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Project Description

This project calculates utilization statistics:

  1. What percentage of time is each process/task running, divided into "user", "system", "interrupt", "hcall" time
  2. Idle time is broken down into sleep, wait, blocked, and I/O wait
  3. System time is further divided among syscalls, with an invocation count, elapsed time, running (system) time, idle time, minimum, maximum, and average call duration
  4. Interrupt time is further divided among IRQs, with a per-IRQ count, elapsed time, running time, idle time, minimum, maximum, and average interrupt duration
  5. Task migrations
  6. Hypervisor calls are tracked per task, per process, and system wide, with invocation count, elapsed time, running time, minimum, maximum, and average call duration

Usage is a two-step process (described in more detail below):

  1. Collect trace data using perf.
  2. Process collected data.

or:

Record and report in one step.

Contributing to the project

We welcome contributions to the curt project in many forms. There's always plenty to do! Full details of how to contribute to this project are documented in the CONTRIBUTING.md file.

Maintainers

The project's maintainers are responsible for reviewing and merging all pull requests and they guide the over-all technical direction of the project.

Communication

We use SDK Tools for Power Slack for communication.

Installing

Currently, the only project file used in processing is curt.py. One could download that directly from the curt GitHub repository, or clone the git repository and use it from there:

    $ git clone https://github.com/open-power-sdk/curt.git
    $ ls curt/curt.py
    curt/curt.py

Documentation

Set up

  1. If you wish to run perf as a non-root user, you'll need superuser authority to set some things up:

    1. Make sure you have read/write access to /sys/kernel/debug/tracing:

      /usr/bin/sudo /usr/bin/mount -o remount,mode=755 /sys/kernel/debug
      
    2. Enable any user to be able to collect system-wide events:

      echo -1 | /usr/bin/sudo /usr/bin/tee /proc/sys/kernel/perf_event_paranoid
      
    3. Install Linux audit's python bindings:

      /usr/bin/sudo /usr/bin/yum install audit-libs-python
      

      or

      /usr/bin/sudo apt-get install python-audit
      

Collect and process trace data in one step

  1. ./curt.py --record all command --args

A subset of events can be specified to limit the size of the trace file, or because some statistics are not needed.

The --record option can take any combination of the following event groups in a comma-separated list:

group name events statistics
sched sched:sched_switch, sched:sched_process_exec, sched:sched_process_fork, sched:sched_process_exit per-task user, system, hypervisor, idle time
sched sched:sched_migrate_task accurate migrations and per-cpu statistics
stat sched:sched_stat_runtime, sched:sched_stat_wait, sched:sched_stat_sleep, sched:sched_stat_blocked, sched:sched_stat_iowait per-task idle-time classification
syscalls raw_syscalls:sys_enter, raw_syscalls:sys_exit system call statistics
irqs irq:irq_handler_entry, irq:irq_handler_exit interrupt statistics
hcalls powerpc:hcall_entry, powerpc:hcall_exit hypervisor call statistics (POWER architecture only)

Collect trace data

  1. Simple!
    perf record -e '{raw_syscalls:*,sched:sched_switch,sched:sched_migrate_task,sched:sched_process_exec,sched:sched_process_fork,sched:sched_process_exit,sched:sched_stat_runtime,sched:sched_stat_wait,sched:sched_stat_sleep,sched:sched_stat_blocked,sched:sched_stat_iowait,powerpc:hcall_entry,powerpc:hcall_exit}' -a *command --args*

If some statistics are not needed, not all events need be traced. This can be helpful to reduce the trace file size. The following are subsets of the trace events, and the statistics for which those events are required:

events statistics
sched:sched_switch, sched:sched_process_exec, sched:sched_process_fork, sched:sched_process_exit per-task user, system, hypervisor, idle time
sched:sched_migrate_task accurate migrations and per-cpu statistics
sched:sched_stat_runtime, sched:sched_stat_wait, sched:sched_stat_sleep, sched:sched_stat_blocked, sched:sched_stat_iowait per-task idle-time classification
raw_syscalls:sys_enter, raw_syscalls:sys_exit system call statistics
irq:irq_handler_entry, irq:irq_handler_exit interrupt statistics
powerpc:hcall_entry, powerpc:hcall_exit hypervisor call statistics (POWER architecture only)

Process trace data

  1. Simple!
    perf script -s ./curt.py

Or, even simpler, curt.py can be used directly (it will execute perf itself):

    ./curt.py

Like perf, curt.py will operate on perf.data by default. To operate on a different file:

    ./curt.py my-trace-file.data

Help

The full command help can be displayed:

    ./curt.py --help

A note on perf versions

As of this writing, there are two versions of the Python APIs for perf:

  1. An older API, which is currently found in all major Linux distributions
  2. A newer API, which is found in newer kernels

The most significant difference between the two APIs, with respect to curt, is that the older API does not provide sufficient information to determine the process IDs for tasks.

curt is able to use either API by using the --api command option. --api=1 selects the older API, and is the default API selection (so --api=1 is not required). --api=2 selects the newer API.

When using the older API, all tasks will be grouped under an unknown process ID. One may use the older API on any kernel.

When using the new API on newer kernels, tasks will be grouped under their respective process IDs.

When attempting to use the new API on older kernels, curt will fail with an error like the following:

    TypeError: powerpc__hcall_entry_new() takes exactly 10 arguments (9 given)

A note on perf trace data

curt.py keeps track of task states as it parses the perf data file. This naturally depends on the events in the file being ordered in time. Unfortunately, perf does not guarantee that the events in a trace file are in time order. curt.py attempts to process the events in any trace file in time order by looking ahead and reordering if needed. To keep the process of looking ahead from taking too much memory, it is limited in the number of events. By default, this limit is 20 events. This limit can be changed by using the --window option with curt.py.

Regardless of success for curt.py looking ahead, the perf command will still report that it detected out-of-order events:

Warning:
2 out of order events recorded.

These warnings can be ignored.

If, however, the look-ahead window for curt.py is too small, curt.py will report an error:

Error: OUT OF ORDER events detected.
  Try increasing the size of the look-ahead window with --window=<n>

As suggested, increasing the look-ahead window size sufficiently will address this issue.

Still Have Questions?

For general purpose questions, please use StackOverflow.

License

The curt project uses the GPL License Version 2.0 software license.

Related information

The curt project is inspired by the AIX curt tool