On 24.09.19 19:07, Alexander Duyck wrote: > On Tue, Sep 24, 2019 at 8:32 AM David Hildenbrand <david@xxxxxxxxxx> wrote: >> >> On 24.09.19 16:23, Michal Hocko wrote: >>> On Wed 18-09-19 10:52:25, Alexander Duyck wrote: >>> [...] >>>> In order to try and keep the time needed to find a non-reported page to >>>> a minimum we maintain a "reported_boundary" pointer. This pointer is used >>>> by the get_unreported_pages iterator to determine at what point it should >>>> resume searching for non-reported pages. In order to guarantee pages do >>>> not get past the scan I have modified add_to_free_list_tail so that it >>>> will not insert pages behind the reported_boundary. >>>> >>>> If another process needs to perform a massive manipulation of the free >>>> list, such as compaction, it can either reset a given individual boundary >>>> which will push the boundary back to the list_head, or it can clear the >>>> bit indicating the zone is actively processing which will result in the >>>> reporting process resetting all of the boundaries for a given zone. >>> >>> Is this any different from the previous version? The last review >>> feedback (both from me and Mel) was that we are not happy to have an >>> externally imposed constrains on how the page allocator is supposed to >>> maintain its free lists. >>> >>> If this is really the only way to go forward then I would like to hear >>> very convincing arguments about other approaches not being feasible. >> >> Adding to what Alexander said, I don't consider the other approaches >> (especially the bitmap-based approach Nitesh is currently working on) >> infeasible. There might be more rough edges (e.g., sparse zones) and >> eventually sometimes a little more work to be done, but definitely >> feasible. Incorporating stuff into the buddy might make some tasks >> (e.g., identify free pages) more efficient. >> >> I still somewhat like the idea of capturing hints of free pages (in >> whatever data structure) and then going over the hints, seeing if the >> pages are still free. Then only temporarily isolating the still-free >> pages, reporting them, and un-isolating them after they were reported. I >> like the idea that the pages are not fake-allocated but only temporarily >> blocked. That works nicely e.g., with the movable zone (contain only >> movable data). > > One other change in this patch set is that I split the headers so that > there is an internal header that resides in the mm tree and an > external one that provides the page reporting device structure and the > register/unregister functions. All that virtio-balloon knows is that > it is registering a notifier and will be called with scatter gather > lists for memory that is not currently in use by the kernel. It has no > visibility into the internal free_areas or the current state of the > buddy allocator. Rather than having two blocks that are both trying to > maintain that state, I have consolidated it all into the buddy > allocator with page reporting. > >> But anyhow, after decades of people working on free page >> hinting/reporting, I am happy with anything that gets accepted upstream :D > > Agreed. After working on this for 9 months I would be happy to get > something upstream that addresses this. IBM upstreamed their proprietary solution - 45e576b1c3d0 ("S390] guest page hinting light") - in 2008. Rik has presented a generic approach in 2011 (!) https://www.linux-kvm.org/images/f/ff/2011-forum-memory-overcommit.pdf I think Nitesh has been working on this (initially as an Intern) since Mid 2017. So yeah, this stuff has quite some history :) > > - Alex > -- Thanks, David / dhildenb