NAME¶
fsck.ocfs2.checks - Consistency checks that
fsck.ocfs2(8) performs and
its means for fixing inconsistencies.
DESCRIPTION¶
fsck.ocfs2(8) is used to check an OCFS2 file system. It performs many
consistency checks and will offer to fix faults that it finds. This man page
lists the problems it may find and describes their fixes. The problems are
indexed by the error number that
fsck.ocfs2(8) emits when it describes
the problem and asks if it should be fixed.
The prompts are constructed such that answering 'no' results in no changes to
the file system. This may result in errors later on that stop
fsck.ocfs2(8) from proceeding.
CHECKS¶
EB_BLKNO¶
Extent blocks contain a record of the disk block where they are located. An
extent block was found at a block that didn't match its recorded location.
Answering yes will update the data structure in the extent block to reflect its
real location on disk.
EB_GEN¶
Extent blocks are created with a generation number to match the generation
number of the volume at the time of creation. An extent block was found which
contains a generation number that doesn't match.
Answering yes implies that the generation number is correct and that the extent
block is from a previous file system. The extent block will be ignored and the
file that contains it will lose the data it referenced.
EB_GEN_FIX¶
Extent blocks are created with a generation number to match the generation
number of the volume at the time of creation. An extent block was found which
contains a generation number that doesn't match.
Answering yes implies that the generation number in the extent block is
incorrect and that the extent block is valid. The generation number in the
block is updated to match the generation number in the volume.
EXTENT_MARKED_UNWRITTEN¶
An extent record has the UNWRITTEN flag set, but the filesystem feature set does
not include unwritten extents.
Answering yes clears the UNWRITTEN flag. This is safe to do; as the feature is
disabled anyway.
EXTENT_MARKED_REFCOUNTED¶
An extent record has the REFCOUNTED flag set, but neither the filesystem nor the
file has the REFCOUNTED flag set.
Answering yes clears the REFCOUNTED flag.
EXTENT_BLKNO_UNALIGNED¶
The block that marks the start of an extent should always fall on the start of a
cluster. An extent was found that starts part-way into a cluster.
Answering yes moves the start of the extent back to the start of the addressed
cluster. This may add data to the middle of the file that contains this
extent.
EXTENT_CLUSTERS_OVERRUN¶
An extent was found which claims to contain clusters which are beyond the end of
the volume.
Answering yes clamps the extent to the end of the volume. This may result in a
reduced file size for the file that contains the extent, but it couldn't have
addressed those final clusters anyway. One can imagine this problem arising if
there are problems shrinking a volume.
EXTENT_EB_INVALID¶
Deep extent trees are built by forming a tree out of extent blocks. An extent
tree references an invalid extent block.
Answering yes stops the tree from referencing the invalid extent block. This may
truncate data from the file which contains the tree.
EXTENT_LIST_DEPTH¶
Extent lists contain a record of their depth in the tree. An extent list was
found whose recorded depth doesn't match the position they have in the tree.
Answering yes updates the depth field in the list to match the tree on disk.
EXTENT_LIST_COUNT¶
The number of entries in an extent list is bounded by either the size of the
inode or the size of the block which contains it. An extent list was found
which claims to have more entries than would fit in its container.
Answering yes updates the count field in the extent list to match the container.
Answering no to this question may stop further fixes from being done because
the count value can not be trusted.
EXTENT_LIST_FREE¶
The number of free entries in an extent list must be less than the total number
of entries in the list. A list was found which claims to have more free
entries than possible entries.
Answering yes sets the number of free entries in the list equal to the total
possible entries.
EXTENT_BLKNO_RANGE¶
An extent record was found which references a block which can not be referenced
by an extent. The referenced block is either very early in the volume, and
thus reserved, or beyond the end of the volume.
Answering yes removes this extent record from the tree. This may remove data
from the file which owns the tree but any such data was inaccessible.
CHAIN_CPG¶
The bitmap inode indicates a different clusters per group than the group
descriptor. This value is typically static and only modified by tunefs during
volume resize and that too only on volumes having only one cluster group.
Answering yes updates the clusters per group on the bitmap inode to the
corresponding value in the group descriptor.
SUPERBLOCK_CLUSTERS¶
The super block indicates a different total clusters value than the global
bitmap. This is only possible due to a failed volume resize operation.
Answering yes updates the total clusters in the super block to the value
specified in the global bitmap.
FIXED_CHAIN_CLUSTERS¶
The global bitmap inode was repaired, resulting in a change to the total cluster
count of the filesystem.
Answering yes updates the total clusters in the super block to the value
specified in the global bitmap.
GROUP_UNEXPECTED_DESC¶
The group descriptors that make up the global bitmap chain allocator reside at
predictable locations on disk. A group descriptor was found in the global
bitmap allocator which isn't at one of these locations and so shouldn't be in
the allocator.
Answering yes removes this descriptor from the global bitmap allocator.
GROUP_EXPECTED_DESC¶
The group descriptors that make up the global bitmap chain allocator reside at
predictable locations on disk. A group descriptor at one of these locations
was not linked into the global bitmap allocator.
Answering yes will relink this group into the allocator.
GROUP_GEN¶
A group descriptor was found with a generation number that doesn't match the
generation number of the volume.
Answering yes sets the group descriptor's generation equal to the generation
number in the volume.
GROUP_PARENT¶
Group descriptors contain a pointer to the allocator inode which contains the
chain they belong to. A group descriptor was found in an allocator inode that
doesn't match the descriptor's parent pointer.
Answering yes updates the group descriptor's parent pointer to match the inode
it resides in.
GROUP_DUPLICATE¶
Group descriptors contain a pointer to the allocator inode which contains the
chain they belong to. A group descriptor was found in two allocator inodes so
it may be duplicated.
Answering yes removes the group descriptor from current allocator inode.
GROUP_BLKNO¶
Group descriptors have a field which records their block location on disk. A
group descriptor was found at a given location but is recorded as being
located somewhere else.
Answering yes updates the group descriptor's recorded location to match where it
actually is found on disk.
GROUP_CHAIN¶
Group descriptors are found in a number of different singly-linked chains in an
allocator inode. A group descriptor records the chain number that it is linked
in. A group descriptor was found whose chain field doesn't match the chain it
was found in.
Answering yes sets the group descriptor's chain field to match the chain it is
found in.
GROUP_FREE_BITS¶
A group descriptor records the number of bits in its bitmap that are free. A
group descriptor was found which claims to have more free bits than are valid
in its bitmap.
Answering yes decreases the number of recorded free bits so that it equals the
total number of bits in the group descriptor's bitmap.
CHAIN_COUNT¶
The chain list embedded in an inode is limited by the block size and the number
of bytes consumed by the rest of the inode. A chain list header was found
which claimed that there are more entries in the list then could fit in the
inode.
Answering yes resets the header's cl_count member to the maximum size allowed by
the block size after accounting for the space consumed by the inode.
CHAIN_NEXT_FREE¶
This is identical to CHAIN_COUNT except that it is testing and fixing the
pointer to the next free list entry recorded in the cl_next_free_rec member
instead of the total number of entries.
CHAIN_EMPTY¶
Chain entries need to be packed such that there are no chains without
descriptors found before the chain that is marked as free by the chain header.
A chain without descriptors was found found before that chain that was marked
free.
Answering yes will remove the unused chain and shift the remaining chains
forward in the list.
CHAIN_I_CLUSTERS¶
Chain allocator inodes have an i_clusters value that represents the number of
clusters used by the allocator. An inode was found whose i_clusters value
doesn't match the number of clusters its chains cover.
Answering yes updates i_clusters in the inode to reflect what was actually found
by walking the chain.
CHAIN_I_SIZE¶
Chain allocator inodes multiply the number of bytes per cluster by the their
i_clusters value and store it in i_size. An inode was found which didn't have
the correct value in its i_size.
Answering yes updates i_size to be the product of i_clusters and the cluster
size. Nothing else uses this value, and previous versions of tools didn't
calculate it properly, so don't be too worried if this error appears.
CHAIN_GROUP_BITS¶
The inode that contains an embedded chain list has fields which record the total
number of bits covered by the chain as well as the amount free. These fields
didn't match what was found in the chain.
Answering yes updates the fields in the inode to reflect what was actually found
by walking the chain.
CHAIN_HEAD_LINK_RANGE¶
The header that starts a chain tried to reference a group descriptor at a block
number that couldn't be valid.
Answering yes will clear the reference to this invalid block and truncate the
chain that it started.
CHAIN_LINK_GEN¶
A reference was made to a group descriptor whose generation number doesn't match
the generation of the volume.
Answering yes to this question implies that the group descriptor is invalid and
the chain is truncated at the point that it referred to this invalid group
descriptor. Answering no to this question considers the group descriptor as
valid and its generation may be fixed.
CHAIN_LINK_MAGIC¶
Chains are built by chain headers and group descriptors which are linked
together by block references. A reference was made to a group descriptor at a
given block but a valid group descriptor signature wasn't found at that block.
Answering yes clears the reference to this invalid block and truncates the chain
at the point of the reference.
CHAIN_LINK_RANGE¶
Chains are built by chain headers and group descriptors which are linked
together by block references. A reference a block was found which can't
possibly be valid because it was either too small or extended beyond the
volume.
Answering yes truncates the chain in question by zeroing the invalid block
reference. This shortens the chain in question and could result in more fixes
later if the part of the chain that couldn't be referenced was valid at some
point.
CHAIN_BITS¶
A chain's header contains members which record the total number of bits in the
chain as well as the number of bits that are free. After walking through a
chain it was found that the number of bits recorded in its header don't match
what was found by totalling up the group descriptors.
Answering yes updates the c_total and c_free members of the header to reflect
what was found in the group descriptors in the chain.
DISCONTIG_BG_DEPTH¶
A discontiguous block group has an extent list which records all the clusters
allocated to it. Discontiguous block groups only support extent lists with a
tree depth of 0. A block group claims to have a tree depth greater than 0.
Answering yes will set the tree depth of the extent list to 0.
DISCONTIG_BG_COUNT¶
A discontiguous block group has an extent list which records all the clusters
allocated to it. A block group claims to have more records than can actually
fit.
Answering yes will set the record count to the maximum possible.
DISCONTIG_BG_REC_RANGE¶
Block groups set aside clusters to be used for metadata. A discontiguous block
group claims to contain clusters beyond the end of the volume.
Answering yes will remove the block group.
DISCONTIG_BG_CORRUPT_LEAVES¶
A discontiguous block group has an extent list which records all the clusters
allocated to it. A group has more than one extent claiming to have an
impossible number of clusters.
Answering yes will remove the block group.
DISCONTIG_BG_CLUSTERS¶
Extent records in a discontiguous block group were found having more clusters
allocated then a block group can have.
Answering yes will remove the block group.
DISCONTIG_BG_LESS_CLUSTERS¶
Extent records in a discontiguous block group were found having less clusters
allocated then a block group can have.
Answering yes will remove the block group.
DISCONTIG_BG_NEXT_FREE_REC¶
A discontiguous block group has an extent list which records all the clusters
allocated to it. A group was found with fewer filled in extents than it claims
to have. The filled in extents describe a complete and correct group.
Answering yes will set the used extent count to the number of filled extents.
DISCONTIG_BG_LIST_CORRUPT¶
A discontiguous block group has an extent list which records all the clusters
allocated to it. The group claims to have more extents than is possible, and
the existing extents contain errors.
Answering yes will remove the block group.
DISCONTIG_BG_REC_CORRUPT¶
A discontiguous block group has a extent list which records all the clusters
allocated to it. A group was found with one extent claiming too many clusters
but the sum of the remaining extents are equal to the total clusters a group
must have.
Answering yes will remove the block group.
DISCONTIG_BG_LEAF_CLUSTERS¶
A discontiguous block group has a extent list which records all the clusters
allocated to it. A group was found with one extent claiming too many clusters,
but the remaining extents are correct.
Answering yes will set the number of the clusters on the broken extent to the
difference between the total clusters a group must have and the sum of the
remaining extents.
INODE_ALLOC_REPAIR¶
The inode allocator did not accurately reflect the set of inodes that are free
and in use in the volume.
Answering yes will update the inode allocator bitmaps. Each bit that doesn't
match the state of its inode will be inverted.
INODE_SUBALLOC¶
Each inode records the node whose allocator is responsible for the inode. An
inode was found in a given node's allocator but the inode itself claimed to
belong to a different node.
Answering yes will correct the inode to point to the node's allocator that it
belongs to.
LALLOC_SIZE¶
Each node has a local allocator contained in a block that is used to allocate
clusters in batches. A node's local allocator claims to reflect more bytes
than are possible for the volume's block size.
Answering yes decreases the local allocator's size to reflect the volume's block
size.
LALLOC_NZ_USED¶
A given node's local allocator isn't in use but it claims to have bits in use in
its bitmap.
Answering yes zeros this used field.
LALLOC_NZ_BM¶
A given node's local allocator isn't in use but it has a field which records the
bitmap as starting at a non-zero cluster offset.
Answering yes zeros the bm_off field.
LALLOC_BM_OVERRUN¶
Each local allocator contains a reference to the first cluster that its bitmap
addresses. A given local allocator was found which references a starting
cluster that is beyond the end of the volume.
Answering yes resets the given local allocator. No allocated data will be lost.
LALLOC_BM_SIZE¶
The given local allocator claims to cover more bits than are possible for the
size in bytes of its bitmap.
Answering yes decreases the number of bits the allocator covers to reflect the
size in bytes of the bitmap and resets the allocator. No allocated data will
be lost.
LALLOC_BM_STRADDLE¶
The given local allocator claims to cover a region of clusters which extents
beyond the end of the volume.
Answering yes resets the given local allocator. No allocated data will be lost.
LALLOC_USED_OVERRUN¶
The given local allocator claims to have more bits in use than it has total bits
in its bitmap.
Answering yes decreases the number of bits used so that it equals the total
number of available bits.
LALLOC_CLEAR¶
A local allocator inode was found to have problems. This gives the operator a
chance to just reset the local allocator inode.
Answering yes clears the local allocator. No information is lost but the global
bitmap allocator may need to be updated to reflect clusters that were reserved
for the local allocator but were free.
DEALLOC_COUNT¶
The given truncate log inode contains a count that is greater than the value
that is possible given the size of the inode.
Answering yes resets the count value to the possible maximum.
DEALLOC_USED¶
The given truncate log inode claims to have more records in use than it is
possible to store in the inode.
Answering yes resets the record of the number used to the maximum value
possible.
TRUNCATE_REC_START_RANGE¶
A truncate record was found which claims to start at a cluster that is beyond
the number of clusters in the volume.
Answering yes will clear the truncate record. This may result in previously
freed space being marked as allocated. This will be fixed up later as the
allocator is updated to match what is used by the file system.
TRUNCATE_REC_WRAP¶
Clusters are recorded as 32bit values. A truncate record was found which claims
to have enough clusters to cause this value to wrap. This could never be the
case and is a sure sign of corruption.
Answering yes will clear the truncate record. This may result in previously
freed space being marked as allocated. This will be fixed up later as the
allocator is updated to match what is used by the file system.
TRUNCATE_REC_RANGE¶
A truncate record was found which claims to reference a region of clusters which
partially extends beyond the number of clusters in the volume.
Answering yes will clear the truncate record. This may result in previously
freed space being marked as allocated. This will be fixed up later as the
allocator is updated to match what is used by the file system.
INODE_GEN¶
Inodes are created with a generation number to match the generation number of
the volume at the time of creation. An Inode was found which contains a
generation number that doesn't match.
Answering yes implies that the generation number is correct and that the inode
is from a previous file system. The inode will be recorded as free.
INODE_GEN_FIX¶
Inodes are created with a generation number to match the generation number of
the volume at the time of creation. An inode was found which contains a
generation number that doesn't match.
Answering yes implies that the generation number in the inode is incorrect and
that the inode is valid. The generation number in the inode is updated to
match the generation number in the volume.
INODE_BLKNO¶
Inodes contain a field that must match the block that they reside in. An inode
was found at a block that doesn't match the field in the inode.
Answering yes updates the field to match the inode's position on disk.
ROOT_NOTDIR¶
The super block contains a reference to the inode that contains the root
directory. This block was found to contain an inode that isn't a directory.
Answering yes clears this inode. The operator will be asked to recreate the root
directory at a point in the near future.
INODE_NZ_DTIME¶
Inodes contain a field describing the time at which they were deleted. This can
not be set for an inode that is still in use. An inode was found which is in
use but which contains a non-zero dtime.
Answering yes implies that the inode is still valid and resets its dtime to
zero.
LINK_FAST_DATA¶
The target name for a symbolic link is stored either as file contents for that
inode or in the inode structure itself on disk. Only small destination names
are stored in the inode structure. The i_blocks field of the inode indicates
that the name is stored in the inode when it is zero. An inode was found that
has both i_blocks set to zero and file contents.
Answering yes clears the inode and so deletes the link.
LINK_NULLTERM¶
The targets of links on disk must be null terminated. A link was found whose
target wasn't null terminated.
Answering yes clears the inode and so deletes the link.
LINK_SIZE¶
The size of a link on disk must match the length of its target string. A link
was found whose size does not.
Answering yes updates the link's size to reflect the length of its target
string.
LINK_BLOCKS¶
Links can not be sparse. There must be exactly as many blocks allocated as are
needed to cover its size. A link was found which doesn't have enough blocks
allocated to cover its size.
Answering yes clears the link's inode thus deleting the link.
DIR_ZERO¶
Directories must at least contain a block that has the "." and
".." entries. A directory was found which doesn't contain any
blocks.
Answering yes to this question clears the directory's inode thus deleting the
directory.
INODE_SIZE¶
Certain inodes record the size of the data they reference in an i_size field.
This can be the number of bytes in a file, directory, or symlink target which
are stored in data mapped by extents of clusters. This error occurs when the
extent lists are walked and the amount of data found does not match what is
stored in i_size.
Answering yes to this question updates the inode's i_size to match the amount of
data referenced by the extent lists. It is vitally important that i_size
matches the extent lists and so answering yes is strongly encouraged.
INODE_SPARSE_SIZE¶
Certain inodes record the size of the data they reference in an i_size field.
This can be the number of bytes in a file, directory, or symlink target which
are stored in data mapped by extents of clusters. This error occurs when a
sparse inode was found that had data allocated past its i_size.
Answering yes to this question will update the inode's i_size to cover all of
its allocated storage. It is vitally important that i_size matches the extent
lists and so answering yes is strongly encouraged.
INODE_INLINE_SIZE¶
Inodes can only fit a certain amount of inline data. This inode has its data
inline but claims an i_size larger than will actually fit.
Answering yes to this question updates the inode's i_size to the maximum
available inline space.
INODE_CLUSTERS¶
Inodes contain a record of how many clusters are allocated to them. An inode was
found whose recorded number of clusters doesn't match the number of blocks
that were found associated with the inode.
Answering yes resets the inode's number of clusters to reflect the number of
blocks that were associated with the file.
INODE_SPARSE_CLUSTERS¶
Inodes contain a record of how many clusters are allocated to them. An sparse
inode was found whose recorded number of clusters doesn't match the number of
blocks that were found associated with the inode.
Answering yes resets the inode's number of clusters to reflect the number of
blocks that were associated with the file.
INODE_INLINE_CLUSTERS¶
Inlined inode should not have allocated clusters. An inode who has inline data
flag set was found with clusters allocated.
Answering yes resets the inode's number of clusters to zero.
LALLOC_REPAIR¶
An active local allocator did not accurately reflect the set of clusters that
are free and in use in its region.
Answering yes will update the local allocator bitmap. Each bit that doesn't
match the use of its cluster will be inverted.
LALLOC_USED¶
A local allocator records the number of bits that are used in its bitmap. An
allocator was found whose used value doesn't reflect the number of bits that
are set in its bitmap.
Answering yes sets the used value to match the number of bits set in the
allocator's bitmap.
CLUSTER_ALLOC_BIT¶
A specific cluster's use didn't match the setting of its bit in the cluster
allocator.
Answering yes will invert the bit in the allocator to match the use of the
cluster -- either allocated and in use or free.
REFCOUNT_FLAG_INVALID¶
Refcount file can only exist in a volume with refcount supported, Fsck has found
that a file in a non-refcount volume has refcount flag set.
Answering yes remove this flag from the file.
REFCOUNT_LOC_INVALID¶
Refcount loc can only be valid if the file has refcount flag set. Fsck has found
that a file has refcount loc while it does't have refcount flag set.
Answering yes reset refcount loc to zero for the file.
RB_BLKNO¶
refcount blocks contain a record of the disk block where they are located. An
refcount block was found at a block that didn't match its recorded location.
Answering yes will update the data structure in the refcount block to reflect
its real location on disk.
RB_GEN¶
Refcount blocks are created with a generation number to match the generation
number of the volume at the time of creation. An refcount block was found
which contains a generation number that doesn't match.
Answering yes implies that the generation number is correct and that the
refcount block is from a previous file system. The refcount block will be
removed and the file that uses it will lose the refcounted information, but it
may be regenerated later.
RB_GEN_FIX¶
Refcount blocks are created with a generation number to match the generation
number of the volume at the time of creation. An refcount block was found
which contains a generation number that doesn't match.
Answering yes implies that the generation number in the refcount block is
incorrect and that the refcount block is valid. The generation number in the
block is updated to match the generation number in the volume.
RB_PARENT¶
refcount blocks contain a record of the parent this disk block belongs to. An
refcount block was found storing a wrong parent location.
Answering yes will update the data structure in the refcount block to reflect
its parent's real location on disk.
REFCOUNT_LIST_COUNT¶
The number of entries in a refcount list is bounded by the size of the block
which contains it. An refcount list was found which claims to have more
entries than would fit in its container.
Answering yes updates the count field in the refcount list to match the
container. Answering no to this question may stop further fixes from being
done because the count value can not be trusted.
REFCOUNT_LIST_USED¶
The number of free entries in a refcount list must be less than the total number
of entries in the list. A list was found which claims to have more free
entries than possible entries.
Answering yes sets the number of free entries in the list equal to the total
possible entries.
REFCOUNT_CLUSTER_RANGE¶
A refcount record was found which references a cluster which can not be
referenced by a refcount. The referenced cluster is either very early in the
volume, and thus reserved, or beyond the end of the volume.
Answering yes removes this refcount record from the tree.
REFCOUNT_CLUSTER_COLLISION¶
A refcount record was found which references a cluster which has a collision
with the previous valid refcount record.
Answering yes removes this refcount record from the tree.
REFCOUNT_LIST_EMPTY¶
A refcount list was found which has no refcount record in it. It is normally
caused by a corrupted refcount record.
Answering yes removes this refcount block from the tree. It will be re-generated
in refcounted extent records handler if all the other information is sane.
REFCOUNT_BLOCK_INVALID¶
Refcount block stores the refcount record for physical clusters of a file. It is
found refering an invalid refcount block.
Answering yes remove this refcount block.
REFCOUNT_CLUSTERS¶
Refcount tree contains a record of how many clusters are allocated to them. A
tree was found whose recorded number of clusters doesn't match the number of
blocks that were found associated with it.
Answering yes resets the number of clusters to reflect the real number of
clusters that were associated with the tree.
REFCOUNT_ROOT_BLOCK_INVALID¶
Root refcount block is the root of the refcount record for a file. It is found
refering an invalid refcount block.
Answering yes remove this refcount block and clear refcount flag from this file.
REFCOUNT_REC_REDUNDANT¶
Refcount record is used to store the refcount for physical clusters. Some
refcount record is found to have no physical clusters corresponding to it.
Answering yes remove the refcount record.
REFCOUNT_COUNT_INVALID¶
Refcount record is used to store the refcount for physical clusters. A record
record is found whichs claims the wrong refcount for some physical clusters.
Answering yes update the corresponding refcount record.
REFCOUNT_COUNT¶
Refcount tree contains a record of how many files refering to this tree. A tree
was found whose recorded number of files doesn't match the real files refering
to the tree.
Answering yes resets the number of files to reflect the real number of files
that were associated with the tree.
DUP_CLUSTERS_SYSFILE_CLONE¶
A system file inode claims clusters that are also claimed by another inode.
ocfs2 does not allow this. System files may be cloned but may not be deleted.
Allocation system files may not be cloned or deleted.
Answering yes will copy the data of this inode to newly allocated extents. This
will break the claim on the overcommitted clusters.
DUP_CLUSTERS_CLONE¶
An inode claims clusters that are also claimed by another inode. ocfs2 does not
allow this.
Answering yes will copy the data of this inode to newly allocated extents. This
will break the claim on the overcommitted clusters.
DUP_CLUSTERS_DELETE¶
An inode claims clusters that are also claimed by another inode. ocfs2 does not
allow this.
Answering yes will remove this inode, thus breaking its claim on the
overcommitted clusters.
DUP_CLUSTERS_ADD_REFCOUNT¶
An inode claims clusters that are also claimed by another inode. ocfs2 does not
allow this.
Answering yes will try to add a refcount record for all these inodes, so that
they will share the cluster.
DIRENT_DOTTY_DUP¶
There can be only one instance of both the "." and ".."
entries in a directory. A directory entry was found which duplicated one of
these entries.
Answering yes will remove the duplicate directory entry.
DIRENT_NOT_DOTTY¶
The first and second directory entries in a directory must be "." and
".." respectively. One of these directory entries was found to not
match these rules.
Answering yes will force the directory entry to be either "." or
"..". This might consume otherwise valid entries and cause some
files to appear in lost+found.
DIRENT_DOT_INODE¶
The inode field of the "." directory entry must refer to the directory
inode that contains the given directory block. A "." entry was found
which doesn't do so.
Answering yes sets the directory entry's inode reference to the parent directory
that contains the entry.
DIRENT_DOT_EXCESS¶
A "." directory entry was found whose lengths exceeds the amount
required for the single dot in the name.
Answering yes creates another empty directory entry in this excess space.
DIRENT_ZERO¶
A directory entry was found with a zero length name.
Answering yes clears the directory entry so its space can be reused.
DIRENT_NAME_CHARS¶
Directory entries can not contain either the NULL character (ASCII 0) or the
forward slash (ASCII 47). A directory entry was found which contains either.
Answering yes will change each instance of these forbidden characters into a
period (ASCII 46).
DIRENT_INODE_RANGE¶
Each directory entry contains a inode field which the entry's name corresponds
to. An entry was found which referenced an inode number that is invalid for
the current volume.
Answering yes clears this entry so its space can be reused. If the entry once
corresponded to a real inode and was corrupted this inode may appear in
lost+found.
DIRENT_INODE_FREE¶
Each directory entry contains a inode field which the entry's name corresponds
to. An entry was found which referenced an inode number that isn't in use.
Answering yes clears this directory entry.
DIRENT_TYPE¶
Each directory entry contains a field which describes the type of file that the
entry refers to. An entry was found whose type doesn't match the inode it is
referring to.
Answering yes resets the entry's type to match the target inode.
DIR_PARENT_DUP¶
Each directory can only be pointed to by one directory entry in a parent
directory. A directory entry was found which was the second entry to point to
a given directory inode.
Answering yes clears this entry which was the second to refer to a given
directory. This reflects the policy that hard links to directories are not
allowed.
DIRENT_DUPLICATE¶
File names within a directory must be unique. A file name occurred in more than
one directory entry in a given directory.
Answering yes renames the duplicate entry to a name that doesn't collide with
recent entries and is unlikely to collide with future entries in the
directory.
DIRENT_LENGTH¶
There are very few directory entry lengths that are valid. The lengths must be
greater than the minimum required to record a single character directory, be
rounded to 12 bytes, be within the amount of space remaining in a directory
block, and be properly rounded for the size of the name of the directory
entry. An entry was found which didn't meet these criteria.
Answering yes will try to repair the directory entry. This runs a very good
chance of invalidating all the entries in the directory block. Orphaned inodes
may appear in lost+found.
DIR_TRAILER_INODE¶
A directory block trailer is a fake directory entry at the end of the block. The
trailer has compatibility fields for when it is viewed as a directory entry.
The inode field must be zero.
Answering yes will set the inode field to zero.
DIR_TRAILER_NAME_LEN¶
A directory block trailer is a fake directory entry at the end of the block. The
trailer has compatibility fields for when it is viewed as a directory entry.
The name length field must be zero.
Answering yes will set the name length field to zero.
DIR_TRAILER_REC_LEN¶
A directory block trailer is a fake directory entry at the end of the block. The
trailer has compatibility fields for when it is viewed as a directory entry.
The record length field must be equal to the size of the trailer.
Answering yes will set the record length field to the size of the trailer.
DIR_TRAILER_BLKNO¶
A directory block trailer is a fake directory entry at the end of the block. The
self-referential block number is incorrect.
Answering yes will set the block number to the correct block on disk.
DIR_TRAILER_PARENT_INODE¶
A directory block trailer is a fake directory entry at the end of the block. It
has a pointer to the directory inode it belongs to. This pointer is incorrect.
Answering yes will set the parent inode pointer to the inode referencing this
directory block.
ROOT_DIR_MISSING¶
The super block contains a reference to the inode that serves as the root
directory. This reference points to an inode that isn't in use.
Answering yes will create a new inode and update the super block to refer to
this inode as the root directory.
LOSTFOUND_MISSING¶
The super block contains a reference to the inode that serves as the lost+found
directory. This reference points to an inode that isn't in use.
Answering yes will create a new lost+found directory in the root directory.
DIR_NOT_CONNECTED¶
Every directory in the file system should be reachable by a directory entry in
its parent directory. This is verified by walking every directory in the
system. A directory inode was found during this walk which doesn't have a
parent directory entry.
Answering yes moves this directory entry into the lost+found directory and gives
it a name based on its inode number.
DIR_DOTDOT¶
A directory inode's ".." directory entry must refer to the parent
directory. A directory was found whose ".." doesn't refer to its
parent.
Answering yes will read the directory block for the given directory and update
its ".." entry to reflect its parent.
INODE_NOT_CONNECTED¶
Most all inodes in the system should be referenced by a directory entry. An
inode was found which isn't referred to by any directory entry.
Answering yes moves this inode into the lost+found directory and gives it a name
based on its inode number.
INODE_COUNT¶
Each inode records the number of directory entries that refer to it. An inode
was found whose recorded count doesn't match the number of entries that refer
to it.
Answering yes sets the inode's count to match the number of referring directory
entries.
INODE_ORPHANED¶
While files are being deleted they are placed in an internal directory. If the
machine crashes while this is taking place the files will be left in this
directory. Fsck has found an inode in this directory and would like to finish
the job of truncating and removing it.
Answering yes removes the file data associated with the inode and frees the
inode.
RECOVER_BACKUP_SUPERBLOCK¶
When
fsck.ocfs2 successfully uses the specified backup superblock, it
provides the user with this option to overwrite the existing superblock with
that backup.
Answering yes will refresh the superblock from the backup. Answering no will
only disable the copying of the backup superblock and will not effect the
remaining
fsck.ocfs2 processing.
ORPHAN_DIR_MISSING¶
While files are being deleted they are placed in an internal directory, named
orphan directory. If an orphan directory does not exist, an OCFS2 volume
cannot be mounted successfully. Fsck has found the orphan directory is missing
and would like to create it for future use.
Answering yes creates the orphan directory in the system directory.
JOURNAL_FILE_INVALID¶
OCFS2 uses JDB for journalling and some journal files exist in the system
directory. Fsck has found some journal files that are invalid.
Answering yes to this question will regenerate the invalid journal files.
JOURNAL_UNKNOWN_FEATURE¶
Fsck has found some journal files with unknown features. Other journals on the
filesystem have only known features, so this is likely a corruption. If you
think your filesystem may be newer than this version of fsck.ocfs2, say N here
and grab the latest version of fsck.ocfs2.
Answering yes resets the journal features to match other journals.
JOURNAL_MISSING_FEATURE¶
Fsck has found some journal files have features that are not set on all journal
files. All journals on filesystem should have the same set of features.
Answering yes will set all journals to the union of set features.
JOURNAL_TOO_SMALL¶
Fsck has found some journal files are too small.
Answering yes extends these journals.
RECOVER_CLUSTER_INFO¶
The currently active cluster stack is different than the one the filesystem is
configured for. Thus, fsck.ocfs2 cannot determine whether the filesystem is
mounted on an another node or not. The recommended solution is to exit and run
fsck.ocfs2 on this device from a node that has the appropriate active cluster
stack. However, you can proceed with the fsck if you are sure that the volume
is not in use on any node.
Answering yes reconfigures the filesystem to use the current cluster stack.
DANGER: YOU MUST BE ABSOLUTELY SURE THAT NO OTHER NODE IS USING THIS
FILESYSTEM BEFORE CONTINUING. OTHERWISE, YOU CAN CORRUPT THE FILESYSTEM AND
LOSE DATA.
INLINE_DATA_FLAG_INVALID¶
Inline file can only exist in a volume with inline supported, Fsck has found
that a file in a non-inline volume has inline flag set.
Answering yes remove this flag from the file.
INLINE_DATA_COUNT_INVALID¶
For an inline file, there is a limit for id2.id_data.id_count. Fsck has found
that this value isn't right.
Answering yes change this value to the right number.
XATTR_BLOCK_INVALID¶
Extended attributes are stored off an extended attribute block referenced by the
inode. This inode references an invalid extended attribute block.
Answering yes will remove this block.
XATTR_COUNT_INVALID¶
The count of extended attributes in an inode, block, or bucket does not match
the number of entries found by fsck.
Answering yes will change this to the correct count.
XATTR_ENTRY_INVALID¶
An extended attribute entry points to already used space.
Answering yes will remove this entry.
XATTR_NAME_OFFSET_INVALID¶
The name_offset field of an extended attribute entry is not correct. Without a
correct name_offset field, the entry cannot be used.
Answering yes will remove this entry.
XATTR_VALUE_INVALID¶
The value region of an extended attribute points to already used space.
Answering yes will remove this entry.
XATTR_LOCATION_INVALID¶
The xe_local field and xe_value_size field of an extended attribute entry does
not match. So the entry cannot be used.
Answering yes will remove this entry.
XATTR_HASH_INVALID¶
Extended attributes use a hash of their name for lookup purposes. The name_hash
of this extended attribute entry is not correct.
Answering yes will change this to the correct hash.
XATTR_FREE_START_INVALID¶
Extended attributes use free_start to indicate the offset of the free space in
inode, block, or bucket. The free_start field of this object is not correct.
Answering yes will change this to the correct offset.
XATTR_VALUE_LEN_INVALID¶
Extended attributes use name_value_len to store the total length of all entry's
name and value in inode, block or bucket. the name_value_len filed of this
object is not correct.
Answering yes will change this to the correct value.
XATTR_BUCKET_COUNT_INVALID¶
The count of extended attributes bucket pointed by one extent record does not
match the number of buckets found by fsck.
Answering yes will change this to the correct count.
QMAGIC_INVALID¶
The magic number in the header of quota file does not match the proper number.
Answering yes will make fsck use values in the quota file header anyway.
QTREE_BLK_INVALID¶
Block with references to other blocks with quota data is corrupted.
Answering yes will make fsck use references in the block.
DQBLK_INVALID¶
The structure with quota limits was found in a corrupted block.
Answering yes will use the values of limits for the user / group.
DUP_DQBLK_INVALID¶
The structure with quota limits was found in a corrupted block and fsck has
already found quota limits for this user / group.
Answering yes will use new values of limits for the user / group.
DUP_DQBLK_VALID¶
The structure with quota limits was found in a correct block but fsck has
already found quota limits for this user / group.
Answering yes will use new values of limits for the user / group.
IV_DX_TREE¶
A directory index was found on an inode but that feature is not enabled on the
file system.
Answering yes will truncate the invalid index.
DX_LOOKUP_FAILED¶
A directory entry is missing an entry in the directory index. The missing index
entry will cause lookups on this name to fail.
Answering yes will rebuild the directory index, restoring the missing entry.
SEE ALSO¶
fsck.ocfs2(8)
AUTHORS¶
Oracle Corporation.
COPYRIGHT¶
Copyright © 2004, 2010 Oracle. All rights reserved.