.. option:: --eta=when
Specifies when real-time ETA estimate should be printed. `when` may be
- `always`, `never` or `auto`.
+ `always`, `never` or `auto`. `auto` is the default, it prints ETA
+ when requested if the output is a TTY. `always` disregards the output
+ type, and prints ETA when requested. `never` never prints ETA.
+
+.. option:: --eta-interval=time
+
+ By default, fio requests client ETA status roughly every second. With
+ this option, the interval is configurable. Fio imposes a minimum
+ allowed time to avoid flooding the console, less than 250 msec is
+ not supported.
.. option:: --eta-newline=time
Tell fio to terminate processing after the specified period of time. It
can be quite hard to determine for how long a specified job will run, so
this parameter is handy to cap the total runtime to a given time. When
- the unit is omitted, the value is intepreted in seconds.
+ the unit is omitted, the value is interpreted in seconds.
.. option:: time_based
.. option:: fadvise_hint=str
- Use :manpage:`posix_fadvise(2)` to advise the kernel on what I/O patterns
- are likely to be issued. Accepted values are:
+ Use :manpage:`posix_fadvise(2)` or :manpage:`posix_fadvise(2)` to
+ advise the kernel on what I/O patterns are likely to be issued.
+ Accepted values are:
**0**
Backwards-compatible hint for "no hint".
random_distribution=zoned_abs=60/20G:30/100G:10/500g
+ For both **zoned** and **zoned_abs**, fio supports defining up to
+ 256 separate zones.
+
Similarly to how :option:`bssplit` works for setting ranges and
percentages of block sizes. Like :option:`bssplit`, it's possible to
specify separate zones for reads, writes, and trims. If just one set
.. option:: bssplit=str[,str][,str]
- Sometimes you want even finer grained control of the block sizes issued, not
- just an even split between them. This option allows you to weight various
- block sizes, so that you are able to define a specific amount of block sizes
- issued. The format for this option is::
+ Sometimes you want even finer grained control of the block sizes
+ issued, not just an even split between them. This option allows you to
+ weight various block sizes, so that you are able to define a specific
+ amount of block sizes issued. The format for this option is::
bssplit=blocksize/percentage:blocksize/percentage
- for as many block sizes as needed. So if you want to define a workload that
- has 50% 64k blocks, 10% 4k blocks, and 40% 32k blocks, you would write::
+ for as many block sizes as needed. So if you want to define a workload
+ that has 50% 64k blocks, 10% 4k blocks, and 40% 32k blocks, you would
+ write::
bssplit=4k/10:64k/50:32k/40
- Ordering does not matter. If the percentage is left blank, fio will fill in
- the remaining values evenly. So a bssplit option like this one::
+ Ordering does not matter. If the percentage is left blank, fio will
+ fill in the remaining values evenly. So a bssplit option like this one::
bssplit=4k/50:1k/:32k/
- would have 50% 4k ios, and 25% 1k and 32k ios. The percentages always add up
- to 100, if bssplit is given a range that adds up to more, it will error out.
+ would have 50% 4k ios, and 25% 1k and 32k ios. The percentages always
+ add up to 100, if bssplit is given a range that adds up to more, it
+ will error out.
Comma-separated values may be specified for reads, writes, and trims as
described in :option:`blocksize`.
- If you want a workload that has 50% 2k reads and 50% 4k reads, while having
- 90% 4k writes and 10% 8k writes, you would specify::
+ If you want a workload that has 50% 2k reads and 50% 4k reads, while
+ having 90% 4k writes and 10% 8k writes, you would specify::
+
+ bssplit=2k/50:4k/50,4k/90:8k/10
- bssplit=2k/50:4k/50,4k/90,8k/10
+ Fio supports defining up to 64 different weights for each data
+ direction.
.. option:: blocksize_unaligned, bs_unaligned
:manpage:`read(2)` and :manpage:`write(2)` for asynchronous
I/O. Requires :option:`filename` option to specify either block or
character devices.
+ The sg engine includes engine specific options.
**null**
Doesn't transfer any data, just pretends to. This is mainly used to
at least one non-cpuio job.
**guasi**
- The GUASI I/O engine is the Generic Userspace Asyncronous Syscall
+ The GUASI I/O engine is the Generic Userspace Asynchronous Syscall
Interface approach to async I/O. See
http://www.xmailserver.org/guasi-lib.html
I/O engine that does regular EXT4_IOC_MOVE_EXT ioctls to simulate
defragment activity in request to DDIR_WRITE event.
+ **rados**
+ I/O engine supporting direct access to Ceph Reliable Autonomic
+ Distributed Object Store (RADOS) via librados. This ioengine
+ defines engine specific options.
+
**rbd**
I/O engine supporting direct access to Ceph Rados Block Devices
(RBD) via librbd without the need to use the kernel rbd driver. This
**pmemblk**
Read and write using filesystem DAX to a file on a filesystem
- mounted with DAX on a persistent memory device through the NVML
+ mounted with DAX on a persistent memory device through the PMDK
libpmemblk library.
**dev-dax**
Read and write using device DAX to a persistent memory device (e.g.,
- /dev/dax0.0) through the NVML libpmem library.
+ /dev/dax0.0) through the PMDK libpmem library.
**external**
Prefix to specify loading an external I/O engine object file. Append
**libpmem**
Read and write using mmap I/O to a file on a filesystem
- mounted with DAX on a persistent memory device through the NVML
+ mounted with DAX on a persistent memory device through the PMDK
libpmem library.
I/O engine specific parameters
Allocate space immediately inside defragment event, and free right
after event.
-.. option:: clustername=str : [rbd]
+.. option:: clustername=str : [rbd,rados]
Specifies the name of the Ceph cluster.
Specifies the name of the RBD.
-.. option:: pool=str : [rbd]
+.. option:: pool=str : [rbd,rados]
- Specifies the name of the Ceph pool containing RBD.
+ Specifies the name of the Ceph pool containing RBD or RADOS data.
-.. option:: clientname=str : [rbd]
+.. option:: clientname=str : [rbd,rados]
Specifies the username (without the 'client.' prefix) used to access the
Ceph cluster. If the *clustername* is specified, the *clientname* shall be
the full *type.id* string. If no type. prefix is given, fio will add
'client.' by default.
+.. option:: busy_poll=bool : [rbd,rados]
+
+ Poll store instead of waiting for completion. Usually this provides better
+ throughput at cost of higher(up to 100%) CPU utilization.
+
.. option:: skip_bad=bool : [mtd]
Skip operations against known bad blocks.
multiple paths exist between the client and the server or in certain loopback
configurations.
+.. option:: readfua=bool : [sg]
+
+ With readfua option set to 1, read operations include
+ the force unit access (fua) flag. Default is 0.
+
+.. option:: writefua=bool : [sg]
+
+ With writefua option set to 1, write operations include
+ the force unit access (fua) flag. Default is 0.
+
+.. option:: sg_write_mode=str : [sg]
+ Specify the type of write commands to issue. This option can take three values:
+
+ **write**
+ This is the default where write opcodes are issued as usual.
+ **verify**
+ Issue WRITE AND VERIFY commands. The BYTCHK bit is set to 0. This
+ directs the device to carry out a medium verification with no data
+ comparison. The writefua option is ignored with this selection.
+ **same**
+ Issue WRITE SAME commands. This transfers a single block to the device
+ and writes this same block of data to a contiguous sequence of LBAs
+ beginning at the specified offset. fio's block size parameter specifies
+ the amount of data written with each command. However, the amount of data
+ actually transferred to the device is equal to the device's block
+ (sector) size. For a device with 512 byte sectors, blocksize=8k will
+ write 16 sectors with each command. fio will still generate 8k of data
+ for each command but only the first 512 bytes will be used and
+ transferred to the device. The writefua option is ignored with this
+ selection.
+
I/O depth
~~~~~~~~~
(https://en.wikipedia.org/wiki/Poisson_point_process). The lambda will be
10^6 / IOPS for the given workload.
+.. option:: rate_ignore_thinktime=bool
+
+ By default, fio will attempt to catch up to the specified rate setting,
+ if any kind of thinktime setting was used. If this option is set, then
+ fio will ignore the thinktime and continue doing IO at the specified
+ rate, instead of entering a catch-up mode after thinktime is done.
+
I/O latency
~~~~~~~~~~~
still respecting ordering. The result is the same I/O pattern to a given
device, but different timings.
+.. option:: replay_time_scale=int
+
+ When replaying I/O with :option:`read_iolog`, fio will honor the
+ original timing in the trace. With this option, it's possible to scale
+ the time. It's a percentage option, if set to 50 it means run at 50%
+ the original IO rate in the trace. If set to 200, run at twice the
+ original IO rate. Defaults to 100.
+
.. option:: replay_redirect=str
While replaying I/O patterns using :option:`read_iolog` the default behavior
Scale sector offsets down by this factor when replaying traces.
+.. option:: replay_skip=str
+
+ Sometimes it's useful to skip certain IO types in a replay trace.
+ This could be, for instance, eliminating the writes in the trace.
+ Or not replaying the trims/discards, if you are redirecting to
+ a device that doesn't support them. This option takes a comma
+ separated list of read, write, trim, sync.
+
Threads, processes and job synchronization
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Set the I/O priority class. See man :manpage:`ionice(1)`.
-.. option:: cpumask=int
-
- Set the CPU affinity of this job. The parameter given is a bit mask of
- allowed CPUs the job may run on. So if you want the allowed CPUs to be 1
- and 5, you would pass the decimal value of (1 << 1 | 1 << 5), or 34. See man
- :manpage:`sched_setaffinity(2)`. This may not work on all supported
- operating systems or kernel versions. This option doesn't work well for a
- higher CPU count than what you can store in an integer mask, so it can only
- control cpus 1-32. For boxes with larger CPU counts, use
- :option:`cpus_allowed`.
-
.. option:: cpus_allowed=str
Controls the same options as :option:`cpumask`, but accepts a textual
- specification of the permitted CPUs instead. So to use CPUs 1 and 5 you
- would specify ``cpus_allowed=1,5``. This option also allows a range of CPUs
- to be specified -- say you wanted a binding to CPUs 1, 5, and 8 to 15, you
- would set ``cpus_allowed=1,5,8-15``.
+ specification of the permitted CPUs instead and CPUs are indexed from 0. So
+ to use CPUs 0 and 5 you would specify ``cpus_allowed=0,5``. This option also
+ allows a range of CPUs to be specified -- say you wanted a binding to CPUs
+ 0, 5, and 8 to 15, you would set ``cpus_allowed=0,5,8-15``.
+
+ On Windows, when ``cpus_allowed`` is unset only CPUs from fio's current
+ processor group will be used and affinity settings are inherited from the
+ system. An fio build configured to target Windows 7 makes options that set
+ CPUs processor group aware and values will set both the processor group
+ and a CPU from within that group. For example, on a system where processor
+ group 0 has 40 CPUs and processor group 1 has 32 CPUs, ``cpus_allowed``
+ values between 0 and 39 will bind CPUs from processor group 0 and
+ ``cpus_allowed`` values between 40 and 71 will bind CPUs from processor
+ group 1. When using ``cpus_allowed_policy=shared`` all CPUs specified by a
+ single ``cpus_allowed`` option must be from the same processor group. For
+ Windows fio builds not built for Windows 7, CPUs will only be selected from
+ (and be relative to) whatever processor group fio happens to be running in
+ and CPUs from other processor groups cannot be used.
.. option:: cpus_allowed_policy=str
enough CPUs are given for the jobs listed, then fio will roundrobin the CPUs
in the set.
+.. option:: cpumask=int
+
+ Set the CPU affinity of this job. The parameter given is a bit mask of
+ allowed CPUs the job may run on. So if you want the allowed CPUs to be 1
+ and 5, you would pass the decimal value of (1 << 1 | 1 << 5), or 34. See man
+ :manpage:`sched_setaffinity(2)`. This may not work on all supported
+ operating systems or kernel versions. This option doesn't work well for a
+ higher CPU count than what you can store in an integer mask, so it can only
+ control cpus 1-32. For boxes with larger CPU counts, use
+ :option:`cpus_allowed`.
+
.. option:: numa_cpu_nodes=str
Set this job running on specified NUMA nodes' CPUs. The arguments allow
<mode>[:<nodelist>]
- ``mode`` is one of the following memory poicies: ``default``, ``prefer``,
+ ``mode`` is one of the following memory policies: ``default``, ``prefer``,
``bind``, ``interleave`` or ``local``. For ``default`` and ``local`` memory
policies, no node needs to be specified. For ``prefer``, only one node is
allowed. For ``bind`` and ``interleave`` the ``nodelist`` may be as
each block. This will automatically use hardware acceleration
(e.g. SSE4.2 on an x86 or CRC crypto extensions on ARM64) but will
fall back to software crc32c if none is found. Generally the
- fatest checksum fio supports when hardware accelerated.
+ fastest checksum fio supports when hardware accelerated.
**crc32c-intel**
Synonym for crc32c.
previously written file. If the data direction includes any form of write,
the verify will be of the newly written data.
-.. option:: verifysort=bool
-
- If true, fio will sort written verify blocks when it deems it faster to read
- them back in a sorted manner. This is often the case when overwriting an
- existing file, since the blocks are already laid out in the file system. You
- can ignore this option unless doing huge amounts of really fast I/O where
- the red-black tree sorting CPU time becomes significant. Default: true.
-
-.. option:: verifysort_nr=int
-
- Pre-load and sort verify blocks for a read workload.
-
.. option:: verify_offset=int
Swap the verification header with data somewhere else in the block before
Define the set of CPUs that are allowed to handle online log compression for
the I/O jobs. This can provide better isolation between performance
- sensitive jobs, and background compression work.
+ sensitive jobs, and background compression work. See
+ :option:`cpus_allowed` for the format used.
.. option:: log_store_compressed=bool
projects / fio.git / blobdiff