per job is supported
.RE
.TP
+.BI dedupe_global \fR=\fPbool
+This controls whether the deduplication buffers will be shared amongst
+all jobs that have this option set. The buffers are spread evenly between
+participating jobs.
+.P
+.RS
+Note that \fBdedupe_mode\fR must be set to \fBworking_set\fR for this to work.
+Can be used in combination with compression
+.TP
.BI invalidate \fR=\fPbool
Invalidate the buffer/page cache parts of the files to be used prior to
starting I/O if the platform and file type support it. Defaults to true.
\fBmmaphuge\fR 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 4MiB in size. So to calculate the number of huge pages you need for a
-given job file, add up the I/O depth of all jobs (normally one unless
-\fBiodepth\fR 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
+is 2 or 4MiB in size depending on the platform. So to calculate the number of
+huge pages you need for a given job file, add up the I/O depth of all jobs
+(normally one unless \fBiodepth\fR 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 \fBmmaphuge\fR or \fBshmhuge\fR will fail. Also
see \fBhugepage\-size\fR.
.P
\fBbs\fR used.
.TP
.BI hugepage\-size \fR=\fPint
-Defines the size of a huge page. Must at least be equal to the system
-setting, see `/proc/meminfo'. Defaults to 4MiB. 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.
+Defines the size of a huge page. Must at least be equal to the system setting,
+see `/proc/meminfo' and `/sys/kernel/mm/hugepages/'. Defaults to 2 or 4MiB
+depending on the platform. 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.
.TP
.BI lockmem \fR=\fPint
Pin the specified amount of memory with \fBmlock\fR\|(2). Can be used to
.B pvsync2
Basic \fBpreadv2\fR\|(2) or \fBpwritev2\fR\|(2) I/O.
.TP
+.B io_uring
+Fast Linux native asynchronous I/O. Supports async IO
+for both direct and buffered IO.
+This engine defines engine specific options.
+.TP
+.B io_uring_cmd
+Fast Linux native asynchronous I/O for passthrough commands.
+This engine defines engine specific options.
+.TP
.B libaio
Linux native asynchronous I/O. Note that Linux may only support
queued behavior with non-buffered I/O (set `direct=1' or
.TP
.B exec
Execute 3rd party tools. Could be used to perform monitoring during jobs runtime.
+.TP
+.B xnvme
+I/O engine using the xNVMe C API, for NVMe devices. The xnvme engine provides
+flexibility to access GNU/Linux Kernel NVMe driver via libaio, IOCTLs, io_uring,
+the SPDK NVMe driver, or your own custom NVMe driver. The xnvme engine includes
+engine specific options. (See \fIhttps://xnvme.io/\fR).
.SS "I/O engine specific parameters"
In addition, there are some parameters which are only valid when a specific
\fBioengine\fR is in use. These are used identically to normal parameters,
\fBcmdprio_percentage\fR option.
.RE
.TP
-.BI (io_uring)fixedbufs
+.BI (io_uring,io_uring_cmd)fixedbufs
If fio is asked to do direct IO, then Linux will map pages for each IO call, and
release them when IO is done. If this option is set, the pages are pre-mapped
before IO is started. This eliminates the need to map and release for each IO.
This is more efficient, and reduces the IO latency as well.
.TP
-.BI (io_uring)hipri
+.BI (io_uring,io_uring_cmd)nonvectored
+With this option, fio will use non-vectored read/write commands, where address
+must contain the address directly. Default is -1.
+.TP
+.BI (io_uring,io_uring_cmd)force_async
+Normal operation for io_uring is to try and issue an sqe as non-blocking first,
+and if that fails, execute it in an async manner. With this option set to N,
+then every N request fio will ask sqe to be issued in an async manner. Default
+is 0.
+.TP
+.BI (io_uring,io_uring_cmd,xnvme)hipri
If this option is set, fio will attempt to use polled IO completions. Normal IO
completions generate interrupts to signal the completion of IO, polled
completions do not. Hence they are require active reaping by the application.
The benefits are more efficient IO for high IOPS scenarios, and lower latencies
for low queue depth IO.
.TP
-.BI (io_uring)registerfiles
+.BI (io_uring,io_uring_cmd)registerfiles
With this option, fio registers the set of files being used with the kernel.
This avoids the overhead of managing file counts in the kernel, making the
submission and completion part more lightweight. Required for the below
sqthread_poll option.
.TP
-.BI (io_uring)sqthread_poll
+.BI (io_uring,io_uring_cmd,xnvme)sqthread_poll
Normally fio will submit IO by issuing a system call to notify the kernel of
available items in the SQ ring. If this option is set, the act of submitting IO
will be done by a polling thread in the kernel. This frees up cycles for fio, at
the cost of using more CPU in the system.
.TP
-.BI (io_uring)sqthread_poll_cpu
+.BI (io_uring,io_uring_cmd)sqthread_poll_cpu
When `sqthread_poll` is set, this option provides a way to define which CPU
should be used for the polling thread.
.TP
+.BI (io_uring_cmd)cmd_type \fR=\fPstr
+Specifies the type of uring passthrough command to be used. Supported
+value is nvme. Default is nvme.
+.TP
.BI (libaio)userspace_reap
Normally, with the libaio engine in use, fio will use the
\fBio_getevents\fR\|(3) system call to reap newly returned events. With
the full *type.id* string. If no type. prefix is given, fio will add 'client.'
by default.
.TP
+.BI (rados)conf \fR=\fPstr
+Specifies the configuration path of ceph cluster, so conf file does not
+have to be /etc/ceph/ceph.conf.
+.TP
.BI (rbd,rados)busy_poll \fR=\fPbool
Poll store instead of waiting for completion. Usually this provides better
throughput at cost of higher(up to 100%) CPU utilization.
.TP
.BI (exec)std_redirect\fR=\fbool
If set, stdout and stderr streams are redirected to files named from the job name. Default is true.
+.TP
+.BI (xnvme)xnvme_async\fR=\fPstr
+Select the xnvme async command interface. This can take these values.
+.RS
+.RS
+.TP
+.B emu
+This is default and used to emulate asynchronous I/O
+.TP
+.BI thrpool
+Use thread pool for Asynchronous I/O
+.TP
+.BI io_uring
+Use Linux io_uring/liburing for Asynchronous I/O
+.TP
+.BI libaio
+Use Linux aio for Asynchronous I/O
+.TP
+.BI posix
+Use POSIX aio for Asynchronous I/O
+.TP
+.BI nil
+Use nil-io; For introspective perf. evaluation
+.RE
+.RE
+.TP
+.BI (xnvme)xnvme_sync\fR=\fPstr
+Select the xnvme synchronous command interface. This can take these values.
+.RS
+.RS
+.TP
+.B nvme
+This is default and uses Linux NVMe Driver ioctl() for synchronous I/O
+.TP
+.BI psync
+Use pread()/write() for synchronous I/O
+.RE
+.RE
+.TP
+.BI (xnvme)xnvme_admin\fR=\fPstr
+Select the xnvme admin command interface. This can take these values.
+.RS
+.RS
+.TP
+.B nvme
+This is default and uses Linux NVMe Driver ioctl() for admin commands
+.TP
+.BI block
+Use Linux Block Layer ioctl() and sysfs for admin commands
+.TP
+.BI file_as_ns
+Use file-stat as to construct NVMe idfy responses
+.RE
+.RE
+.TP
+.BI (xnvme)xnvme_dev_nsid\fR=\fPint
+xnvme namespace identifier, for userspace NVMe driver.
+.TP
+.BI (xnvme)xnvme_iovec
+If this option is set, xnvme will use vectored read/write commands.
.SS "I/O depth"
.TP
.BI iodepth \fR=\fPint
.BI write_iolog \fR=\fPstr
Write the issued I/O patterns to the specified file. See
\fBread_iolog\fR. Specify a separate file for each job, otherwise the
-iologs will be interspersed and the file may be corrupt.
+iologs will be interspersed and the file may be corrupt. This file will be
+opened in append mode.
.TP
.BI read_iolog \fR=\fPstr
Open an iolog with the specified filename and replay the I/O patterns it
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