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72f924f62a
Signed-off-by: Vivek Goyal <vgoyal@redhat.com> Signed-off-by: Jens Axboe <jens.axboe@oracle.com>
136 lines
5.2 KiB
Plaintext
136 lines
5.2 KiB
Plaintext
Block IO Controller
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===================
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Overview
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========
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cgroup subsys "blkio" implements the block io controller. There seems to be
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a need of various kinds of IO control policies (like proportional BW, max BW)
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both at leaf nodes as well as at intermediate nodes in a storage hierarchy.
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Plan is to use the same cgroup based management interface for blkio controller
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and based on user options switch IO policies in the background.
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In the first phase, this patchset implements proportional weight time based
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division of disk policy. It is implemented in CFQ. Hence this policy takes
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effect only on leaf nodes when CFQ is being used.
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HOWTO
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=====
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You can do a very simple testing of running two dd threads in two different
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cgroups. Here is what you can do.
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- Enable group scheduling in CFQ
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CONFIG_CFQ_GROUP_IOSCHED=y
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- Compile and boot into kernel and mount IO controller (blkio).
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mount -t cgroup -o blkio none /cgroup
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- Create two cgroups
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mkdir -p /cgroup/test1/ /cgroup/test2
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- Set weights of group test1 and test2
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echo 1000 > /cgroup/test1/blkio.weight
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echo 500 > /cgroup/test2/blkio.weight
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- Create two same size files (say 512MB each) on same disk (file1, file2) and
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launch two dd threads in different cgroup to read those files.
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sync
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echo 3 > /proc/sys/vm/drop_caches
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dd if=/mnt/sdb/zerofile1 of=/dev/null &
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echo $! > /cgroup/test1/tasks
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cat /cgroup/test1/tasks
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dd if=/mnt/sdb/zerofile2 of=/dev/null &
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echo $! > /cgroup/test2/tasks
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cat /cgroup/test2/tasks
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- At macro level, first dd should finish first. To get more precise data, keep
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on looking at (with the help of script), at blkio.disk_time and
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blkio.disk_sectors files of both test1 and test2 groups. This will tell how
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much disk time (in milli seconds), each group got and how many secotors each
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group dispatched to the disk. We provide fairness in terms of disk time, so
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ideally io.disk_time of cgroups should be in proportion to the weight.
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Various user visible config options
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===================================
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CONFIG_CFQ_GROUP_IOSCHED
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- Enables group scheduling in CFQ. Currently only 1 level of group
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creation is allowed.
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CONFIG_DEBUG_CFQ_IOSCHED
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- Enables some debugging messages in blktrace. Also creates extra
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cgroup file blkio.dequeue.
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Config options selected automatically
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=====================================
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These config options are not user visible and are selected/deselected
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automatically based on IO scheduler configuration.
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CONFIG_BLK_CGROUP
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- Block IO controller. Selected by CONFIG_CFQ_GROUP_IOSCHED.
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CONFIG_DEBUG_BLK_CGROUP
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- Debug help. Selected by CONFIG_DEBUG_CFQ_IOSCHED.
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Details of cgroup files
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=======================
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- blkio.weight
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- Specifies per cgroup weight.
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Currently allowed range of weights is from 100 to 1000.
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- blkio.time
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- disk time allocated to cgroup per device in milliseconds. First
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two fields specify the major and minor number of the device and
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third field specifies the disk time allocated to group in
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milliseconds.
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- blkio.sectors
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- number of sectors transferred to/from disk by the group. First
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two fields specify the major and minor number of the device and
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third field specifies the number of sectors transferred by the
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group to/from the device.
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- blkio.dequeue
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- Debugging aid only enabled if CONFIG_DEBUG_CFQ_IOSCHED=y. This
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gives the statistics about how many a times a group was dequeued
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from service tree of the device. First two fields specify the major
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and minor number of the device and third field specifies the number
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of times a group was dequeued from a particular device.
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CFQ sysfs tunable
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=================
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/sys/block/<disk>/queue/iosched/group_isolation
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If group_isolation=1, it provides stronger isolation between groups at the
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expense of throughput. By default group_isolation is 0. In general that
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means that if group_isolation=0, expect fairness for sequential workload
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only. Set group_isolation=1 to see fairness for random IO workload also.
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Generally CFQ will put random seeky workload in sync-noidle category. CFQ
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will disable idling on these queues and it does a collective idling on group
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of such queues. Generally these are slow moving queues and if there is a
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sync-noidle service tree in each group, that group gets exclusive access to
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disk for certain period. That means it will bring the throughput down if
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group does not have enough IO to drive deeper queue depths and utilize disk
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capacity to the fullest in the slice allocated to it. But the flip side is
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that even a random reader should get better latencies and overall throughput
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if there are lots of sequential readers/sync-idle workload running in the
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system.
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If group_isolation=0, then CFQ automatically moves all the random seeky queues
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in the root group. That means there will be no service differentiation for
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that kind of workload. This leads to better throughput as we do collective
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idling on root sync-noidle tree.
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By default one should run with group_isolation=0. If that is not sufficient
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and one wants stronger isolation between groups, then set group_isolation=1
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but this will come at cost of reduced throughput.
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What works
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==========
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- Currently only sync IO queues are support. All the buffered writes are
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still system wide and not per group. Hence we will not see service
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differentiation between buffered writes between groups.
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