On Fri 18-05-18 13:27:27, TSUKADA Koutaro wrote: > Thanks to Mike Kravetz for comment on the previous version patch. I am sorry that I didn't join the discussion for the previous version but time just didn't allow that. So sorry if I am repeating something already sorted out. > The purpose of this patch-set is to make it possible to control whether or > not to charge surplus hugetlb pages obtained by overcommitting to memory > cgroup. In the future, I am trying to accomplish limiting the memory usage > of applications that use both normal pages and hugetlb pages by the memory > cgroup(not use the hugetlb cgroup). There was a deliberate decision to keep hugetlb and "normal" memory cgroup controllers separate. Mostly because hugetlb memory is an artificial memory subsystem on its own and it doesn't fit into the rest of memcg accounted memory very well. I believe we want to keep that status quo. > Applications that use shared libraries like libhugetlbfs.so use both normal > pages and hugetlb pages, but we do not know how much to use each. Please > suppose you want to manage the memory usage of such applications by cgroup > How do you set the memory cgroup and hugetlb cgroup limit when you want to > limit memory usage to 10GB? Well such a usecase requires an explicit configuration already. Either by using special wrappers or modifying the code. So I would argue that you have quite a good knowlege of the setup. If you need a greater flexibility then just do not use hugetlb at all and rely on THP. [...] > In this patch-set, introduce the charge_surplus_huge_pages(boolean) to > struct hstate. If it is true, it charges to the memory cgroup to which the > task that obtained surplus hugepages belongs. If it is false, do nothing as > before, and the default value is false. The charge_surplus_huge_pages can > be controlled procfs or sysfs interfaces. I do not really think this is a good idea. We really do not want to make the current hugetlb code more complex than it is already. The current hugetlb cgroup controller is simple and works at least somehow. I would not add more on top unless there is a _really_ strong usecase behind. Please make sure to describe such a usecase in details before we even start considering the code. > Since THP is very effective in environments with kernel page size of 4KB, > such as x86, there is no reason to positively use HugeTLBfs, so I think > that there is no situation to enable charge_surplus_huge_pages. However, in > some distributions such as arm64, the page size of the kernel is 64KB, and > the size of THP is too huge as 512MB, making it difficult to use. HugeTLBfs > may support multiple huge page sizes, and in such a special environment > there is a desire to use HugeTLBfs. Well, then I would argue that you shouldn't use 64kB pages for your setup or allow THP for smaller sizes. Really hugetlb pages are by no means a substitute here. -- Michal Hocko SUSE Labs -- To unsubscribe from this list: send the line "unsubscribe linux-doc" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html