Provided by: perf-tools-unstable_1.0.1~20200130+git49b8cdf-1ubuntu1_all bug

NAME

       iolatency - summarize block device I/O latency as a histogram. Uses Linux ftrace.

SYNOPSIS

       iolatency [-hQT] [-d device] [-i iotype] [interval [count]]

DESCRIPTION

       This  shows  the  distribution  of  latency,  allowing  modes  and  latency outliers to be
       identified and studied. For more details of block device I/O, use iosnoop(8).

       This is a proof of concept tool using ftrace,  and  involves  user  space  processing  and
       related overheads. See the OVERHEAD section.

       NOTE:  Due to the way trace buffers are switched per interval, there is the possibility of
       losing a small number of I/O (usually less than  1%).  The  summary  therefore  shows  the
       general  distribution, but may be slightly incomplete. If 100% of I/O must be studied, use
       iosnoop(8) and post-process.  Also note that I/O may be missed when the  trace  buffer  is
       full: see the interval section in OPTIONS.

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

REQUIREMENTS

       FTRACE CONFIG, and the tracepoints block:block_rq_issue and block:block_rq_complete, which
       you may already have enabled and available on recent Linux kernels. And awk.

OPTIONS

       -d device
              Only show I/O issued by this device. (eg, "202,1"). This matches the DEV column  in
              the iolatency output, and is filtered in-kernel.

       -i iotype
              Only  show  I/O  issued that matches this I/O type. This matches the TYPE column in
              the iolatency output, and wildcards ("*") can be  used  at  the  beginning  or  end
              (only). Eg, "*R*" matches all reads. This is filtered in-kernel.

       -h     Print usage message.

       -Q     Include  block  I/O queueing time. This uses block I/O queue insertion as the start
              tracepoint    (block:block_rq_insert),    instead    of     block     I/O     issue
              (block:block_rq_issue).

       -T     Include timestamps with each summary output.

       interval
              Interval between summary histograms, in seconds.

              During  the  interval,  trace output will be buffered in-kernel, which is then read
              and processed  for  the  summary.  This  buffer  has  a  fixed  size  per-CPU  (see
              /sys/kernel/debug/tracing/buffer_size_kb).  If  you  think  events are missing, try
              increasing that size (the  bufsize_kb  setting  in  iolatency).  With  the  default
              setting (4 Mbytes), I'd expect this to happen around 50k I/O per summary.

       count  Number of summaries to print.

EXAMPLES

       Default output, print a summary of block I/O latency every 1 second:
              # iolatency

       Include block I/O queue time:
              iolatency -Q

       Print 5 x 1 second summaries:
              # iolatency 1 5

       Trace reads only:
              # iolatency -i '*R*'

       Trace I/O issued to device 202,1 only:
              # iolatency -d 202,1

FIELDS

       >=(ms) Latency was greater than or equal-to this value, in milliseconds.

       <(ms)  Latency was less than this value, in milliseconds.

       I/O    Number of block device I/O in this latency range, during the interval.

       Distribution
              ASCII histogram representation of the I/O column.

OVERHEAD

       Block  device  I/O  issue  and  completion  events are traced and buffered in-kernel, then
       processed and summarized in user  space.  There  may  be  measurable  overhead  with  this
       approach, relative to the block device IOPS.

       The  overhead  may  be  acceptable  in  many  situations.  If  it  isn't, this tool can be
       reimplemented in C, or using a different tracer (eg, perf_events, SystemTap, ktap.)

SOURCE

       This is from the perf-tools collection.

              https://github.com/brendangregg/perf-tools

       Also look under the examples directory for a text file containing example  usage,  output,
       and commentary for this tool.

OS

       Linux

STABILITY

       Unstable - in development.

AUTHOR

       Brendan Gregg

SEE ALSO

       iosnoop(8), iostat(1)