IOPING(1) User Commands IOPING(1)
NAME
ioping - simple disk I/O latency monitoring tool
SYNOPSYS
ioping [-ABCDJLNRWGYykq] [-a count] [-b count] [-c count] [-e seed]
[-i interval] [-l speed] [-r rate] [-t time] [-T time] [-s size]
[-S wsize] [-o offset] [-w deadline] [-p period] [-P period]
[-I [format]] directory|file|device
ioping -h | -v
DESCRIPTION
This tool generates various I/O patterns and lets you monitor I/O speed
and latency in real time.
OPTIONS
-a, -warmup count
Ignore in statistics first count requests, default 1. First
request usually is much slower due to power-saving features.
-b, -burst count
Make series of count requests without delay, default 0.
Aggressive power-saving features slow down requests even after
short delay.
-c, -count count
Stop after count requests, default 0 (infinite).
-e, -entropy seed
Set seed for random number generator, default 0 (random).
-i, -interval time
Set time between requests, default 1s.
-l, -speed-limit size
Set speed limit in size per second. Increases interval to
request-size / speed.
-r, -rate-limit count
Set rate limit in count per second. Increases interval to 1 /
rate.
-t, -min-time time
Minimal valid request time (0us). Too fast requests are ignored
in statistics.
-T, -max-time time
Maximum valid request time. Too slow requests are ignored in
statistics.
-s, -size size
Request size, default 4k.
-S, -work-size size
Working set size (1m for directory, whole size for file or
device).
-o, -work-offset size
Starting offset in the file/device (0).
-w, -work-time time
Stop after time passed, default 0 (infinite).
-p, -print-count count
Print raw statistics for every count requests (see format
below).
-P, -print-interval time
Print raw statistics for every time.
-A, -async
Use asynchronous I/O (io_setup(2), io_submit(2) etc syscalls).
-B, -batch
Batch mode. Be quiet and print final statistics in raw format.
-C, -cached
Use cached I/O. Suppress cache invalidation via
posix_fadvise(2)) before read and fdatasync(2) after each write.
-D, -direct
Use direct I/O (see O_DIRECT in open(2)).
-I, -time [format]
Print current time for each request. Optional argument defines
time format in strftime(3) notation, default is "%b %d %T" (Jan
01 00:00:00).
-J, -json
Print output in JSON format.
-L, -linear
Use sequential operations rather than random. This also sets
default request size to 256k (as in -size 256k).
-N, -nowait
Set RWF_NOWAIT on I/O, indicating to the kernel to do not wait
if request cannot be executed immediately. (see RWF_NOWAIT in
preadv2(2))
-R, -rapid
Disk seek rate test, or bandwidth test if used together with
-linear.
This option suppress human-readable output for each request (as
-quiet), sets default interval to zero (-interval 0), stops
measurement after 3 seconds (-work-time 3) and increases default
working set size to 64m (-work-size 64m). Working set (-work-
size) should be increased accordingly if disk has huge hardware
cache.
-W, -write
Use writes rather than reads. Safe for temporary file in
directory target. Write I/O gives more reliable results for
systems where non-cached reads are not supported or cached at
some level.
Might be *DANGEROUS* for file/device: it will shred your data.
In this case should be repeated three times (-WWW).
-G, -read-write
Alternate read and write requests.
-Y, -sync
Use sync I/O (see O_SYNC in open(2)).
-y, -dsync
Use data sync I/O (see O_DSYNC in open(2)).
-k, -keep
Keep and reuse temporary working file "ioping.tmp" (only for
directory target).
-q, -quiet
Suppress periodical human-readable output.
-h, -help
Display help message and exit.
-v, -version
Display version and exit.
Argument suffixes
For options that expect time argument (-interval, -print-interval and
-work-time), default is seconds, unless you specify one of the
following suffixes (case-insensitive):
ns, nsec
nanoseconds (a billionth of a second, 1 / 1 000 000 000)
us, usec
microseconds (a millionth of a second, 1 / 1 000 000)
ms, msec
milliseconds (a thousandth of a second, 1 / 1 000)
s, sec seconds
m, min minutes
h, hour
hours
For options that expect "size" argument (-size, -speed-limit, -work-
size and -work-offset), default is bytes, unless you specify one of the
following suffixes (case-insensitive):
sector disk sectors (a sector is always 512).
KiB, k, kb
kilobytes (1 024 bytes)
page memory pages (a page is always 4KiB).
MiB, m, mb
megabytes (1 048 576 bytes)
GiB, g, gb
gigabytes (1 073 741 824 bytes)
TiB, t, tb
terabytes (1 099 511 627 776 bytes)
For options that expect "number" argument (-count and -print-count) you
can optionally specify one of the following suffixes (case-
insensitive):
k kilo (thousands, 1 000)
m mega (millions, 1 000 000)
g giga (billions, 1 000 000 000)
t tera (trillions, 1 000 000 000 000)
EXIT STATUS
Returns 0 upon success. The following error codes are defined:
1 Invalid usage (error in arguments).
2 Error during preparation stage.
3 Error during runtime.
RAW STATISTICS
ioping -print-count 100 -count 200 -interval 0 -quiet .
99 10970974 9024 36961531 90437 110818 358872 30756 100 12516420
100 9573265 10446 42785821 86849 95733 154609 10548 100 10649035
(1) (2) (3) (4) (5) (6) (7) (8) (9) (10)
(1) count of requests in statistics
(2) running time (nanoseconds)
(3) requests per second (iops)
(4) transfer speed (bytes per second)
(5) minimal request time (nanoseconds)
(6) average request time (nanoseconds)
(7) maximum request time (nanoseconds)
(8) request time standard deviation (nanoseconds)
(9) total requests (including warmup, too slow or too fast)
(10) total running time (nanoseconds)
JSON OUTPUT
With option -J|--json ioping prints json array of objects:
[
...
{
// timestamps
"timestamp": (unix time in seconds as float),
"localtime": (local time ISO 8601),
// io target
"target": {
"path": (target path),
"fstype": (filesystem name),
"device": (device name),
"device_size": (device size in bytes)
},
// io request
"io": {
"request": (request index),
"operation": (request type: "read" | "write"),
"size": (request size in bytes),
"time": (io time in ns),
"ignored": (ignored in statistics: true | false)
},
// statistics
"stat": {
"count": (nr reqeusts),
"size": (total io size in bytes),
"time": (total io time in ns),
"iops": (avg iops),
"bps": (avg rate),
"min": (min io time in ns),
"avg": (avg io time in ns),
"max": (max io time in ns),
"mdev": (standard deviation in ns)
},
// load statistics
"load": {
"count": (nr requests),
"size": (total io size in bytes),
"time": (total real time in ns),
"iops": (avg iops),
"bps": (avg rate)
},
},
...
]
EXAMPLES
ioping .
Show disk I/O latency using the default values and the current
directory, until interrupted. This command prepares temporary
(unlinked/hidden) working file and reads random chunks from it
using non-cached read requests.
ioping -c 10 -s 1M /tmp
Measure latency on /tmp using 10 requests of 1 megabyte each.
ioping -R /dev/sda
Measure disk seek rate.
ioping -RL /dev/sda
Measure disk sequential speed.
ioping -RLB . | awk '{print $4}'
Get disk sequential speed in bytes per second.
ioping -J . | jq -r --stream 'fromstream(1|truncate_stream(inputs)) |
[.localtime, .io.time/1000000] | @tsv'
Select localtime and io time in milliseconds from json outout.
SEE ALSO
iostat(1), dd(1), fio(1), stress(1), stress-ng(1), dbench(1),
sysbench(1), fsstress, xfstests, hdparm(8), badblocks(8),
HOMEPAGE
.
AUTHORS
This program was written by Konstantin Khlebnikov .
Man-page was written by Kir Kolyshkin .
Oct 2014 IOPING(1)