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closes https://github.com/zrepl/zrepl/pull/552 fixes https://github.com/zrepl/zrepl/issues/551 Signed-off-by: Andrew Gunnerson <chillermillerlong@hotmail.com> Co-authored-by: Christian Schwarz <me@cschwarz.com>
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336 lines
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Overview & Terminology
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======================
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All work zrepl does is performed by the zrepl daemon which is configured in a single YAML configuration file loaded on startup.
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The following paths are considered:
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* If set, the location specified via the global ``--config`` flag
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* ``/etc/zrepl/zrepl.yml``
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* ``/usr/local/etc/zrepl/zrepl.yml``
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The ``zrepl configcheck`` subcommand can be used to validate the configuration.
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The command will output nothing and exit with zero status code if the configuration is valid.
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The error messages vary in quality and usefulness: please report confusing config errors to the tracking :issue:`155`.
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Full example configs such as in the :ref:`quick-start guides <quickstart-toc>` or the :sampleconf:`/` directory might also be helpful.
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However, copy-pasting examples is no substitute for reading documentation!
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Config File Structure
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---------------------
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.. code-block:: yaml
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global: ...
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jobs:
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- name: backup
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type: push
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- ...
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zrepl is configured using a single YAML configuration file with two main sections: ``global`` and ``jobs``.
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The ``global`` section is filled with sensible defaults and is covered later in this chapter.
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The ``jobs`` section is a list of jobs which we are going to explain now.
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.. _job-overview:
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Jobs \& How They Work Together
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------------------------------
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A *job* is the unit of activity tracked by the zrepl daemon.
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The ``type`` of a job determines its role in a replication setup and in snapshot management.
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Jobs are identified by their ``name``, both in log files and the ``zrepl status`` command.
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.. NOTE::
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The job name is persisted in several places on disk and thus :issue:`cannot be changed easily<327>`.
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Replication always happens between a pair of jobs: one is the **active side**, and one the **passive side**.
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The active side connects to the passive side using a :ref:`transport <transport>` and starts executing the replication logic.
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The passive side responds to requests from the active side after checking its permissions.
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The following table shows how different job types can be combined to achieve **both push and pull mode setups**.
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Note that snapshot-creation denoted by "(snap)" is orthogonal to whether a job is active or passive.
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+-----------------------+--------------+----------------------------------+------------------------------------------------------------------------------------+
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| Setup name | active side | passive side | use case |
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+=======================+==============+==================================+====================================================================================+
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| Push mode | ``push`` | ``sink`` | * Laptop backup |
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| | (snap) | | * NAS behind NAT to offsite |
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+-----------------------+--------------+----------------------------------+------------------------------------------------------------------------------------+
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| Pull mode | ``pull`` | ``source`` | * Central backup-server for many nodes |
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| | | (snap) | * Remote server to NAS behind NAT |
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+-----------------------+--------------+----------------------------------+------------------------------------------------------------------------------------+
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| Local replication | | ``push`` + ``sink`` in one config | * Backup to :ref:`locally attached disk <quickstart-backup-to-external-disk>` |
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| | | with :ref:`local transport <transport-local>` | * Backup FreeBSD boot pool |
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+-----------------------+--------------+----------------------------------+------------------------------------------------------------------------------------+
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| Snap & prune-only | ``snap`` | N/A | * | Snapshots & pruning but no replication |
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| | (snap) | | | required |
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| | | | * Workaround for :ref:`source-side pruning <prune-workaround-source-side-pruning>` |
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+-----------------------+--------------+----------------------------------+------------------------------------------------------------------------------------+
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How the Active Side Works
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-------------------------
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The active side (:ref:`push <job-push>` and :ref:`pull <job-pull>` job) executes the replication and pruning logic:
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* Wakeup because of finished snapshotting (``push`` job) or pull interval ticker (``pull`` job).
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* Connect to the corresponding passive side using a :ref:`transport <transport>` and instantiate an RPC client.
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* Replicate data from the sending to the receiving side (see below).
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* Prune on sender & receiver.
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.. TIP::
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The progress of the active side can be watched live using the ``zrepl status`` subcommand.
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.. _overview-passive-side--client-identity:
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How the Passive Side Works
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--------------------------
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The passive side (:ref:`sink <job-sink>` and :ref:`source <job-source>`) waits for connections from the corresponding active side,
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using the transport listener type specified in the ``serve`` field of the job configuration.
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When a client connects, the transport listener performS listener-specific access control (cert validation, IP ACLs, etc)
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and determines the *client identity*.
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The passive side job then uses this client identity as follows:
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* The ``sink`` job maps requests from different client identities to their respective sub-filesystem tree ``root_fs/${client_identity}``.
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* The ``source`` might, in the future, embed the client identity in :ref:`zrepl's ZFS abstraction names <zrepl-zfs-abstractions>` in order to support multi-host replication.
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.. TIP::
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The implementation of the ``sink`` job requires that the connecting client identities be a valid ZFS filesystem name components.
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.. _overview-how-replication-works:
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How Replication Works
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---------------------
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One of the major design goals of the replication module is to avoid any duplication of the nontrivial logic.
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As such, the code works on abstract senders and receiver **endpoints**, where typically one will be implemented by a local program object and the other is an RPC client instance.
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Regardless of push- or pull-style setup, the logic executes on the active side, i.e. in the ``push`` or ``pull`` job.
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The following high-level steps take place during replication and can be monitored using the ``zrepl status`` subcommand:
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* Plan the replication:
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* Compare sender and receiver filesystem snapshots
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* Build the **replication plan**
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* Per filesystem, compute a diff between sender and receiver snapshots
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* Build a list of **replication steps**
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* If possible, use incremental and resumable sends
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* Otherwise, use full send of most recent snapshot on sender
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* Retry on errors that are likely temporary (i.e. network failures).
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* Give up on filesystems where a permanent error was received over RPC.
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* Execute the plan
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* Perform replication steps in the following order:
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Among all filesystems with pending replication steps, pick the filesystem whose next replication step's snapshot is the oldest.
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* Create placeholder filesystems on the receiving side to mirror the dataset paths on the sender to ``root_fs/${client_identity}``.
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* Acquire send-side *step-holds* on the step's `from` and `to` snapshots.
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* Perform the replication step.
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* Move the **replication cursor** bookmark on the sending side (see below).
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* Move the **last-received-hold** on the receiving side (see below).
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* Release the send-side step-holds.
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The idea behind the execution order of replication steps is that if the sender snapshots all filesystems simultaneously at fixed intervals, the receiver will have all filesystems snapshotted at time ``T1`` before the first snapshot at ``T2 = T1 + $interval`` is replicated.
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ZFS Background Knowledge
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^^^^^^^^^^^^^^^^^^^^^^^^
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This section gives some background knowledge about ZFS features that zrepl uses to provide guarantees for a replication filesystem.
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Specifically, zrepl guarantees by default that **incremental replication is always possible and that started replication steps can always be resumed if they are interrupted.**
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**ZFS Send Modes & Bookmarks**
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ZFS supports full sends (``zfs send fs@to``) and incremental sends (``zfs send -i @from fs@to``).
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Full sends are used to create a new filesystem on the receiver with the send-side state of ``fs@to``.
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Incremental sends only transfer the delta between ``@from`` and ``@to``.
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Incremental sends require that ``@from`` be present on the receiving side when receiving the incremental stream.
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Incremental sends can also use a ZFS bookmark as *from* on the sending side (``zfs send -i #bm_from fs@to``), where ``#bm_from`` was created using ``zfs bookmark fs@from fs#bm_from``.
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The receiving side must always have the actual snapshot ``@from``, regardless of whether the sending side uses ``@from`` or a bookmark of it.
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.. _zfs-background-knowledge-plain-vs-raw-sends:
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**Plain and raw sends**
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By default, ``zfs send`` sends the most generic, backwards-compatible data stream format (so-called 'plain send').
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If the sent uses newer features, e.g. compression or encryption, ``zfs send`` has to un-do these operations on the fly to produce the plain send stream.
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If the receiver uses newer features (e.g. compression or encryption inherited from the parent FS), it applies the necessary transformations again on the fly during ``zfs recv``.
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Flags such as ``-e``, ``-c`` and ``-L`` tell ZFS to produce a send stream that is closer to how the data is stored on disk.
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Sending with those flags removes computational overhead from sender and receiver.
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However, the receiver will not apply certain transformations, e.g., it will not compress with the receive-side ``compression`` algorithm.
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The ``-w`` (``--raw``) flag produces a send stream that is as *raw* as possible.
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For unencrypted datasets, its current effect is the same as ``-Lce``.
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Encrypted datasets can only be sent plain (unencrypted) or raw (encrypted) using the ``-w`` flag.
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**Resumable Send & Recv**
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The ``-s`` flag for ``zfs recv`` tells zfs to save the partially received send stream in case it is interrupted.
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To resume the replication, the receiving side filesystem's ``receive_resume_token`` must be passed to a new ``zfs send -t <value> | zfs recv`` command.
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A full send can only be resumed if ``@to`` still exists.
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An incremental send can only be resumed if ``@to`` still exists *and* either ``@from`` still exists *or* a bookmark ``#fbm`` of ``@from`` still exists.
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**ZFS Holds**
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ZFS holds prevent a snapshot from being deleted through ``zfs destroy``, letting the destroy fail with a ``datset is busy`` error.
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Holds are created and referred to by a *tag*. They can be thought of as a named, persistent lock on the snapshot.
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.. _zrepl-zfs-abstractions:
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ZFS Abstractions Managed By zrepl
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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With the background knowledge from the previous paragraph, we now summarize the different on-disk ZFS objects that zrepl manages to provide its functionality.
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.. _replication-placeholder-property:
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**Placeholder filesystems** on the receiving side are regular ZFS filesystems with the ZFS property ``zrepl:placeholder=on``.
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Placeholders allow the receiving side to mirror the sender's ZFS dataset hierarchy without replicating every filesystem at every intermediary dataset path component.
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Consider the following example: ``S/H/J`` shall be replicated to ``R/sink/job/S/H/J``, but neither ``S/H`` nor ``S`` shall be replicated.
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ZFS requires the existence of ``R/sink/job/S`` and ``R/sink/job/S/H`` in order to receive into ``R/sink/job/S/H/J``.
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Thus, zrepl creates the parent filesystems as placeholders on the receiving side.
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If at some point ``S/H`` and ``S`` shall be replicated, the receiving side invalidates the placeholder flag automatically.
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The ``zrepl test placeholder`` command can be used to check whether a filesystem is a placeholder.
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.. _replication-cursor-and-last-received-hold:
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The **replication cursor** bookmark and **last-received-hold** are managed by zrepl to ensure that future replications can always be done incrementally.
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The replication cursor is a send-side bookmark of the most recent successfully replicated snapshot,
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and the last-received-hold is a hold of that snapshot on the receiving side.
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Both are moved atomically after the receiving side has confirmed that a replication step is complete.
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The replication cursor has the format ``#zrepl_CUSOR_G_<GUID>_J_<JOBNAME>``.
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The last-received-hold tag has the format ``zrepl_last_received_J_<JOBNAME>``.
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Encoding the job name in the names ensures that multiple sending jobs can replicate the same filesystem to different receivers without interference.
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.. _tentative-replication-cursor-bookmarks:
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**Tentative replication cursor bookmarks** are short-lived bookmarks that protect the atomic moving-forward of the replication cursor and last-received-hold (see :issue:`this issue <340>`).
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They are only necessary if step holds are not used as per the :ref:`replication.protection <replication-option-protection>` setting.
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The tentative replication cursor has the format ``#zrepl_CUSORTENTATIVE_G_<GUID>_J_<JOBNAME>``.
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The ``zrepl zfs-abstraction list`` command provides a listing of all bookmarks and holds managed by zrepl.
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.. _step-holds:
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**Step holds** are zfs holds managed by zrepl to ensure that a replication step can always be resumed if it is interrupted, e.g., due to network outage.
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zrepl creates step holds before it attempts a replication step and releases them after the receiver confirms that the replication step is complete.
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For an initial replication ``full @initial_snap``, zrepl puts a zfs hold on ``@initial_snap``.
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For an incremental send ``@from -> @to``, zrepl puts a zfs hold on both ``@from`` and ``@to``.
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Note that ``@from`` is not strictly necessary for resumability -- a bookmark on the sending side would be sufficient --, but size-estimation in currently used OpenZFS versions only works if ``@from`` is a snapshot.
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The hold tag has the format ``zrepl_STEP_J_<JOBNAME>``.
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A job only ever has one active send per filesystem.
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Thus, there are never more than two step holds for a given pair of ``(job,filesystem)``.
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**Step bookmarks** are zrepl's equivalent for holds on bookmarks (ZFS does not support putting holds on bookmarks).
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They are intended for a situation where a replication step uses a bookmark ``#bm`` as incremental ``from`` where ``#bm`` is not managed by zrepl.
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To ensure resumability, zrepl copies ``#bm`` to step bookmark ``#zrepl_STEP_G_<GUID>_J_<JOBNAME>``.
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If the replication is interrupted and ``#bm`` is deleted by the user, the step bookmark remains as an incremental source for the resumable send.
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Note that zrepl does not yet support creating step bookmarks because the `corresponding ZFS feature for copying bookmarks <https://github.com/openzfs/zfs/pull/9571>`_ is not yet widely available .
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Subscribe to zrepl :issue:`326` for details.
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The ``zrepl zfs-abstraction list`` command provides a listing of all bookmarks and holds managed by zrepl.
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.. NOTE::
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More details can be found in the design document :repomasterlink:`replication/design.md`.
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Limitations
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^^^^^^^^^^^
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.. ATTENTION::
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Currently, zrepl does not replicate filesystem properties.
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When receiving a filesystem, it is never mounted (`-u` flag) and `mountpoint=none` is set.
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This is temporary and being worked on :issue:`24`.
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.. _jobs-multiple-jobs:
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Multiple Jobs & More than 2 Machines
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------------------------------------
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Most users are served well with a single sender and a single receiver job.
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This section documents considerations for more complex setups.
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.. ATTENTION::
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Before you continue, make sure you have a working understanding of :ref:`how zrepl works <overview-how-replication-works>`
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and :ref:`what zrepl does to ensure <zrepl-zfs-abstractions>` that replication between sender and receiver is always
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possible without conflicts.
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This will help you understand why certain kinds of multi-machine setups do not (yet) work.
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.. NOTE::
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If you can't find your desired configuration, have questions or would like to see improvements to multi-job setups, please `open an issue on GitHub <https://github.com/zrepl/zrepl/issues/new>`_.
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Multiple Jobs on one Machine
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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As a general rule, multiple jobs configured on one machine **must operate on disjoint sets of filesystems**.
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Otherwise, concurrently running jobs might interfere when operating on the same filesystem.
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On your setup, ensure that
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* all ``filesystems`` filter specifications are disjoint
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* no ``root_fs`` is a prefix or equal to another ``root_fs``
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* no ``filesystems`` filter matches any ``root_fs``
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**Exceptions to the rule**:
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* A ``snap`` and ``push`` job on the same machine can match the same ``filesystems``.
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To avoid interference, only one of the jobs should be pruning snapshots on the sender, the other one should keep all snapshots.
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Since the jobs won't coordinate, errors in the log are to be expected, but :ref:`zrepl's ZFS abstractions <zrepl-zfs-abstractions>` ensure that ``push`` and ``sink`` can always replicate incrementally.
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This scenario is detailed in one of the :ref:`quick-start guides <quickstart-backup-to-external-disk>`.
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More Than 2 Machines
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^^^^^^^^^^^^^^^^^^^^
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This section might be relevant to users who wish to *fan-in* (N machines replicate to 1) or *fan-out* (replicate 1 machine to N machines).
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**Working setups**:
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* **Fan-in: N servers replicated to one receiver, disjoint dataset trees.**
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* This is the common use case of a centralized backup server.
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* Implementation:
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* N ``push`` jobs (one per sender server), 1 ``sink`` (as long as the different push jobs have a different :ref:`client identity <overview-passive-side--client-identity>`)
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* N ``source`` jobs (one per sender server), N ``pull`` on the receiver server (unique names, disjoing ``root_fs``)
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* The ``sink`` job automatically constrains each client to a disjoint sub-tree of the sink-side dataset hierarchy ``${root_fs}/${client_identity}``.
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Therefore, the different clients cannot interfere.
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* The ``pull`` job only pulls from one host, so it's up to the zrepl user to ensure that the different ``pull`` jobs don't interfere.
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.. _fan-out-replication:
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* **Fan-out: 1 server replicated to N receivers**
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* Can be implemented either in a pull or push fashion.
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* **pull setup**: 1 ``pull`` job on each receiver server, each with a corresponding **unique** ``source`` job on the sender server.
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* **push setup**: 1 ``sink`` job on each receiver server, each with a corresponding **unique** ``push`` job on the sender server.
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* It is critical that we have one sending-side job (``source``, ``push``) per receiver.
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The reason is that :ref:`zrepl's ZFS abstractions <zrepl-zfs-abstractions>` (``zrepl zfs-abstraction list``) include the name of the ``source``/``push`` job, but not the receive-side job name or client identity (see :issue:`380`).
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As a counter-example, suppose we used multiple ``pull`` jobs with only one ``source`` job.
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All ``pull`` jobs would share the same :ref:`replication cursor bookmark <replication-cursor-and-last-received-hold>` and trip over each other, breaking incremental replication guarantees quickly.
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The anlogous problem exists for 1 ``push`` to N ``sink`` jobs.
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* The ``filesystems`` matched by the sending side jobs (``source``, ``push``) need not necessarily be disjoint.
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For this to work, we need to avoid interference between snapshotting and pruning of the different sending jobs.
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The solution is to centralize sender-side snapshot management in a separate ``snap`` job.
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Snapshotting in the ``source``/``push`` job should then be disabled (``type: manual``).
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And sender-side pruning (``keep_sender``) needs to be disabled in the active side (``pull`` / ``push``), since that'll be done by the ``snap job``.
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* **Restore limitations**: when restoring from one of the ``pull`` targets (e.g., using ``zfs send -R``), the replication cursor bookmarks don't exist on the restored system.
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This can break incremental replication to all other receive-sides after restore.
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* See :ref:`the fan-out replication quick-start guide <quickstart-fan-out-replication>` for an example of this setup.
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**Setups that do not work**:
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* N ``pull`` identities, 1 ``source`` job. Tracking :issue:`380`.
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