On 18 Feb 2021, at 12:51, Mike Kravetz wrote: > On 2/18/21 9:40 AM, Zi Yan wrote: >> On 18 Feb 2021, at 12:32, Jason Gunthorpe wrote: >> >>> On Thu, Feb 18, 2021 at 12:27:58PM -0500, Zi Yan wrote: >>>> On 18 Feb 2021, at 12:25, Jason Gunthorpe wrote: >>>> >>>>> On Thu, Feb 18, 2021 at 02:45:54PM +0000, Matthew Wilcox wrote: >>>>>> On Wed, Feb 17, 2021 at 11:02:52AM -0800, Andrew Morton wrote: >>>>>>> On Wed, 17 Feb 2021 10:49:25 -0800 Mike Kravetz wrote: >>>>>>>> page structs are not guaranteed to be contiguous for gigantic pages. The >>>>>>> >>>>>>> June 2014. That's a long lurk time for a bug. I wonder if some later >>>>>>> commit revealed it. >>>>>> >>>>>> I would suggest that gigantic pages have not seen much use. Certainly >>>>>> performance with Intel CPUs on benchmarks that I've been involved with >>>>>> showed lower performance with 1GB pages than with 2MB pages until quite >>>>>> recently. >>>>> >>>>> I suggested in another thread that maybe it is time to consider >>>>> dropping this "feature" >>>> >>>> You mean dropping gigantic page support in hugetlb? >>> >>> No, I mean dropping support for arches that want to do: >>> >>> tail_page != head_page + tail_page_nr >>> >>> because they can't allocate the required page array either virtually >>> or physically contiguously. >>> >>> It seems like quite a burden on the core mm for a very niche, and >>> maybe even non-existant, case. >>> >>> It was originally done for PPC, can these PPC systems use VMEMMAP now? >>> >>>>> The cost to fix GUP to be compatible with this will hurt normal >>>>> GUP performance - and again, that nobody has hit this bug in GUP >>>>> further suggests the feature isn't used.. >>>> >>>> A easy fix might be to make gigantic hugetlb page depends on >>>> CONFIG_SPARSEMEM_VMEMMAP, which guarantee all struct pages are contiguous. >>> >>> Yes, exactly. >> >> I actually have a question on CONFIG_SPARSEMEM_VMEMMAP. Can we assume >> PFN_A - PFN_B == struct_page_A - struct_page_B, meaning all struct pages >> are ordered based on physical addresses? I just wonder for two PFN ranges, >> e.g., [0 - 128MB], [128MB - 256MB], if it is possible to first online >> [128MB - 256MB] then [0 - 128MB] and the struct pages of [128MB - 256MB] >> are in front of [0 - 128MB] in the vmemmap due to online ordering. > > I have not looked at the code which does the onlining and vmemmap setup. > But, these definitions make me believe it is true: > > #elif defined(CONFIG_SPARSEMEM_VMEMMAP) > > /* memmap is virtually contiguous. */ > #define __pfn_to_page(pfn) (vmemmap + (pfn)) > #define __page_to_pfn(page) (unsigned long)((page) - vmemmap) Makes sense. Thank you for checking. I guess making gigantic page depends on CONFIG_SPARSEMEM_VMEMMAP might be a good way of simplifying code and avoiding future bugs unless there is an arch really needs gigantic page and cannot have VMEMMAP. — Best Regards, Yan Zi