| Table of contents |
| ----------------- |
| |
| 1. Overview |
| 2. How fio works |
| 3. Running fio |
| 4. Job file format |
| 5. Detailed list of parameters |
| 6. Normal output |
| 7. Terse output |
| 8. Trace file format |
| |
| 1.0 Overview and history |
| ------------------------ |
| fio was originally written to save me the hassle of writing special test |
| case programs when I wanted to test a specific workload, either for |
| performance reasons or to find/reproduce a bug. The process of writing |
| such a test app can be tiresome, especially if you have to do it often. |
| Hence I needed a tool that would be able to simulate a given io workload |
| without resorting to writing a tailored test case again and again. |
| |
| A test work load is difficult to define, though. There can be any number |
| of processes or threads involved, and they can each be using their own |
| way of generating io. You could have someone dirtying large amounts of |
| memory in an memory mapped file, or maybe several threads issuing |
| reads using asynchronous io. fio needed to be flexible enough to |
| simulate both of these cases, and many more. |
| |
| 2.0 How fio works |
| ----------------- |
| The first step in getting fio to simulate a desired io workload, is |
| writing a job file describing that specific setup. A job file may contain |
| any number of threads and/or files - the typical contents of the job file |
| is a global section defining shared parameters, and one or more job |
| sections describing the jobs involved. When run, fio parses this file |
| and sets everything up as described. If we break down a job from top to |
| bottom, it contains the following basic parameters: |
| |
| IO type Defines the io pattern issued to the file(s). |
| We may only be reading sequentially from this |
| file(s), or we may be writing randomly. Or even |
| mixing reads and writes, sequentially or randomly. |
| |
| Block size In how large chunks are we issuing io? This may be |
| a single value, or it may describe a range of |
| block sizes. |
| |
| IO size How much data are we going to be reading/writing. |
| |
| IO engine How do we issue io? We could be memory mapping the |
| file, we could be using regular read/write, we |
| could be using splice, async io, syslet, or even |
| SG (SCSI generic sg). |
| |
| IO depth If the io engine is async, how large a queuing |
| depth do we want to maintain? |
| |
| IO type Should we be doing buffered io, or direct/raw io? |
| |
| Num files How many files are we spreading the workload over. |
| |
| Num threads How many threads or processes should we spread |
| this workload over. |
| |
| The above are the basic parameters defined for a workload, in addition |
| there's a multitude of parameters that modify other aspects of how this |
| job behaves. |
| |
| |
| 3.0 Running fio |
| --------------- |
| See the README file for command line parameters, there are only a few |
| of them. |
| |
| Running fio is normally the easiest part - you just give it the job file |
| (or job files) as parameters: |
| |
| $ fio job_file |
| |
| and it will start doing what the job_file tells it to do. You can give |
| more than one job file on the command line, fio will serialize the running |
| of those files. Internally that is the same as using the 'stonewall' |
| parameter described the the parameter section. |
| |
| If the job file contains only one job, you may as well just give the |
| parameters on the command line. The command line parameters are identical |
| to the job parameters, with a few extra that control global parameters |
| (see README). For example, for the job file parameter iodepth=2, the |
| mirror command line option would be --iodepth 2 or --iodepth=2. You can |
| also use the command line for giving more than one job entry. For each |
| --name option that fio sees, it will start a new job with that name. |
| Command line entries following a --name entry will apply to that job, |
| until there are no more entries or a new --name entry is seen. This is |
| similar to the job file options, where each option applies to the current |
| job until a new [] job entry is seen. |
| |
| fio does not need to run as root, except if the files or devices specified |
| in the job section requires that. Some other options may also be restricted, |
| such as memory locking, io scheduler switching, and decreasing the nice value. |
| |
| |
| 4.0 Job file format |
| ------------------- |
| As previously described, fio accepts one or more job files describing |
| what it is supposed to do. The job file format is the classic ini file, |
| where the names enclosed in [] brackets define the job name. You are free |
| to use any ascii name you want, except 'global' which has special meaning. |
| A global section sets defaults for the jobs described in that file. A job |
| may override a global section parameter, and a job file may even have |
| several global sections if so desired. A job is only affected by a global |
| section residing above it. If the first character in a line is a ';' or a |
| '#', the entire line is discarded as a comment. |
| |
| So let's look at a really simple job file that defines two processes, each |
| randomly reading from a 128MB file. |
| |
| ; -- start job file -- |
| [global] |
| rw=randread |
| size=128m |
| |
| [job1] |
| |
| [job2] |
| |
| ; -- end job file -- |
| |
| As you can see, the job file sections themselves are empty as all the |
| described parameters are shared. As no filename= option is given, fio |
| makes up a filename for each of the jobs as it sees fit. On the command |
| line, this job would look as follows: |
| |
| $ fio --name=global --rw=randread --size=128m --name=job1 --name=job2 |
| |
| |
| Let's look at an example that has a number of processes writing randomly |
| to files. |
| |
| ; -- start job file -- |
| [random-writers] |
| ioengine=libaio |
| iodepth=4 |
| rw=randwrite |
| bs=32k |
| direct=0 |
| size=64m |
| numjobs=4 |
| |
| ; -- end job file -- |
| |
| Here we have no global section, as we only have one job defined anyway. |
| We want to use async io here, with a depth of 4 for each file. We also |
| increased the buffer size used to 32KB and define numjobs to 4 to |
| fork 4 identical jobs. The result is 4 processes each randomly writing |
| to their own 64MB file. Instead of using the above job file, you could |
| have given the parameters on the command line. For this case, you would |
| specify: |
| |
| $ fio --name=random-writers --ioengine=libaio --iodepth=4 --rw=randwrite --bs=32k --direct=0 --size=64m --numjobs=4 |
| |
| 4.1 Environment variables |
| ------------------------- |
| |
| fio also supports environment variable expansion in job files. Any |
| substring of the form "${VARNAME}" as part of an option value (in other |
| words, on the right of the `='), will be expanded to the value of the |
| environment variable called VARNAME. If no such environment variable |
| is defined, or VARNAME is the empty string, the empty string will be |
| substituted. |
| |
| As an example, let's look at a sample fio invocation and job file: |
| |
| $ SIZE=64m NUMJOBS=4 fio jobfile.fio |
| |
| ; -- start job file -- |
| [random-writers] |
| rw=randwrite |
| size=${SIZE} |
| numjobs=${NUMJOBS} |
| ; -- end job file -- |
| |
| This will expand to the following equivalent job file at runtime: |
| |
| ; -- start job file -- |
| [random-writers] |
| rw=randwrite |
| size=64m |
| numjobs=4 |
| ; -- end job file -- |
| |
| fio ships with a few example job files, you can also look there for |
| inspiration. |
| |
| 4.2 Reserved keywords |
| --------------------- |
| |
| Additionally, fio has a set of reserved keywords that will be replaced |
| internally with the appropriate value. Those keywords are: |
| |
| $pagesize The architecture page size of the running system |
| $mb_memory Megabytes of total memory in the system |
| $ncpus Number of online available CPUs |
| |
| These can be used on the command line or in the job file, and will be |
| automatically substituted with the current system values when the job |
| is run. Simple math is also supported on these keywords, so you can |
| perform actions like: |
| |
| size=8*$mb_memory |
| |
| and get that properly expanded to 8 times the size of memory in the |
| machine. |
| |
| |
| 5.0 Detailed list of parameters |
| ------------------------------- |
| |
| This section describes in details each parameter associated with a job. |
| Some parameters take an option of a given type, such as an integer or |
| a string. The following types are used: |
| |
| str String. This is a sequence of alpha characters. |
| time Integer with possible time suffix. In seconds unless otherwise |
| specified, use eg 10m for 10 minutes. Accepts s/m/h for seconds, |
| minutes, and hours. |
| int SI integer. A whole number value, which may contain a suffix |
| describing the base of the number. Accepted suffixes are k/m/g/t/p, |
| meaning kilo, mega, giga, tera, and peta. The suffix is not case |
| sensitive, and you may also include trailing 'b' (eg 'kb' is the same |
| as 'k'). So if you want to specify 4096, you could either write |
| out '4096' or just give 4k. The suffixes signify base 2 values, so |
| 1024 is 1k and 1024k is 1m and so on, unless the suffix is explicitly |
| set to a base 10 value using 'kib', 'mib', 'gib', etc. If that is the |
| case, then 1000 is used as the multiplier. This can be handy for |
| disks, since manufacturers generally use base 10 values when listing |
| the capacity of a drive. If the option accepts an upper and lower |
| range, use a colon ':' or minus '-' to separate such values. May also |
| include a prefix to indicate numbers base. If 0x is used, the number |
| is assumed to be hexadecimal. See irange. |
| bool Boolean. Usually parsed as an integer, however only defined for |
| true and false (1 and 0). |
| irange Integer range with suffix. Allows value range to be given, such |
| as 1024-4096. A colon may also be used as the separator, eg |
| 1k:4k. If the option allows two sets of ranges, they can be |
| specified with a ',' or '/' delimiter: 1k-4k/8k-32k. Also see |
| int. |
| float_list A list of floating numbers, separated by a ':' character. |
| |
| With the above in mind, here follows the complete list of fio job |
| parameters. |
| |
| name=str ASCII name of the job. This may be used to override the |
| name printed by fio for this job. Otherwise the job |
| name is used. On the command line this parameter has the |
| special purpose of also signaling the start of a new |
| job. |
| |
| description=str Text description of the job. Doesn't do anything except |
| dump this text description when this job is run. It's |
| not parsed. |
| |
| directory=str Prefix filenames with this directory. Used to place files |
| in a different location than "./". |
| |
| filename=str Fio normally makes up a filename based on the job name, |
| thread number, and file number. If you want to share |
| files between threads in a job or several jobs, specify |
| a filename for each of them to override the default. If |
| the ioengine used is 'net', the filename is the host, port, |
| and protocol to use in the format of =host,port,protocol. |
| See ioengine=net for more. If the ioengine is file based, you |
| can specify a number of files by separating the names with a |
| ':' colon. So if you wanted a job to open /dev/sda and /dev/sdb |
| as the two working files, you would use |
| filename=/dev/sda:/dev/sdb. On Windows, disk devices are accessed |
| as \\.\PhysicalDrive0 for the first device, \\.\PhysicalDrive1 |
| for the second etc. If the wanted filename does need to |
| include a colon, then escape that with a '\' character. |
| For instance, if the filename is "/dev/dsk/foo@3,0:c", |
| then you would use filename="/dev/dsk/foo@3,0\:c". |
| '-' is a reserved name, meaning stdin or stdout. Which of the |
| two depends on the read/write direction set. |
| |
| opendir=str Tell fio to recursively add any file it can find in this |
| directory and down the file system tree. |
| |
| lockfile=str Fio defaults to not locking any files before it does |
| IO to them. If a file or file descriptor is shared, fio |
| can serialize IO to that file to make the end result |
| consistent. This is usual for emulating real workloads that |
| share files. The lock modes are: |
| |
| none No locking. The default. |
| exclusive Only one thread/process may do IO, |
| excluding all others. |
| readwrite Read-write locking on the file. Many |
| readers may access the file at the |
| same time, but writes get exclusive |
| access. |
| |
| The option may be post-fixed with a lock batch number. If |
| set, then each thread/process may do that amount of IOs to |
| the file before giving up the lock. Since lock acquisition is |
| expensive, batching the lock/unlocks will speed up IO. |
| |
| readwrite=str |
| rw=str Type of io pattern. Accepted values are: |
| |
| read Sequential reads |
| write Sequential writes |
| randwrite Random writes |
| randread Random reads |
| rw,readwrite Sequential mixed reads and writes |
| randrw Random mixed reads and writes |
| |
| For the mixed io types, the default is to split them 50/50. |
| For certain types of io the result may still be skewed a bit, |
| since the speed may be different. It is possible to specify |
| a number of IO's to do before getting a new offset, this is |
| one by appending a ':<nr>' to the end of the string given. |
| For a random read, it would look like 'rw=randread:8' for |
| passing in an offset modifier with a value of 8. If the |
| suffix is used with a sequential IO pattern, then the value |
| specified will be added to the generated offset for each IO. |
| For instance, using rw=write:4k will skip 4k for every |
| write. It turns sequential IO into sequential IO with holes. |
| See the 'rw_sequencer' option. |
| |
| rw_sequencer=str If an offset modifier is given by appending a number to |
| the rw=<str> line, then this option controls how that |
| number modifies the IO offset being generated. Accepted |
| values are: |
| |
| sequential Generate sequential offset |
| identical Generate the same offset |
| |
| 'sequential' is only useful for random IO, where fio would |
| normally generate a new random offset for every IO. If you |
| append eg 8 to randread, you would get a new random offset for |
| every 8 IO's. The result would be a seek for only every 8 |
| IO's, instead of for every IO. Use rw=randread:8 to specify |
| that. As sequential IO is already sequential, setting |
| 'sequential' for that would not result in any differences. |
| 'identical' behaves in a similar fashion, except it sends |
| the same offset 8 number of times before generating a new |
| offset. |
| |
| kb_base=int The base unit for a kilobyte. The defacto base is 2^10, 1024. |
| Storage manufacturers like to use 10^3 or 1000 as a base |
| ten unit instead, for obvious reasons. Allow values are |
| 1024 or 1000, with 1024 being the default. |
| |
| randrepeat=bool For random IO workloads, seed the generator in a predictable |
| way so that results are repeatable across repetitions. |
| |
| use_os_rand=bool Fio can either use the random generator supplied by the OS |
| to generator random offsets, or it can use it's own internal |
| generator (based on Tausworthe). Default is to use the |
| internal generator, which is often of better quality and |
| faster. |
| |
| fallocate=str Whether pre-allocation is performed when laying down files. |
| Accepted values are: |
| |
| none Do not pre-allocate space |
| posix Pre-allocate via posix_fallocate() |
| keep Pre-allocate via fallocate() with |
| FALLOC_FL_KEEP_SIZE set |
| 0 Backward-compatible alias for 'none' |
| 1 Backward-compatible alias for 'posix' |
| |
| May not be available on all supported platforms. 'keep' is only |
| available on Linux.If using ZFS on Solaris this must be set to |
| 'none' because ZFS doesn't support it. Default: 'posix'. |
| |
| fadvise_hint=bool By default, fio will use fadvise() to advise the kernel |
| on what IO patterns it is likely to issue. Sometimes you |
| want to test specific IO patterns without telling the |
| kernel about it, in which case you can disable this option. |
| If set, fio will use POSIX_FADV_SEQUENTIAL for sequential |
| IO and POSIX_FADV_RANDOM for random IO. |
| |
| size=int The total size of file io for this job. Fio will run until |
| this many bytes has been transferred, unless runtime is |
| limited by other options (such as 'runtime', for instance). |
| Unless specific nrfiles and filesize options are given, |
| fio will divide this size between the available files |
| specified by the job. If not set, fio will use the full |
| size of the given files or devices. If the the files |
| do not exist, size must be given. It is also possible to |
| give size as a percentage between 1 and 100. If size=20% |
| is given, fio will use 20% of the full size of the given |
| files or devices. |
| |
| filesize=int Individual file sizes. May be a range, in which case fio |
| will select sizes for files at random within the given range |
| and limited to 'size' in total (if that is given). If not |
| given, each created file is the same size. |
| |
| fill_device=bool |
| fill_fs=bool Sets size to something really large and waits for ENOSPC (no |
| space left on device) as the terminating condition. Only makes |
| sense with sequential write. For a read workload, the mount |
| point will be filled first then IO started on the result. This |
| option doesn't make sense if operating on a raw device node, |
| since the size of that is already known by the file system. |
| Additionally, writing beyond end-of-device will not return |
| ENOSPC there. |
| |
| blocksize=int |
| bs=int The block size used for the io units. Defaults to 4k. Values |
| can be given for both read and writes. If a single int is |
| given, it will apply to both. If a second int is specified |
| after a comma, it will apply to writes only. In other words, |
| the format is either bs=read_and_write or bs=read,write. |
| bs=4k,8k will thus use 4k blocks for reads, and 8k blocks |
| for writes. If you only wish to set the write size, you |
| can do so by passing an empty read size - bs=,8k will set |
| 8k for writes and leave the read default value. |
| |
| blockalign=int |
| ba=int At what boundary to align random IO offsets. Defaults to |
| the same as 'blocksize' the minimum blocksize given. |
| Minimum alignment is typically 512b for using direct IO, |
| though it usually depends on the hardware block size. This |
| option is mutually exclusive with using a random map for |
| files, so it will turn off that option. |
| |
| blocksize_range=irange |
| bsrange=irange Instead of giving a single block size, specify a range |
| and fio will mix the issued io block sizes. The issued |
| io unit will always be a multiple of the minimum value |
| given (also see bs_unaligned). Applies to both reads and |
| writes, however a second range can be given after a comma. |
| See bs=. |
| |
| bssplit=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: |
| |
| 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: |
| |
| 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: |
| |
| 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. |
| |
| bssplit also supports giving separate splits to reads and |
| writes. The format is identical to what bs= accepts. You |
| have to separate the read and write parts with a comma. So |
| 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 |
| |
| blocksize_unaligned |
| bs_unaligned If this option is given, any byte size value within bsrange |
| may be used as a block range. This typically wont work with |
| direct IO, as that normally requires sector alignment. |
| |
| zero_buffers If this option is given, fio will init the IO buffers to |
| all zeroes. The default is to fill them with random data. |
| |
| refill_buffers If this option is given, fio will refill the IO buffers |
| on every submit. The default is to only fill it at init |
| time and reuse that data. Only makes sense if zero_buffers |
| isn't specified, naturally. If data verification is enabled, |
| refill_buffers is also automatically enabled. |
| |
| scramble_buffers=bool If refill_buffers is too costly and the target is |
| using data deduplication, then setting this option will |
| slightly modify the IO buffer contents to defeat normal |
| de-dupe attempts. This is not enough to defeat more clever |
| block compression attempts, but it will stop naive dedupe of |
| blocks. Default: true. |
| |
| buffer_compress_percentage=int If this is set, then fio will attempt to |
| provide IO buffer content (on WRITEs) that compress to |
| the specified level. Fio does this by providing a mix of |
| random data and zeroes. Note that this is per block size |
| unit, for file/disk wide compression level that matches |
| this setting, you'll also want to set refill_buffers. |
| |
| buffer_compress_chunk=int See buffer_compress_percentage. This |
| setting allows fio to manage how big the ranges of random |
| data and zeroed data is. Without this set, fio will |
| provide buffer_compress_percentage of blocksize random |
| data, followed by the remaining zeroed. With this set |
| to some chunk size smaller than the block size, fio can |
| alternate random and zeroed data throughout the IO |
| buffer. |
| |
| nrfiles=int Number of files to use for this job. Defaults to 1. |
| |
| openfiles=int Number of files to keep open at the same time. Defaults to |
| the same as nrfiles, can be set smaller to limit the number |
| simultaneous opens. |
| |
| file_service_type=str Defines how fio decides which file from a job to |
| service next. The following types are defined: |
| |
| random Just choose a file at random. |
| |
| roundrobin Round robin over open files. This |
| is the default. |
| |
| sequential Finish one file before moving on to |
| the next. Multiple files can still be |
| open depending on 'openfiles'. |
| |
| The string can have a number appended, indicating how |
| often to switch to a new file. So if option random:4 is |
| given, fio will switch to a new random file after 4 ios |
| have been issued. |
| |
| ioengine=str Defines how the job issues io to the file. The following |
| types are defined: |
| |
| sync Basic read(2) or write(2) io. lseek(2) is |
| used to position the io location. |
| |
| psync Basic pread(2) or pwrite(2) io. |
| |
| vsync Basic readv(2) or writev(2) IO. |
| |
| libaio Linux native asynchronous io. Note that Linux |
| may only support queued behaviour with |
| non-buffered IO (set direct=1 or buffered=0). |
| This engine defines engine specific options. |
| |
| posixaio glibc posix asynchronous io. |
| |
| solarisaio Solaris native asynchronous io. |
| |
| windowsaio Windows native asynchronous io. |
| |
| mmap File is memory mapped and data copied |
| to/from using memcpy(3). |
| |
| splice splice(2) is used to transfer the data and |
| vmsplice(2) to transfer data from user |
| space to the kernel. |
| |
| syslet-rw Use the syslet system calls to make |
| regular read/write async. |
| |
| sg SCSI generic sg v3 io. May either be |
| synchronous using the SG_IO ioctl, or if |
| the target is an sg character device |
| we use read(2) and write(2) for asynchronous |
| io. |
| |
| null Doesn't transfer any data, just pretends |
| to. This is mainly used to exercise fio |
| itself and for debugging/testing purposes. |
| |
| net Transfer over the network to given host:port. |
| Depending on the protocol used, the hostname, |
| port, listen and filename options are used to |
| specify what sort of connection to make, while |
| the protocol option determines which protocol |
| will be used. |
| This engine defines engine specific options. |
| |
| netsplice Like net, but uses splice/vmsplice to |
| map data and send/receive. |
| This engine defines engine specific options. |
| |
| cpuio Doesn't transfer any data, but burns CPU |
| cycles according to the cpuload= and |
| cpucycle= options. Setting cpuload=85 |
| will cause that job to do nothing but burn |
| 85% of the CPU. In case of SMP machines, |
| use numjobs=<no_of_cpu> to get desired CPU |
| usage, as the cpuload only loads a single |
| CPU at the desired rate. |
| |
| guasi The GUASI IO engine is the Generic Userspace |
| Asyncronous Syscall Interface approach |
| to async IO. See |
| |
| http://www.xmailserver.org/guasi-lib.html |
| |
| for more info on GUASI. |
| |
| rdma The RDMA I/O engine supports both RDMA |
| memory semantics (RDMA_WRITE/RDMA_READ) and |
| channel semantics (Send/Recv) for the |
| InfiniBand, RoCE and iWARP protocols. |
| |
| external Prefix to specify loading an external |
| IO engine object file. Append the engine |
| filename, eg ioengine=external:/tmp/foo.o |
| to load ioengine foo.o in /tmp. |
| |
| iodepth=int This defines how many io units to keep in flight against |
| the file. The default is 1 for each file defined in this |
| job, can be overridden with a larger value for higher |
| concurrency. Note that increasing iodepth beyond 1 will not |
| affect synchronous ioengines (except for small degress when |
| verify_async is in use). Even async engines may impose OS |
| restrictions causing the desired depth not to be achieved. |
| This may happen on Linux when using libaio and not setting |
| direct=1, since buffered IO is not async on that OS. Keep an |
| eye on the IO depth distribution in the fio output to verify |
| that the achieved depth is as expected. Default: 1. |
| |
| iodepth_batch_submit=int |
| iodepth_batch=int This defines how many pieces of IO to submit at once. |
| It defaults to 1 which means that we submit each IO |
| as soon as it is available, but can be raised to submit |
| bigger batches of IO at the time. |
| |
| iodepth_batch_complete=int This defines how many pieces of IO to retrieve |
| at once. It defaults to 1 which means that we'll ask |
| for a minimum of 1 IO in the retrieval process from |
| the kernel. The IO retrieval will go on until we |
| hit the limit set by iodepth_low. If this variable is |
| set to 0, then fio will always check for completed |
| events before queuing more IO. This helps reduce |
| IO latency, at the cost of more retrieval system calls. |
| |
| iodepth_low=int The low water mark indicating when to start filling |
| the queue again. Defaults to the same as iodepth, meaning |
| that fio will attempt to keep the queue full at all times. |
| If iodepth is set to eg 16 and iodepth_low is set to 4, then |
| after fio has filled the queue of 16 requests, it will let |
| the depth drain down to 4 before starting to fill it again. |
| |
| direct=bool If value is true, use non-buffered io. This is usually |
| O_DIRECT. Note that ZFS on Solaris doesn't support direct io. |
| On Windows the synchronous ioengines don't support direct io. |
| |
| buffered=bool If value is true, use buffered io. This is the opposite |
| of the 'direct' option. Defaults to true. |
| |
| offset=int Start io at the given offset in the file. The data before |
| the given offset will not be touched. This effectively |
| caps the file size at real_size - offset. |
| |
| offset_increment=int If this is provided, then the real offset becomes |
| the offset + offset_increment * thread_number, where the |
| thread number is a counter that starts at 0 and is incremented |
| for each job. This option is useful if there are several jobs |
| which are intended to operate on a file in parallel in disjoint |
| segments, with even spacing between the starting points. |
| |
| fsync=int If writing to a file, issue a sync of the dirty data |
| for every number of blocks given. For example, if you give |
| 32 as a parameter, fio will sync the file for every 32 |
| writes issued. If fio is using non-buffered io, we may |
| not sync the file. The exception is the sg io engine, which |
| synchronizes the disk cache anyway. |
| |
| fdatasync=int Like fsync= but uses fdatasync() to only sync data and not |
| metadata blocks. |
| In FreeBSD and Windows there is no fdatasync(), this falls back to |
| using fsync() |
| |
| sync_file_range=str:val Use sync_file_range() for every 'val' number of |
| write operations. Fio will track range of writes that |
| have happened since the last sync_file_range() call. 'str' |
| can currently be one or more of: |
| |
| wait_before SYNC_FILE_RANGE_WAIT_BEFORE |
| write SYNC_FILE_RANGE_WRITE |
| wait_after SYNC_FILE_RANGE_WAIT_AFTER |
| |
| So if you do sync_file_range=wait_before,write:8, fio would |
| use SYNC_FILE_RANGE_WAIT_BEFORE | SYNC_FILE_RANGE_WRITE for |
| every 8 writes. Also see the sync_file_range(2) man page. |
| This option is Linux specific. |
| |
| overwrite=bool If true, writes to a file will always overwrite existing |
| data. If the file doesn't already exist, it will be |
| created before the write phase begins. If the file exists |
| and is large enough for the specified write phase, nothing |
| will be done. |
| |
| end_fsync=bool If true, fsync file contents when the job exits. |
| |
| fsync_on_close=bool If true, fio will fsync() a dirty file on close. |
| This differs from end_fsync in that it will happen on every |
| file close, not just at the end of the job. |
| |
| rwmixread=int How large a percentage of the mix should be reads. |
| |
| rwmixwrite=int How large a percentage of the mix should be writes. If both |
| rwmixread and rwmixwrite is given and the values do not add |
| up to 100%, the latter of the two will be used to override |
| the first. This may interfere with a given rate setting, |
| if fio is asked to limit reads or writes to a certain rate. |
| If that is the case, then the distribution may be skewed. |
| |
| norandommap Normally fio will cover every block of the file when doing |
| random IO. If this option is given, fio will just get a |
| new random offset without looking at past io history. This |
| means that some blocks may not be read or written, and that |
| some blocks may be read/written more than once. This option |
| is mutually exclusive with verify= if and only if multiple |
| blocksizes (via bsrange=) are used, since fio only tracks |
| complete rewrites of blocks. |
| |
| softrandommap=bool See norandommap. If fio runs with the random block map |
| enabled and it fails to allocate the map, if this option is |
| set it will continue without a random block map. As coverage |
| will not be as complete as with random maps, this option is |
| disabled by default. |
| |
| nice=int Run the job with the given nice value. See man nice(2). |
| |
| prio=int Set the io priority value of this job. Linux limits us to |
| a positive value between 0 and 7, with 0 being the highest. |
| See man ionice(1). |
| |
| prioclass=int Set the io priority class. See man ionice(1). |
| |
| thinktime=int Stall the job x microseconds after an io has completed before |
| issuing the next. May be used to simulate processing being |
| done by an application. See thinktime_blocks and |
| thinktime_spin. |
| |
| thinktime_spin=int |
| Only valid if thinktime is set - pretend to spend CPU time |
| doing something with the data received, before falling back |
| to sleeping for the rest of the period specified by |
| thinktime. |
| |
| thinktime_blocks |
| Only valid if thinktime is set - control how many blocks |
| to issue, before waiting 'thinktime' usecs. If not set, |
| defaults to 1 which will make fio wait 'thinktime' usecs |
| after every block. |
| |
| rate=int Cap the bandwidth used by this job. The number is in bytes/sec, |
| the normal suffix rules apply. You can use rate=500k to limit |
| reads and writes to 500k each, or you can specify read and |
| writes separately. Using rate=1m,500k would limit reads to |
| 1MB/sec and writes to 500KB/sec. Capping only reads or |
| writes can be done with rate=,500k or rate=500k,. The former |
| will only limit writes (to 500KB/sec), the latter will only |
| limit reads. |
| |
| ratemin=int Tell fio to do whatever it can to maintain at least this |
| bandwidth. Failing to meet this requirement, will cause |
| the job to exit. The same format as rate is used for |
| read vs write separation. |
| |
| rate_iops=int Cap the bandwidth to this number of IOPS. Basically the same |
| as rate, just specified independently of bandwidth. If the |
| job is given a block size range instead of a fixed value, |
| the smallest block size is used as the metric. The same format |
| as rate is used for read vs write seperation. |
| |
| rate_iops_min=int If fio doesn't meet this rate of IO, it will cause |
| the job to exit. The same format as rate is used for read vs |
| write seperation. |
| |
| ratecycle=int Average bandwidth for 'rate' and 'ratemin' over this number |
| of milliseconds. |
| |
| cpumask=int Set the CPU affinity of this job. The parameter given is a |
| bitmask of allowed CPU's 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 |
| 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 cpus_allowed. |
| |
| cpus_allowed=str Controls the same options as cpumask, but it allows a text |
| setting of the permitted CPUs instead. So to use CPUs 1 and |
| 5, you would specify cpus_allowed=1,5. This options also |
| allows a range of CPUs. Say you wanted a binding to CPUs |
| 1, 5, and 8-15, you would set cpus_allowed=1,5,8-15. |
| |
| startdelay=time Start this job the specified number of seconds after fio |
| has started. Only useful if the job file contains several |
| jobs, and you want to delay starting some jobs to a certain |
| time. |
| |
| runtime=time Tell fio to terminate processing after the specified number |
| of seconds. 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. |
| |
| time_based If set, fio will run for the duration of the runtime |
| specified even if the file(s) are completely read or |
| written. It will simply loop over the same workload |
| as many times as the runtime allows. |
| |
| ramp_time=time If set, fio will run the specified workload for this amount |
| of time before logging any performance numbers. Useful for |
| letting performance settle before logging results, thus |
| minimizing the runtime required for stable results. Note |
| that the ramp_time is considered lead in time for a job, |
| thus it will increase the total runtime if a special timeout |
| or runtime is specified. |
| |
| invalidate=bool Invalidate the buffer/page cache parts for this file prior |
| to starting io. Defaults to true. |
| |
| sync=bool Use sync io for buffered writes. For the majority of the |
| io engines, this means using O_SYNC. |
| |
| iomem=str |
| mem=str Fio can use various types of memory as the io unit buffer. |
| The allowed values are: |
| |
| malloc Use memory from malloc(3) as the buffers. |
| |
| shm Use shared memory as the buffers. Allocated |
| through shmget(2). |
| |
| shmhuge Same as shm, but use huge pages as backing. |
| |
| mmap Use mmap to allocate buffers. May either be |
| anonymous memory, or can be file backed if |
| a filename is given after the option. The |
| format is mem=mmap:/path/to/file. |
| |
| mmaphuge Use a memory mapped huge file as the buffer |
| backing. Append filename after mmaphuge, ala |
| mem=mmaphuge:/hugetlbfs/file |
| |
| The area allocated is a function of the maximum allowed |
| bs size for the job, multiplied by the io depth given. Note |
| that for shmhuge and mmaphuge to work, the system must have |
| free huge pages allocated. This can normally be checked |
| and set by reading/writing /proc/sys/vm/nr_hugepages on a |
| Linux system. Fio assumes a huge page is 4MB in size. So |
| to calculate the number of huge pages you need for a given |
| job file, add up the io depth of all jobs (normally one unless |
| iodepth= is used) and multiply by the maximum bs set. Then |
| divide that number by the huge page size. You can see the |
| size of the huge pages in /proc/meminfo. If no huge pages |
| are allocated by having a non-zero number in nr_hugepages, |
| using mmaphuge or shmhuge will fail. Also see hugepage-size. |
| |
| mmaphuge also needs to have hugetlbfs mounted and the file |
| location should point there. So if it's mounted in /huge, |
| you would use mem=mmaphuge:/huge/somefile. |
| |
| iomem_align=int This indiciates the memory alignment of the IO memory buffers. |
| Note that the given alignment is applied to the first IO unit |
| buffer, if using iodepth the alignment of the following buffers |
| are given by the bs used. In other words, if using a bs that is |
| a multiple of the page sized in the system, all buffers will |
| be aligned to this value. If using a bs that is not page |
| aligned, the alignment of subsequent IO memory buffers is the |
| sum of the iomem_align and bs used. |
| |
| hugepage-size=int |
| Defines the size of a huge page. Must at least be equal |
| to the system setting, see /proc/meminfo. Defaults to 4MB. |
| Should probably always be a multiple of megabytes, so using |
| hugepage-size=Xm is the preferred way to set this to avoid |
| setting a non-pow-2 bad value. |
| |
| exitall When one job finishes, terminate the rest. The default is |
| to wait for each job to finish, sometimes that is not the |
| desired action. |
| |
| bwavgtime=int Average the calculated bandwidth over the given time. Value |
| is specified in milliseconds. |
| |
| iopsavgtime=int Average the calculated IOPS over the given time. Value |
| is specified in milliseconds. |
| |
| create_serialize=bool If true, serialize the file creating for the jobs. |
| This may be handy to avoid interleaving of data |
| files, which may greatly depend on the filesystem |
| used and even the number of processors in the system. |
| |
| create_fsync=bool fsync the data file after creation. This is the |
| default. |
| |
| create_on_open=bool Don't pre-setup the files for IO, just create open() |
| when it's time to do IO to that file. |
| |
| create_only=bool If true, fio will only run the setup phase of the job. |
| If files need to be laid out or updated on disk, only |
| that will be done. The actual job contents are not |
| executed. |
| |
| pre_read=bool If this is given, files will be pre-read into memory before |
| starting the given IO operation. This will also clear |
| the 'invalidate' flag, since it is pointless to pre-read |
| and then drop the cache. This will only work for IO engines |
| that are seekable, since they allow you to read the same data |
| multiple times. Thus it will not work on eg network or splice |
| IO. |
| |
| unlink=bool Unlink the job files when done. Not the default, as repeated |
| runs of that job would then waste time recreating the file |
| set again and again. |
| |
| loops=int Run the specified number of iterations of this job. Used |
| to repeat the same workload a given number of times. Defaults |
| to 1. |
| |
| do_verify=bool Run the verify phase after a write phase. Only makes sense if |
| verify is set. Defaults to 1. |
| |
| verify=str If writing to a file, fio can verify the file contents |
| after each iteration of the job. The allowed values are: |
| |
| md5 Use an md5 sum of the data area and store |
| it in the header of each block. |
| |
| crc64 Use an experimental crc64 sum of the data |
| area and store it in the header of each |
| block. |
| |
| crc32c Use a crc32c sum of the data area and store |
| it in the header of each block. |
| |
| crc32c-intel Use hardware assisted crc32c calcuation |
| provided on SSE4.2 enabled processors. Falls |
| back to regular software crc32c, if not |
| supported by the system. |
| |
| crc32 Use a crc32 sum of the data area and store |
| it in the header of each block. |
| |
| crc16 Use a crc16 sum of the data area and store |
| it in the header of each block. |
| |
| crc7 Use a crc7 sum of the data area and store |
| it in the header of each block. |
| |
| sha512 Use sha512 as the checksum function. |
| |
| sha256 Use sha256 as the checksum function. |
| |
| sha1 Use optimized sha1 as the checksum function. |
| |
| meta Write extra information about each io |
| (timestamp, block number etc.). The block |
| number is verified. See also verify_pattern. |
| |
| null Only pretend to verify. Useful for testing |
| internals with ioengine=null, not for much |
| else. |
| |
| This option can be used for repeated burn-in tests of a |
| system to make sure that the written data is also |
| correctly read back. If the data direction given is |
| a read or random read, fio will assume that it should |
| verify a previously written file. If the data direction |
| includes any form of write, the verify will be of the |
| newly written data. |
| |
| verifysort=bool If set, 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 IO where the red-black tree sorting CPU time becomes |
| significant. |
| |
| verify_offset=int Swap the verification header with data somewhere else |
| in the block before writing. Its swapped back before |
| verifying. |
| |
| verify_interval=int Write the verification header at a finer granularity |
| than the blocksize. It will be written for chunks the |
| size of header_interval. blocksize should divide this |
| evenly. |
| |
| verify_pattern=str If set, fio will fill the io buffers with this |
| pattern. Fio defaults to filling with totally random |
| bytes, but sometimes it's interesting to fill with a known |
| pattern for io verification purposes. Depending on the |
| width of the pattern, fio will fill 1/2/3/4 bytes of the |
| buffer at the time(it can be either a decimal or a hex number). |
| The verify_pattern if larger than a 32-bit quantity has to |
| be a hex number that starts with either "0x" or "0X". Use |
| with verify=meta. |
| |
| verify_fatal=bool Normally fio will keep checking the entire contents |
| before quitting on a block verification failure. If this |
| option is set, fio will exit the job on the first observed |
| failure. |
| |
| verify_dump=bool If set, dump the contents of both the original data |
| block and the data block we read off disk to files. This |
| allows later analysis to inspect just what kind of data |
| corruption occurred. Off by default. |
| |
| verify_async=int Fio will normally verify IO inline from the submitting |
| thread. This option takes an integer describing how many |
| async offload threads to create for IO verification instead, |
| causing fio to offload the duty of verifying IO contents |
| to one or more separate threads. If using this offload |
| option, even sync IO engines can benefit from using an |
| iodepth setting higher than 1, as it allows them to have |
| IO in flight while verifies are running. |
| |
| verify_async_cpus=str Tell fio to set the given CPU affinity on the |
| async IO verification threads. See cpus_allowed for the |
| format used. |
| |
| verify_backlog=int Fio will normally verify the written contents of a |
| job that utilizes verify once that job has completed. In |
| other words, everything is written then everything is read |
| back and verified. You may want to verify continually |
| instead for a variety of reasons. Fio stores the meta data |
| associated with an IO block in memory, so for large |
| verify workloads, quite a bit of memory would be used up |
| holding this meta data. If this option is enabled, fio |
| will write only N blocks before verifying these blocks. |
| |
| will verify the previously written blocks before continuing |
| to write new ones. |
| |
| verify_backlog_batch=int Control how many blocks fio will verify |
| if verify_backlog is set. If not set, will default to |
| the value of verify_backlog (meaning the entire queue |
| is read back and verified). If verify_backlog_batch is |
| less than verify_backlog then not all blocks will be verified, |
| if verify_backlog_batch is larger than verify_backlog, some |
| blocks will be verified more than once. |
| |
| stonewall |
| wait_for_previous Wait for preceeding jobs in the job file to exit, before |
| starting this one. Can be used to insert serialization |
| points in the job file. A stone wall also implies starting |
| a new reporting group. |
| |
| new_group Start a new reporting group. If this option isn't given, |
| jobs in a file will be part of the same reporting group |
| unless separated by a stone wall (or if it's a group |
| by itself, with the numjobs option). |
| |
| numjobs=int Create the specified number of clones of this job. May be |
| used to setup a larger number of threads/processes doing |
| the same thing. We regard that grouping of jobs as a |
| specific group. |
| |
| group_reporting If 'numjobs' is set, it may be interesting to display |
| statistics for the group as a whole instead of for each |
| individual job. This is especially true of 'numjobs' is |
| large, looking at individual thread/process output quickly |
| becomes unwieldy. If 'group_reporting' is specified, fio |
| will show the final report per-group instead of per-job. |
| |
| thread fio defaults to forking jobs, however if this option is |
| given, fio will use pthread_create(3) to create threads |
| instead. |
| |
| zonesize=int Divide a file into zones of the specified size. See zoneskip. |
| |
| zoneskip=int Skip the specified number of bytes when zonesize data has |
| been read. The two zone options can be used to only do |
| io on zones of a file. |
| |
| write_iolog=str Write the issued io patterns to the specified file. See |
| read_iolog. Specify a separate file for each job, otherwise |
| the iologs will be interspersed and the file may be corrupt. |
| |
| read_iolog=str Open an iolog with the specified file name and replay the |
| io patterns it contains. This can be used to store a |
| workload and replay it sometime later. The iolog given |
| may also be a blktrace binary file, which allows fio |
| to replay a workload captured by blktrace. See blktrace |
| for how to capture such logging data. For blktrace replay, |
| the file needs to be turned into a blkparse binary data |
| file first (blkparse <device> -o /dev/null -d file_for_fio.bin). |
| |
| replay_no_stall=int When replaying I/O with read_iolog the default behavior |
| is to attempt to respect the time stamps within the log and |
| replay them with the appropriate delay between IOPS. By |
| setting this variable fio will not respect the timestamps and |
| attempt to replay them as fast as possible while still |
| respecting ordering. The result is the same I/O pattern to a |
| given device, but different timings. |
| |
| replay_redirect=str While replaying I/O patterns using read_iolog the |
| default behavior is to replay the IOPS onto the major/minor |
| device that each IOP was recorded from. This is sometimes |
| undesireable because on a different machine those major/minor |
| numbers can map to a different device. Changing hardware on |
| the same system can also result in a different major/minor |
| mapping. Replay_redirect causes all IOPS to be replayed onto |
| the single specified device regardless of the device it was |
| recorded from. i.e. replay_redirect=/dev/sdc would cause all |
| IO in the blktrace to be replayed onto /dev/sdc. This means |
| multiple devices will be replayed onto a single, if the trace |
| contains multiple devices. If you want multiple devices to be |
| replayed concurrently to multiple redirected devices you must |
| blkparse your trace into separate traces and replay them with |
| independent fio invocations. Unfortuantely this also breaks |
| the strict time ordering between multiple device accesses. |
| |
| write_bw_log=str If given, write a bandwidth log of the jobs in this job |
| file. Can be used to store data of the bandwidth of the |
| jobs in their lifetime. The included fio_generate_plots |
| script uses gnuplot to turn these text files into nice |
| graphs. See write_lat_log for behaviour of given |
| filename. For this option, the suffix is _bw.log. |
| |
| write_lat_log=str Same as write_bw_log, except that this option stores io |
| submission, completion, and total latencies instead. If no |
| filename is given with this option, the default filename of |
| "jobname_type.log" is used. Even if the filename is given, |
| fio will still append the type of log. So if one specifies |
| |
| write_lat_log=foo |
| |
| The actual log names will be foo_slat.log, foo_slat.log, |
| and foo_lat.log. This helps fio_generate_plot fine the logs |
| automatically. |
| |
| write_bw_log=str If given, write an IOPS log of the jobs in this job |
| file. See write_bw_log. |
| |
| write_iops_log=str Same as write_bw_log, but writes IOPS. If no filename is |
| given with this option, the default filename of |
| "jobname_type.log" is used. Even if the filename is given, |
| fio will still append the type of log. |
| |
| log_avg_msec=int By default, fio will log an entry in the iops, latency, |
| or bw log for every IO that completes. When writing to the |
| disk log, that can quickly grow to a very large size. Setting |
| this option makes fio average the each log entry over the |
| specified period of time, reducing the resolution of the log. |
| Defaults to 0. |
| |
| lockmem=int Pin down the specified amount of memory with mlock(2). Can |
| potentially be used instead of removing memory or booting |
| with less memory to simulate a smaller amount of memory. |
| |
| exec_prerun=str Before running this job, issue the command specified |
| through system(3). |
| |
| exec_postrun=str After the job completes, issue the command specified |
| though system(3). |
| |
| ioscheduler=str Attempt to switch the device hosting the file to the specified |
| io scheduler before running. |
| |
| cpuload=int If the job is a CPU cycle eater, attempt to use the specified |
| percentage of CPU cycles. |
| |
| cpuchunks=int If the job is a CPU cycle eater, split the load into |
| cycles of the given time. In microseconds. |
| |
| disk_util=bool Generate disk utilization statistics, if the platform |
| supports it. Defaults to on. |
| |
| disable_lat=bool Disable measurements of total latency numbers. Useful |
| only for cutting back the number of calls to gettimeofday, |
| as that does impact performance at really high IOPS rates. |
| Note that to really get rid of a large amount of these |
| calls, this option must be used with disable_slat and |
| disable_bw as well. |
| |
| disable_clat=bool Disable measurements of completion latency numbers. See |
| disable_lat. |
| |
| disable_slat=bool Disable measurements of submission latency numbers. See |
| disable_slat. |
| |
| disable_bw=bool Disable measurements of throughput/bandwidth numbers. See |
| disable_lat. |
| |
| clat_percentiles=bool Enable the reporting of percentiles of |
| completion latencies. |
| |
| percentile_list=float_list Overwrite the default list of percentiles |
| for completion latencies. Each number is a floating |
| number in the range (0,100], and the maximum length of |
| the list is 20. Use ':' to separate the numbers, and |
| list the numbers in ascending order. For example, |
| --percentile_list=99.5:99.9 will cause fio to report |
| the values of completion latency below which 99.5% and |
| 99.9% of the observed latencies fell, respectively. |
| |
| gtod_reduce=bool Enable all of the gettimeofday() reducing options |
| (disable_clat, disable_slat, disable_bw) plus reduce |
| precision of the timeout somewhat to really shrink |
| the gettimeofday() call count. With this option enabled, |
| we only do about 0.4% of the gtod() calls we would have |
| done if all time keeping was enabled. |
| |
| gtod_cpu=int Sometimes it's cheaper to dedicate a single thread of |
| execution to just getting the current time. Fio (and |
| databases, for instance) are very intensive on gettimeofday() |
| calls. With this option, you can set one CPU aside for |
| doing nothing but logging current time to a shared memory |
| location. Then the other threads/processes that run IO |
| workloads need only copy that segment, instead of entering |
| the kernel with a gettimeofday() call. The CPU set aside |
| for doing these time calls will be excluded from other |
| uses. Fio will manually clear it from the CPU mask of other |
| jobs. |
| |
| continue_on_error=str Normally fio will exit the job on the first observed |
| failure. If this option is set, fio will continue the job when |
| there is a 'non-fatal error' (EIO or EILSEQ) until the runtime |
| is exceeded or the I/O size specified is completed. If this |
| option is used, there are two more stats that are appended, |
| the total error count and the first error. The error field |
| given in the stats is the first error that was hit during the |
| run. |
| |
| The allowed values are: |
| |
| none Exit on any IO or verify errors. |
| |
| read Continue on read errors, exit on all others. |
| |
| write Continue on write errors, exit on all others. |
| |
| io Continue on any IO error, exit on all others. |
| |
| verify Continue on verify errors, exit on all others. |
| |
| all Continue on all errors. |
| |
| 0 Backward-compatible alias for 'none'. |
| |
| 1 Backward-compatible alias for 'all'. |
| |
| cgroup=str Add job to this control group. If it doesn't exist, it will |
| be created. The system must have a mounted cgroup blkio |
| mount point for this to work. If your system doesn't have it |
| mounted, you can do so with: |
| |
| # mount -t cgroup -o blkio none /cgroup |
| |
| cgroup_weight=int Set the weight of the cgroup to this value. See |
| the documentation that comes with the kernel, allowed values |
| are in the range of 100..1000. |
| |
| cgroup_nodelete=bool Normally fio will delete the cgroups it has created after |
| the job completion. To override this behavior and to leave |
| cgroups around after the job completion, set cgroup_nodelete=1. |
| This can be useful if one wants to inspect various cgroup |
| files after job completion. Default: false |
| |
| uid=int Instead of running as the invoking user, set the user ID to |
| this value before the thread/process does any work. |
| |
| gid=int Set group ID, see uid. |
| |
| flow_id=int The ID of the flow. If not specified, it defaults to being a |
| global flow. See flow. |
| |
| flow=int Weight in token-based flow control. If this value is used, then |
| there is a 'flow counter' which is used to regulate the |
| proportion of activity between two or more jobs. fio attempts |
| to keep this flow counter near zero. The 'flow' parameter |
| stands for how much should be added or subtracted to the flow |
| counter on each iteration of the main I/O loop. That is, if |
| one job has flow=8 and another job has flow=-1, then there |
| will be a roughly 1:8 ratio in how much one runs vs the other. |
| |
| flow_watermark=int The maximum value that the absolute value of the flow |
| counter is allowed to reach before the job must wait for a |
| lower value of the counter. |
| |
| flow_sleep=int The period of time, in microseconds, to wait after the flow |
| watermark has been exceeded before retrying operations |
| |
| In addition, there are some parameters which are only valid when a specific |
| ioengine is in use. These are used identically to normal parameters, with the |
| caveat that when used on the command line, they must come after the ioengine |
| that defines them is selected. |
| |
| [libaio] userspace_reap Normally, with the libaio engine in use, fio will use |
| the io_getevents system call to reap newly returned events. |
| With this flag turned on, the AIO ring will be read directly |
| from user-space to reap events. The reaping mode is only |
| enabled when polling for a minimum of 0 events (eg when |
| iodepth_batch_complete=0). |
| |
| [netsplice] hostname=str |
| [net] hostname=str The host name or IP address to use for TCP or UDP based IO. |
| If the job is a TCP listener or UDP reader, the hostname is not |
| used and must be omitted. |
| |
| [netsplice] port=int |
| [net] port=int The TCP or UDP port to bind to or connect to. |
| |
| [netsplice] protocol=str |
| [netsplice] proto=str |
| [net] protocol=str |
| [net] proto=str The network protocol to use. Accepted values are: |
| |
| tcp Transmission control protocol |
| udp Unreliable datagram protocol |
| unix UNIX domain socket |
| |
| When the protocol is TCP or UDP, the port must also be given, |
| as well as the hostname if the job is a TCP listener or UDP |
| reader. For unix sockets, the normal filename option should be |
| used and the port is invalid. |
| |
| [net] listen For TCP network connections, tell fio to listen for incoming |
| connections rather than initiating an outgoing connection. The |
| hostname must be omitted if this option is used. |
| |
| |
| 6.0 Interpreting the output |
| --------------------------- |
| |
| fio spits out a lot of output. While running, fio will display the |
| status of the jobs created. An example of that would be: |
| |
| Threads: 1: [_r] [24.8% done] [ 13509/ 8334 kb/s] [eta 00h:01m:31s] |
| |
| The characters inside the square brackets denote the current status of |
| each thread. The possible values (in typical life cycle order) are: |
| |
| Idle Run |
| ---- --- |
| P Thread setup, but not started. |
| C Thread created. |
| I Thread initialized, waiting. |
| p Thread running pre-reading file(s). |
| R Running, doing sequential reads. |
| r Running, doing random reads. |
| W Running, doing sequential writes. |
| w Running, doing random writes. |
| M Running, doing mixed sequential reads/writes. |
| m Running, doing mixed random reads/writes. |
| F Running, currently waiting for fsync() |
| V Running, doing verification of written data. |
| E Thread exited, not reaped by main thread yet. |
| _ Thread reaped, or |
| X Thread reaped, exited with an error. |
| K Thread reaped, exited due to signal. |
| |
| The other values are fairly self explanatory - number of threads |
| currently running and doing io, rate of io since last check (read speed |
| listed first, then write speed), and the estimated completion percentage |
| and time for the running group. It's impossible to estimate runtime of |
| the following groups (if any). Note that the string is displayed in order, |
| so it's possible to tell which of the jobs are currently doing what. The |
| first character is the first job defined in the job file, and so forth. |
| |
| When fio is done (or interrupted by ctrl-c), it will show the data for |
| each thread, group of threads, and disks in that order. For each data |
| direction, the output looks like: |
| |
| Client1 (g=0): err= 0: |
| write: io= 32MB, bw= 666KB/s, iops=89 , runt= 50320msec |
| slat (msec): min= 0, max= 136, avg= 0.03, stdev= 1.92 |
| clat (msec): min= 0, max= 631, avg=48.50, stdev=86.82 |
| bw (KB/s) : min= 0, max= 1196, per=51.00%, avg=664.02, stdev=681.68 |
| cpu : usr=1.49%, sys=0.25%, ctx=7969, majf=0, minf=17 |
| IO depths : 1=0.1%, 2=0.3%, 4=0.5%, 8=99.0%, 16=0.0%, 32=0.0%, >32=0.0% |
| submit : 0=0.0%, 4=100.0%, 8=0.0%, 16=0.0%, 32=0.0%, 64=0.0%, >=64=0.0% |
| complete : 0=0.0%, 4=100.0%, 8=0.0%, 16=0.0%, 32=0.0%, 64=0.0%, >=64=0.0% |
| issued r/w: total=0/32768, short=0/0 |
| lat (msec): 2=1.6%, 4=0.0%, 10=3.2%, 20=12.8%, 50=38.4%, 100=24.8%, |
| lat (msec): 250=15.2%, 500=0.0%, 750=0.0%, 1000=0.0%, >=2048=0.0% |
| |
| The client number is printed, along with the group id and error of that |
| thread. Below is the io statistics, here for writes. In the order listed, |
| they denote: |
| |
| io= Number of megabytes io performed |
| bw= Average bandwidth rate |
| iops= Average IOs performed per second |
| runt= The runtime of that thread |
| slat= Submission latency (avg being the average, stdev being the |
| standard deviation). This is the time it took to submit |
| the io. For sync io, the slat is really the completion |
| latency, since queue/complete is one operation there. This |
| value can be in milliseconds or microseconds, fio will choose |
| the most appropriate base and print that. In the example |
| above, milliseconds is the best scale. Note: in --minimal mode |
| latencies are always expressed in microseconds. |
| clat= Completion latency. Same names as slat, this denotes the |
| time from submission to completion of the io pieces. For |
| sync io, clat will usually be equal (or very close) to 0, |
| as the time from submit to complete is basically just |
| CPU time (io has already been done, see slat explanation). |
| bw= Bandwidth. Same names as the xlat stats, but also includes |
| an approximate percentage of total aggregate bandwidth |
| this thread received in this group. This last value is |
| only really useful if the threads in this group are on the |
| same disk, since they are then competing for disk access. |
| cpu= CPU usage. User and system time, along with the number |
| of context switches this thread went through, usage of |
| system and user time, and finally the number of major |
| and minor page faults. |
| IO depths= The distribution of io depths over the job life time. The |
| numbers are divided into powers of 2, so for example the |
| 16= entries includes depths up to that value but higher |
| than the previous entry. In other words, it covers the |
| range from 16 to 31. |
| IO submit= How many pieces of IO were submitting in a single submit |
| call. Each entry denotes that amount and below, until |
| the previous entry - eg, 8=100% mean that we submitted |
| anywhere in between 5-8 ios per submit call. |
| IO complete= Like the above submit number, but for completions instead. |
| IO issued= The number of read/write requests issued, and how many |
| of them were short. |
| IO latencies= The distribution of IO completion latencies. This is the |
| time from when IO leaves fio and when it gets completed. |
| The numbers follow the same pattern as the IO depths, |
| meaning that 2=1.6% means that 1.6% of the IO completed |
| within 2 msecs, 20=12.8% means that 12.8% of the IO |
| took more than 10 msecs, but less than (or equal to) 20 msecs. |
| |
| After each client has been listed, the group statistics are printed. They |
| will look like this: |
| |
| Run status group 0 (all jobs): |
| READ: io=64MB, aggrb=22178, minb=11355, maxb=11814, mint=2840msec, maxt=2955msec |
| WRITE: io=64MB, aggrb=1302, minb=666, maxb=669, mint=50093msec, maxt=50320msec |
| |
| For each data direction, it prints: |
| |
| io= Number of megabytes io performed. |
| aggrb= Aggregate bandwidth of threads in this group. |
| minb= The minimum average bandwidth a thread saw. |
| maxb= The maximum average bandwidth a thread saw. |
| mint= The smallest runtime of the threads in that group. |
| maxt= The longest runtime of the threads in that group. |
| |
| And finally, the disk statistics are printed. They will look like this: |
| |
| Disk stats (read/write): |
| sda: ios=16398/16511, merge=30/162, ticks=6853/819634, in_queue=826487, util=100.00% |
| |
| Each value is printed for both reads and writes, with reads first. The |
| numbers denote: |
| |
| ios= Number of ios performed by all groups. |
| merge= Number of merges io the io scheduler. |
| ticks= Number of ticks we kept the disk busy. |
| io_queue= Total time spent in the disk queue. |
| util= The disk utilization. A value of 100% means we kept the disk |
| busy constantly, 50% would be a disk idling half of the time. |
| |
| It is also possible to get fio to dump the current output while it is |
| running, without terminating the job. To do that, send fio the USR1 signal. |
| |
| |
| 7.0 Terse output |
| ---------------- |
| |
| For scripted usage where you typically want to generate tables or graphs |
| of the results, fio can output the results in a semicolon separated format. |
| The format is one long line of values, such as: |
| |
| 2;card0;0;0;7139336;121836;60004;1;10109;27.932460;116.933948;220;126861;3495.446807;1085.368601;226;126864;3523.635629;1089.012448;24063;99944;50.275485%;59818.274627;5540.657370;7155060;122104;60004;1;8338;29.086342;117.839068;388;128077;5032.488518;1234.785715;391;128085;5061.839412;1236.909129;23436;100928;50.287926%;59964.832030;5644.844189;14.595833%;19.394167%;123706;0;7313;0.1%;0.1%;0.1%;0.1%;0.1%;0.1%;100.0%;0.00%;0.00%;0.00%;0.00%;0.00%;0.00%;0.01%;0.02%;0.05%;0.16%;6.04%;40.40%;52.68%;0.64%;0.01%;0.00%;0.01%;0.00%;0.00%;0.00%;0.00%;0.00% |
| A description of this job goes here. |
| |
| The job description (if provided) follows on a second line. |
| |
| To enable terse output, use the --minimal command line option. The first |
| value is the version of the terse output format. If the output has to |
| be changed for some reason, this number will be incremented by 1 to |
| signify that change. |
| |
| Split up, the format is as follows: |
| |
| terse version, fio version, jobname, groupid, error |
| READ status: |
| Total IO (KB), bandwidth (KB/sec), IOPS, runtime (msec) |
| Submission latency: min, max, mean, deviation (usec) |
| Completion latency: min, max, mean, deviation (usec) |
| Completion latency percentiles: 20 fields (see below) |
| Total latency: min, max, mean, deviation (usec) |
| Bw (KB/s): min, max, aggregate percentage of total, mean, deviation |
| WRITE status: |
| Total IO (KB), bandwidth (KB/sec), IOPS, runtime (msec) |
| Submission latency: min, max, mean, deviation (usec) |
| Completion latency: min, max, mean, deviation (usec) |
| Completion latency percentiles: 20 fields (see below) |
| Total latency: min, max, mean, deviation (usec) |
| Bw (KB/s): min, max, aggregate percentage of total, mean, deviation |
| CPU usage: user, system, context switches, major faults, minor faults |
| IO depths: <=1, 2, 4, 8, 16, 32, >=64 |
| IO latencies microseconds: <=2, 4, 10, 20, 50, 100, 250, 500, 750, 1000 |
| IO latencies milliseconds: <=2, 4, 10, 20, 50, 100, 250, 500, 750, 1000, 2000, >=2000 |
| Disk utilization: Disk name, Read ios, write ios, |
| Read merges, write merges, |
| Read ticks, write ticks, |
| Time spent in queue, disk utilization percentage |
| Additional Info (dependant on continue_on_error, default off): total # errors, first error code |
| |
| Additional Info (dependant on description being set): Text description |
| |
| Completion latency percentiles can be a grouping of up to 20 sets, so |
| for the terse output fio writes all of them. Each field will look like this: |
| |
| 1.00%=6112 |
| |
| which is the Xth percentile, and the usec latency associated with it. |
| |
| For disk utilization, all disks used by fio are shown. So for each disk |
| there will be a disk utilization section. |
| |
| |
| 8.0 Trace file format |
| --------------------- |
| There are two trace file format that you can encounter. The older (v1) format |
| is unsupported since version 1.20-rc3 (March 2008). It will still be described |
| below in case that you get an old trace and want to understand it. |
| |
| In any case the trace is a simple text file with a single action per line. |
| |
| |
| 8.1 Trace file format v1 |
| ------------------------ |
| Each line represents a single io action in the following format: |
| |
| rw, offset, length |
| |
| where rw=0/1 for read/write, and the offset and length entries being in bytes. |
| |
| This format is not supported in Fio versions => 1.20-rc3. |
| |
| |
| 8.2 Trace file format v2 |
| ------------------------ |
| The second version of the trace file format was added in Fio version 1.17. |
| It allows to access more then one file per trace and has a bigger set of |
| possible file actions. |
| |
| The first line of the trace file has to be: |
| |
| fio version 2 iolog |
| |
| Following this can be lines in two different formats, which are described below. |
| |
| The file management format: |
| |
| filename action |
| |
| The filename is given as an absolute path. The action can be one of these: |
| |
| add Add the given filename to the trace |
| open Open the file with the given filename. The filename has to have |
| been added with the add action before. |
| close Close the file with the given filename. The file has to have been |
| opened before. |
| |
| |
| The file io action format: |
| |
| filename action offset length |
| |
| The filename is given as an absolute path, and has to have been added and opened |
| before it can be used with this format. The offset and length are given in |
| bytes. The action can be one of these: |
| |
| wait Wait for 'offset' microseconds. Everything below 100 is discarded. |
| read Read 'length' bytes beginning from 'offset' |
| write Write 'length' bytes beginning from 'offset' |
| sync fsync() the file |
| datasync fdatasync() the file |
| trim trim the given file from the given 'offset' for 'length' bytes |