.low). It's actually not strange: a/b and a/c are sharing a common resource: a/memory.low. Exactly as a/b/memory.max and a/c/memory.max are sharing a/memory.max. If there are sibling cgroups which are consuming memory, a cgroup can't exceed parent's memory.max, even if its memory.max is grater. > > I think there might be a simpler way (ableit it doesn't yet include > Documentation): > - memcg: fix memory.low > - memcg: add memory.min > 3 files changed, 75 insertions(+), 6 deletions(-) > > The idea of this alternate approach is for memory.low,min to avoid reclaim > if any portion of under-consideration memcg ancestry is under respective > limit. This approach has a significant downside: it breaks hierarchical constraints for memory.low/min. There are two important outcomes: 1) Any leaf's memory.low/min value is respected, even if parent's value is lower or even 0. It's not possible anymore to limit the amount of protected memory for a sub-tree. This is especially bad in case of delegation. 2) If a cgroup has an ancestor with the usage under its memory.low/min, it becomes protection, even if its memory.low/min is 0. So it becomes impossible to have unprotected cgroups in protected sub-tree. Thanks! -- To unsubscribe from this list: send the line "unsubscribe cgroups" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html