OPERF(1) | General Commands Manual | OPERF(1) |
NAME¶
operf - Performance profiler tool for Linux
SYNOPSIS¶
operf [ options ] [ --system-wide | --pid <pid> | [ command [ args ] ] ]
DESCRIPTION¶
Operf is an OProfile tool that can be used in place of opcontrol for profiling. Operf uses the Linux Performance Events Subsystem, and hence, does not require the use of the opcontrol daemon -- in fact, operf and opcontrol usage are mutually exclusive.
By default, operf uses <current_dir>/oprofile_data as the session-dir and stores profiling data there. You can change this by way of the --session-dir option.
The usual post-profiling analysis tools such as opreport(1) and opannotate(1) can be used to generate profile reports. The post-processing analysis tools will search for samples in <current_dir>/oprofile_data first. If that directory does not exist, the post-processing tools use the standard session-dir of /var/lib/oprofile.
Statistics, such as total samples received and lost samples, are written to the operf.log file that can be found in the <session_dir>/samples directory.
OPTIONS¶
- command[args]
- The command or application to be profiled. args are the input
arguments that the command or application requires. One (and only one) of
either command , --pid or --system-wide is required.
- --pid / -p PID
- This option enables operf to profile a running application. PID
should be the process ID of the process you wish to profile. When finished
profiling (e.g., when the profiled process ends), press Ctrl-c to stop
operf. If you run operf --pid as a background job (i.e.,
with the &), you must stop it in a controlled manner in order
for it to process the profile data it has collected. Use kill
-SIGINT <operf-PID> for this purpose.
- --system-wide / -s
- This option is for performing a system-wide profile. You must have root
authority to run operf in this mode. When finished profiling, Ctrl-c to
stop operf. If you run operf --system-wide as a background
job (i.e., with the &), you must stop it in a controlled manner
in order for it to process the profile data it has collected. Use
kill -SIGINT <operf-PID> for this purpose. It
is recommended that when running operf with this option, the user's
current working directory should be /root or a subdirectory of /root to
avoid storing sample data files in locations accessible by regular users.
- --vmlinux / k vmlinux_path
- A vmlinux file that matches the running kernel that has symbol and/or debuginfo. Kernel samples will be attributed to this binary, allowing post-processing tools (like opreport) to attribute samples to the appropriate kernel symbols.
- --events / -e event1[,event2[,...]]
- This option is for passing a comma-separated list of event specifications
for profiling. Each event spec is of the form:
name:count[:unitmask[:kernel[:user]]]
You can specify unit mask values using either a numerical value (hex values must begin with "0x") or a symbolic name (if the name=<um_name> field is shown in the ophelp output). For some named unit masks, the hex value is not unique; thus, OProfile tools enforce specifying such unit masks value by name.
When no event specification is given, the default event for the running processor type will be used for profiling. Use ophelp to list the available events for your processor type.
- --callgraph / -g
- This option enables the callgraph to be saved during profiling. NOTE: The
full callchain is recorded, so there is no depth limit.
- --separate-thread / -t
- This option categorizes samples by thread group ID (tgid) and thread ID
(tid). The '--separate-thread' option is useful for seeing per-thread
samples in multi-threaded applications. When used in conjunction with the
'--system-wide' option, the '--separate-thread' option is also useful for
seeing per-process (i.e., per-thread group) samples for the case where
multiple processes are executing the same program during a profiling run.
- --separate-cpu / -c
- This option categorizes samples by cpu.
- --session-dir / -d path
- This option specifies the session path to hold the sample data. If not
specified, the data is saved in the oprofile_data directory on the
current path.
- --lazy-conversion / -l
- Use this option to reduce the overhead of operf during profiling.
Normally, profile data received from the kernel is converted to OProfile
format during profiling time. This is typically not an issue when
profiling a single application. But when using the --system-wide
option, this on-the-fly conversion process can cause noticeable overhead,
particularly on busy multi-processor systems. The --lazy-conversion
option directs operf to wait until profiling is completed to do the
conversion of profile data.
- --append / -a
- By default, operf moves old profile data from
<session_dir>/samples/current to
<session_dir>/samples/previous. If a 'previous' profile already
existed, it will be replaced. If the --append option is passed, old
profile data is left in place and new profile data will be added to it,
and the 'previous' profile (if one existed) will remain untouched. To
access the 'previous' profile, simply add a session specification to the
normal invocation of oprofile post-processing tools. For example:
opreport session:previous
- --verbose / -V level
- A comma-separated list of debugging control values, used to increase the
verbosity of the output. Valid values are: debug, record, convert, misc,
sfile, arcs, or the special value, 'all'.
- --version / -v
- Show operf version.
- --help / -h
- Display brief usage message.
- --usage / -u
- Display brief usage message.
EXAMPLE¶
$ operf make
VERSION¶
This man page is current for oprofile-0.9.9.
SEE ALSO¶
Wed 22 March 2017 | oprofile 0.9.9 |