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c2fbaa4b48
syscall_name() helper, which resolves a syscall arch number to its name, is not yet available as we first need to implement event injection for it to work. Remove it from the documentation or tag its references as unavailable yet. Once it's implemented, we can just revert the current patch. Signed-off-by: Frederic Weisbecker <fweisbec@gmail.com> Cc: Tom Zanussi <tzanussi@gmail.com> Cc: Ingo Molnar <mingo@elte.hu> Cc: Steven Rostedt <rostedt@goodmis.org> Cc: Keiichi KII <k-keiichi@bx.jp.nec.com> Cc: Peter Zijlstra <a.p.zijlstra@chello.nl> Cc: Paul Mackerras <paulus@samba.org> Cc: Arnaldo Carvalho de Melo <acme@redhat.com>
626 lines
23 KiB
Plaintext
626 lines
23 KiB
Plaintext
perf-trace-python(1)
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==================
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NAME
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----
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perf-trace-python - Process trace data with a Python script
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SYNOPSIS
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--------
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[verse]
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'perf trace' [-s [Python]:script[.py] ]
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DESCRIPTION
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-----------
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This perf trace option is used to process perf trace data using perf's
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built-in Python interpreter. It reads and processes the input file and
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displays the results of the trace analysis implemented in the given
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Python script, if any.
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A QUICK EXAMPLE
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---------------
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This section shows the process, start to finish, of creating a working
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Python script that aggregates and extracts useful information from a
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raw perf trace stream. You can avoid reading the rest of this
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document if an example is enough for you; the rest of the document
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provides more details on each step and lists the library functions
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available to script writers.
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This example actually details the steps that were used to create the
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'syscall-counts' script you see when you list the available perf trace
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scripts via 'perf trace -l'. As such, this script also shows how to
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integrate your script into the list of general-purpose 'perf trace'
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scripts listed by that command.
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The syscall-counts script is a simple script, but demonstrates all the
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basic ideas necessary to create a useful script. Here's an example
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of its output (syscall names are not yet supported, they will appear
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as numbers):
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----
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syscall events:
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event count
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---------------------------------------- -----------
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sys_write 455067
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sys_getdents 4072
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sys_close 3037
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sys_swapoff 1769
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sys_read 923
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sys_sched_setparam 826
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sys_open 331
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sys_newfstat 326
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sys_mmap 217
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sys_munmap 216
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sys_futex 141
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sys_select 102
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sys_poll 84
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sys_setitimer 12
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sys_writev 8
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15 8
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sys_lseek 7
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sys_rt_sigprocmask 6
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sys_wait4 3
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sys_ioctl 3
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sys_set_robust_list 1
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sys_exit 1
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56 1
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sys_access 1
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----
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Basically our task is to keep a per-syscall tally that gets updated
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every time a system call occurs in the system. Our script will do
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that, but first we need to record the data that will be processed by
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that script. Theoretically, there are a couple of ways we could do
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that:
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- we could enable every event under the tracing/events/syscalls
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directory, but this is over 600 syscalls, well beyond the number
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allowable by perf. These individual syscall events will however be
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useful if we want to later use the guidance we get from the
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general-purpose scripts to drill down and get more detail about
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individual syscalls of interest.
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- we can enable the sys_enter and/or sys_exit syscalls found under
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tracing/events/raw_syscalls. These are called for all syscalls; the
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'id' field can be used to distinguish between individual syscall
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numbers.
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For this script, we only need to know that a syscall was entered; we
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don't care how it exited, so we'll use 'perf record' to record only
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the sys_enter events:
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----
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# perf record -c 1 -f -a -M -R -e raw_syscalls:sys_enter
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^C[ perf record: Woken up 1 times to write data ]
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[ perf record: Captured and wrote 56.545 MB perf.data (~2470503 samples) ]
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----
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The options basically say to collect data for every syscall event
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system-wide and multiplex the per-cpu output into a single stream.
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That single stream will be recorded in a file in the current directory
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called perf.data.
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Once we have a perf.data file containing our data, we can use the -g
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'perf trace' option to generate a Python script that will contain a
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callback handler for each event type found in the perf.data trace
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stream (for more details, see the STARTER SCRIPTS section).
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----
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# perf trace -g python
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generated Python script: perf-trace.py
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The output file created also in the current directory is named
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perf-trace.py. Here's the file in its entirety:
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# perf trace event handlers, generated by perf trace -g python
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# Licensed under the terms of the GNU GPL License version 2
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# The common_* event handler fields are the most useful fields common to
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# all events. They don't necessarily correspond to the 'common_*' fields
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# in the format files. Those fields not available as handler params can
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# be retrieved using Python functions of the form common_*(context).
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# See the perf-trace-python Documentation for the list of available functions.
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import os
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import sys
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sys.path.append(os.environ['PERF_EXEC_PATH'] + \
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'/scripts/python/Perf-Trace-Util/lib/Perf/Trace')
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from perf_trace_context import *
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from Core import *
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def trace_begin():
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print "in trace_begin"
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def trace_end():
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print "in trace_end"
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def raw_syscalls__sys_enter(event_name, context, common_cpu,
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common_secs, common_nsecs, common_pid, common_comm,
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id, args):
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print_header(event_name, common_cpu, common_secs, common_nsecs,
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common_pid, common_comm)
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print "id=%d, args=%s\n" % \
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(id, args),
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def trace_unhandled(event_name, context, common_cpu, common_secs, common_nsecs,
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common_pid, common_comm):
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print_header(event_name, common_cpu, common_secs, common_nsecs,
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common_pid, common_comm)
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def print_header(event_name, cpu, secs, nsecs, pid, comm):
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print "%-20s %5u %05u.%09u %8u %-20s " % \
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(event_name, cpu, secs, nsecs, pid, comm),
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----
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At the top is a comment block followed by some import statements and a
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path append which every perf trace script should include.
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Following that are a couple generated functions, trace_begin() and
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trace_end(), which are called at the beginning and the end of the
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script respectively (for more details, see the SCRIPT_LAYOUT section
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below).
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Following those are the 'event handler' functions generated one for
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every event in the 'perf record' output. The handler functions take
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the form subsystem__event_name, and contain named parameters, one for
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each field in the event; in this case, there's only one event,
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raw_syscalls__sys_enter(). (see the EVENT HANDLERS section below for
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more info on event handlers).
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The final couple of functions are, like the begin and end functions,
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generated for every script. The first, trace_unhandled(), is called
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every time the script finds an event in the perf.data file that
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doesn't correspond to any event handler in the script. This could
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mean either that the record step recorded event types that it wasn't
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really interested in, or the script was run against a trace file that
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doesn't correspond to the script.
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The script generated by -g option option simply prints a line for each
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event found in the trace stream i.e. it basically just dumps the event
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and its parameter values to stdout. The print_header() function is
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simply a utility function used for that purpose. Let's rename the
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script and run it to see the default output:
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----
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# mv perf-trace.py syscall-counts.py
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# perf trace -s syscall-counts.py
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raw_syscalls__sys_enter 1 00840.847582083 7506 perf id=1, args=
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raw_syscalls__sys_enter 1 00840.847595764 7506 perf id=1, args=
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raw_syscalls__sys_enter 1 00840.847620860 7506 perf id=1, args=
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raw_syscalls__sys_enter 1 00840.847710478 6533 npviewer.bin id=78, args=
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raw_syscalls__sys_enter 1 00840.847719204 6533 npviewer.bin id=142, args=
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raw_syscalls__sys_enter 1 00840.847755445 6533 npviewer.bin id=3, args=
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raw_syscalls__sys_enter 1 00840.847775601 6533 npviewer.bin id=3, args=
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raw_syscalls__sys_enter 1 00840.847781820 6533 npviewer.bin id=3, args=
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.
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.
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.
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----
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Of course, for this script, we're not interested in printing every
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trace event, but rather aggregating it in a useful way. So we'll get
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rid of everything to do with printing as well as the trace_begin() and
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trace_unhandled() functions, which we won't be using. That leaves us
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with this minimalistic skeleton:
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----
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import os
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import sys
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sys.path.append(os.environ['PERF_EXEC_PATH'] + \
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'/scripts/python/Perf-Trace-Util/lib/Perf/Trace')
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from perf_trace_context import *
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from Core import *
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def trace_end():
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print "in trace_end"
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def raw_syscalls__sys_enter(event_name, context, common_cpu,
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common_secs, common_nsecs, common_pid, common_comm,
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id, args):
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----
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In trace_end(), we'll simply print the results, but first we need to
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generate some results to print. To do that we need to have our
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sys_enter() handler do the necessary tallying until all events have
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been counted. A hash table indexed by syscall id is a good way to
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store that information; every time the sys_enter() handler is called,
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we simply increment a count associated with that hash entry indexed by
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that syscall id:
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----
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syscalls = autodict()
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try:
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syscalls[id] += 1
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except TypeError:
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syscalls[id] = 1
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----
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The syscalls 'autodict' object is a special kind of Python dictionary
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(implemented in Core.py) that implements Perl's 'autovivifying' hashes
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in Python i.e. with autovivifying hashes, you can assign nested hash
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values without having to go to the trouble of creating intermediate
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levels if they don't exist e.g syscalls[comm][pid][id] = 1 will create
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the intermediate hash levels and finally assign the value 1 to the
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hash entry for 'id' (because the value being assigned isn't a hash
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object itself, the initial value is assigned in the TypeError
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exception. Well, there may be a better way to do this in Python but
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that's what works for now).
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Putting that code into the raw_syscalls__sys_enter() handler, we
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effectively end up with a single-level dictionary keyed on syscall id
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and having the counts we've tallied as values.
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The print_syscall_totals() function iterates over the entries in the
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dictionary and displays a line for each entry containing the syscall
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name (the dictonary keys contain the syscall ids, which are passed to
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the Util function syscall_name(), which translates the raw syscall
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numbers to the corresponding syscall name strings). The output is
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displayed after all the events in the trace have been processed, by
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calling the print_syscall_totals() function from the trace_end()
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handler called at the end of script processing.
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The final script producing the output shown above is shown in its
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entirety below (syscall_name() helper is not yet available, you can
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only deal with id's for now):
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----
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import os
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import sys
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sys.path.append(os.environ['PERF_EXEC_PATH'] + \
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'/scripts/python/Perf-Trace-Util/lib/Perf/Trace')
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from perf_trace_context import *
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from Core import *
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from Util import *
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syscalls = autodict()
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def trace_end():
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print_syscall_totals()
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def raw_syscalls__sys_enter(event_name, context, common_cpu,
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common_secs, common_nsecs, common_pid, common_comm,
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id, args):
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try:
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syscalls[id] += 1
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except TypeError:
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syscalls[id] = 1
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def print_syscall_totals():
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if for_comm is not None:
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print "\nsyscall events for %s:\n\n" % (for_comm),
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else:
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print "\nsyscall events:\n\n",
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print "%-40s %10s\n" % ("event", "count"),
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print "%-40s %10s\n" % ("----------------------------------------", \
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"-----------"),
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for id, val in sorted(syscalls.iteritems(), key = lambda(k, v): (v, k), \
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reverse = True):
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print "%-40s %10d\n" % (syscall_name(id), val),
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----
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The script can be run just as before:
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# perf trace -s syscall-counts.py
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So those are the essential steps in writing and running a script. The
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process can be generalized to any tracepoint or set of tracepoints
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you're interested in - basically find the tracepoint(s) you're
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interested in by looking at the list of available events shown by
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'perf list' and/or look in /sys/kernel/debug/tracing events for
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detailed event and field info, record the corresponding trace data
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using 'perf record', passing it the list of interesting events,
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generate a skeleton script using 'perf trace -g python' and modify the
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code to aggregate and display it for your particular needs.
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After you've done that you may end up with a general-purpose script
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that you want to keep around and have available for future use. By
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writing a couple of very simple shell scripts and putting them in the
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right place, you can have your script listed alongside the other
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scripts listed by the 'perf trace -l' command e.g.:
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----
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root@tropicana:~# perf trace -l
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List of available trace scripts:
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workqueue-stats workqueue stats (ins/exe/create/destroy)
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wakeup-latency system-wide min/max/avg wakeup latency
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rw-by-file <comm> r/w activity for a program, by file
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rw-by-pid system-wide r/w activity
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----
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A nice side effect of doing this is that you also then capture the
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probably lengthy 'perf record' command needed to record the events for
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the script.
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To have the script appear as a 'built-in' script, you write two simple
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scripts, one for recording and one for 'reporting'.
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The 'record' script is a shell script with the same base name as your
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script, but with -record appended. The shell script should be put
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into the perf/scripts/python/bin directory in the kernel source tree.
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In that script, you write the 'perf record' command-line needed for
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your script:
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----
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# cat kernel-source/tools/perf/scripts/python/bin/syscall-counts-record
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#!/bin/bash
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perf record -c 1 -f -a -M -R -e raw_syscalls:sys_enter
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----
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The 'report' script is also a shell script with the same base name as
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your script, but with -report appended. It should also be located in
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the perf/scripts/python/bin directory. In that script, you write the
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'perf trace -s' command-line needed for running your script:
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----
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# cat kernel-source/tools/perf/scripts/python/bin/syscall-counts-report
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#!/bin/bash
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# description: system-wide syscall counts
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perf trace -s ~/libexec/perf-core/scripts/python/syscall-counts.py
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----
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Note that the location of the Python script given in the shell script
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is in the libexec/perf-core/scripts/python directory - this is where
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the script will be copied by 'make install' when you install perf.
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For the installation to install your script there, your script needs
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to be located in the perf/scripts/python directory in the kernel
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source tree:
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----
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# ls -al kernel-source/tools/perf/scripts/python
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root@tropicana:/home/trz/src/tip# ls -al tools/perf/scripts/python
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total 32
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drwxr-xr-x 4 trz trz 4096 2010-01-26 22:30 .
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drwxr-xr-x 4 trz trz 4096 2010-01-26 22:29 ..
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drwxr-xr-x 2 trz trz 4096 2010-01-26 22:29 bin
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-rw-r--r-- 1 trz trz 2548 2010-01-26 22:29 check-perf-trace.py
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drwxr-xr-x 3 trz trz 4096 2010-01-26 22:49 Perf-Trace-Util
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-rw-r--r-- 1 trz trz 1462 2010-01-26 22:30 syscall-counts.py
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----
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Once you've done that (don't forget to do a new 'make install',
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otherwise your script won't show up at run-time), 'perf trace -l'
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should show a new entry for your script:
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----
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root@tropicana:~# perf trace -l
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List of available trace scripts:
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workqueue-stats workqueue stats (ins/exe/create/destroy)
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wakeup-latency system-wide min/max/avg wakeup latency
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rw-by-file <comm> r/w activity for a program, by file
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rw-by-pid system-wide r/w activity
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syscall-counts system-wide syscall counts
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----
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You can now perform the record step via 'perf trace record':
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# perf trace record syscall-counts
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and display the output using 'perf trace report':
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# perf trace report syscall-counts
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STARTER SCRIPTS
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---------------
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You can quickly get started writing a script for a particular set of
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trace data by generating a skeleton script using 'perf trace -g
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python' in the same directory as an existing perf.data trace file.
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That will generate a starter script containing a handler for each of
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the event types in the trace file; it simply prints every available
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field for each event in the trace file.
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You can also look at the existing scripts in
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~/libexec/perf-core/scripts/python for typical examples showing how to
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do basic things like aggregate event data, print results, etc. Also,
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the check-perf-trace.py script, while not interesting for its results,
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attempts to exercise all of the main scripting features.
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EVENT HANDLERS
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--------------
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When perf trace is invoked using a trace script, a user-defined
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'handler function' is called for each event in the trace. If there's
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no handler function defined for a given event type, the event is
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ignored (or passed to a 'trace_handled' function, see below) and the
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next event is processed.
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Most of the event's field values are passed as arguments to the
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handler function; some of the less common ones aren't - those are
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available as calls back into the perf executable (see below).
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As an example, the following perf record command can be used to record
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all sched_wakeup events in the system:
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# perf record -c 1 -f -a -M -R -e sched:sched_wakeup
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Traces meant to be processed using a script should be recorded with
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the above options: -c 1 says to sample every event, -a to enable
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system-wide collection, -M to multiplex the output, and -R to collect
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raw samples.
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The format file for the sched_wakep event defines the following fields
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(see /sys/kernel/debug/tracing/events/sched/sched_wakeup/format):
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----
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format:
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field:unsigned short common_type;
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field:unsigned char common_flags;
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field:unsigned char common_preempt_count;
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field:int common_pid;
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field:int common_lock_depth;
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field:char comm[TASK_COMM_LEN];
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field:pid_t pid;
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field:int prio;
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field:int success;
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field:int target_cpu;
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----
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The handler function for this event would be defined as:
|
|
|
|
----
|
|
def sched__sched_wakeup(event_name, context, common_cpu, common_secs,
|
|
common_nsecs, common_pid, common_comm,
|
|
comm, pid, prio, success, target_cpu):
|
|
pass
|
|
----
|
|
|
|
The handler function takes the form subsystem__event_name.
|
|
|
|
The common_* arguments in the handler's argument list are the set of
|
|
arguments passed to all event handlers; some of the fields correspond
|
|
to the common_* fields in the format file, but some are synthesized,
|
|
and some of the common_* fields aren't common enough to to be passed
|
|
to every event as arguments but are available as library functions.
|
|
|
|
Here's a brief description of each of the invariant event args:
|
|
|
|
event_name the name of the event as text
|
|
context an opaque 'cookie' used in calls back into perf
|
|
common_cpu the cpu the event occurred on
|
|
common_secs the secs portion of the event timestamp
|
|
common_nsecs the nsecs portion of the event timestamp
|
|
common_pid the pid of the current task
|
|
common_comm the name of the current process
|
|
|
|
All of the remaining fields in the event's format file have
|
|
counterparts as handler function arguments of the same name, as can be
|
|
seen in the example above.
|
|
|
|
The above provides the basics needed to directly access every field of
|
|
every event in a trace, which covers 90% of what you need to know to
|
|
write a useful trace script. The sections below cover the rest.
|
|
|
|
SCRIPT LAYOUT
|
|
-------------
|
|
|
|
Every perf trace Python script should start by setting up a Python
|
|
module search path and 'import'ing a few support modules (see module
|
|
descriptions below):
|
|
|
|
----
|
|
import os
|
|
import sys
|
|
|
|
sys.path.append(os.environ['PERF_EXEC_PATH'] + \
|
|
'/scripts/python/Perf-Trace-Util/lib/Perf/Trace')
|
|
|
|
from perf_trace_context import *
|
|
from Core import *
|
|
----
|
|
|
|
The rest of the script can contain handler functions and support
|
|
functions in any order.
|
|
|
|
Aside from the event handler functions discussed above, every script
|
|
can implement a set of optional functions:
|
|
|
|
*trace_begin*, if defined, is called before any event is processed and
|
|
gives scripts a chance to do setup tasks:
|
|
|
|
----
|
|
def trace_begin:
|
|
pass
|
|
----
|
|
|
|
*trace_end*, if defined, is called after all events have been
|
|
processed and gives scripts a chance to do end-of-script tasks, such
|
|
as display results:
|
|
|
|
----
|
|
def trace_end:
|
|
pass
|
|
----
|
|
|
|
*trace_unhandled*, if defined, is called after for any event that
|
|
doesn't have a handler explicitly defined for it. The standard set
|
|
of common arguments are passed into it:
|
|
|
|
----
|
|
def trace_unhandled(event_name, context, common_cpu, common_secs,
|
|
common_nsecs, common_pid, common_comm):
|
|
pass
|
|
----
|
|
|
|
The remaining sections provide descriptions of each of the available
|
|
built-in perf trace Python modules and their associated functions.
|
|
|
|
AVAILABLE MODULES AND FUNCTIONS
|
|
-------------------------------
|
|
|
|
The following sections describe the functions and variables available
|
|
via the various perf trace Python modules. To use the functions and
|
|
variables from the given module, add the corresponding 'from XXXX
|
|
import' line to your perf trace script.
|
|
|
|
Core.py Module
|
|
~~~~~~~~~~~~~~
|
|
|
|
These functions provide some essential functions to user scripts.
|
|
|
|
The *flag_str* and *symbol_str* functions provide human-readable
|
|
strings for flag and symbolic fields. These correspond to the strings
|
|
and values parsed from the 'print fmt' fields of the event format
|
|
files:
|
|
|
|
flag_str(event_name, field_name, field_value) - returns the string represention corresponding to field_value for the flag field field_name of event event_name
|
|
symbol_str(event_name, field_name, field_value) - returns the string represention corresponding to field_value for the symbolic field field_name of event event_name
|
|
|
|
The *autodict* function returns a special special kind of Python
|
|
dictionary that implements Perl's 'autovivifying' hashes in Python
|
|
i.e. with autovivifying hashes, you can assign nested hash values
|
|
without having to go to the trouble of creating intermediate levels if
|
|
they don't exist.
|
|
|
|
autodict() - returns an autovivifying dictionary instance
|
|
|
|
|
|
perf_trace_context Module
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
Some of the 'common' fields in the event format file aren't all that
|
|
common, but need to be made accessible to user scripts nonetheless.
|
|
|
|
perf_trace_context defines a set of functions that can be used to
|
|
access this data in the context of the current event. Each of these
|
|
functions expects a context variable, which is the same as the
|
|
context variable passed into every event handler as the second
|
|
argument.
|
|
|
|
common_pc(context) - returns common_preempt count for the current event
|
|
common_flags(context) - returns common_flags for the current event
|
|
common_lock_depth(context) - returns common_lock_depth for the current event
|
|
|
|
Util.py Module
|
|
~~~~~~~~~~~~~~
|
|
|
|
Various utility functions for use with perf trace:
|
|
|
|
nsecs(secs, nsecs) - returns total nsecs given secs/nsecs pair
|
|
nsecs_secs(nsecs) - returns whole secs portion given nsecs
|
|
nsecs_nsecs(nsecs) - returns nsecs remainder given nsecs
|
|
nsecs_str(nsecs) - returns printable string in the form secs.nsecs
|
|
avg(total, n) - returns average given a sum and a total number of values
|
|
|
|
SEE ALSO
|
|
--------
|
|
linkperf:perf-trace[1]
|