gstripe
—
control utility for striped devices
gstripe |
create [-v ]
[-s stripesize]
name prov prov ... |
gstripe |
destroy [-fv ]
name ... |
gstripe |
label [-hv ]
[-s stripesize]
name prov prov ... |
gstripe |
stop [-fv ]
name ... |
gstripe |
clear [-v ]
prov ... |
The gstripe
utility is used for setting up a stripe on
two or more disks. The striped device can be configured using two different
methods: “manual” or “automatic”. When using the
“manual” method, no metadata are stored on the devices, so the
striped device has to be configured by hand every time it is needed. The
“automatic” method uses on-disk metadata to detect devices. Once
devices are labeled, they will be automatically detected and configured.
The first argument to gstripe
indicates an
action to be performed:
create
- Set up a striped device from the given devices with specified
name. This is the “manual” method and
the stripe will not exist after a reboot (see
DESCRIPTION above). The kernel
module geom_stripe.ko will be loaded if it is not
loaded already.
label
- Set up a striped device from the given devices with the specified
name. This is the “automatic” method,
where metadata are stored in every device's last sector. The kernel module
geom_stripe.ko will be loaded if it is not loaded
already.
stop
- Turn off an existing striped device by its name.
This command does not touch on-disk metadata!
destroy
- Same as
stop
.
clear
- Clear metadata on the given devices.
dump
- Dump metadata stored on the given devices.
list
- See
geom(8).
status
- See
geom(8).
load
- See
geom(8).
unload
- See
geom(8).
Additional options:
-f
- Force the removal of the specified striped device.
-h
- Hardcode providers' names in metadata.
-s
stripesize
- Specifies size of stripe block in bytes. The
stripesize must be a multiple of the largest sector
size of all the providers.
-v
- Be more verbose.
The following
sysctl(8)
variables can be used to control the behavior of the
STRIPE
GEOM class. The default value is shown next to
each variable.
- kern.geom.stripe.debug:
0
- Debug level of the
STRIPE
GEOM class. This can be
set to a number between 0 and 3 inclusive. If set to 0 minimal debug
information is printed, and if set to 3 the maximum amount of debug
information is printed.
- kern.geom.stripe.fast:
0
- If set to a non-zero value enable “fast mode” instead of the
normal “economic mode”. Compared to “economic
mode”, “fast mode” uses more memory, but it is much
faster for smaller stripe sizes. If enough memory cannot be allocated,
STRIPE
will fall back to “economic
mode”.
- kern.geom.stripe.maxmem:
13107200
- Maximum amount of memory that can be consumed by “fast mode”
(in bytes). This
sysctl(8)
variable is read-only and can only be set as a tunable in
loader.conf(5).
- kern.geom.stripe.fast_failed
- A count of how many times “fast mode” has failed due to an
insufficient amount of memory. If this value is large, you should consider
increasing the kern.geom.stripe.maxmem value.
Exit status is 0 on success, and 1 if the command fails.
The following example shows how to set up a striped device from four disks with
a 128KB stripe size for automatic configuration, create a file system on it,
and mount it:
gstripe label -v -s 131072 data /dev/da0 /dev/da1 /dev/da2 /dev/da3
newfs /dev/stripe/data
mount /dev/stripe/data /mnt
[...]
umount /mnt
gstripe stop data
gstripe unload
The gstripe
interleave is in number of bytes, unlike
ccdconfig(8)
which use the number of sectors. A
ccdconfig(8)
ileave of ‘128
’ is
64 KB (128 512B sectors). The same stripe interleave would be specified as
‘65536
’ for
gstripe
.
The gstripe
utility appeared in FreeBSD
5.3.