On Mon, Jun 27, 2022 at 06:13:48PM +0800, Muchun Song wrote: > On Mon, Jun 27, 2022 at 01:05:06AM -0700, Yosry Ahmed wrote: > > On Mon, Jun 27, 2022 at 12:11 AM Muchun Song <songmuchun@xxxxxxxxxxxxx> wrote: > > > > > > On Sun, Jun 26, 2022 at 03:32:02AM -0700, Yosry Ahmed wrote: > > > > On Tue, Jun 21, 2022 at 5:57 AM Muchun Song <songmuchun@xxxxxxxxxxxxx> wrote: > > > > > > > > > > This version is rebased on mm-unstable. Hopefully, Andrew can get this series > > > > > into mm-unstable which will help to determine whether there is a problem or > > > > > degradation. I am also doing some benchmark tests in parallel. > > > > > > > > > > Since the following patchsets applied. All the kernel memory are charged > > > > > with the new APIs of obj_cgroup. > > > > > > > > > > commit f2fe7b09a52b ("mm: memcg/slab: charge individual slab objects instead of pages") > > > > > commit b4e0b68fbd9d ("mm: memcontrol: use obj_cgroup APIs to charge kmem pages") > > > > > > > > > > But user memory allocations (LRU pages) pinning memcgs for a long time - > > > > > it exists at a larger scale and is causing recurring problems in the real > > > > > world: page cache doesn't get reclaimed for a long time, or is used by the > > > > > second, third, fourth, ... instance of the same job that was restarted into > > > > > a new cgroup every time. Unreclaimable dying cgroups pile up, waste memory, > > > > > and make page reclaim very inefficient. > > > > > > > > > > We can convert LRU pages and most other raw memcg pins to the objcg direction > > > > > to fix this problem, and then the LRU pages will not pin the memcgs. > > > > > > > > > > This patchset aims to make the LRU pages to drop the reference to memory > > > > > cgroup by using the APIs of obj_cgroup. Finally, we can see that the number > > > > > of the dying cgroups will not increase if we run the following test script. > > > > > > > > This is amazing work! > > > > > > > > Sorry if I came late, I didn't follow the threads of previous versions > > > > so this might be redundant, I just have a couple of questions. > > > > > > > > a) If LRU pages keep getting parented until they reach root_mem_cgroup > > > > (assuming they can), aren't these pages effectively unaccounted at > > > > this point or leaked? Is there protection against this? > > > > > > > > > > In this case, those pages are accounted in root memcg level. Unfortunately, > > > there is no mechanism now to transfer a page's memcg from one to another. > > > > > > > b) Since moving charged pages between memcgs is now becoming easier by > > > > using the APIs of obj_cgroup, I wonder if this opens the door for > > > > future work to transfer charges to memcgs that are actually using > > > > reparented resources. For example, let's say cgroup A reads a few > > > > pages into page cache, and then they are no longer used by cgroup A. > > > > cgroup B, however, is using the same pages that are currently charged > > > > to cgroup A, so it keeps taxing cgroup A for its use. When cgroup A > > > > dies, and these pages are reparented to A's parent, can we possibly > > > > mark these reparented pages (maybe in the page tables somewhere) so > > > > that next time they get accessed we recharge them to B instead > > > > (possibly asynchronously)? > > > > I don't have much experience about page tables but I am pretty sure > > > > they are loaded so maybe there is no room in PTEs for something like > > > > this, but I have always wondered about what we can do for this case > > > > where a cgroup is consistently using memory charged to another cgroup. > > > > Maybe when this memory is reparented is a good point in time to decide > > > > to recharge appropriately. It would also fix the reparenty leak to > > > > root problem (if it even exists). > > > > > > > > > > From my point of view, this is going to be an improvement to the memcg > > > subsystem in the future. IIUC, most reparented pages are page cache > > > pages without be mapped to users. So page tables are not a suitable > > > place to record this information. However, we already have this information > > > in struct obj_cgroup and struct mem_cgroup. If a page's obj_cgroup is not > > > equal to the page's obj_cgroup->memcg->objcg, it means this page have > > > been reparented. I am thinking if a place where a page is mapped (probably > > > page fault patch) or page (cache) is written (usually vfs write path) > > > is suitable to transfer page's memcg from one to another. But need more > > > > Very good point about unmapped pages, I missed this. Page tables will > > do us no good here. Such a change would indeed require careful thought > > because (like you mentioned) there are multiple points in time where > > it might be suitable to consider recharging the page (e.g. when the > > page is mapped). This could be an incremental change though. Right now > > we have no recharging at all, so maybe we can gradually add recharging > > to suitable paths. > > > > Agree. > > > > thinking, e.g. How to decide if a reparented page needs to be transferred? > > > > Maybe if (page's obj_cgroup->memcg == root_mem_cgroup) OR (memcg of > > This is a good start. > > > current is not a descendant of page's obj_cgroup->memcg) is a good > > I am not sure this one since a page could be shared between different > memcg. No way :) > > root > / \ > A B > / \ \ > C E D > > e.g. a page (originally, it belongs to memcg E and E is dying) is reparented > to memcg A, and it is shared between C and D now. Then we need to consider > whether it should be recharged. Yep, we need more thinging about recharging. This is why I wasn't sure that objcg-based reparenting is the best approach. Instead (or maybe even _with_ the reparenting) we can recharge pages on, say, page activation and/or rotation (inactive->inactive). Pagefaults/reads are probably to hot to do it there. But the reclaim path should be more accessible in terms of the performance overhead. Just some ideas. Thanks!