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181 lines
5.5 KiB
ReStructuredText
181 lines
5.5 KiB
ReStructuredText
.. include:: global.rst.inc
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.. _tutorial:
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Tutorial
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========
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This tutorial shows how zrepl can be used to implement a ZFS-based push backup.
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We assume the following scenario:
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* Production server ``prod`` with filesystems to back up:
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* ``zroot/var/db``
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* ``zroot/usr/home`` and all its child filesystems
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* **except** ``zroot/usr/home/paranoid`` belonging to a user doing backups themselves
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* Backup server ``backups`` with
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* Filesystem ``storage/zrepl/sink/prod`` + children dedicated to backups of ``prod``
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Our backup solution should fulfill the following requirements:
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* Periodically snapshot the filesystems on ``prod`` *every 10 minutes*
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* Incrementally replicate these snapshots to ``storage/zrepl/sink/prod/*`` on ``backups``
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* Keep only very few snapshots on ``prod`` to save disk space
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* Keep a fading history (24 hourly, 30 daily, 6 monthly) of snapshots on ``backups``
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Analysis
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--------
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We can model this situation as two jobs:
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* A **push job** on ``prod``
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* Creates the snapshots
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* Keeps a short history of local snapshots to enable incremental replication to ``backups``
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* Connects to the ``zrepl daemon`` process on ``backups``
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* Pushes snapshots ``backups``
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* Prunes snapshots on ``backups`` after replication is complete
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* A **sink job** on ``backups``
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* Accepts connections & responds to requests from ``prod``
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* Limits client ``prod`` access to filesystem sub-tree ``storage/zrepl/sink/prod``
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Install zrepl
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-------------
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Follow the :ref:`OS-specific installation instructions <installation>` and come back here.
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Generate TLS Certificates
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-------------------------
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We use the `TLS client authentication transport <transport-tcp+tlsclientauth>` to protect our data on the wire.
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To get things going quickly, we skip setting up a CA and generate two self-signed certificates as described :ref:`here <transport-tcp+tlsclientauth-2machineopenssl>`.
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Again, for convenience, We generate the key pairs on our local machine and distribute them using ssh:
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.. code-block:: bash
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:emphasize-lines: 6,13
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openssl req -x509 -sha256 -nodes \
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-newkey rsa:4096 \
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-days 365 \
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-keyout backups.key \
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-out backups.crt
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# ... and use "backups" as Common Name (CN)
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openssl req -x509 -sha256 -nodes \
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-newkey rsa:4096 \
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-days 365 \
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-keyout prod.key \
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-out prod.crt
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# ... and use "prod" as Common Name (CN)
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ssh root@backups "mkdir /etc/zrepl"
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scp backups.key backups.crt prod.crt root@backups:/etc/zrepl
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ssh root@prod "mkdir /etc/zrepl"
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scp prod.key prod.crt backups.crt root@prod:/etc/zrepl
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Configure server ``prod``
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-------------------------
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We define a **push job** named ``prod_to_backups`` in ``/etc/zrepl/zrepl.yml`` on host ``prod`` : ::
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jobs:
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- name: prod_to_backups
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type: push
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connect:
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type: tls
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address: "backups.example.com:8888"
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ca: /etc/zrepl/backups.crt
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cert: /etc/zrepl/prod.crt
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key: /etc/zrepl/prod.key
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server_cn: "backups"
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filesystems: {
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"zroot/var/db:": true,
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"zroot/usr/home<": true,
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"zroot/usr/home/paranoid": false
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}
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snapshotting:
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type: periodic
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prefix: zrepl_
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interval: 10m
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pruning:
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keep_sender:
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- type: not_replicated
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- type: last_n
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count: 10
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keep_receiver:
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- type: grid
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grid: 1x1h(keep=all) | 24x1h | 30x1d | 6x30d
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regex: "^zrepl_"
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.. _tutorial-configure-prod:
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Configure server ``backups``
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----------------------------
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We define a corresponding **sink job** named ``sink`` in ``/etc/zrepl/zrepl.yml`` on host ``prod`` : ::
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jobs:
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- name: sink
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type: sink
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serve:
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type: tls
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listen: ":8888"
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ca: "/etc/zrepl/prod.crt"
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cert: "/etc/zrepl/backups.crt"
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key: "/etc/zrepl/backups.key"
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client_cns:
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- "prod"
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root_fs: "storage/zrepl/sink"
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Apply Configuration Changes
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---------------------------
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We use ``zrepl configcheck`` before to catch any configuration errors: no output indicates that everything is fine.
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If that is the case, restart the zrepl daemon on **both** ``prod`` and ``backups`` using ``service zrepl restart`` or ``systemctl restart zrepl``.
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Watch it Work
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-------------
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Run ``zrepl status`` on ``prod`` to monitor the replication and pruning activity.
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To re-trigger replication (snapshots are separate!), use ``zrepl signal wakeup prod_to_backups`` on ``prod``.
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If you like tmux, here is a handy script that works on FreeBSD: ::
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pkg install gnu-watch tmux
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tmux new -s zrepl -d
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tmux split-window -t zrepl "tail -f /var/log/messages"
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tmux split-window -t zrepl "gnu-watch 'zfs list -t snapshot -o name,creation -s creation | grep zrepl_'"
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tmux split-window -t zrepl "zrepl status"
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tmux select-layout -t zrepl tiled
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tmux attach -t zrepl
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The Linux equivalent might look like this: ::
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# make sure tmux is installed & let's assume you use systemd + journald
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tmux new -s zrepl -d
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tmux split-window -t zrepl "journalctl -f -u zrepl.service"
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tmux split-window -t zrepl "watch 'zfs list -t snapshot -o name,creation -s creation | grep zrepl_'"
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tmux split-window -t zrepl "zrepl status"
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tmux select-layout -t zrepl tiled
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tmux attach -t zrepl
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Summary
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-------
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Congratulations, you have a working pull backup. Where to go next?
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* Read more about :ref:`configuration format, options & job types <configuration_toc>`
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* Configure :ref:`logging <logging>` \& :ref:`monitoring <monitoring>`.
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* Learn about :ref:`implementation details <implementation_toc>` of zrepl.
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