Introduction ============ btrbk is a backup tool for btrfs subvolumes, taking advantage of btrfs specific capabilities to create atomic snapshots and transfer them incrementally to your backup locations. The source and target locations are specified in a config file, which allows to easily configure simple scenarios like "laptop with locally attached backup disks", as well as more complex ones, e.g. "server receiving backups from several hosts via ssh, with different retention policy". Key Features: * Atomic snapshots * Incremental backups * Configurable retention policy * Backups to multiple destinations * Transfer via ssh * Resume of backups (if backup target was not reachable for a while) * Encrypted backups to non-btrfs destinations * Wildcard subvolumes (useful for docker and lxc containers) * Transaction log * Comprehensive list and statistics output * Resolve and trace btrfs parent-child and received-from relationships * Display file changes between two backups btrbk is designed to run as a cron job for triggering periodic snapshots and backups, as well as from the command line (e.g. for instantly creating additional snapshots). ### Upgrading from v0.22.2 Please read the [upgrade guide](doc/upgrade_to_v0.23.0.md) if you are updating from btrbk <= v0.22.2. Installation ============ btrbk comes as a single executable file (perl script), without the need of any installation procedures. If you want the package and man-pages properly installed, follow the instructions below. Prerequisites ------------- * [btrfs-progs]: Btrfs filesystem utilities >= v3.18.2 * [Perl interpreter]: Probably already installed on your system * [OpenSSH]: If you want to transfer backups from/to remote locations * [Pipe Viewer]: If you want rate limiting and progress bars [btrfs-progs]: http://www.kernel.org/pub/linux/kernel/people/kdave/btrfs-progs/ [Perl interpreter]: https://www.perl.org [OpenSSH]: http://www.openssh.org [Pipe Viewer]: http://www.ivarch.com/programs/pv.shtml Instructions ------------ In order to install the btrbk executable along with the man-pages and an example configuration file, choose one of the following methods: ### Generic Linux System Download and unpack the newest stable [btrbk source tarball] and type: sudo make install ### Gentoo Linux btrbk is in portage: emerge app-backup/btrbk ### Debian Based Distros btrbk is in `stretch (testing) (utils)`: https://packages.debian.org/stretch/btrbk Packages are also available via NeuroDebian: http://neuro.debian.net/pkgs/btrbk.html ### Fedora Linux btrbk is in the official Fedora repos: https://apps.fedoraproject.org/packages/btrbk sudo dnf install btrbk ### Arch Linux btrbk is in AUR: https://aur.archlinux.org/packages/btrbk/ ### Alpine Linux btrbk is in `testing`, install with: apk add btrbk ### Void Linux btrbk is in Void's `current` repository xbps-install -S btrbk [btrbk source tarball]: http://digint.ch/download/btrbk/releases/ Synopsis ======== Please consult the [btrbk(1)] man-page provided with this package for a full description of the command line options. [btrbk(1)]: http://digint.ch/btrbk/doc/btrbk.html Configuration File ================== Before running `btrbk`, you will need to create a configuration file. You might want to take a look at `btrbk.conf.example` provided with this package. For a detailed description, please consult the [btrbk.conf(5)] man-page. When playing around with config-files, it is highly recommended to check the output using the `dryrun` command before executing the backups: btrbk -c /path/to/myconfig -v dryrun This will read all btrfs information on the source/target filesystems and show what actions would be performed (without writing anything to the disks). [btrbk.conf(5)]: http://digint.ch/btrbk/doc/btrbk.conf.html Example: laptop with usb-disk for backups ----------------------------------------- In this example, we assume you have a laptop with: * a disk having a btrfs root subvolume (subvolid=5) mounted on `/mnt/btr_pool`, containing a subvolume `rootfs` for the root filesystem (i.e. mounted on `/`) and a subvolume `home` for the user data, * a directory or subvolume `/mnt/btr_pool/btrbk_snapshots` which will hold the btrbk snapshots, * a backup disk having a btrfs volume mounted as `/mnt/btr_backup`, containing a subvolume or directory `mylaptop` for the incremental backups. Retention policy: * keep all snapshots for 2 days, no matter how frequently you (or your cron-job) run btrbk * keep daily snapshots for 14 days (very handy if you are on the road and the backup disk is not attached) * keep monthly backups forever * keep weekly backups for 10 weeks * keep daily backups for 20 days /etc/btrbk/btrbk-mylaptop.conf: snapshot_preserve_min 2d snapshot_preserve 14d target_preserve_min no target_preserve 20d 10w *m snapshot_dir btrbk_snapshots volume /mnt/btr_pool subvolume rootfs target send-receive /mnt/btr_backup/mylaptop subvolume home target send-receive /mnt/btr_backup/mylaptop /etc/cron.daily/btrbk: #!/bin/sh exec /usr/sbin/btrbk -q -c /etc/btrbk/btrbk-mylaptop.conf run * This will create snapshots on a daily basis: * `/mnt/btr_pool/btrbk_snapshots/rootfs.YYYYMMDD` * `/mnt/btr_pool/btrbk_snapshots/home.YYYYMMDD` * And create incremental backups in: * `/mnt/btr_backup/mylaptop/rootfs.YYYYMMDD` * `/mnt/btr_backup/mylaptop/home.YYYYMMDD` If you want the snapshots to be created only if the backup disk is attached, simply add the following line to the config: snapshot_create ondemand Example: host-initiated backup on fileserver -------------------------------------------- Let's say you have a fileserver at "myserver.mydomain.com" where you want to create backups of your laptop disk, the config would look like this: ssh_identity /etc/btrbk/ssh/id_rsa volume /mnt/btr_pool subvolume rootfs target send-receive /mnt/btr_backup/mylaptop target send-receive ssh://myserver.mydomain.com/mnt/btr_backup/mylaptop In addition to the backups on your local usb-disk mounted at `/mnt/btr_backup/mylaptop`, incremental backups would also be pushed to `myserver.mydomain.com`. Example: fileserver-initiated backups from several hosts -------------------------------------------------------- If you're a sysadmin and want to trigger backups directly from your fileserver, the config would be something like: ssh_identity /etc/btrbk/ssh/id_rsa volume ssh://alpha.mydomain.com/mnt/btr_pool subvolume rootfs target send-receive /mnt/btr_backup/alpha subvolume home target send-receive /mnt/btr_backup/alpha volume ssh://beta.mydomain.com/mnt/btr_pool subvolume rootfs target send-receive /mnt/btr_backup/beta subvolume dbdata target send-receive /mnt/btr_backup/beta This will pull backups from alpha/beta.mydomain.com and locally create: * `/mnt/btr_backup/alpha/rootfs.YYYYMMDD` * `/mnt/btr_backup/alpha/home.YYYYMMDD` * `/mnt/btr_backup/beta/rootfs.YYYYMMDD` * `/mnt/btr_backup/beta/dbdata.YYYYMMDD` Example: local time-machine (hourly snapshots) ---------------------------------------------- If all you want is to create snapshots of your home directory on a regular basis: /etc/btrbk/btrbk.conf: timestamp_format long snapshot_preserve_min 18h snapshot_preserve 48h 20d 6m volume /mnt/btr_pool snapshot_dir btrbk_snapshots subvolume home /etc/cron.hourly/btrbk: #!/bin/sh exec /usr/sbin/btrbk -q run Note that you can run btrbk more than once an hour, e.g. by calling `sudo btrbk run` from the command line. With this setup, all those extra snapshots will be kept for 18 hours. Example: multiple btrbk instances --------------------------------- Let's say we have a host (at 192.168.0.42) running btrbk with the setup of the time-machine example above, and we need a backup server to only fetch the snapshots. /etc/btrbk/btrbk.conf (on backup server): target_preserve_min no target_preserve 0d 10w *m volume ssh://192.168.0.42/mnt/btr_pool subvolume home snapshot_dir btrbk_snapshots snapshot_preserve_min all snapshot_create no target send-receive /mnt/btr_backup/my-laptop.com If the server runs btrbk with this config, 10 weeklies and all monthlies are received from 192.168.0.42. The source filesystem is never altered because of `snapshot_preserve_min all`. Example: backup from non-btrfs source ------------------------------------- First create a btrfs subvolume on the backup server: # btrfs subvolume create /mnt/btr_backup/myhost_sync In your daily cron script, prior to running btrbk, sync your source to `myhost_sync`, something like: rsync -a --inplace --delete -e ssh myhost.mydomain.com:/data/ /mnt/btr_backup/myhost_sync/ Then run btrbk, with myhost_sync configured *without any targets* as follows: volume /mnt/btr_backup subvolume myhost_sync snapshot_name myhost snapshot_preserve_min latest snapshot_preserve 14d 20w *m This will produce daily snapshots `/mnt/btr_backup/myhost.20150101`, with retention as defined with the snapshot_preserve option. Note that the provided script: "contrib/cron/btrbk-mail" has support for this! Example: encrypted backup to non-btrfs target --------------------------------------------- If your backup server does not support btrfs, you can send your subvolumes to a raw file. This is an _experimental_ feature: btrbk supports "raw" targets, meaning that similar to the "send-receive" target the btrfs subvolume is being sent using `btrfs send` (mirroring filesystem level data), but instead of instantly being received (`btrfs receive`) by the target filesystem, it is being redirected to a file, optionally compressed and piped through GnuPG. /etc/btrbk/btrbk.conf: raw_target_compress xz raw_target_encrypt gpg gpg_keyring /etc/btrbk/gpg/pubring.gpg gpg_recipient btrbk@mydomain.com volume /mnt/btr_pool subvolume home target raw ssh://cloud.example.com/backup ssh_user btrbk # incremental no This will create a GnuPG encrypted, compressed files on the target host. For each backup, two files are created: * `/backup/home.YYYYMMDD.btrfs.xz.gpg`: main data file containing the btrfs send-stream, * `/backup/home.YYYYMMDD.btrfs.xz.gpg.info`: sidecar file containing metadata used by btrbk. I you are using raw _incremental_ backups, please make sure you understand the implications (see [btrbk.conf(5)], TARGET TYPES). Setting up SSH ============== Since btrbk needs root access on the remote side, it is *very advisable* to take all the security precautions you can. Usually backups are generated periodically without user interaction, so it is not possible to protect your ssh key with a password. The steps below will give you hints on how to secure your ssh server for a backup scenario. Note that the btrbk executable is not needed on the remote side, but you will need "/sbin/btrfs" from the btrfs-progs package. btrbk comes with a shell script "ssh_filter_btrbk.sh", which restricts ssh access to sane calls to the /sbin/btrfs command needed for snapshot creation and send/receive operations (see [ssh_filter_btrbk(1)]). Here is an example on how it can be used with ssh: **Step 1** (client): Create a ssh key dedicated to btrbk, without password protection: ssh-keygen -t rsa -b 2048 -f /etc/btrbk/ssh/id_rsa -C btrbk@mydomain.com -N "" **Step 2** (server): Copy the "ssh_filter_btrbk.sh" from the btrbk project to "/backup/scripts/". **Step 3** (server): Add contents of the public key (/etc/btrbk/ssh/id_rsa.pub) to "/root/.ssh/authorized_keys", and configure "ssh_filter_btrbk.sh" to be executed whenever this key is used for authentication. Example lines: # example backup source (also allowing deletion of old snapshots) command="/backup/scripts/ssh_filter_btrbk.sh -l --source --delete" ... # example backup target (also allowing deletion of old snapshots) command="/backup/scripts/ssh_filter_btrbk.sh -l --target --delete" ... # example fetch-only backup source (snapshot_preserve_min=all, snapshot_create=no), # restricted to subvolumes within /home or /data command="/backup/scripts/ssh_filter_btrbk.sh -l --send -p /home -p /data" ... You might also want to restrict ssh access to a static IP address within your network: from="192.168.0.42",command="/backup/scripts/ssh_filter_btrbk.sh [...]" ... Please refer to [ssh_filter_btrbk(1)] for a description of the "ssh_filter_btrbk.sh" options, as well as [sshd(8)] for a description of the "authorized_keys" file format. Also consider setting up ssh access for a user dedicated to btrbk and choose either: - `backend btrfs-progs-btrbk` to completely get rid of ssh_filter_btrbk.sh, in conjunction with [btrfs-progs-btrbk], - `backend btrfs-progs-sudo`, configure /etc/sudoers, and consider using "ssh_filter_btrbk.sh --sudo" option. For even more security, set up a chroot environment in /etc/ssh/sshd_config (see [sshd_config(5)]). [ssh_filter_btrbk(1)]: http://digint.ch/btrbk/doc/ssh_filter_btrbk.html [sshd(8)]: http://www.openbsd.org/cgi-bin/man.cgi/OpenBSD-current/man8/sshd.8 [sshd_config(5)]: http://www.openbsd.org/cgi-bin/man.cgi/OpenBSD-current/man5/sshd_config.5 [btrfs-progs-btrbk]: https://github.com/digint/btrfs-progs-btrbk Restoring Backups ================= btrbk does not provide any mechanism to restore your backups, this has to be done manually. In the examples below, we assume that you have a btrfs volume mounted at `/mnt/btr_pool`, and the subvolume you want to have restored is at `/mnt/btr_pool/data`. **Important**: don't use `btrfs property set` to make a subvolume read-write after restoring. This is a low-level command, and leaves "Received UUID" in a false state which causes btrbk to fail on subsequent incremental backups. Instead, use `btrfs subvolume snapshot` (without `-r` flag) as described below. Example: Restore a Snapshot ----------------------------- First, pick a snapshot to be restored: btrbk list snapshots From the list, pick the snapshot you want to restore. Let's say it's `/mnt/btr_pool/_btrbk_snap/data.20150101`. If the broken subvolume is still present, move it away: mv /mnt/btr_pool/data /mnt/btr_pool/data.BROKEN Now restore the snapshot: btrfs subvolume snapshot /mnt/btr_pool/_btrbk_snap/data.20150101 /mnt/btr_pool/data That's it; your `data` subvolume is restored. If everything went fine, it's time to nuke the broken subvolume: btrfs subvolume delete /mnt/btr_pool/data.BROKEN Example: Restore a Backup ------------------------- First, pick a backup to be restored: btrbk list backups From the list, pick the backup you want to restore. Let's say it's `/mnt/btr_backup/data.20150101`. If the broken subvolume is still present, move it away: mv /mnt/btr_pool/data /mnt/btr_pool/data.BROKEN Now restore the backup: btrfs send /mnt/btr_backup/data.20150101 | btrfs receive /mnt/btr_pool/ btrfs subvolume snapshot /mnt/btr_pool/data.20150101 /mnt/btr_pool/data btrfs subvolume delete /mnt/btr_pool/data.20150101 Alternatively, if you're restoring data on a remote host, do something like this: btrfs send /mnt/btr_backup/data.20150101 | ssh root@my-remote-host.com btrfs receive /mnt/btr_pool/ If everything went fine, nuke the broken subvolume: btrfs subvolume delete /mnt/btr_pool/data.BROKEN FAQ === Make sure to also read the [btrbk FAQ page](doc/FAQ.md). Help improve it by asking! Donate ====== So btrbk saved your day? I will definitively continue developing btrbk for free, but if you want to support me you can do so: [![Donate](https://img.shields.io/badge/Donate-PayPal-green.svg)](https://www.paypal.com/cgi-bin/webscr?cmd=_s-xclick&hosted_button_id=WFQSSCD9GNM4S) Development =========== Source Code Repository ---------------------- The source code for btrbk is managed using Git. Check out the source like this: git clone git://dev.tty0.ch/btrbk.git How to Contribute ----------------- Your contributions are welcome! If you would like to contribute or have found bugs: * Visit the [btrbk project page on GitHub] and use the [issues tracker] there. * Talk to us on Freenode in `#btrbk`. * Contact the author via email (the email address can be found in the sources). Any feedback is appreciated! [btrbk project page on GitHub]: http://github.com/digint/btrbk [issues tracker]: http://github.com/digint/btrbk/issues License ======= btrbk is free software, available under the [GNU General Public License, Version 3][GPLv3]. [GPLv3]: http://www.gnu.org/licenses/gpl.html