2018-03-22 03:22:41 +08:00
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.. _transhuge:
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2011-01-14 07:46:30 +08:00
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2018-03-22 03:22:41 +08:00
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============================
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Transparent Hugepage Support
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============================
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2019-04-27 02:04:29 +08:00
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This document describes design principles for Transparent Hugepage (THP)
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support and its interaction with other parts of the memory management
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system.
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2018-05-14 16:13:38 +08:00
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Design principles
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=================
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- "graceful fallback": mm components which don't have transparent hugepage
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knowledge fall back to breaking huge pmd mapping into table of ptes and,
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if necessary, split a transparent hugepage. Therefore these components
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can continue working on the regular pages or regular pte mappings.
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- if a hugepage allocation fails because of memory fragmentation,
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regular pages should be gracefully allocated instead and mixed in
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the same vma without any failure or significant delay and without
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userland noticing
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- if some task quits and more hugepages become available (either
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immediately in the buddy or through the VM), guest physical memory
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backed by regular pages should be relocated on hugepages
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automatically (with khugepaged)
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- it doesn't require memory reservation and in turn it uses hugepages
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whenever possible (the only possible reservation here is kernelcore=
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to avoid unmovable pages to fragment all the memory but such a tweak
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is not specific to transparent hugepage support and it's a generic
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feature that applies to all dynamic high order allocations in the
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kernel)
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2018-03-22 03:22:41 +08:00
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get_user_pages and follow_page
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==============================
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2011-01-14 07:46:30 +08:00
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get_user_pages and follow_page if run on a hugepage, will return the
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head or tail pages as usual (exactly as they would do on
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2019-04-27 02:04:29 +08:00
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hugetlbfs). Most GUP users will only care about the actual physical
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2011-01-14 07:46:30 +08:00
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address of the page and its temporary pinning to release after the I/O
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is complete, so they won't ever notice the fact the page is huge. But
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if any driver is going to mangle over the page structure of the tail
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page (like for checking page->mapping or other bits that are relevant
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for the head page and not the tail page), it should be updated to jump
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2019-04-27 02:04:29 +08:00
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to check head page instead. Taking a reference on any head/tail page would
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prevent the page from being split by anyone.
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2011-01-14 07:46:30 +08:00
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2018-03-22 03:22:41 +08:00
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.. note::
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these aren't new constraints to the GUP API, and they match the
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2019-04-27 02:04:29 +08:00
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same constraints that apply to hugetlbfs too, so any driver capable
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2018-03-22 03:22:41 +08:00
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of handling GUP on hugetlbfs will also work fine on transparent
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hugepage backed mappings.
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2011-01-14 07:46:30 +08:00
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In case you can't handle compound pages if they're returned by
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2019-04-27 02:04:29 +08:00
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follow_page, the FOLL_SPLIT bit can be specified as a parameter to
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2011-01-14 07:46:30 +08:00
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follow_page, so that it will split the hugepages before returning
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2019-04-19 04:17:04 +08:00
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them.
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2011-01-14 07:46:30 +08:00
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2018-03-22 03:22:41 +08:00
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Graceful fallback
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=================
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2011-01-14 07:46:30 +08:00
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2016-05-21 07:58:07 +08:00
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Code walking pagetables but unaware about huge pmds can simply call
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2016-01-16 08:54:30 +08:00
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split_huge_pmd(vma, pmd, addr) where the pmd is the one returned by
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2011-01-14 07:46:30 +08:00
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pmd_offset. It's trivial to make the code transparent hugepage aware
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2016-01-16 08:54:30 +08:00
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by just grepping for "pmd_offset" and adding split_huge_pmd where
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2011-01-14 07:46:30 +08:00
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missing after pmd_offset returns the pmd. Thanks to the graceful
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fallback design, with a one liner change, you can avoid to write
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2019-04-27 02:04:29 +08:00
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hundreds if not thousands of lines of complex code to make your code
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2011-01-14 07:46:30 +08:00
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hugepage aware.
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If you're not walking pagetables but you run into a physical hugepage
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2019-04-27 02:04:29 +08:00
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that you can't handle natively in your code, you can split it by
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2011-01-14 07:46:30 +08:00
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calling split_huge_page(page). This is what the Linux VM does before
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2016-01-16 08:54:30 +08:00
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it tries to swapout the hugepage for example. split_huge_page() can fail
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if the page is pinned and you must handle this correctly.
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2011-01-14 07:46:30 +08:00
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Example to make mremap.c transparent hugepage aware with a one liner
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2018-03-22 03:22:41 +08:00
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change::
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2011-01-14 07:46:30 +08:00
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2018-03-22 03:22:41 +08:00
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diff --git a/mm/mremap.c b/mm/mremap.c
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--- a/mm/mremap.c
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+++ b/mm/mremap.c
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@@ -41,6 +41,7 @@ static pmd_t *get_old_pmd(struct mm_stru
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return NULL;
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2011-01-14 07:46:30 +08:00
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2018-03-22 03:22:41 +08:00
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pmd = pmd_offset(pud, addr);
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+ split_huge_pmd(vma, pmd, addr);
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if (pmd_none_or_clear_bad(pmd))
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return NULL;
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2011-01-14 07:46:30 +08:00
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2018-03-22 03:22:41 +08:00
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Locking in hugepage aware code
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==============================
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2011-01-14 07:46:30 +08:00
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We want as much code as possible hugepage aware, as calling
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2016-01-16 08:54:30 +08:00
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split_huge_page() or split_huge_pmd() has a cost.
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2011-01-14 07:46:30 +08:00
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To make pagetable walks huge pmd aware, all you need to do is to call
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pmd_trans_huge() on the pmd returned by pmd_offset. You must hold the
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2020-06-09 12:33:54 +08:00
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mmap_lock in read (or write) mode to be sure a huge pmd cannot be
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2011-01-14 07:46:30 +08:00
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created from under you by khugepaged (khugepaged collapse_huge_page
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2020-06-09 12:33:54 +08:00
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takes the mmap_lock in write mode in addition to the anon_vma lock). If
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2011-01-14 07:46:30 +08:00
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pmd_trans_huge returns false, you just fallback in the old code
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paths. If instead pmd_trans_huge returns true, you have to take the
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2016-01-16 08:54:30 +08:00
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page table lock (pmd_lock()) and re-run pmd_trans_huge. Taking the
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2019-04-27 02:04:29 +08:00
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page table lock will prevent the huge pmd being converted into a
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2016-01-16 08:54:30 +08:00
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regular pmd from under you (split_huge_pmd can run in parallel to the
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2011-01-14 07:46:30 +08:00
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pagetable walk). If the second pmd_trans_huge returns false, you
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2016-01-16 08:54:30 +08:00
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should just drop the page table lock and fallback to the old code as
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2019-04-27 02:04:29 +08:00
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before. Otherwise, you can proceed to process the huge pmd and the
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hugepage natively. Once finished, you can drop the page table lock.
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2016-01-16 08:54:30 +08:00
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2018-03-22 03:22:41 +08:00
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Refcounts and transparent huge pages
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====================================
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2016-01-16 08:54:30 +08:00
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Refcounting on THP is mostly consistent with refcounting on other compound
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pages:
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2019-04-27 02:04:29 +08:00
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- get_page()/put_page() and GUP operate on head page's ->_refcount.
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2016-01-16 08:54:30 +08:00
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2016-05-20 08:10:49 +08:00
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- ->_refcount in tail pages is always zero: get_page_unless_zero() never
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2019-04-27 02:04:29 +08:00
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succeeds on tail pages.
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2016-01-16 08:54:30 +08:00
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- map/unmap of the pages with PTE entry increment/decrement ->_mapcount
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on relevant sub-page of the compound page.
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2019-04-27 02:04:29 +08:00
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- map/unmap of the whole compound page is accounted for in compound_mapcount
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2016-07-27 06:26:40 +08:00
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(stored in first tail page). For file huge pages, we also increment
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->_mapcount of all sub-pages in order to have race-free detection of
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last unmap of subpages.
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2016-01-16 08:54:30 +08:00
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2016-07-27 06:26:40 +08:00
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PageDoubleMap() indicates that the page is *possibly* mapped with PTEs.
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2019-04-27 02:04:29 +08:00
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For anonymous pages, PageDoubleMap() also indicates ->_mapcount in all
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2016-07-27 06:26:40 +08:00
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subpages is offset up by one. This additional reference is required to
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get race-free detection of unmap of subpages when we have them mapped with
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both PMDs and PTEs.
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2016-01-16 08:54:30 +08:00
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2019-04-27 02:04:29 +08:00
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This optimization is required to lower the overhead of per-subpage mapcount
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tracking. The alternative is to alter ->_mapcount in all subpages on each
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2016-01-16 08:54:30 +08:00
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map/unmap of the whole compound page.
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2019-04-27 02:04:29 +08:00
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For anonymous pages, we set PG_double_map when a PMD of the page is split
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for the first time, but still have a PMD mapping. The additional references
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go away with the last compound_mapcount.
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2016-07-27 06:26:40 +08:00
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2019-04-27 02:04:29 +08:00
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File pages get PG_double_map set on the first map of the page with PTE and
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goes away when the page gets evicted from the page cache.
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2011-01-14 07:46:30 +08:00
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split_huge_page internally has to distribute the refcounts in the head
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2016-01-16 08:54:30 +08:00
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page to the tail pages before clearing all PG_head/tail bits from the page
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structures. It can be done easily for refcounts taken by page table
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2019-04-27 02:04:29 +08:00
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entries, but we don't have enough information on how to distribute any
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2016-01-16 08:54:30 +08:00
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additional pins (i.e. from get_user_pages). split_huge_page() fails any
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2019-04-27 02:04:29 +08:00
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requests to split pinned huge pages: it expects page count to be equal to
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the sum of mapcount of all sub-pages plus one (split_huge_page caller must
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have a reference to the head page).
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2016-01-16 08:54:30 +08:00
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2016-05-20 08:10:49 +08:00
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split_huge_page uses migration entries to stabilize page->_refcount and
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2019-04-27 02:04:29 +08:00
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page->_mapcount of anonymous pages. File pages just get unmapped.
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2016-01-16 08:54:30 +08:00
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2019-04-27 02:04:29 +08:00
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We are safe against physical memory scanners too: the only legitimate way
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a scanner can get a reference to a page is get_page_unless_zero().
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2016-01-16 08:54:30 +08:00
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2016-05-21 07:58:07 +08:00
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All tail pages have zero ->_refcount until atomic_add(). This prevents the
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scanner from getting a reference to the tail page up to that point. After the
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2019-04-27 02:04:29 +08:00
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atomic_add() we don't care about the ->_refcount value. We already know how
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2016-05-21 07:58:07 +08:00
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many references should be uncharged from the head page.
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2016-01-16 08:54:30 +08:00
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For head page get_page_unless_zero() will succeed and we don't mind. It's
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2019-04-27 02:04:29 +08:00
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clear where references should go after split: it will stay on the head page.
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2016-01-16 08:54:30 +08:00
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2019-04-27 02:04:29 +08:00
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Note that split_huge_pmd() doesn't have any limitations on refcounting:
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2016-01-16 08:54:30 +08:00
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pmd can be split at any point and never fails.
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2018-03-22 03:22:41 +08:00
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Partial unmap and deferred_split_huge_page()
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============================================
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2016-01-16 08:54:30 +08:00
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Unmapping part of THP (with munmap() or other way) is not going to free
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memory immediately. Instead, we detect that a subpage of THP is not in use
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in page_remove_rmap() and queue the THP for splitting if memory pressure
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comes. Splitting will free up unused subpages.
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Splitting the page right away is not an option due to locking context in
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2019-04-27 02:04:29 +08:00
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the place where we can detect partial unmap. It also might be
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2017-05-09 06:59:02 +08:00
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counterproductive since in many cases partial unmap happens during exit(2) if
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a THP crosses a VMA boundary.
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2016-01-16 08:54:30 +08:00
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2019-04-27 02:04:29 +08:00
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The function deferred_split_huge_page() is used to queue a page for splitting.
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2016-01-16 08:54:30 +08:00
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The splitting itself will happen when we get memory pressure via shrinker
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interface.
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