tunefs
—
tune up an existing file system
tunefs |
[-AFN ] [-e
maxbpg] [-g
avgfilesize] [-h
avgfpdir] [-l
logsize] [-m
minfree] [-o
optimize_preference] [-q
quota] [-S
sectorsize] special |
filesys |
tunefs
is designed to change the dynamic parameters of a
file system which affect the layout policies.
The following options are supported by
tunefs
:
-A
- Cause the values to be updated in all the alternate superblocks instead of
just the standard superblock. If this option is not used, then use of a
backup superblock by fsck(8)
will lose anything changed by
tunefs
.
-A
is ignored when -N
is
specified.
-F
- Indicates that special is a file system image,
rather than a device name or file system mount point.
special will be accessed ‘as-is’.
-N
- Display all the settable options (after any changes from the tuning
options) but do not cause any of them to be changed.
-e
maxbpg
- This indicates the maximum number of blocks any single file can allocate
out of a cylinder group before it is forced to begin allocating blocks
from another cylinder group. Typically this value is set to about one
quarter of the total blocks in a cylinder group. The intent is to prevent
any single file from using up all the blocks in a single cylinder group,
thus degrading access times for all files subsequently allocated in that
cylinder group. The effect of this limit is to cause big files to do long
seeks more frequently than if they were allowed to allocate all the blocks
in a cylinder group before seeking elsewhere. For file systems with
exclusively large files, this parameter should be set higher.
-g
avgfilesize
- This specifies the expected average file size.
-h
avgfpdir
- This specifies the expected number of files per directory.
-l
logsize
- This value specifies the size of the in-filesystem journaling log file.
The default journaling log file size is described in
wapbl(4). Specifying a size
of zero will cause the in-filesystem journaling log file to be removed the
next time the filesystem is mounted. The size of an existing in-filesystem
journaling log file can not be changed directly. You need to first set the
log file size to zero, then mount the filesystem without logging enabled
(which will remove the log without creating a new one), unmount, set the
size to the new value and finally re-mount with logging enabled.
-m
minfree
- This value specifies the percentage of space held back from normal users;
the minimum free space threshold. The default value is set during creation
of the filesystem, see
newfs(8). This value can be
set to zero, however up to a factor of three in throughput will be lost
over the performance obtained at a 5% threshold. Note that if the value is
raised above the current usage level, users will be unable to allocate
files until enough files have been deleted to get under the higher
threshold.
-o
optimize_preference
- The file system can either try to minimize the time spent allocating
blocks, or it can attempt to minimize the space fragmentation on the disk.
If the value of minfree (see above) is less than 5%, then the file system
should optimize for space to avoid running out of full sized blocks. For
values of minfree greater than or equal to 5%, fragmentation is unlikely
to be problematical, and the file system can be optimized for time.
optimize_preference can be specified as
either space
or
time
.
-q
quota
- enable or disable a quota. quota can be one of
user
, group
,
nouser
or nogroup
to
enable or disable the specified quota type. Multiple
-q
can be used to enable/disable all types at
once.
After enabling a quota,
fsck_ffs(8) has to be
run to compute the correct quota values.
-S
sectorsize
- changes the fsbtodb value in the superblock to reflect a particular
physical sector size. This value is ignored by the
NetBSD kernel but needed by tools like
fsck_ffs(8) to access disk
blocks correctly. The minimum value is
DEV_BSIZE
(512).
Changing the fsbtodb value becomes necessary when a filesystem
image is created for one sector size and then transferred to a device
with a different sector size and should be applied also to the alternate
superblocks.
wapbl(4),
fs(5),
dumpfs(8),
fsck_ffs(8),
newfs(8)
M. McKusick,
W. Joy, S. Leffler, and
R. Fabry, A Fast File System for
UNIX, ACM Transactions on Computer Systems 2,
3, pp 181-197,
August 1984, (reprinted in the
BSD System Manager's Manual, SMM:5).
The tunefs
command appeared in
4.2BSD.
This program should work on mounted and active file systems. Because the
super-block is not kept in the buffer cache, the changes will only take effect
if the program is run on unmounted file systems. To change the root file
system, the system must be rebooted after the file system is tuned.
You can tune a file system, but you can't tune a fish.