533 lines
19 KiB
ReStructuredText
533 lines
19 KiB
ReStructuredText
========================================
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zram: Compressed RAM-based block devices
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========================================
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Introduction
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============
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The zram module creates RAM-based block devices named /dev/zram<id>
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(<id> = 0, 1, ...). Pages written to these disks are compressed and stored
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in memory itself. These disks allow very fast I/O and compression provides
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good amounts of memory savings. Some of the use cases include /tmp storage,
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use as swap disks, various caches under /var and maybe many more. :)
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Statistics for individual zram devices are exported through sysfs nodes at
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/sys/block/zram<id>/
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Usage
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=====
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There are several ways to configure and manage zram device(-s):
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a) using zram and zram_control sysfs attributes
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b) using zramctl utility, provided by util-linux (util-linux@vger.kernel.org).
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In this document we will describe only 'manual' zram configuration steps,
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IOW, zram and zram_control sysfs attributes.
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In order to get a better idea about zramctl please consult util-linux
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documentation, zramctl man-page or `zramctl --help`. Please be informed
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that zram maintainers do not develop/maintain util-linux or zramctl, should
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you have any questions please contact util-linux@vger.kernel.org
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Following shows a typical sequence of steps for using zram.
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WARNING
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=======
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For the sake of simplicity we skip error checking parts in most of the
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examples below. However, it is your sole responsibility to handle errors.
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zram sysfs attributes always return negative values in case of errors.
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The list of possible return codes:
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======== =============================================================
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-EBUSY an attempt to modify an attribute that cannot be changed once
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the device has been initialised. Please reset device first.
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-ENOMEM zram was not able to allocate enough memory to fulfil your
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needs.
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-EINVAL invalid input has been provided.
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======== =============================================================
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If you use 'echo', the returned value is set by the 'echo' utility,
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and, in general case, something like::
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echo 3 > /sys/block/zram0/max_comp_streams
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if [ $? -ne 0 ]; then
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handle_error
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fi
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should suffice.
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1) Load Module
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==============
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::
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modprobe zram num_devices=4
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This creates 4 devices: /dev/zram{0,1,2,3}
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num_devices parameter is optional and tells zram how many devices should be
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pre-created. Default: 1.
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2) Set max number of compression streams
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========================================
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Regardless of the value passed to this attribute, ZRAM will always
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allocate multiple compression streams - one per online CPU - thus
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allowing several concurrent compression operations. The number of
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allocated compression streams goes down when some of the CPUs
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become offline. There is no single-compression-stream mode anymore,
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unless you are running a UP system or have only 1 CPU online.
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To find out how many streams are currently available::
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cat /sys/block/zram0/max_comp_streams
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3) Select compression algorithm
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===============================
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Using comp_algorithm device attribute one can see available and
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currently selected (shown in square brackets) compression algorithms,
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or change the selected compression algorithm (once the device is initialised
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there is no way to change compression algorithm).
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Examples::
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#show supported compression algorithms
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cat /sys/block/zram0/comp_algorithm
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lzo [lz4]
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#select lzo compression algorithm
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echo lzo > /sys/block/zram0/comp_algorithm
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For the time being, the `comp_algorithm` content does not necessarily
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show every compression algorithm supported by the kernel. We keep this
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list primarily to simplify device configuration and one can configure
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a new device with a compression algorithm that is not listed in
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`comp_algorithm`. The thing is that, internally, ZRAM uses Crypto API
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and, if some of the algorithms were built as modules, it's impossible
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to list all of them using, for instance, /proc/crypto or any other
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method. This, however, has an advantage of permitting the usage of
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custom crypto compression modules (implementing S/W or H/W compression).
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4) Set Disksize
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===============
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Set disk size by writing the value to sysfs node 'disksize'.
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The value can be either in bytes or you can use mem suffixes.
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Examples::
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# Initialize /dev/zram0 with 50MB disksize
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echo $((50*1024*1024)) > /sys/block/zram0/disksize
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# Using mem suffixes
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echo 256K > /sys/block/zram0/disksize
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echo 512M > /sys/block/zram0/disksize
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echo 1G > /sys/block/zram0/disksize
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Note:
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There is little point creating a zram of greater than twice the size of memory
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since we expect a 2:1 compression ratio. Note that zram uses about 0.1% of the
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size of the disk when not in use so a huge zram is wasteful.
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5) Set memory limit: Optional
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=============================
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Set memory limit by writing the value to sysfs node 'mem_limit'.
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The value can be either in bytes or you can use mem suffixes.
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In addition, you could change the value in runtime.
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Examples::
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# limit /dev/zram0 with 50MB memory
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echo $((50*1024*1024)) > /sys/block/zram0/mem_limit
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# Using mem suffixes
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echo 256K > /sys/block/zram0/mem_limit
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echo 512M > /sys/block/zram0/mem_limit
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echo 1G > /sys/block/zram0/mem_limit
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# To disable memory limit
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echo 0 > /sys/block/zram0/mem_limit
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6) Activate
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===========
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::
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mkswap /dev/zram0
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swapon /dev/zram0
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mkfs.ext4 /dev/zram1
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mount /dev/zram1 /tmp
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7) Add/remove zram devices
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==========================
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zram provides a control interface, which enables dynamic (on-demand) device
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addition and removal.
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In order to add a new /dev/zramX device, perform a read operation on the hot_add
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attribute. This will return either the new device's device id (meaning that you
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can use /dev/zram<id>) or an error code.
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Example::
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cat /sys/class/zram-control/hot_add
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1
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To remove the existing /dev/zramX device (where X is a device id)
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execute::
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echo X > /sys/class/zram-control/hot_remove
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8) Stats
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========
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Per-device statistics are exported as various nodes under /sys/block/zram<id>/
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A brief description of exported device attributes follows. For more details
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please read Documentation/ABI/testing/sysfs-block-zram.
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====================== ====== ===============================================
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Name access description
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====================== ====== ===============================================
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disksize RW show and set the device's disk size
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initstate RO shows the initialization state of the device
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reset WO trigger device reset
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mem_used_max WO reset the `mem_used_max` counter (see later)
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mem_limit WO specifies the maximum amount of memory ZRAM can
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use to store the compressed data
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writeback_limit WO specifies the maximum amount of write IO zram
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can write out to backing device as 4KB unit
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writeback_limit_enable RW show and set writeback_limit feature
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max_comp_streams RW the number of possible concurrent compress
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operations
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comp_algorithm RW show and change the compression algorithm
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compact WO trigger memory compaction
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debug_stat RO this file is used for zram debugging purposes
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backing_dev RW set up backend storage for zram to write out
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idle WO mark allocated slot as idle
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====================== ====== ===============================================
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User space is advised to use the following files to read the device statistics.
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File /sys/block/zram<id>/stat
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Represents block layer statistics. Read Documentation/block/stat.rst for
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details.
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File /sys/block/zram<id>/io_stat
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The stat file represents device's I/O statistics not accounted by block
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layer and, thus, not available in zram<id>/stat file. It consists of a
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single line of text and contains the following stats separated by
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whitespace:
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============= =============================================================
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failed_reads The number of failed reads
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failed_writes The number of failed writes
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invalid_io The number of non-page-size-aligned I/O requests
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notify_free Depending on device usage scenario it may account
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a) the number of pages freed because of swap slot free
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notifications
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b) the number of pages freed because of
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REQ_OP_DISCARD requests sent by bio. The former ones are
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sent to a swap block device when a swap slot is freed,
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which implies that this disk is being used as a swap disk.
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The latter ones are sent by filesystem mounted with
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discard option, whenever some data blocks are getting
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discarded.
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============= =============================================================
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File /sys/block/zram<id>/mm_stat
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The mm_stat file represents the device's mm statistics. It consists of a single
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line of text and contains the following stats separated by whitespace:
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================ =============================================================
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orig_data_size uncompressed size of data stored in this disk.
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Unit: bytes
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compr_data_size compressed size of data stored in this disk
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mem_used_total the amount of memory allocated for this disk. This
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includes allocator fragmentation and metadata overhead,
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allocated for this disk. So, allocator space efficiency
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can be calculated using compr_data_size and this statistic.
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Unit: bytes
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mem_limit the maximum amount of memory ZRAM can use to store
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the compressed data
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mem_used_max the maximum amount of memory zram has consumed to
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store the data
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same_pages the number of same element filled pages written to this disk.
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No memory is allocated for such pages.
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pages_compacted the number of pages freed during compaction
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huge_pages the number of incompressible pages
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huge_pages_since the number of incompressible pages since zram set up
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================ =============================================================
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File /sys/block/zram<id>/bd_stat
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The bd_stat file represents a device's backing device statistics. It consists of
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a single line of text and contains the following stats separated by whitespace:
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============== =============================================================
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bd_count size of data written in backing device.
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Unit: 4K bytes
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bd_reads the number of reads from backing device
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Unit: 4K bytes
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bd_writes the number of writes to backing device
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Unit: 4K bytes
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============== =============================================================
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9) Deactivate
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=============
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::
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swapoff /dev/zram0
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umount /dev/zram1
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10) Reset
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=========
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Write any positive value to 'reset' sysfs node::
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echo 1 > /sys/block/zram0/reset
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echo 1 > /sys/block/zram1/reset
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This frees all the memory allocated for the given device and
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resets the disksize to zero. You must set the disksize again
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before reusing the device.
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Optional Feature
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================
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writeback
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---------
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With CONFIG_ZRAM_WRITEBACK, zram can write idle/incompressible page
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to backing storage rather than keeping it in memory.
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To use the feature, admin should set up backing device via::
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echo /dev/sda5 > /sys/block/zramX/backing_dev
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before disksize setting. It supports only partitions at this moment.
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If admin wants to use incompressible page writeback, they could do it via::
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echo huge > /sys/block/zramX/writeback
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To use idle page writeback, first, user need to declare zram pages
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as idle::
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echo all > /sys/block/zramX/idle
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From now on, any pages on zram are idle pages. The idle mark
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will be removed until someone requests access of the block.
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IOW, unless there is access request, those pages are still idle pages.
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Additionally, when CONFIG_ZRAM_MEMORY_TRACKING is enabled pages can be
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marked as idle based on how long (in seconds) it's been since they were
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last accessed::
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echo 86400 > /sys/block/zramX/idle
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In this example all pages which haven't been accessed in more than 86400
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seconds (one day) will be marked idle.
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Admin can request writeback of those idle pages at right timing via::
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echo idle > /sys/block/zramX/writeback
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With the command, zram will writeback idle pages from memory to the storage.
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Additionally, if a user choose to writeback only huge and idle pages
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this can be accomplished with::
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echo huge_idle > /sys/block/zramX/writeback
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If a user chooses to writeback only incompressible pages (pages that none of
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algorithms can compress) this can be accomplished with::
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echo incompressible > /sys/block/zramX/writeback
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If an admin wants to write a specific page in zram device to the backing device,
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they could write a page index into the interface::
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echo "page_index=1251" > /sys/block/zramX/writeback
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If there are lots of write IO with flash device, potentially, it has
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flash wearout problem so that admin needs to design write limitation
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to guarantee storage health for entire product life.
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To overcome the concern, zram supports "writeback_limit" feature.
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The "writeback_limit_enable"'s default value is 0 so that it doesn't limit
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any writeback. IOW, if admin wants to apply writeback budget, they should
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enable writeback_limit_enable via::
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$ echo 1 > /sys/block/zramX/writeback_limit_enable
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Once writeback_limit_enable is set, zram doesn't allow any writeback
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until admin sets the budget via /sys/block/zramX/writeback_limit.
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(If admin doesn't enable writeback_limit_enable, writeback_limit's value
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assigned via /sys/block/zramX/writeback_limit is meaningless.)
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If admin wants to limit writeback as per-day 400M, they could do it
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like below::
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$ MB_SHIFT=20
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$ 4K_SHIFT=12
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$ echo $((400<<MB_SHIFT>>4K_SHIFT)) > \
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/sys/block/zram0/writeback_limit.
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$ echo 1 > /sys/block/zram0/writeback_limit_enable
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If admins want to allow further write again once the budget is exhausted,
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they could do it like below::
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$ echo $((400<<MB_SHIFT>>4K_SHIFT)) > \
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/sys/block/zram0/writeback_limit
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If an admin wants to see the remaining writeback budget since last set::
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$ cat /sys/block/zramX/writeback_limit
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If an admin wants to disable writeback limit, they could do::
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$ echo 0 > /sys/block/zramX/writeback_limit_enable
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The writeback_limit count will reset whenever you reset zram (e.g.,
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system reboot, echo 1 > /sys/block/zramX/reset) so keeping how many of
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writeback happened until you reset the zram to allocate extra writeback
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budget in next setting is user's job.
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If admin wants to measure writeback count in a certain period, they could
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know it via /sys/block/zram0/bd_stat's 3rd column.
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recompression
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-------------
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With CONFIG_ZRAM_MULTI_COMP, zram can recompress pages using alternative
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(secondary) compression algorithms. The basic idea is that alternative
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compression algorithm can provide better compression ratio at a price of
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(potentially) slower compression/decompression speeds. Alternative compression
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algorithm can, for example, be more successful compressing huge pages (those
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that default algorithm failed to compress). Another application is idle pages
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recompression - pages that are cold and sit in the memory can be recompressed
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using more effective algorithm and, hence, reduce zsmalloc memory usage.
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With CONFIG_ZRAM_MULTI_COMP, zram supports up to 4 compression algorithms:
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one primary and up to 3 secondary ones. Primary zram compressor is explained
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in "3) Select compression algorithm", secondary algorithms are configured
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using recomp_algorithm device attribute.
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Example:::
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#show supported recompression algorithms
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cat /sys/block/zramX/recomp_algorithm
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#1: lzo lzo-rle lz4 lz4hc [zstd]
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#2: lzo lzo-rle lz4 [lz4hc] zstd
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Alternative compression algorithms are sorted by priority. In the example
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above, zstd is used as the first alternative algorithm, which has priority
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of 1, while lz4hc is configured as a compression algorithm with priority 2.
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Alternative compression algorithm's priority is provided during algorithms
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configuration:::
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#select zstd recompression algorithm, priority 1
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echo "algo=zstd priority=1" > /sys/block/zramX/recomp_algorithm
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#select deflate recompression algorithm, priority 2
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echo "algo=deflate priority=2" > /sys/block/zramX/recomp_algorithm
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Another device attribute that CONFIG_ZRAM_MULTI_COMP enables is recompress,
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which controls recompression.
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Examples:::
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#IDLE pages recompression is activated by `idle` mode
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echo "type=idle" > /sys/block/zramX/recompress
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#HUGE pages recompression is activated by `huge` mode
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echo "type=huge" > /sys/block/zram0/recompress
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#HUGE_IDLE pages recompression is activated by `huge_idle` mode
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echo "type=huge_idle" > /sys/block/zramX/recompress
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The number of idle pages can be significant, so user-space can pass a size
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threshold (in bytes) to the recompress knob: zram will recompress only pages
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of equal or greater size:::
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#recompress all pages larger than 3000 bytes
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echo "threshold=3000" > /sys/block/zramX/recompress
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#recompress idle pages larger than 2000 bytes
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echo "type=idle threshold=2000" > /sys/block/zramX/recompress
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Recompression of idle pages requires memory tracking.
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During re-compression for every page, that matches re-compression criteria,
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ZRAM iterates the list of registered alternative compression algorithms in
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order of their priorities. ZRAM stops either when re-compression was
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successful (re-compressed object is smaller in size than the original one)
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and matches re-compression criteria (e.g. size threshold) or when there are
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no secondary algorithms left to try. If none of the secondary algorithms can
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successfully re-compressed the page such a page is marked as incompressible,
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so ZRAM will not attempt to re-compress it in the future.
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This re-compression behaviour, when it iterates through the list of
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registered compression algorithms, increases our chances of finding the
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algorithm that successfully compresses a particular page. Sometimes, however,
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it is convenient (and sometimes even necessary) to limit recompression to
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only one particular algorithm so that it will not try any other algorithms.
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This can be achieved by providing a algo=NAME parameter:::
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#use zstd algorithm only (if registered)
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echo "type=huge algo=zstd" > /sys/block/zramX/recompress
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memory tracking
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===============
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With CONFIG_ZRAM_MEMORY_TRACKING, user can know information of the
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zram block. It could be useful to catch cold or incompressible
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pages of the process with*pagemap.
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If you enable the feature, you could see block state via
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/sys/kernel/debug/zram/zram0/block_state". The output is as follows::
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300 75.033841 .wh...
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301 63.806904 s.....
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302 63.806919 ..hi..
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303 62.801919 ....r.
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304 146.781902 ..hi.n
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First column
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zram's block index.
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Second column
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access time since the system was booted
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Third column
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state of the block:
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s:
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same page
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w:
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written page to backing store
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h:
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huge page
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i:
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idle page
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r:
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recompressed page (secondary compression algorithm)
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n:
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none (including secondary) of algorithms could compress it
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First line of above example says 300th block is accessed at 75.033841sec
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and the block's state is huge so it is written back to the backing
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storage. It's a debugging feature so anyone shouldn't rely on it to work
|
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properly.
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Nitin Gupta
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ngupta@vflare.org
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