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page-types, which is a common user of pagemap, gets aware of thp with this patch. This helps system admins and kernel hackers know about how thp works. Here is a sample output of page-types over a thp: $ page-types -p <pid> --raw --list voffset offset len flags ... 7f9d40200 3f8400 1 ___U_lA____Ma_bH______t____________ 7f9d40201 3f8401 1ff ________________T_____t____________ flags page-count MB symbolic-flags long-symbolic-flags 0x0000000000410000 511 1 ________________T_____t____________ compound_tail,thp 0x000000000040d868 1 0 ___U_lA____Ma_bH______t____________ uptodate,lru,active,mmap,anonymous,swapbacked,compound_head,thp Signed-off-by: Naoya Horiguchi <n-horiguchi@ah.jp.nec.com> Acked-by: Wu Fengguang <fengguang.wu@intel.com> Reviewed-by: KAMEZAWA Hiroyuki <kamezawa.hiroyu@jp.fujitsu.com> Acked-by: KOSAKI Motohiro <kosaki.motohiro@jp.fujitsu.com> Cc: David Rientjes <rientjes@google.com> Cc: Andi Kleen <andi@firstfloor.org> Cc: Andrea Arcangeli <aarcange@redhat.com> Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
152 lines
5.6 KiB
Plaintext
152 lines
5.6 KiB
Plaintext
pagemap, from the userspace perspective
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pagemap is a new (as of 2.6.25) set of interfaces in the kernel that allow
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userspace programs to examine the page tables and related information by
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reading files in /proc.
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There are three components to pagemap:
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* /proc/pid/pagemap. This file lets a userspace process find out which
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physical frame each virtual page is mapped to. It contains one 64-bit
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value for each virtual page, containing the following data (from
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fs/proc/task_mmu.c, above pagemap_read):
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* Bits 0-54 page frame number (PFN) if present
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* Bits 0-4 swap type if swapped
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* Bits 5-54 swap offset if swapped
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* Bits 55-60 page shift (page size = 1<<page shift)
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* Bit 61 reserved for future use
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* Bit 62 page swapped
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* Bit 63 page present
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If the page is not present but in swap, then the PFN contains an
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encoding of the swap file number and the page's offset into the
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swap. Unmapped pages return a null PFN. This allows determining
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precisely which pages are mapped (or in swap) and comparing mapped
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pages between processes.
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Efficient users of this interface will use /proc/pid/maps to
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determine which areas of memory are actually mapped and llseek to
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skip over unmapped regions.
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* /proc/kpagecount. This file contains a 64-bit count of the number of
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times each page is mapped, indexed by PFN.
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* /proc/kpageflags. This file contains a 64-bit set of flags for each
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page, indexed by PFN.
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The flags are (from fs/proc/page.c, above kpageflags_read):
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0. LOCKED
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1. ERROR
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2. REFERENCED
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3. UPTODATE
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4. DIRTY
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5. LRU
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6. ACTIVE
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7. SLAB
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8. WRITEBACK
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9. RECLAIM
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10. BUDDY
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11. MMAP
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12. ANON
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13. SWAPCACHE
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14. SWAPBACKED
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15. COMPOUND_HEAD
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16. COMPOUND_TAIL
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16. HUGE
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18. UNEVICTABLE
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19. HWPOISON
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20. NOPAGE
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21. KSM
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22. THP
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Short descriptions to the page flags:
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0. LOCKED
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page is being locked for exclusive access, eg. by undergoing read/write IO
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7. SLAB
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page is managed by the SLAB/SLOB/SLUB/SLQB kernel memory allocator
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When compound page is used, SLUB/SLQB will only set this flag on the head
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page; SLOB will not flag it at all.
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10. BUDDY
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a free memory block managed by the buddy system allocator
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The buddy system organizes free memory in blocks of various orders.
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An order N block has 2^N physically contiguous pages, with the BUDDY flag
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set for and _only_ for the first page.
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15. COMPOUND_HEAD
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16. COMPOUND_TAIL
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A compound page with order N consists of 2^N physically contiguous pages.
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A compound page with order 2 takes the form of "HTTT", where H donates its
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head page and T donates its tail page(s). The major consumers of compound
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pages are hugeTLB pages (Documentation/vm/hugetlbpage.txt), the SLUB etc.
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memory allocators and various device drivers. However in this interface,
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only huge/giga pages are made visible to end users.
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17. HUGE
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this is an integral part of a HugeTLB page
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19. HWPOISON
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hardware detected memory corruption on this page: don't touch the data!
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20. NOPAGE
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no page frame exists at the requested address
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21. KSM
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identical memory pages dynamically shared between one or more processes
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22. THP
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contiguous pages which construct transparent hugepages
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[IO related page flags]
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1. ERROR IO error occurred
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3. UPTODATE page has up-to-date data
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ie. for file backed page: (in-memory data revision >= on-disk one)
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4. DIRTY page has been written to, hence contains new data
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ie. for file backed page: (in-memory data revision > on-disk one)
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8. WRITEBACK page is being synced to disk
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[LRU related page flags]
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5. LRU page is in one of the LRU lists
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6. ACTIVE page is in the active LRU list
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18. UNEVICTABLE page is in the unevictable (non-)LRU list
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It is somehow pinned and not a candidate for LRU page reclaims,
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eg. ramfs pages, shmctl(SHM_LOCK) and mlock() memory segments
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2. REFERENCED page has been referenced since last LRU list enqueue/requeue
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9. RECLAIM page will be reclaimed soon after its pageout IO completed
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11. MMAP a memory mapped page
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12. ANON a memory mapped page that is not part of a file
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13. SWAPCACHE page is mapped to swap space, ie. has an associated swap entry
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14. SWAPBACKED page is backed by swap/RAM
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The page-types tool in this directory can be used to query the above flags.
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Using pagemap to do something useful:
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The general procedure for using pagemap to find out about a process' memory
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usage goes like this:
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1. Read /proc/pid/maps to determine which parts of the memory space are
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mapped to what.
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2. Select the maps you are interested in -- all of them, or a particular
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library, or the stack or the heap, etc.
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3. Open /proc/pid/pagemap and seek to the pages you would like to examine.
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4. Read a u64 for each page from pagemap.
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5. Open /proc/kpagecount and/or /proc/kpageflags. For each PFN you just
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read, seek to that entry in the file, and read the data you want.
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For example, to find the "unique set size" (USS), which is the amount of
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memory that a process is using that is not shared with any other process,
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you can go through every map in the process, find the PFNs, look those up
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in kpagecount, and tally up the number of pages that are only referenced
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once.
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Other notes:
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Reading from any of the files will return -EINVAL if you are not starting
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the read on an 8-byte boundary (e.g., if you seeked an odd number of bytes
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into the file), or if the size of the read is not a multiple of 8 bytes.
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