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Initial git repository build. I'm not bothering with the full history, even though we have it. We can create a separate "historical" git archive of that later if we want to, and in the meantime it's about 3.2GB when imported into git - space that would just make the early git days unnecessarily complicated, when we don't have a lot of good infrastructure for it. Let it rip!
154 lines
7.0 KiB
Plaintext
154 lines
7.0 KiB
Plaintext
Version 10 of schedstats includes support for sched_domains, which
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hit the mainline kernel in 2.6.7. Some counters make more sense to be
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per-runqueue; other to be per-domain. Note that domains (and their associated
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information) will only be pertinent and available on machines utilizing
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CONFIG_SMP.
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In version 10 of schedstat, there is at least one level of domain
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statistics for each cpu listed, and there may well be more than one
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domain. Domains have no particular names in this implementation, but
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the highest numbered one typically arbitrates balancing across all the
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cpus on the machine, while domain0 is the most tightly focused domain,
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sometimes balancing only between pairs of cpus. At this time, there
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are no architectures which need more than three domain levels. The first
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field in the domain stats is a bit map indicating which cpus are affected
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by that domain.
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These fields are counters, and only increment. Programs which make use
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of these will need to start with a baseline observation and then calculate
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the change in the counters at each subsequent observation. A perl script
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which does this for many of the fields is available at
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http://eaglet.rain.com/rick/linux/schedstat/
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Note that any such script will necessarily be version-specific, as the main
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reason to change versions is changes in the output format. For those wishing
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to write their own scripts, the fields are described here.
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CPU statistics
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--------------
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cpu<N> 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28
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NOTE: In the sched_yield() statistics, the active queue is considered empty
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if it has only one process in it, since obviously the process calling
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sched_yield() is that process.
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First four fields are sched_yield() statistics:
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1) # of times both the active and the expired queue were empty
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2) # of times just the active queue was empty
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3) # of times just the expired queue was empty
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4) # of times sched_yield() was called
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Next four are schedule() statistics:
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5) # of times the active queue had at least one other process on it
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6) # of times we switched to the expired queue and reused it
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7) # of times schedule() was called
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8) # of times schedule() left the processor idle
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Next four are active_load_balance() statistics:
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9) # of times active_load_balance() was called
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10) # of times active_load_balance() caused this cpu to gain a task
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11) # of times active_load_balance() caused this cpu to lose a task
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12) # of times active_load_balance() tried to move a task and failed
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Next three are try_to_wake_up() statistics:
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13) # of times try_to_wake_up() was called
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14) # of times try_to_wake_up() successfully moved the awakening task
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15) # of times try_to_wake_up() attempted to move the awakening task
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Next two are wake_up_new_task() statistics:
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16) # of times wake_up_new_task() was called
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17) # of times wake_up_new_task() successfully moved the new task
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Next one is a sched_migrate_task() statistic:
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18) # of times sched_migrate_task() was called
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Next one is a sched_balance_exec() statistic:
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19) # of times sched_balance_exec() was called
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Next three are statistics describing scheduling latency:
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20) sum of all time spent running by tasks on this processor (in ms)
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21) sum of all time spent waiting to run by tasks on this processor (in ms)
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22) # of tasks (not necessarily unique) given to the processor
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The last six are statistics dealing with pull_task():
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23) # of times pull_task() moved a task to this cpu when newly idle
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24) # of times pull_task() stole a task from this cpu when another cpu
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was newly idle
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25) # of times pull_task() moved a task to this cpu when idle
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26) # of times pull_task() stole a task from this cpu when another cpu
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was idle
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27) # of times pull_task() moved a task to this cpu when busy
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28) # of times pull_task() stole a task from this cpu when another cpu
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was busy
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Domain statistics
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-----------------
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One of these is produced per domain for each cpu described. (Note that if
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CONFIG_SMP is not defined, *no* domains are utilized and these lines
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will not appear in the output.)
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domain<N> 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
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The first field is a bit mask indicating what cpus this domain operates over.
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The next fifteen are a variety of load_balance() statistics:
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1) # of times in this domain load_balance() was called when the cpu
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was idle
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2) # of times in this domain load_balance() was called when the cpu
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was busy
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3) # of times in this domain load_balance() was called when the cpu
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was just becoming idle
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4) # of times in this domain load_balance() tried to move one or more
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tasks and failed, when the cpu was idle
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5) # of times in this domain load_balance() tried to move one or more
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tasks and failed, when the cpu was busy
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6) # of times in this domain load_balance() tried to move one or more
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tasks and failed, when the cpu was just becoming idle
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7) sum of imbalances discovered (if any) with each call to
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load_balance() in this domain when the cpu was idle
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8) sum of imbalances discovered (if any) with each call to
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load_balance() in this domain when the cpu was busy
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9) sum of imbalances discovered (if any) with each call to
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load_balance() in this domain when the cpu was just becoming idle
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10) # of times in this domain load_balance() was called but did not find
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a busier queue while the cpu was idle
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11) # of times in this domain load_balance() was called but did not find
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a busier queue while the cpu was busy
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12) # of times in this domain load_balance() was called but did not find
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a busier queue while the cpu was just becoming idle
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13) # of times in this domain a busier queue was found while the cpu was
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idle but no busier group was found
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14) # of times in this domain a busier queue was found while the cpu was
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busy but no busier group was found
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15) # of times in this domain a busier queue was found while the cpu was
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just becoming idle but no busier group was found
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Next two are sched_balance_exec() statistics:
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17) # of times in this domain sched_balance_exec() successfully pushed
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a task to a new cpu
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18) # of times in this domain sched_balance_exec() tried but failed to
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push a task to a new cpu
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Next two are try_to_wake_up() statistics:
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19) # of times in this domain try_to_wake_up() tried to move a task based
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on affinity and cache warmth
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20) # of times in this domain try_to_wake_up() tried to move a task based
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on load balancing
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/proc/<pid>/schedstat
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----------------
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schedstats also adds a new /proc/<pid/schedstat file to include some of
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the same information on a per-process level. There are three fields in
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this file correlating to fields 20, 21, and 22 in the CPU fields, but
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they only apply for that process.
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A program could be easily written to make use of these extra fields to
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report on how well a particular process or set of processes is faring
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under the scheduler's policies. A simple version of such a program is
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available at
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http://eaglet.rain.com/rick/linux/schedstat/v10/latency.c
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