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10a4e011c0
docs: add warnings about repo copies to avoid problems like #4272
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ReStructuredText
901 lines
39 KiB
ReStructuredText
.. include:: global.rst.inc
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.. highlight:: none
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.. _faq:
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Frequently asked questions
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==========================
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Usage & Limitations
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###################
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Can I backup from multiple servers into a single repository?
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------------------------------------------------------------
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Yes, but in order for the deduplication used by Borg to work, it
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needs to keep a local cache containing checksums of all file
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chunks already stored in the repository. This cache is stored in
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``~/.cache/borg/``. If Borg detects that a repository has been
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modified since the local cache was updated it will need to rebuild
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the cache. This rebuild can be quite time consuming.
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So, yes it's possible. But it will be most efficient if a single
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repository is only modified from one place. Also keep in mind that
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Borg will keep an exclusive lock on the repository while creating
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or deleting archives, which may make *simultaneous* backups fail.
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Can I copy or synchronize my repo to another location?
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------------------------------------------------------
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If you want to have redundant backup repositories (preferably at separate
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locations), the recommended way to do that is like this:
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- ``borg init repo1``
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- ``borg init repo2``
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- client machine ---borg create---> repo1
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- client machine ---borg create---> repo2
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This will create distinct repositories (separate repo ID, separate
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keys) and nothing bad happening in repo1 will influence repo2.
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Some people decide against above recommendation and create identical
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copies of a repo (using some copy / sync / clone tool).
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While this might be better than having no redundancy at all, you have
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to be very careful about how you do that and what you may / must not
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do with the result (if you decide against our recommendation).
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What you would get with this is:
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- client machine ---borg create---> repo
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- repo ---copy/sync---> copy-of-repo
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There is no special borg command to do the copying, you could just
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use any reliable tool that creates an identical copy (cp, rsync, rclone
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might be options).
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But think about whether that is really what you want. If something goes
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wrong in repo, you will have the same issue in copy-of-repo.
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Make sure you do the copy/sync while no backup is running, see
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:ref:`borg_with-lock` about how to do that.
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Also, you must not run borg against multiple instances of the same repo
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(like repo and copy-of-repo) as that would create severe issues:
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- Data loss: they have the same repository ID, so the borg client will
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think they are identical and e.g. use the same local cache for them
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(which is an issue if they happen to be not the same).
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See :issue:`4272` for an example.
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- Encryption security issues if you would update repo and copy-of-repo
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independently, due to AES counter reuse.
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There is also a similar encryption security issue for the disaster case:
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If you lose repo and the borg client-side config/cache and you restore
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the repo from an older copy-of-repo, you also run into AES counter reuse.
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Which file types, attributes, etc. are *not* preserved?
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-------------------------------------------------------
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* UNIX domain sockets (because it does not make sense - they are
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meaningless without the running process that created them and the process
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needs to recreate them in any case). So, don't panic if your backup
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misses a UDS!
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* The precise on-disk (or rather: not-on-disk) representation of the holes
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in a sparse file.
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Archive creation has no special support for sparse files, holes are
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backed up as (deduplicated and compressed) runs of zero bytes.
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Archive extraction has optional support to extract all-zero chunks as
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holes in a sparse file.
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* Some filesystem specific attributes, like btrfs NOCOW, see :ref:`platforms`.
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* For hardlinked symlinks, the hardlinking can not be archived (and thus,
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the hardlinking will not be done at extraction time). The symlinks will
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be archived and extracted as non-hardlinked symlinks, see :issue:`2379`.
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Are there other known limitations?
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----------------------------------
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- A single archive can only reference a limited volume of file/dir metadata,
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usually corresponding to tens or hundreds of millions of files/dirs.
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When trying to go beyond that limit, you will get a fatal IntegrityError
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exception telling that the (archive) object is too big.
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An easy workaround is to create multiple archives with fewer items each.
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See also the :ref:`archive_limitation` and :issue:`1452`.
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:ref:`borg_info` shows how large (relative to the maximum size) existing
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archives are.
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.. _checkpoints_parts:
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If a backup stops mid-way, does the already-backed-up data stay there?
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----------------------------------------------------------------------
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Yes, Borg supports resuming backups.
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During a backup a special checkpoint archive named ``<archive-name>.checkpoint``
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is saved every checkpoint interval (the default value for this is 30
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minutes) containing all the data backed-up until that point.
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This checkpoint archive is a valid archive,
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but it is only a partial backup (not all files that you wanted to backup are
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contained in it). Having it in the repo until a successful, full backup is
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completed is useful because it references all the transmitted chunks up
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to the checkpoint. This means that in case of an interruption, you only need to
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retransfer the data since the last checkpoint.
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If a backup was interrupted, you normally do not need to do anything special,
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just invoke ``borg create`` as you always do. If the repository is still locked,
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you may need to run ``borg break-lock`` before the next backup. You may use the
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same archive name as in previous attempt or a different one (e.g. if you always
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include the current datetime), it does not matter.
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Borg always does full single-pass backups, so it will start again
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from the beginning - but it will be much faster, because some of the data was
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already stored into the repo (and is still referenced by the checkpoint
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archive), so it does not need to get transmitted and stored again.
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Once your backup has finished successfully, you can delete all
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``<archive-name>.checkpoint`` archives. If you run ``borg prune``, it will
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also care for deleting unneeded checkpoints.
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Note: the checkpointing mechanism creates hidden, partial files in an archive,
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so that checkpoints even work while a big file is being processed.
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They are named ``<filename>.borg_part_<N>`` and all operations usually ignore
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these files, but you can make them considered by giving the option
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``--consider-part-files``. You usually only need that option if you are
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really desperate (e.g. if you have no completed backup of that file and you'ld
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rather get a partial file extracted than nothing). You do **not** want to give
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that option under any normal circumstances.
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Note that checkpoints inside files are created only since version 1.1,
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make sure you have an up-to-date version of borgbackup if you want to continue instead of retransferring a huge file.
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In some cases, there is only an outdated version shipped with your distribution (e.g. Debian). See :ref:`_installation`
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How can I backup huge file(s) over a unstable connection?
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---------------------------------------------------------
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This is not a problem anymore.
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For more details, see :ref:`checkpoints_parts`.
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How can I restore huge file(s) over an unstable connection?
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-----------------------------------------------------------
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If you cannot manage to extract the whole big file in one go, you can extract
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all the part files and manually concatenate them together.
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For more details, see :ref:`checkpoints_parts`.
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Can Borg add redundancy to the backup data to deal with hardware malfunction?
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-----------------------------------------------------------------------------
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No, it can't. While that at first sounds like a good idea to defend against
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some defect HDD sectors or SSD flash blocks, dealing with this in a
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reliable way needs a lot of low-level storage layout information and
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control which we do not have (and also can't get, even if we wanted).
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So, if you need that, consider RAID or a filesystem that offers redundant
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storage or just make backups to different locations / different hardware.
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See also :issue:`225`.
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Can Borg verify data integrity of a backup archive?
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---------------------------------------------------
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Yes, if you want to detect accidental data damage (like bit rot), use the
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``check`` operation. It will notice corruption using CRCs and hashes.
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If you want to be able to detect malicious tampering also, use an encrypted
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repo. It will then be able to check using CRCs and HMACs.
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Can I use Borg on SMR hard drives?
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----------------------------------
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SMR (shingled magnetic recording) hard drives are very different from
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regular hard drives. Applications have to behave in certain ways or
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performance will be heavily degraded.
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Borg 1.1 ships with default settings suitable for SMR drives,
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and has been successfully tested on *Seagate Archive v2* drives
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using the ext4 file system.
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Some Linux kernel versions between 3.19 and 4.5 had various bugs
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handling device-managed SMR drives, leading to IO errors, unresponsive
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drives and unreliable operation in general.
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For more details, refer to :issue:`2252`.
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.. _faq-integrityerror:
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I get an IntegrityError or similar - what now?
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----------------------------------------------
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A single error does not necessarily indicate bad hardware or a Borg
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bug. All hardware exhibits a bit error rate (BER). Hard drives are typically
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specified as exhibiting fewer than one error every 12 to 120 TB
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(one bit error in 10e14 to 10e15 bits). The specification is often called
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*unrecoverable read error rate* (URE rate).
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Apart from these very rare errors there are two main causes of errors:
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(i) Defective hardware: described below.
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(ii) Bugs in software (Borg, operating system, libraries):
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Ensure software is up to date.
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Check whether the issue is caused by any fixed bugs described in :ref:`important_notes`.
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.. rubric:: Finding defective hardware
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.. note::
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Hardware diagnostics are operating system dependent and do not
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apply universally. The commands shown apply for popular Unix-like
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systems. Refer to your operating system's manual.
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Checking hard drives
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Find the drive containing the repository and use *findmnt*, *mount* or *lsblk*
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to learn the device path (typically */dev/...*) of the drive.
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Then, smartmontools can retrieve self-diagnostics of the drive in question::
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# smartctl -a /dev/sdSomething
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The *Offline_Uncorrectable*, *Current_Pending_Sector* and *Reported_Uncorrect*
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attributes indicate data corruption. A high *UDMA_CRC_Error_Count* usually
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indicates a bad cable.
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I/O errors logged by the system (refer to the system journal or
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dmesg) can point to issues as well. I/O errors only affecting the
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file system easily go unnoticed, since they are not reported to
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applications (e.g. Borg), while these errors can still corrupt data.
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Drives can corrupt some sectors in one event, while remaining
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reliable otherwise. Conversely, drives can fail completely with no
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advance warning. If in doubt, copy all data from the drive in
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question to another drive -- just in case it fails completely.
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If any of these are suspicious, a self-test is recommended::
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# smartctl -t long /dev/sdSomething
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Running ``fsck`` if not done already might yield further insights.
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Checking memory
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Intermittent issues, such as ``borg check`` finding errors
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inconsistently between runs, are frequently caused by bad memory.
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Run memtest86+ (or an equivalent memory tester) to verify that
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the memory subsystem is operating correctly.
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Checking processors
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Processors rarely cause errors. If they do, they are usually overclocked
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or otherwise operated outside their specifications. We do not recommend to
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operate hardware outside its specifications for productive use.
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Tools to verify correct processor operation include Prime95 (mprime), linpack,
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and the `Intel Processor Diagnostic Tool
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<https://downloadcenter.intel.com/download/19792/Intel-Processor-Diagnostic-Tool>`_
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(applies only to Intel processors).
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.. rubric:: Repairing a damaged repository
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With any defective hardware found and replaced, the damage done to the repository
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needs to be ascertained and fixed.
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:ref:`borg_check` provides diagnostics and ``--repair`` options for repositories with
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issues. We recommend to first run without ``--repair`` to assess the situation.
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If the found issues and proposed repairs seem right, re-run "check" with ``--repair`` enabled.
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Why is the time elapsed in the archive stats different from wall clock time?
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----------------------------------------------------------------------------
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Borg needs to write the time elapsed into the archive metadata before finalizing
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the archive, compacting the segments, and committing the repo & cache. This means
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when Borg is run with e.g. the ``time`` command, the duration shown in the archive
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stats may be shorter than the full time the command runs for.
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How do I configure different prune policies for different directories?
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----------------------------------------------------------------------
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Say you want to prune ``/var/log`` faster than the rest of
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``/``. How do we implement that? The answer is to backup to different
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archive *names* and then implement different prune policies for
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different prefixes. For example, you could have a script that does::
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borg create --exclude /var/log $REPOSITORY:main-$(date +%Y-%m-%d) /
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borg create $REPOSITORY:logs-$(date +%Y-%m-%d) /var/log
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Then you would have two different prune calls with different policies::
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borg prune --verbose --list -d 30 --prefix main- "$REPOSITORY"
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borg prune --verbose --list -d 7 --prefix logs- "$REPOSITORY"
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This will keep 7 days of logs and 30 days of everything else. Borg 1.1
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also supports the ``--glob-archives`` parameter.
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How do I remove files from an existing backup?
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----------------------------------------------
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Say you now want to remove old logfiles because you changed your
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backup policy as described above. The only way to do this is to use
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the :ref:`borg_recreate` command to rewrite all archives with a
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different ``--exclude`` pattern. See the examples in the
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:ref:`borg_recreate` manpage for more information.
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Can I safely change the compression level or algorithm?
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--------------------------------------------------------
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The compression level and algorithm don't affect deduplication. Chunk ID hashes
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are calculated *before* compression. New compression settings
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will only be applied to new chunks, not existing chunks. So it's safe
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to change them.
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Security
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########
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How can I specify the encryption passphrase programmatically?
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-------------------------------------------------------------
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There are several ways to specify a passphrase without human intervention:
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Setting ``BORG_PASSPHRASE``
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The passphrase can be specified using the ``BORG_PASSPHRASE`` enviroment variable.
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This is often the simplest option, but can be insecure if the script that sets it
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is world-readable.
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.. _password_env:
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.. note:: Be careful how you set the environment; using the ``env``
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command, a ``system()`` call or using inline shell scripts
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(e.g. ``BORG_PASSPHRASE=hunter2 borg ...``)
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might expose the credentials in the process list directly
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and they will be readable to all users on a system. Using
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``export`` in a shell script file should be safe, however, as
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the environment of a process is `accessible only to that
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user
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<https://security.stackexchange.com/questions/14000/environment-variable-accessibility-in-linux/14009#14009>`_.
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Using ``BORG_PASSCOMMAND`` with a properly permissioned file
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Another option is to create a file with a password in it in your home
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directory and use permissions to keep anyone else from reading it. For
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example, first create a key::
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head -c 1024 /dev/urandom | base64 > ~/.borg-passphrase
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chmod 400 ~/.borg-passphrase
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Then in an automated script one can put::
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export BORG_PASSCOMMAND="cat $HOME/.borg-passphrase"
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and Borg will automatically use that passphrase.
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Using keyfile-based encryption with a blank passphrase
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It is possible to encrypt your repository in ``keyfile`` mode instead of the default
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``repokey`` mode and use a blank passphrase for the key file (simply press Enter twice
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when ``borg init`` asks for the password). See :ref:`encrypted_repos`
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for more details.
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Using ``BORG_PASSCOMMAND`` with macOS Keychain
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macOS has a native manager for secrets (such as passphrases) which is safer
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than just using a file as it is encrypted at rest and unlocked manually
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(fortunately, the login keyring automatically unlocks when you login). With
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the built-in ``security`` command, you can access it from the command line,
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making it useful for ``BORG_PASSCOMMAND``.
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First generate a passphrase and use ``security`` to save it to your login
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(default) keychain::
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security add-generic-password -D secret -U -a $USER -s borg-passphrase -w $(head -c 1024 /dev/urandom | base64)
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In your backup script retrieve it in the ``BORG_PASSCOMMAND``::
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export BORG_PASSCOMMAND="security find-generic-password -a $USER -s borg-passphrase -w"
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Using ``BORG_PASSCOMMAND`` with GNOME Keyring
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GNOME also has a keyring daemon that can be used to store a Borg passphrase.
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First ensure ``libsecret-tools``, ``gnome-keyring`` and ``libpam-gnome-keyring``
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are installed. If ``libpam-gnome-keyring`` wasn't already installed, ensure it
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runs on login::
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sudo sh -c "echo session optional pam_gnome_keyring.so auto_start >> /etc/pam.d/login"
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sudo sh -c "echo password optional pam_gnome_keyring.so >> /etc/pam.d/passwd"
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# you may need to relogin afterwards to activate the login keyring
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Then add a secret to the login keyring::
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head -c 1024 /dev/urandom | base64 | secret-tool store borg-repository repo-name --label="Borg Passphrase"
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If a dialog box pops up prompting you to pick a password for a new keychain, use your
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login password. If there is a checkbox for automatically unlocking on login, check it
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to allow backups without any user intervention whatsoever.
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Once the secret is saved, retrieve it in a backup script using ``BORG_PASSCOMMAND``::
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export BORG_PASSCOMMAND="secret-tool lookup borg-repository repo-name"
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.. note:: For this to automatically unlock the keychain it must be run
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in the ``dbus`` session of an unlocked terminal; for example, running a backup
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script as a ``cron`` job might not work unless you also ``export DISPLAY=:0``
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so ``secret-tool`` can pick up your open session. `It gets even more complicated`__
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when you are running the tool as a different user (e.g. running a backup as root
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with the password stored in the user keyring).
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__ https://github.com/borgbackup/borg/pull/2837#discussion_r127641330
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Using ``BORG_PASSCOMMAND`` with KWallet
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KDE also has a keychain feature in the form of KWallet. The command-line tool
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``kwalletcli`` can be used to store and retrieve secrets. Ensure ``kwalletcli``
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is installed, generate a passphrase, and store it in your "wallet"::
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head -c 1024 /dev/urandom | base64 | kwalletcli -Pe borg-passphrase -f Passwords
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Once the secret is saved, retrieve it in a backup script using ``BORG_PASSCOMMAND``::
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export BORG_PASSCOMMAND="kwalletcli -e borg-passphrase -f Passwords"
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When backing up to remote encrypted repos, is encryption done locally?
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----------------------------------------------------------------------
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Yes, file and directory metadata and data is locally encrypted, before
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leaving the local machine. We do not mean the transport layer encryption
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by that, but the data/metadata itself. Transport layer encryption (e.g.
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when ssh is used as a transport) applies additionally.
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When backing up to remote servers, do I have to trust the remote server?
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------------------------------------------------------------------------
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Yes and No.
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No, as far as data confidentiality is concerned - if you use encryption,
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all your files/dirs data and metadata are stored in their encrypted form
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into the repository.
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Yes, as an attacker with access to the remote server could delete (or
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otherwise make unavailable) all your backups.
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How can I protect against a hacked backup client?
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-------------------------------------------------
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Assume you backup your backup client machine C to the backup server S and
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C gets hacked. In a simple push setup, the attacker could then use borg on
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C to delete all backups residing on S.
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These are your options to protect against that:
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- Do not allow to permanently delete data from the repo, see :ref:`append_only_mode`.
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- Use a pull-mode setup using ``ssh -R``, see :issue:`900`.
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- Mount C's filesystem on another machine and then create a backup of it.
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- Do not give C filesystem-level access to S.
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How can I protect against a hacked backup server?
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-------------------------------------------------
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Just in case you got the impression that pull-mode backups are way more safe
|
|
than push-mode, you also need to consider the case that your backup server S
|
|
gets hacked. In case S has access to a lot of clients C, that might bring you
|
|
into even bigger trouble than a hacked backup client in the previous FAQ entry.
|
|
|
|
These are your options to protect against that:
|
|
|
|
- Use the standard push-mode setup (see also previous FAQ entry).
|
|
- Mount (the repo part of) S's filesystem on C.
|
|
- Do not give S file-system level access to C.
|
|
- Have your backup server at a well protected place (maybe not reachable from
|
|
the internet), configure it safely, apply security updates, monitor it, ...
|
|
|
|
How can I protect against theft, sabotage, lightning, fire, ...?
|
|
----------------------------------------------------------------
|
|
|
|
In general: if your only backup medium is nearby the backupped machine and
|
|
always connected, you can easily get into trouble: they likely share the same
|
|
fate if something goes really wrong.
|
|
|
|
Thus:
|
|
|
|
- have multiple backup media
|
|
- have media disconnected from network, power, computer
|
|
- have media at another place
|
|
- have a relatively recent backup on your media
|
|
|
|
How do I report a security issue with Borg?
|
|
-------------------------------------------
|
|
|
|
Send a private email to the :ref:`security contact <security-contact>`
|
|
if you think you have discovered a security issue.
|
|
Please disclose security issues responsibly.
|
|
|
|
Common issues
|
|
#############
|
|
|
|
Why do I get "connection closed by remote" after a while?
|
|
---------------------------------------------------------
|
|
|
|
When doing a backup to a remote server (using a ssh: repo URL), it sometimes
|
|
stops after a while (some minutes, hours, ... - not immediately) with
|
|
"connection closed by remote" error message. Why?
|
|
|
|
That's a good question and we are trying to find a good answer in :issue:`636`.
|
|
|
|
Why am I seeing idle borg serve processes on the repo server?
|
|
-------------------------------------------------------------
|
|
|
|
Maybe the ssh connection between client and server broke down and that was not
|
|
yet noticed on the server. Try these settings:
|
|
|
|
::
|
|
|
|
# /etc/ssh/sshd_config on borg repo server - kill connection to client
|
|
# after ClientAliveCountMax * ClientAliveInterval seconds with no response
|
|
ClientAliveInterval 20
|
|
ClientAliveCountMax 3
|
|
|
|
If you have multiple borg create ... ; borg create ... commands in a already
|
|
serialized way in a single script, you need to give them ``--lock-wait N`` (with N
|
|
being a bit more than the time the server needs to terminate broken down
|
|
connections and release the lock).
|
|
|
|
.. _disable_archive_chunks:
|
|
|
|
The borg cache eats way too much disk space, what can I do?
|
|
-----------------------------------------------------------
|
|
|
|
There is a temporary (but maybe long lived) hack to avoid using lots of disk
|
|
space for chunks.archive.d (see :issue:`235` for details):
|
|
|
|
::
|
|
|
|
# this assumes you are working with the same user as the backup.
|
|
cd ~/.cache/borg/$(borg config /path/to/repo id)
|
|
rm -rf chunks.archive.d ; touch chunks.archive.d
|
|
|
|
This deletes all the cached archive chunk indexes and replaces the directory
|
|
that kept them with a file, so borg won't be able to store anything "in" there
|
|
in future.
|
|
|
|
This has some pros and cons, though:
|
|
|
|
- much less disk space needs for ~/.cache/borg.
|
|
- chunk cache resyncs will be slower as it will have to transfer chunk usage
|
|
metadata for all archives from the repository (which might be slow if your
|
|
repo connection is slow) and it will also have to build the hashtables from
|
|
that data.
|
|
chunk cache resyncs happen e.g. if your repo was written to by another
|
|
machine (if you share same backup repo between multiple machines) or if
|
|
your local chunks cache was lost somehow.
|
|
|
|
The long term plan to improve this is called "borgception", see :issue:`474`.
|
|
|
|
Can I backup my root partition (/) with Borg?
|
|
---------------------------------------------
|
|
|
|
Backing up your entire root partition works just fine, but remember to
|
|
exclude directories that make no sense to backup, such as /dev, /proc,
|
|
/sys, /tmp and /run, and to use ``--one-file-system`` if you only want to
|
|
backup the root partition (and not any mounted devices e.g.).
|
|
|
|
If it crashes with a UnicodeError, what can I do?
|
|
-------------------------------------------------
|
|
|
|
Check if your encoding is set correctly. For most POSIX-like systems, try::
|
|
|
|
export LANG=en_US.UTF-8 # or similar, important is correct charset
|
|
|
|
I can't extract non-ascii filenames by giving them on the commandline!?
|
|
-----------------------------------------------------------------------
|
|
|
|
This might be due to different ways to represent some characters in unicode
|
|
or due to other non-ascii encoding issues.
|
|
|
|
If you run into that, try this:
|
|
|
|
- avoid the non-ascii characters on the commandline by e.g. extracting
|
|
the parent directory (or even everything)
|
|
- mount the repo using FUSE and use some file manager
|
|
|
|
.. _a_status_oddity:
|
|
|
|
I am seeing 'A' (added) status for an unchanged file!?
|
|
------------------------------------------------------
|
|
|
|
The files cache is used to determine whether Borg already
|
|
"knows" / has backed up a file and if so, to skip the file from
|
|
chunking. It does intentionally *not* contain files that have a modification
|
|
time (mtime) same as the newest mtime in the created archive.
|
|
|
|
So, if you see an 'A' status for unchanged file(s), they are likely the files
|
|
with the most recent mtime in that archive.
|
|
|
|
This is expected: it is to avoid data loss with files that are backed up from
|
|
a snapshot and that are immediately changed after the snapshot (but within
|
|
mtime granularity time, so the mtime would not change). Without the code that
|
|
removes these files from the files cache, the change that happened right after
|
|
the snapshot would not be contained in the next backup as Borg would
|
|
think the file is unchanged.
|
|
|
|
This does not affect deduplication, the file will be chunked, but as the chunks
|
|
will often be the same and already stored in the repo (except in the above
|
|
mentioned rare condition), it will just re-use them as usual and not store new
|
|
data chunks.
|
|
|
|
If you want to avoid unnecessary chunking, just create or touch a small or
|
|
empty file in your backup source file set (so that one has the latest mtime,
|
|
not your 50GB VM disk image) and, if you do snapshots, do the snapshot after
|
|
that.
|
|
|
|
Since only the files cache is used in the display of files status,
|
|
those files are reported as being added when, really, chunks are
|
|
already used.
|
|
|
|
|
|
.. _always_chunking:
|
|
|
|
It always chunks all my files, even unchanged ones!
|
|
---------------------------------------------------
|
|
|
|
Borg maintains a files cache where it remembers the mtime, size and
|
|
inode of files. When Borg does a new backup and starts processing a
|
|
file, it first looks whether the file has changed (compared to the values
|
|
stored in the files cache). If the values are the same, the file is assumed
|
|
unchanged and thus its contents won't get chunked (again).
|
|
|
|
Borg can't keep an infinite history of files of course, thus entries
|
|
in the files cache have a "maximum time to live" which is set via the
|
|
environment variable BORG_FILES_CACHE_TTL (and defaults to 20).
|
|
Every time you do a backup (on the same machine, using the same user), the
|
|
cache entries' ttl values of files that were not "seen" are incremented by 1
|
|
and if they reach BORG_FILES_CACHE_TTL, the entry is removed from the cache.
|
|
|
|
So, for example, if you do daily backups of 26 different data sets A, B,
|
|
C, ..., Z on one machine (using the default TTL), the files from A will be
|
|
already forgotten when you repeat the same backups on the next day and it
|
|
will be slow because it would chunk all the files each time. If you set
|
|
BORG_FILES_CACHE_TTL to at least 26 (or maybe even a small multiple of that),
|
|
it would be much faster.
|
|
|
|
Another possible reason is that files don't always have the same path, for
|
|
example if you mount a filesystem without stable mount points for each backup or if you are running the backup from a filesystem snapshot whose name is not stable.
|
|
If the directory where you mount a filesystem is different every time,
|
|
Borg assume they are different files.
|
|
|
|
|
|
Is there a way to limit bandwidth with Borg?
|
|
--------------------------------------------
|
|
|
|
To limit upload (i.e. :ref:`borg_create`) bandwidth, use the
|
|
``--remote-ratelimit`` option.
|
|
|
|
There is no built-in way to limit *download*
|
|
(i.e. :ref:`borg_extract`) bandwidth, but limiting download bandwidth
|
|
can be accomplished with pipeviewer_:
|
|
|
|
Create a wrapper script: /usr/local/bin/pv-wrapper ::
|
|
|
|
#!/bin/sh
|
|
## -q, --quiet do not output any transfer information at all
|
|
## -L, --rate-limit RATE limit transfer to RATE bytes per second
|
|
RATE=307200
|
|
pv -q -L $RATE | "$@"
|
|
|
|
Add BORG_RSH environment variable to use pipeviewer wrapper script with ssh. ::
|
|
|
|
export BORG_RSH='/usr/local/bin/pv-wrapper ssh'
|
|
|
|
Now Borg will be bandwidth limited. Nice thing about pv is that you can change rate-limit on the fly: ::
|
|
|
|
pv -R $(pidof pv) -L 102400
|
|
|
|
.. _pipeviewer: http://www.ivarch.com/programs/pv.shtml
|
|
|
|
|
|
I am having troubles with some network/FUSE/special filesystem, why?
|
|
--------------------------------------------------------------------
|
|
|
|
Borg is doing nothing special in the filesystem, it only uses very
|
|
common and compatible operations (even the locking is just "mkdir").
|
|
|
|
So, if you are encountering issues like slowness, corruption or malfunction
|
|
when using a specific filesystem, please try if you can reproduce the issues
|
|
with a local (non-network) and proven filesystem (like ext4 on Linux).
|
|
|
|
If you can't reproduce the issue then, you maybe have found an issue within
|
|
the filesystem code you used (not with Borg). For this case, it is
|
|
recommended that you talk to the developers / support of the network fs and
|
|
maybe open an issue in their issue tracker. Do not file an issue in the
|
|
Borg issue tracker.
|
|
|
|
If you can reproduce the issue with the proven filesystem, please file an
|
|
issue in the Borg issue tracker about that.
|
|
|
|
|
|
Why does running 'borg check --repair' warn about data loss?
|
|
------------------------------------------------------------
|
|
|
|
Repair usually works for recovering data in a corrupted archive. However,
|
|
it's impossible to predict all modes of corruption. In some very rare
|
|
instances, such as malfunctioning storage hardware, additional repo
|
|
corruption may occur. If you can't afford to lose the repo, it's strongly
|
|
recommended that you perform repair on a copy of the repo.
|
|
|
|
In other words, the warning is there to emphasize that Borg:
|
|
- Will perform automated routines that modify your backup repository
|
|
- Might not actually fix the problem you are experiencing
|
|
- Might, in very rare cases, further corrupt your repository
|
|
|
|
In the case of malfunctioning hardware, such as a drive or USB hub
|
|
corrupting data when read or written, it's best to diagnose and fix the
|
|
cause of the initial corruption before attempting to repair the repo. If
|
|
the corruption is caused by a one time event such as a power outage,
|
|
running `borg check --repair` will fix most problems.
|
|
|
|
|
|
Why isn't there more progress / ETA information displayed?
|
|
----------------------------------------------------------
|
|
|
|
Some borg runs take quite a bit, so it would be nice to see a progress display,
|
|
maybe even including a ETA (expected time of "arrival" [here rather "completion"]).
|
|
|
|
For some functionality, this can be done: if the total amount of work is more or
|
|
less known, we can display progress. So check if there is a ``--progress`` option.
|
|
|
|
But sometimes, the total amount is unknown (e.g. for ``borg create`` we just do
|
|
a single pass over the filesystem, so we do not know the total file count or data
|
|
volume before reaching the end). Adding another pass just to determine that would
|
|
take additional time and could be incorrect, if the filesystem is changing.
|
|
|
|
Even if the fs does not change and we knew count and size of all files, we still
|
|
could not compute the ``borg create`` ETA as we do not know the amount of changed
|
|
chunks, how the bandwidth of source and destination or system performance might
|
|
fluctuate.
|
|
|
|
You see, trying to display ETA would be futile. The borg developers prefer to
|
|
rather not implement progress / ETA display than doing futile attempts.
|
|
|
|
See also: https://xkcd.com/612/
|
|
|
|
|
|
Why am I getting 'Operation not permitted' errors when backing up on sshfs?
|
|
---------------------------------------------------------------------------
|
|
|
|
By default, ``sshfs`` is not entirely POSIX-compliant when renaming files due to
|
|
a technicality in the SFTP protocol. Fortunately, it also provides a workaround_
|
|
to make it behave correctly::
|
|
|
|
sshfs -o workaround=rename user@host:dir /mnt/dir
|
|
|
|
.. _workaround: https://unix.stackexchange.com/a/123236
|
|
|
|
|
|
Can I disable checking for free disk space?
|
|
-------------------------------------------
|
|
|
|
In some cases, the free disk space of the target volume is reported incorrectly.
|
|
This can happen for CIFS- or FUSE shares. If you are sure that your target volume
|
|
will always have enough disk space, you can use the following workaround to disable
|
|
checking for free disk space::
|
|
|
|
borg config -- $REPO_LOCATION additional_free_space -2T
|
|
|
|
|
|
Miscellaneous
|
|
#############
|
|
|
|
Requirements for the borg single-file binary, esp. (g)libc?
|
|
-----------------------------------------------------------
|
|
|
|
We try to build the binary on old, but still supported systems - to keep the
|
|
minimum requirement for the (g)libc low. The (g)libc can't be bundled into
|
|
the binary as it needs to fit your kernel and OS, but Python and all other
|
|
required libraries will be bundled into the binary.
|
|
|
|
If your system fulfills the minimum (g)libc requirement (see the README that
|
|
is released with the binary), there should be no problem. If you are slightly
|
|
below the required version, maybe just try. Due to the dynamic loading (or not
|
|
loading) of some shared libraries, it might still work depending on what
|
|
libraries are actually loaded and used.
|
|
|
|
In the borg git repository, there is scripts/glibc_check.py that can determine
|
|
(based on the symbols' versions they want to link to) whether a set of given
|
|
(Linux) binaries works with a given glibc version.
|
|
|
|
|
|
Why was Borg forked from Attic?
|
|
-------------------------------
|
|
|
|
Borg was created in May 2015 in response to the difficulty of getting new
|
|
code or larger changes incorporated into Attic and establishing a bigger
|
|
developer community / more open development.
|
|
|
|
More details can be found in `ticket 217
|
|
<https://github.com/jborg/attic/issues/217>`_ that led to the fork.
|
|
|
|
Borg intends to be:
|
|
|
|
* simple:
|
|
|
|
* as simple as possible, but no simpler
|
|
* do the right thing by default, but offer options
|
|
* open:
|
|
|
|
* welcome feature requests
|
|
* accept pull requests of good quality and coding style
|
|
* give feedback on PRs that can't be accepted "as is"
|
|
* discuss openly, don't work in the dark
|
|
* changing:
|
|
|
|
* Borg is not compatible with Attic
|
|
* do not break compatibility accidentally, without a good reason
|
|
or without warning. allow compatibility breaking for other cases.
|
|
* if major version number changes, it may have incompatible changes
|
|
|
|
Migrating from Attic
|
|
####################
|
|
|
|
What are the differences between Attic and Borg?
|
|
------------------------------------------------
|
|
|
|
Borg is a fork of `Attic`_ and maintained by "`The Borg collective`_".
|
|
|
|
.. _Attic: https://github.com/jborg/attic
|
|
.. _The Borg collective: https://borgbackup.readthedocs.org/en/latest/authors.html
|
|
|
|
Here's a (incomplete) list of some major changes:
|
|
|
|
* lots of attic issues fixed (see `issue #5 <https://github.com/borgbackup/borg/issues/5>`_),
|
|
including critical data corruption bugs and security issues.
|
|
* more open, faster paced development (see `issue #1 <https://github.com/borgbackup/borg/issues/1>`_)
|
|
* less chunk management overhead (less memory and disk usage for chunks index)
|
|
* faster remote cache resync (useful when backing up multiple machines into same repo)
|
|
* compression: no, lz4, zstd, zlib or lzma compression, adjustable compression levels
|
|
* repokey replaces problematic passphrase mode (you can't change the passphrase nor the pbkdf2 iteration count in "passphrase" mode)
|
|
* simple sparse file support, great for virtual machine disk files
|
|
* can read special files (e.g. block devices) or from stdin, write to stdout
|
|
* mkdir-based locking is more compatible than attic's posix locking
|
|
* uses fadvise to not spoil / blow up the fs cache
|
|
* better error messages / exception handling
|
|
* better logging, screen output, progress indication
|
|
* tested on misc. Linux systems, 32 and 64bit, FreeBSD, OpenBSD, NetBSD, macOS
|
|
|
|
Please read the :ref:`changelog` (or ``docs/changes.rst`` in the source distribution) for more
|
|
information.
|
|
|
|
Borg is not compatible with original Attic (but there is a one-way conversion).
|
|
|
|
How do I migrate from Attic to Borg?
|
|
------------------------------------
|
|
|
|
Use :ref:`borg_upgrade`. This is a one-way process that cannot be reversed.
|
|
|
|
There are some caveats:
|
|
|
|
- The upgrade can only be performed on local repositories.
|
|
It cannot be performed on remote repositories.
|
|
|
|
- If the repository is in "keyfile" encryption mode, the keyfile must
|
|
exist locally or it must be manually moved after performing the upgrade:
|
|
|
|
1. Get the repository ID with ``borg config /path/to/repo id``.
|
|
2. Locate the attic key file at ``~/.attic/keys/``. The correct key for the
|
|
repository starts with the line ``ATTIC_KEY <repository id>``.
|
|
3. Copy the attic key file to ``~/.config/borg/keys/``
|
|
4. Change the first line from ``ATTIC_KEY ...`` to ``BORG_KEY ...``.
|
|
5. Verify that the repository is now accessible (e.g. ``borg list <repository>``).
|
|
- Attic and Borg use different :ref:`"chunker params" <chunker-params>`.
|
|
This means that data added by Borg won't deduplicate with the existing data
|
|
stored by Attic. The effect is lessened if the files cache is used with Borg.
|
|
- Repositories in "passphrase" mode *must* be migrated to "repokey" mode using
|
|
:ref:`borg_key_migrate-to-repokey`. Borg does not support the "passphrase" mode
|
|
any other way.
|
|
|
|
Why is my backup bigger than with attic?
|
|
----------------------------------------
|
|
|
|
Attic was rather unflexible when it comes to compression, it always
|
|
compressed using zlib level 6 (no way to switch compression off or
|
|
adjust the level or algorithm).
|
|
|
|
The default in Borg is lz4, which is fast enough to not use significant CPU time
|
|
in most cases, but can only achieve modest compression. It still compresses
|
|
easily compressed data fairly well.
|
|
|
|
Borg also offers zstd, zlib and lzma compression, choose wisely.
|
|
|
|
Which choice is the best option depends on a number of factors, like
|
|
bandwidth to the repository, how well the data compresses, available CPU
|
|
power and so on.
|