Provided by: bpfcc-tools_0.26.0+ds-1ubuntu1_all bug

NAME

       funclatency - Time functions and print latency as a histogram.

SYNOPSIS

       funclatency  [-h]  [-p  PID]  [-i  INTERVAL]  [-d  DURATION] [-T] [-u] [-m] [-F] [-r] [-v]
       pattern

DESCRIPTION

       This tool traces function calls and times their duration (latency), and shows the  latency
       distribution as a histogram. The time is measured from when the function is called to when
       it returns, and is inclusive of both on-CPU time and time spent blocked.

       This tool uses  in-kernel  eBPF  maps  for  storing  timestamps  and  the  histogram,  for
       efficiency.

       Currently nested or recursive functions are not supported properly, and timestamps will be
       overwritten, creating dubious  output.  Try  to  match  single  functions,  or  groups  of
       functions that run at the same stack layer, and don't ultimately call each other.

       WARNING:  This  uses dynamic tracing of (what can be many) functions, an activity that has
       had issues on some kernel versions (risk of panics or freezes). Test, and  know  what  you
       are doing, before use.

       Since this uses BPF, only the root user can use this tool.

REQUIREMENTS

       CONFIG_BPF and bcc.

OPTIONS

       pattern  Function  name  or search pattern. Supports "*" wildcards. See EXAMPLES.  You can
       also use -r for regular expressions.

       -h     Print usage message.

       -p PID Trace this process ID only.

       -i INTERVAL
              Print output every interval seconds.

       -d DURATION
              Total duration of trace, in seconds.

       -l LEVEL
              Set the level of nested or recursive functions.

       -T     Include timestamps on output.

       -u     Output histogram in microseconds.

       -m     Output histogram in milliseconds.

       -F     Print a separate histogram per function matched.

       -r     Use regular expressions for the search pattern.

       -v     Print the BPF program (for debugging purposes).

EXAMPLES

       Time the do_sys_open() kernel function, and print the distribution as a histogram:
              # funclatency do_sys_open

       Time the read() function in libc across all processes on the system:
              # funclatency c:read

       Time vfs_read(), and print the histogram in units of microseconds:
              # funclatency -u vfs_read

       Time do_nanosleep(), and print the histogram in units of milliseconds:
              # funclatency -m do_nanosleep

       Time libc open(), and print output every 2 seconds, for duration 10 seconds:
              # funclatency -i 2 -d 10 c:read

       Time vfs_read(), and print output every 5 seconds, with timestamps:
              # funclatency -mTi 5 vfs_read

       Time vfs_read() for process ID 181 only:
              # funclatency -p 181 vfs_read

       Time both vfs_fstat() and vfs_fstatat() calls, by use of a wildcard:
              # funclatency 'vfs_fstat*'

       Time both vfs_fstat* calls, and print a separate histogram for each:
              # funclatency -F 'vfs_fstat*'

FIELDS

       necs   Nanosecond range

       usecs  Microsecond range

       msecs  Millisecond range

       count  How many calls fell into this range

       distribution
              An ASCII bar chart to visualize the distribution (count column)

OVERHEAD

       This traces kernel functions and maintains in-kernel timestamps and a histogram, which are
       asynchronously  copied  to  user-space.  While  this method is very efficient, the rate of
       kernel functions can also be very high (>1M/sec), at which point the overhead is  expected
       to  be  measurable. Measure in a test environment and understand overheads before use. You
       can also use funccount to measure the rate of kernel functions over a short  duration,  to
       set some expectations before use.

SOURCE

       This is from bcc.

              https://github.com/iovisor/bcc

       Also  look  in  the bcc distribution for a companion _examples.txt file containing example
       usage, output, and commentary for this tool.

OS

       Linux

STABILITY

       Unstable - in development.

AUTHOR

       Brendan Gregg, Sasha Goldshtein

SEE ALSO

       funccount(8)