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- Delay accounting
- ----------------
- Tasks encounter delays in execution when they wait
- for some kernel resource to become available e.g. a
- runnable task may wait for a free CPU to run on.
- The per-task delay accounting functionality measures
- the delays experienced by a task while
- a) waiting for a CPU (while being runnable)
- b) completion of synchronous block I/O initiated by the task
- c) swapping in pages
- and makes these statistics available to userspace through
- the taskstats interface.
- Such delays provide feedback for setting a task's cpu priority,
- io priority and rss limit values appropriately. Long delays for
- important tasks could be a trigger for raising its corresponding priority.
- The functionality, through its use of the taskstats interface, also provides
- delay statistics aggregated for all tasks (or threads) belonging to a
- thread group (corresponding to a traditional Unix process). This is a commonly
- needed aggregation that is more efficiently done by the kernel.
- Userspace utilities, particularly resource management applications, can also
- aggregate delay statistics into arbitrary groups. To enable this, delay
- statistics of a task are available both during its lifetime as well as on its
- exit, ensuring continuous and complete monitoring can be done.
- Interface
- ---------
- Delay accounting uses the taskstats interface which is described
- in detail in a separate document in this directory. Taskstats returns a
- generic data structure to userspace corresponding to per-pid and per-tgid
- statistics. The delay accounting functionality populates specific fields of
- this structure. See
- include/linux/taskstats.h
- for a description of the fields pertaining to delay accounting.
- It will generally be in the form of counters returning the cumulative
- delay seen for cpu, sync block I/O, swapin etc.
- Taking the difference of two successive readings of a given
- counter (say cpu_delay_total) for a task will give the delay
- experienced by the task waiting for the corresponding resource
- in that interval.
- When a task exits, records containing the per-task statistics
- are sent to userspace without requiring a command. If it is the last exiting
- task of a thread group, the per-tgid statistics are also sent. More details
- are given in the taskstats interface description.
- The getdelays.c userspace utility in this directory allows simple commands to
- be run and the corresponding delay statistics to be displayed. It also serves
- as an example of using the taskstats interface.
- Usage
- -----
- Compile the kernel with
- CONFIG_TASK_DELAY_ACCT=y
- CONFIG_TASKSTATS=y
- Enable the accounting at boot time by adding
- the following to the kernel boot options
- delayacct
- and after the system has booted up, use a utility
- similar to getdelays.c to access the delays
- seen by a given task or a task group (tgid).
- The utility also allows a given command to be
- executed and the corresponding delays to be
- seen.
- General format of the getdelays command
- getdelays [-t tgid] [-p pid] [-c cmd...]
- Get delays, since system boot, for pid 10
- # ./getdelays -p 10
- (output similar to next case)
- Get sum of delays, since system boot, for all pids with tgid 5
- # ./getdelays -t 5
- CPU count real total virtual total delay total
- 7876 92005750 100000000 24001500
- IO count delay total
- 0 0
- MEM count delay total
- 0 0
- Get delays seen in executing a given simple command
- # ./getdelays -c ls /
- bin data1 data3 data5 dev home media opt root srv sys usr
- boot data2 data4 data6 etc lib mnt proc sbin subdomain tmp var
- CPU count real total virtual total delay total
- 6 4000250 4000000 0
- IO count delay total
- 0 0
- MEM count delay total
- 0 0
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