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99 lines
4.8 KiB
Plaintext
99 lines
4.8 KiB
Plaintext
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MOTIVATION
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The idle page tracking feature allows to track which memory pages are being
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accessed by a workload and which are idle. This information can be useful for
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estimating the workload's working set size, which, in turn, can be taken into
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account when configuring the workload parameters, setting memory cgroup limits,
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or deciding where to place the workload within a compute cluster.
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It is enabled by CONFIG_IDLE_PAGE_TRACKING=y.
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USER API
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The idle page tracking API is located at /sys/kernel/mm/page_idle. Currently,
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it consists of the only read-write file, /sys/kernel/mm/page_idle/bitmap.
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The file implements a bitmap where each bit corresponds to a memory page. The
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bitmap is represented by an array of 8-byte integers, and the page at PFN #i is
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mapped to bit #i%64 of array element #i/64, byte order is native. When a bit is
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set, the corresponding page is idle.
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A page is considered idle if it has not been accessed since it was marked idle
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(for more details on what "accessed" actually means see the IMPLEMENTATION
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DETAILS section). To mark a page idle one has to set the bit corresponding to
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the page by writing to the file. A value written to the file is OR-ed with the
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current bitmap value.
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Only accesses to user memory pages are tracked. These are pages mapped to a
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process address space, page cache and buffer pages, swap cache pages. For other
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page types (e.g. SLAB pages) an attempt to mark a page idle is silently ignored,
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and hence such pages are never reported idle.
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For huge pages the idle flag is set only on the head page, so one has to read
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/proc/kpageflags in order to correctly count idle huge pages.
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Reading from or writing to /sys/kernel/mm/page_idle/bitmap will return
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-EINVAL if you are not starting the read/write on an 8-byte boundary, or
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if the size of the read/write is not a multiple of 8 bytes. Writing to
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this file beyond max PFN will return -ENXIO.
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That said, in order to estimate the amount of pages that are not used by a
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workload one should:
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1. Mark all the workload's pages as idle by setting corresponding bits in
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/sys/kernel/mm/page_idle/bitmap. The pages can be found by reading
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/proc/pid/pagemap if the workload is represented by a process, or by
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filtering out alien pages using /proc/kpagecgroup in case the workload is
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placed in a memory cgroup.
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2. Wait until the workload accesses its working set.
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3. Read /sys/kernel/mm/page_idle/bitmap and count the number of bits set. If
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one wants to ignore certain types of pages, e.g. mlocked pages since they
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are not reclaimable, he or she can filter them out using /proc/kpageflags.
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See Documentation/vm/pagemap.txt for more information about /proc/pid/pagemap,
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/proc/kpageflags, and /proc/kpagecgroup.
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IMPLEMENTATION DETAILS
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The kernel internally keeps track of accesses to user memory pages in order to
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reclaim unreferenced pages first on memory shortage conditions. A page is
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considered referenced if it has been recently accessed via a process address
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space, in which case one or more PTEs it is mapped to will have the Accessed bit
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set, or marked accessed explicitly by the kernel (see mark_page_accessed()). The
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latter happens when:
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- a userspace process reads or writes a page using a system call (e.g. read(2)
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or write(2))
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- a page that is used for storing filesystem buffers is read or written,
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because a process needs filesystem metadata stored in it (e.g. lists a
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directory tree)
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- a page is accessed by a device driver using get_user_pages()
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When a dirty page is written to swap or disk as a result of memory reclaim or
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exceeding the dirty memory limit, it is not marked referenced.
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The idle memory tracking feature adds a new page flag, the Idle flag. This flag
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is set manually, by writing to /sys/kernel/mm/page_idle/bitmap (see the USER API
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section), and cleared automatically whenever a page is referenced as defined
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above.
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When a page is marked idle, the Accessed bit must be cleared in all PTEs it is
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mapped to, otherwise we will not be able to detect accesses to the page coming
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from a process address space. To avoid interference with the reclaimer, which,
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as noted above, uses the Accessed bit to promote actively referenced pages, one
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more page flag is introduced, the Young flag. When the PTE Accessed bit is
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cleared as a result of setting or updating a page's Idle flag, the Young flag
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is set on the page. The reclaimer treats the Young flag as an extra PTE
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Accessed bit and therefore will consider such a page as referenced.
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Since the idle memory tracking feature is based on the memory reclaimer logic,
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it only works with pages that are on an LRU list, other pages are silently
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ignored. That means it will ignore a user memory page if it is isolated, but
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since there are usually not many of them, it should not affect the overall
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result noticeably. In order not to stall scanning of the idle page bitmap,
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locked pages may be skipped too.
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