- NetBSD Manual Pages
FSCK_LFS(8) NetBSD System Manager's Manual FSCK_LFS(8)
Powered by man-cgi (2021-06-01).
Maintained for NetBSD
by Kimmo Suominen.
Based on man-cgi by Panagiotis Christias.
fsck_lfs -- Log-structured File System consistency check and interactive
fsck_lfs [-dfpqU] [-b block] [-m mode] [-y | -n] filesystem ...
fsck_lfs performs interactive filesystem consistency checks and repair
for each of the filesystems specified on the command line. It is nor-
mally invoked from fsck(8).
The design of LFS takes care that no filesystem inconsistencies can hap-
pen unless hardware or software failures intervene. fsck_lfs will report
and optionally correct any such inconsistencies.
For each corrected inconsistency one or more lines will be printed iden-
tifying the filesystem on which the correction will take place, and the
nature of the correction. After successfully correcting a filesystem,
fsck_lfs will print the number of files on that filesystem, the number of
used and free blocks, and the percentage of fragmentation.
If sent a QUIT signal, fsck_lfs will finish the filesystem checks, then
exit with an abnormal return status.
Without the -p option, fsck_lfs audits and interactively repairs incon-
sistent conditions for filesystems. If the filesystem is inconsistent,
the operator is prompted for concurrence before each correction is
attempted. It should be noted that some of the corrective actions will
result in some loss of data. The amount and severity of data lost may be
determined from the diagnostic output. The default action for each con-
sistency correction is to wait for the operator to respond yes or no. If
the operator does not have write permission on the filesystem fsck_lfs
will default to a -n action.
The following flags are interpreted by fsck_lfs:
-b block Use block as the super block for the filesystem.
-d Print debugging output.
-f Force checking of file systems. Normally, if a file system
is cleanly unmounted, the kernel will set a ``clean flag'' in
the file system superblock, and fsck_lfs will not check the
file system. This option forces fsck_lfs to check the file
system, regardless of the state of the clean flag.
-m mode Use mode specified in octal as the permission bits to use
when creating the lost+found directory rather than the
default 1700. In particular, systems that do not wish to
have lost files accessible by all users on the system should
use a more restrictive set of permissions such as 700.
-n Assume a no response to all questions asked by fsck_lfs
except for `CONTINUE?', which is assumed to be affirmative;
do not open the filesystem for writing.
-p Specify ``preen'' mode. Currently, in this mode fsck_lfs
-q Quiet mode, do not output any messages for clean filesystems.
-U Resolve user ids to user names.
-y Assume a yes response to all questions asked by fsck_lfs;
this should be used with great caution as this is a free
license to continue after essentially unlimited trouble has
Inconsistencies checked are as follows:
1. Blocks claimed by more than one inode.
2. Blocks claimed by an inode outside the range of the filesys-
3. Incorrect link counts.
4. Size checks:
Directory size not a multiple of DIRBLKSIZ.
Partially truncated file.
5. Bad inode format.
6. Directory checks:
File pointing to unallocated inode.
Inode number out of range.
Dot or dot-dot not the first two entries of a directory
or having the wrong inode number.
7. Super Block checks:
More blocks for inodes than there are in the filesystem.
8. Index File checks:
``In use'' inodes on free list, or free inodes not on
Segment block counts incorrect, or ``clean'' segments
containing live data.
Orphaned files and directories (allocated but unreferenced) are, with the
operator's concurrence, reconnected by placing them in the lost+found
directory. The name assigned is the inode number. If the lost+found
directory does not exist, it is created. If there is insufficient space
its size is increased.
Because of inconsistencies between the block device and the buffer cache,
the raw device should always be used.
The diagnostics produced by fsck_lfs are fully enumerated and explained
in Appendix A of Fsck - The UNIX File System Check Program.
fstab(5), fsck(8), newfs_lfs(8), reboot(8)
The fsck_lfs program was first made available in NetBSD 1.4.
Most of the fsck_lfs program was taken from fsck_ffs(8); what was not was
written by Konrad Schroder <perseant@NetBSD.org>.
NetBSD 9.0 July 12, 2014 NetBSD 9.0