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https://github.com/kdave/btrfs-progs
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1afe51d22d
Replace **bold** or ``quoted`` with :command:`line ...` that is supposed to be used verbatim. Signed-off-by: David Sterba <dsterba@suse.com>
267 lines
9.3 KiB
ReStructuredText
267 lines
9.3 KiB
ReStructuredText
.. BTRFS troubleshooting related pages index
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Troubleshooting pages
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=====================
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System messages printed to the log (dmesg, syslog, journal) have limited space
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for description and may need further explanation what needs to be done.
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Error: parent transid verify error
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----------------------------------
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Reason: result of a failed internal consistency check of the filesystem's metadata.
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Type: permanent
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.. code-block::
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[ 4007.489730] BTRFS error (device vdb): parent transid verify failed on 30736384 wanted 10 found 8
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The b-tree nodes are linked together, a block pointer in the parent node
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contains target block offset and generation that last changed this block. The
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block it points to then upon read verifies that the block address and the
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generation matches. This check is done on all tree levels.
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The number in **faled on 30736384** is the logical block number, **wanted 10**
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is the expected generation number in the parent node, **found 8** is the one
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found in the target block. The number difference between the generation can
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give a hint when the problem could have happened, in terms of transaction
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commits.
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Once the mismatched generations are stored on the device, it's permanent and
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cannot be easily recovered, because of information loss. The recovery tool
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``btrfs restore`` is able to ignore the errors and attempt to restore the data
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but due to the inconsistency in the metadata the data need to be verified by the
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user.
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The root cause of the error cannot be easily determined, possible reasons are:
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* logical bug: filesystem structures haven't been properly updated and stored
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* misdirected write: the underlying storage does not store the data to the exact
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address as expected and overwrites some other block
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* storage device (hardware or emulated) does not properly flush and persist data
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between transactions so they get mixed up
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* lost write without proper error handling: writing the block worked as viewed
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on the filesystem layer, but there was a problem on the lower layers not
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propagated upwards
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Error: No space left on device (ENOSPC)
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---------------------------------------
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Type: transient
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Space handling on a COW filesystem is tricky, namely when it's in combination
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with delayed allocation, dynamic chunk allocation and parallel data updates.
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There are several reasons why the ENOSPC might get reported and there's not just
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a single cause and solution. The space reservation algorithms try to fairly
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assign the space, fall back to heuristics or block writes until enough data are
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persisted and possibly making old copies available.
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The most obvious way how to exhaust space is to create a file until the data
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chunks are full:
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.. code-block::
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$ df -h .
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Filesystem Size Used Avail Use% Mounted on
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/dev/sda 4.0G 3.6M 2.0G 1% /mnt/
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$ cat /dev/zero > file
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cat: write error: No space left on device
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$ df -h .
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Filesystem Size Used Avail Use% Mounted on
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/dev/sdc 4.0G 2.0G 0 100% /mnt/data250
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$ btrfs fi df .
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Data, single: total=1.98GiB, used=1.98GiB
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System, DUP: total=8.00MiB, used=16.00KiB
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Metadata, DUP: total=1.00GiB, used=2.22MiB
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GlobalReserve, single: total=3.25MiB, used=0.00B
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The data chunks have been exhausted, so there's really no space left where to
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write. The metadata chunks have space but that can't be used for that purpose.
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Metadata space got exhausted
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Cannot track new data extents, no inline files, no reflinks, no xattrs.
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Deletion still works.
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Balance does not have enough workspace
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Relocation of block groups requires a temporary work space, i.e. area on the
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device that's available for the filesystem but without any other existing block
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groups. Before balance starts a check is performed to verify the requested
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action is possible. If not, ENOSPC is returned.
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Error: unable to start balance with target metadata profile
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-----------------------------------------------------------
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.. code-block::
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unable to start balance with target metadata profile 32
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This means that a conversion has been attempted from profile *RAID1* to *dup*
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with btrfs-progs earlier than version 4.7. Update and you'll be able to do the
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conversion.
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Error: balance will reduce metadata integrity
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---------------------------------------------
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The full message in system log
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.. code-block::
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balance will reduce metadata integrity, use force if you want this
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This means that conversion will remove a degree of metadata redundancy, for
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example when going from profile *RAID1* or *dup* to *single*. The force
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parameter to :command:`btrfs balance start -f` is needed.
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How to clean old super block
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----------------------------
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The preferred way is to use the :command:`wipefs` utility that is part of the
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*util-linux* package. Running the command with the device will not destroy
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the data, just list the detected filesystems:
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.. code-block::
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# wipefs /dev/sda
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offset type
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----------------------------------------------------------------
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0x10040 btrfs [filesystem]
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UUID: 7760469b-1704-487e-9b96-7d7a57d218a5
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Remove the filesystem signature at a given offset or wipe all recognized
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signatures on the device:
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.. code-block::
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# wipefs -o 0x10040 /dev/sda
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8 bytes [5f 42 48 52 66 53 5f 4d] erased at offset 0x10040 (btrfs)
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# wipefs -a /dev/sda
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8 bytes [5f 42 48 52 66 53 5f 4d] erased at offset 0x10040 (btrfs)
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.. note::
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The process is reversible, if the 8 bytes are written back, the device is
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recognized again. See below.
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.. note::
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*wipefs* clears only the first super block. If available, the second and
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third copies can be used to resurrect the filesystem.
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Stale signature on device
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^^^^^^^^^^^^^^^^^^^^^^^^^
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Related problem regarding partitioned and unpartitioned device: *Long time ago
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I created btrfs on /dev/sda. After some changes btrfs moved to /dev/sda1.*
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Use :command:`wipefs -o 0x10040` (i.e. with the offset of the btrfs signature), it
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won't touch the partition table.
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Manual deletion of super block signature
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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There are three superblocks: the first one is located at 64KiB, the second one
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at 64MiB, the third one at 256GiB. The following lines reset the signature
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on all the three copies:
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.. code-block::
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# dd if=/dev/zero bs=1 count=8 of=/dev/sda seek=$((64*1024+64))
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# dd if=/dev/zero bs=1 count=8 of=/dev/sda seek=$((64*1024*1024+64))
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# dd if=/dev/zero bs=1 count=8 of=/dev/sda seek=$((256*1024*1024*1024+64))
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If you want to restore the super block signatures:
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.. code-block::
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# echo "_BHRfS_M" | dd bs=1 count=8 of=/dev/sda seek=$((64*1024+64))
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# echo "_BHRfS_M" | dd bs=1 count=8 of=/dev/sda seek=$((64*1024*1024+64))
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# echo "_BHRfS_M" | dd bs=1 count=8 of=/dev/sda seek=$((256*1024*1024*1024+64))
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Generic errors, errno
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---------------------
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Note there's a established text message for the errors, though they are used in
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a broader sense (e.g. error mentions a file but it can be relevant for another
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structure). The title of each section uses the nonstandard meaning that is
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perhaps more suitable for a filesystem.
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ENOENT (No such entry)
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^^^^^^^^^^^^^^^^^^^^^^
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Common error "no such entry", in general it may mean that some structure hasn't
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been found, e.g. an entry in some in-memory tree. This becomes a critical
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problem when the entry is expected to exist because of consistency of the
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structures.
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ENOMEM (Not enough memory)
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^^^^^^^^^^^^^^^^^^^^^^^^^^
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Memory allocation error. In many cases the error is recoverable and the
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operation restartable after it's reported to userspace. In critical contexts,
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like when a transaction needs to be committed, the error is not recoverable and
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leads to flipping the filesystem to read-only. Such cases are rare under normal
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conditions. Memory can be artificially limited e.g. by cgroups, which may
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trigger the condition, which is useful for testing but any real workload should
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have resources scaled accordingly.
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EINVAL (Invalid argument)
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^^^^^^^^^^^^^^^^^^^^^^^^^
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This is typically returned from ioctl when a parameter is invalid, i.e. unexpected
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range, a bit flag not recognized, or a combination of input parameters that
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does not make sense. Errors are typically recoverable.
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EUCLEAN (Filesystem corrupted)
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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The text of the message is confusing "Structure needs cleaning", in reality this
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is used to describe a severe corruption condition. The reason of the corruption
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is unknown at this point, but some constraint or condition has been violated
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and the filesystem driver can't do much. In practice such errors can be observed
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on fuzzed images, faulty hardware or misinteraction with other parts of the
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operating system.
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EIO (Input/output error)
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^^^^^^^^^^^^^^^^^^^^^^^^
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"Input output error", typically returned as an error from a device that was
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unable to read data, or finish a write. Checksum errors also lead to EIO, there
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isn't an established error for checksum validation errors, although some
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filesystems use EBADMSG for that.
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EEXIST (Object already exists)
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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ENOSPC (No space left)
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^^^^^^^^^^^^^^^^^^^^^^
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EOPNOTSUPP (Operation not supported)
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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TODO
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----
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Transient
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- enospc
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- operation cannot be done
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Possibly both
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- checksum errors from changes on the medium under hands
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- transient because of direct io
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- stored from faulty data in memory
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