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163 lines
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.. SPDX-License-Identifier: GPL-2.0
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=============
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Multi-Gen LRU
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=============
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The multi-gen LRU is an alternative LRU implementation that optimizes
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page reclaim and improves performance under memory pressure. Page
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reclaim decides the kernel's caching policy and ability to overcommit
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memory. It directly impacts the kswapd CPU usage and RAM efficiency.
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Quick start
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===========
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Build the kernel with the following configurations.
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* ``CONFIG_LRU_GEN=y``
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* ``CONFIG_LRU_GEN_ENABLED=y``
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All set!
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Runtime options
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===============
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``/sys/kernel/mm/lru_gen/`` contains stable ABIs described in the
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following subsections.
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Kill switch
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-----------
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``enabled`` accepts different values to enable or disable the
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following components. Its default value depends on
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``CONFIG_LRU_GEN_ENABLED``. All the components should be enabled
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unless some of them have unforeseen side effects. Writing to
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``enabled`` has no effect when a component is not supported by the
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hardware, and valid values will be accepted even when the main switch
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is off.
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====== ===============================================================
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Values Components
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====== ===============================================================
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0x0001 The main switch for the multi-gen LRU.
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0x0002 Clearing the accessed bit in leaf page table entries in large
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batches, when MMU sets it (e.g., on x86). This behavior can
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theoretically worsen lock contention (mmap_lock). If it is
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disabled, the multi-gen LRU will suffer a minor performance
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degradation for workloads that contiguously map hot pages,
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whose accessed bits can be otherwise cleared by fewer larger
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batches.
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0x0004 Clearing the accessed bit in non-leaf page table entries as
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well, when MMU sets it (e.g., on x86). This behavior was not
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verified on x86 varieties other than Intel and AMD. If it is
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disabled, the multi-gen LRU will suffer a negligible
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performance degradation.
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[yYnN] Apply to all the components above.
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====== ===============================================================
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E.g.,
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::
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echo y >/sys/kernel/mm/lru_gen/enabled
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cat /sys/kernel/mm/lru_gen/enabled
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0x0007
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echo 5 >/sys/kernel/mm/lru_gen/enabled
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cat /sys/kernel/mm/lru_gen/enabled
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0x0005
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Thrashing prevention
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--------------------
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Personal computers are more sensitive to thrashing because it can
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cause janks (lags when rendering UI) and negatively impact user
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experience. The multi-gen LRU offers thrashing prevention to the
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majority of laptop and desktop users who do not have ``oomd``.
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Users can write ``N`` to ``min_ttl_ms`` to prevent the working set of
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``N`` milliseconds from getting evicted. The OOM killer is triggered
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if this working set cannot be kept in memory. In other words, this
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option works as an adjustable pressure relief valve, and when open, it
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terminates applications that are hopefully not being used.
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Based on the average human detectable lag (~100ms), ``N=1000`` usually
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eliminates intolerable janks due to thrashing. Larger values like
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``N=3000`` make janks less noticeable at the risk of premature OOM
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kills.
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The default value ``0`` means disabled.
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Experimental features
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=====================
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``/sys/kernel/debug/lru_gen`` accepts commands described in the
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following subsections. Multiple command lines are supported, so does
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concatenation with delimiters ``,`` and ``;``.
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``/sys/kernel/debug/lru_gen_full`` provides additional stats for
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debugging. ``CONFIG_LRU_GEN_STATS=y`` keeps historical stats from
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evicted generations in this file.
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Working set estimation
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----------------------
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Working set estimation measures how much memory an application needs
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in a given time interval, and it is usually done with little impact on
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the performance of the application. E.g., data centers want to
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optimize job scheduling (bin packing) to improve memory utilizations.
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When a new job comes in, the job scheduler needs to find out whether
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each server it manages can allocate a certain amount of memory for
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this new job before it can pick a candidate. To do so, the job
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scheduler needs to estimate the working sets of the existing jobs.
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When it is read, ``lru_gen`` returns a histogram of numbers of pages
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accessed over different time intervals for each memcg and node.
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``MAX_NR_GENS`` decides the number of bins for each histogram. The
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histograms are noncumulative.
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::
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memcg memcg_id memcg_path
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node node_id
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min_gen_nr age_in_ms nr_anon_pages nr_file_pages
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...
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max_gen_nr age_in_ms nr_anon_pages nr_file_pages
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Each bin contains an estimated number of pages that have been accessed
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within ``age_in_ms``. E.g., ``min_gen_nr`` contains the coldest pages
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and ``max_gen_nr`` contains the hottest pages, since ``age_in_ms`` of
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the former is the largest and that of the latter is the smallest.
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Users can write the following command to ``lru_gen`` to create a new
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generation ``max_gen_nr+1``:
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``+ memcg_id node_id max_gen_nr [can_swap [force_scan]]``
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``can_swap`` defaults to the swap setting and, if it is set to ``1``,
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it forces the scan of anon pages when swap is off, and vice versa.
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``force_scan`` defaults to ``1`` and, if it is set to ``0``, it
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employs heuristics to reduce the overhead, which is likely to reduce
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the coverage as well.
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A typical use case is that a job scheduler runs this command at a
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certain time interval to create new generations, and it ranks the
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servers it manages based on the sizes of their cold pages defined by
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this time interval.
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Proactive reclaim
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-----------------
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Proactive reclaim induces page reclaim when there is no memory
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pressure. It usually targets cold pages only. E.g., when a new job
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comes in, the job scheduler wants to proactively reclaim cold pages on
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the server it selected, to improve the chance of successfully landing
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this new job.
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Users can write the following command to ``lru_gen`` to evict
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generations less than or equal to ``min_gen_nr``.
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``- memcg_id node_id min_gen_nr [swappiness [nr_to_reclaim]]``
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``min_gen_nr`` should be less than ``max_gen_nr-1``, since
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``max_gen_nr`` and ``max_gen_nr-1`` are not fully aged (equivalent to
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the active list) and therefore cannot be evicted. ``swappiness``
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overrides the default value in ``/proc/sys/vm/swappiness``.
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``nr_to_reclaim`` limits the number of pages to evict.
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A typical use case is that a job scheduler runs this command before it
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tries to land a new job on a server. If it fails to materialize enough
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cold pages because of the overestimation, it retries on the next
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server according to the ranking result obtained from the working set
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estimation step. This less forceful approach limits the impacts on the
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existing jobs.
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