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[[NixOS]] has native support for ZFS ([[wikipedia:ZFS]]). It uses the code from the [http://zfsonlinux.org/ ZFS on Linux project], including kernel modules and userspace utilities. The installation isos also come with zfs.
[https://zfsonlinux.org/ {{PAGENAME}}] ([[wikipedia:en:{{PAGENAME}}]]) - also known as [https://openzfs.org/ OpenZFS] ([[wikipedia:en:OpenZFS]]) - is a modern filesystem[[category:filesystem]] which is well supported on [[NixOS]].


== What works ==
Besides the ''zfs'' package (''ZFS Filesystem Linux Kernel module'') <ref>https://search.nixos.org/packages?channel=unstable&show=zfs&query=zfs</ref> itself there are many packages in the [[{{PAGENAME}}]] ecosystem available.


All functionality supported by ZFS on Linux, including:
[[{{PAGENAME}}]] integrates into NixOS via the ''boot.zfs''<ref>https://search.nixos.org/options?channel=unstable&query=boot.zfs</ref> and ''service.zfs''<ref>https://search.nixos.org/options?channel=unstable&query=services.zfs</ref> options.
* Using ZFS as the root filesystem (using either MS-DOS or GPT partitions)
* Encrypted ZFS pools (using either native encryption or Linux's dm-crypt)
* All the other ZFS goodies (cheap snapshotting, checksumming, compression, RAID-Z, …)
* Auto-snapshotting service


== Known issues ==
== Limitations ==
{{note|Setting <code><nowiki>boot.zfs.enableUnstable = true;</nowiki></code> is required if you are running an newer kernel which is not yet officially supported by zfs, otherwise the zfs module will refuse to evaluate and show up as ''broken''. This will install a pre-release of zfs. This might be not as stable as a released version. However, in the past this has rarely led to problems/stability issues}}


* Using NixOS on a ZFS root file system might result in the boot error ''external pointer tables not supported'' when the number of hardlinks in the nix store gets very high. This can be avoided by adding this option to your <code>configuration.nix</code> file:
==== Latest kernel compatible with ZFS ====
<syntaxhighlight lang="nix">
 
boot.loader.grub.copyKernels = true;
Newer kernels might not be supported by ZFS yet. If you are running a kernel which is not officially supported by zfs, the module will refuse to evaluate and show an error.
 
You can pin to a newer kernel version explicitly, but note that this version may be dropped by upstream and in nixpkgs prior to zfs supporting the next version. See [[Linux kernel]] for more information.<syntaxhighlight lang="nix">
{
  boot.kernelPackages = pkgs.linuxPackages_latest;
  # OR
  boot.kernelPackages = pkgs.linuxPackages_6_6
}
</syntaxhighlight>
</syntaxhighlight>


* In contrast to many native Linux filesystems, ZFS misses support for freeze/thaw operations. This means that using ZFS together with hibernation (suspend to disk) may cause filesystem corruption. See https://github.com/openzfs/zfs/issues/260 (closed in favour of follow-up issues https://github.com/openzfs/zfs/issues/12842 and https://github.com/openzfs/zfs/issues/12843).
This snippet will configure the latest compatible kernel.
Note that this can over time jump back to old kernel versions because non-lts kernel version
get removed over time and their newer replacements might be not supported by zfs yet.


{{note|For now, setting <code><nowiki>boot.kernelParams = [ "nohibernate" ];</nowiki></code>is necessary to avoid the issue described above.}}
<syntaxhighlight lang="nix">
{
  lib,
  pkgs,
  config,
  ...
}:


let
  isUnstable = config.boot.zfs.package == pkgs.zfsUnstable;
  zfsCompatibleKernelPackages = lib.filterAttrs (
    name: kernelPackages:
    (builtins.match "linux_[0-9]+_[0-9]+" name) != null
    && (builtins.tryEval kernelPackages).success
    && (
      (!isUnstable && !kernelPackages.zfs.meta.broken)
      || (isUnstable && !kernelPackages.zfs_unstable.meta.broken)
    )
  ) pkgs.linuxKernel.packages;
  latestKernelPackage = lib.last (
    lib.sort (a: b: (lib.versionOlder a.kernel.version b.kernel.version)) (
      builtins.attrValues zfsCompatibleKernelPackages
    )
  );
in
{
  # Note this might jump back and worth as kernel get added or removed.
  boot.kernelPackages = latestKernelPackage;
}
</syntaxhighlight>


== Caveats ==  
==== Partial support for SWAP on ZFS ====


* (ZFS, unrelated to Nix- see https://github.com/openzfs/zfs/issues/7734) You shouldn't use a ZVol as a swap device, as it can deadlock under memory pressure.
ZFS does not support swapfiles. SWAP devices can be used instead. Additionally, hibernation is disabled by default due to a [https://github.com/NixOS/nixpkgs/pull/208037 high risk] of data corruption. Note that even if that pull request is merged, it does not fully mitigate the risk. If you wish to enable hibernation regardless and made sure that not swapfiles on ZFS are used, set <code>boot.zfs.allowHibernation = true</code>.
* You should set the <code>mountpoint</code> property of your ZFS filesystems to be <code>legacy</code> and let NixOS mount them like any other filesystem (such as ''ext4'' or ''btrfs''), otherwise some filesystems may fail to mount due to ordering issues.
* By default, all ZFS pools available to the system will be forcibly imported during boot, regardless if you had imported them before or not. You should be careful not to have any other system accessing them at the same time, otherwise it will corrupt your pools. Normally (for the common desktop user) this should not be a problem, as a hard disk is usually only directly connected to one machine. This behaviour can be disabled by setting <syntaxhighlight lang="nix" inline>boot.zfs.forceImportAll = false;</syntaxhighlight>.
* If you create a zpool in the installer, make sure you run <code>zpool export <pool name></code> after <code>nixos-install</code>, or else when you reboot into your new system, zfs will fail to import the zpool.
* If you are running within a VM and NixOS fails to import the zpool on reboot, you may need to add <syntaxhighlight lang="nix" inline>boot.zfs.devNodes = "/dev/disk/by-path";</syntaxhighlight> to your configuration.nix file.


==== Zpool not found ====


== How to use it ==
If NixOS fails to import the zpool on reboot, you may need to add <syntaxhighlight lang="nix" inline>boot.zfs.devNodes = "/dev/disk/by-path";</syntaxhighlight> or <syntaxhighlight lang="nix" inline>boot.zfs.devNodes = "/dev/disk/by-partuuid";</syntaxhighlight> to your configuration.nix file.


{{warning|Add all mounts necessary for booting to your configuration as legacy mounts as described in this article instead of zfs's own mount mechanism. Otherwise mounts might be not mounted in the correct order during boot!}}
The differences can be tested by running <code>zpool import -d /dev/disk/by-id</code> when none of the pools are discovered, eg. a live iso.


Just add the following to your <code>configuration.nix</code> file:
==== declarative mounting of ZFS datasets ====
<syntaxhighlight lang="nix">
# boot.initrd.supportedFilesystems = [ "zfs" ]; # Not required if zfs is root-fs (extracted from filesystems)
# boot.supportedFilesystems = [ "zfs" ]; # Not required if zfs is root-fs (extracted from filesystems)
services.udev.extraRules = ''
  ACTION=="add|change", KERNEL=="sd[a-z]*[0-9]*|mmcblk[0-9]*p[0-9]*|nvme[0-9]*n[0-9]*p[0-9]*", ENV{ID_FS_TYPE}=="zfs_member", ATTR{../queue/scheduler}="none"
''; # zfs already has its own scheduler. without this my(@Artturin) computer froze for a second when i nix build something.
</syntaxhighlight>


Be sure to also set <code>networking.hostId</code>, see https://nixos.org/nixos/manual/options.html#opt-networking.hostId (Why- https://discourse.nixos.org/t/feedback-on-a-user-guide-i-created-on-installing-nixos-with-zfs/5986/4?u=srgom)
When using legacy mountpoints (created with eg<code>zfs create -o mountpoint=legacy</code>) mountpoints must be specified with <code>fileSystems."/mount/point" = {};</code>. ZFS native mountpoints are not managed as part of the system configuration but better support hibernation with a separate swap partition. This can lead to conflicts if ZFS mount service is also enabled for the same datasets. Disable it with <code>systemd.services.zfs-mount.enable = false;</code>.


To activate the configuration and load the ZFS kernel module, run:
== Guides ==
<syntaxhighlight lang="console">
# nixos-rebuild switch
</syntaxhighlight>


All ZFS functionality should now be available.
==== '''OpenZFS Documentation for installing''' ====


If you want NixOS to auto-mount your ZFS filesystems during boot, you should set their <code>mountpoint</code> property to <code>legacy</code> and treat it like if it were any other filesystem, i.e.: mount the filesystem manually and regenerate your list of filesystems, as such:
{{warning|This guide is not endorsed by NixOS and some features like immutable root do not have upstream support and could break on updates. If an issue arises while following this guide, please consult the guides support channels.}}


<syntaxhighlight lang="console">
One guide for a NixOS installation with ZFS is maintained at [https://openzfs.github.io/openzfs-docs/Getting%20Started/NixOS/ OpenZFS Documentation (''Getting Started'' for ''NixOS'')]
# zfs set mountpoint=legacy <pool>/<fs>
</syntaxhighlight>


<syntaxhighlight lang="console">
It is about:
# mount -t zfs <pool>/<fs> <mountpoint>
* [https://openzfs.github.io/openzfs-docs/Getting%20Started/NixOS/index.html#installation enabling ZFS on an existing NixOS installation] and
</syntaxhighlight>
* [https://openzfs.github.io/openzfs-docs/Getting%20Started/NixOS/#root-on-zfs (installing NixOS with) Root on ZFS].


This will regenerate your /etc/nixos/hardware-configuration.nix file:
It is not about:
<syntaxhighlight lang="console">
* Give understandable, easy to follow and close to the standard installation guide instructions
# nixos-generate-config
* integrating ZFS into your existing config
</syntaxhighlight>


<syntaxhighlight lang="console">
# nixos-rebuild switch
</syntaxhighlight>


NixOS will now make sure that your filesystem is always mounted during boot.
==== '''Simple NixOS ZFS in root installation''' ====


The <code>nixos-generate-config</code> command regenerates your <code>/etc/nixos/hardware-configuration.nix</code> file, which includes the list of filesystems for NixOS to mount during boot, e.g.:
Start from here in the NixOS manual: [https://nixos.org/manual/nixos/stable/#sec-installation-manual].
<syntaxhighlight lang="nix">
Under manual partitioning [https://nixos.org/manual/nixos/stable/#sec-installation-manual-partitioning] do this instead:
fileSystems."/home" =
  { device = "rpool/home";
    fsType = "zfs";
  };


fileSystems."/backup" =
'''Partition your disk with your favorite partition tool.'''
  { device = "rpool/backup";
    fsType = "zfs";
  };
</syntaxhighlight>


Alternatively, if you do not mind maintaining some manual tweaks to your Nix hardware configuration, you can avoid using the ZFS legacy mounting option if you add <syntaxhighlight lang="nix" inline>options = [ "zfsutil" ];</syntaxhighlight> to your filesystem definitions.  e.g. the above would become.
We need the following partitions:
<syntaxhighlight lang="nix">
fileSystems."/home" =
  { device = "rpool/home";
    fsType = "zfs";
    options = [ "zfsutil" ];
  };


fileSystems."/backup" =
* 1G for boot partition with "boot" as the partition label (also called name in some tools) and ef00 as partition code
  { device = "rpool/backup";
* 4G for a swap partition with "swap" as the partition label and 8200 as partition code. We will encrypt this with a random secret on each boot.
    fsType = "zfs";
* The rest of disk space for zfs with "root" as the partition label and 8300 as partition code (default code)
    options = [ "zfsutil" ];
  };
</syntaxhighlight>


Keep your filesystem defintions in a file separate from <code>/etc/nixos/hardware-configuration.nix</code>, since this is overwritten whenever you run <code>nixos-generate-config</code>.
Reason for swap partition: ZFS does use a caching mechanism that is different from the normal Linux cache infrastructure.
In low-memory situations, ZFS therefore might need a bit longer to free up memory from its cache. The swap partition will help with that.


== Changing the cache size ==
Example with gdisk:


ZFS has a complicated cache system. The cache you're most likely to want to fiddle with is the called Adaptive Replacement Cache, usually abbreviated ARC.  This is the first-level (fastest) of ZFS's caches.
<syntaxhighlight lang="bash">
sudo gdisk /dev/nvme0n1
GPT fdisk (gdisk) version 1.0.10
...
# boot partition
Command (? for help): n
Partition number (1-128, default 1):
First sector (2048-1000215182, default = 2048) or {+-}size{KMGTP}:
Last sector (2048-1000215182, default = 1000215175) or {+-}size{KMGTP}: +1G
Current type is 8300 (Linux filesystem)
Hex code or GUID (L to show codes, Enter = 8300): ef00
Changed type of partition to 'EFI system partition'


You can increase or decrease a parameter which represents approximately the maximum size of the ARC cache.  You can't set its actual size (ZFS does that adaptively according to its workload), nor can you set its exact maximum size.
# Swap partition
Command (? for help): n
Partition number (2-128, default 2):
First sector (2099200-1000215182, default = 2099200) or {+-}size{KMGTP}:
Last sector (2099200-1000215182, default = 1000215175) or {+-}size{KMGTP}: +4G
Current type is 8300 (Linux filesystem)
Hex code or GUID (L to show codes, Enter = 8300): 8200
Changed type of partition to 'Linux swap'


To change the maximum size of the ARC cache to (for example) 12 GB, add this to your NixOS configuration:
# root partition
<syntaxhighlight lang="nix">
Command (? for help): n
boot.kernelParams = [ "zfs.zfs_arc_max=12884901888" ];
Partition number (3-128, default 3):  
</syntaxhighlight>
First sector (10487808-1000215182, default = 10487808) or {+-}size{KMGTP}:
Last sector (10487808-1000215182, default = 1000215175) or {+-}size{KMGTP}:
Current type is 8300 (Linux filesystem)
Hex code or GUID (L to show codes, Enter = 8300):
Changed type of partition to 'Linux filesystem'


In some versions of ZFS, you can change the maximum size of the ARC on the fly, but in NixOS 18.03 this is not possible.  (Nor is it possible in other versions of ZFS on Linux yet, according to Stack Exchange.)
# write changes
Command (? for help): w


== Automatic scrubbing ==
Final checks complete. About to write GPT data. THIS WILL OVERWRITE EXISTING
PARTITIONS!!


Regular scrubbing of ZFS pools is recommended and can be enabled in your NixOS configuration via:
Do you want to proceed? (Y/N): y
<syntaxhighlight lang="nix">
OK; writing new GUID partition table (GPT) to /dev/nvme0n1.
services.zfs.autoScrub.enable = true;
The operation has completed successfully.
</syntaxhighlight>
Final partition table
<syntaxhighlight lang=bash>
Number  Start (sector)    End (sector)  Size      Code  Name
  1            2048        2099199  1024.0 MiB  EF00  EFI system partition
  2        2099200        10487807  4.0 GiB    8200  Linux swap
  3        10487808      1000215175  471.9 GiB  8300  Linux filesystem
</syntaxhighlight>
</syntaxhighlight>


You can tweak the interval (defaults to once a week) and which pools should be scrubbed (defaults to all).
'''Let's use variables from now on for simplicity.
Get the device ID in <code>/dev/disk/by-id/</code>, in our case here it is <code>nvme-SKHynix_HFS512GDE9X081N_FNB6N634510106K5O</code>
'''
<syntaxhighlight lang=bash>
BOOT=/dev/disk/by-id/nvme-SKHynix_HFS512GDE9X081N_FNB6N634510106K5O-part1
SWAP=/dev/disk/by-id/nvme-SKHynix_HFS512GDE9X081N_FNB6N634510106K5O-part2
DISK=/dev/disk/by-id/nvme-SKHynix_HFS512GDE9X081N_FNB6N634510106K5O-part3


== Reservations ==
'''Make zfs pool with encryption and mount points:'''


Since zfs is a copy-on-write filesystem even for deleting files disk space is needed. Therefore it should be avoided to run out of disk space. Luckily it is possible to reserve disk space for datasets to prevent this.
'''Note:''' zpool config can significantly affect performance (especially the ashift option) so you may want to do some research. The [https://jrs-s.net/2018/08/17/zfs-tuning-cheat-sheet/ ZFS tuning cheatsheet] or [https://wiki.archlinux.org/title/ZFS#Storage_pools ArchWiki] is a good place to start.


To reserve space create a new unused dataset that gets a guaranteed disk space of 1GB.
<syntaxhighlight lang="bash">
zpool create -O encryption=on -O keyformat=passphrase -O keylocation=prompt -O compression=zstd -O mountpoint=none -O xattr=sa -O acltype=posixacl -o ashift=12 zpool $DISK
# enter the password to decrypt the pool at boot
Enter new passphrase:
Re-enter new passphrase:


<syntaxhighlight lang="console">
# Create datasets
# zfs create -o refreservation=1G -o mountpoint=none zroot/reserved
zfs create zpool/root
</syntaxhighlight>
zfs create zpool/nix
zfs create zpool/var
zfs create zpool/home


where <code>zroot</code> should be replaced by a dataset in your pool.
mkdir -p /mnt
The dataset itself should not be used. In case you would run out of space you can shrink the reservation to reclaim enough disk space to cleanup the other data from the pool:
mount -t zfs zpool/root /mnt -o zfsutil
mkdir /mnt/nix /mnt/var /mnt/home


<syntaxhighlight lang="console">
mount -t zfs zpool/nix /mnt/nix -o zfsutil
# zfs set refreservation=none zroot/reserved
mount -t zfs zpool/var /mnt/var -o zfsutil
mount -t zfs zpool/home /mnt/home -o zfsutil
</syntaxhighlight>
</syntaxhighlight>


== How to use the auto-snapshotting service ==
Output from <syntaxhighlight lang="bash" inline>zpool status</syntaxhighlight>:
<syntaxhighlight >
zpool status
  pool: zpool
state: ONLINE
...
config:


To auto-snapshot a ZFS filesystem or a ZVol, set its <code>com.sun:auto-snapshot</code> property to <code>true</code>, like this:
NAME                              STATE    READ WRITE CKSUM
zpool                              ONLINE      0    0    0
  nvme-eui.0025384b21406566-part2  ONLINE      0    0    0


<syntaxhighlight lang="console">
# zfs set com.sun:auto-snapshot=true <pool>/<fs>
</syntaxhighlight>
</syntaxhighlight>


(Note that by default this property will be inherited by all descendent datasets, but you can set their properties to false if you prefer.)
'''Format boot partition with fat as filesystem'''
 
<syntaxhighlight lang="bash">
Then, to enable the auto-snapshot service, add this to your <code>configuration.nix</code>:
mkfs.fat -F 32 -n boot $BOOT
<syntaxhighlight lang="nix">
services.zfs.autoSnapshot.enable = true;
</syntaxhighlight>
</syntaxhighlight>


And finally, run <code>nixos-rebuild switch</code> to activate the new configuration!
'''Enable swap'''
 
<syntaxhighlight lang="bash">
By default, the auto-snapshot service will keep the latest four 15-minute, 24 hourly, 7 daily, 4 weekly and 12 monthly snapshots.
mkswap -L swap $SWAP
You can globally override this configuration by setting the desired number of snapshots in your <code>configuration.nix</code>, like this:
swapon $SWAP
 
<syntaxhighlight lang="nix">
services.zfs.autoSnapshot = {
  enable = true;
  frequent = 8; # keep the latest eight 15-minute snapshots (instead of four)
  monthly = 1;  # keep only one monthly snapshot (instead of twelve)
};
</syntaxhighlight>
</syntaxhighlight>


You can also disable a given type of snapshots on a per-dataset basis by setting a ZFS property, like this:
'''Installation:'''
# Mount boot
<syntaxhighlight lang="bash">
mkdir -p /mnt/boot
mount $BOOT /mnt/boot


<syntaxhighlight lang="console">
# Generate the nixos config
# zfs set com.sun:auto-snapshot:weekly=false <pool>/<fs>
nixos-generate-config --root /mnt
...
writing /mnt/etc/nixos/hardware-configuration.nix...
writing /mnt/etc/nixos/configuration.nix...
For more hardware-specific settings, see https://github.com/NixOS/nixos-hardware.
</syntaxhighlight>
</syntaxhighlight>


This would disable only weekly snapshots on the given filesystem.
Now edit the configuration.nix that was just created in <code>/mnt/etc/nixos/configuration.nix</code> and make sure to have at least the following content in it.


== Installing NixOS on a ZFS root filesystem ==
<syntaxhighlight lang="nix">
 
{
Another guide titled "Encrypted ZFS mirror with mirrored boot on NixOS" is available at https://elis.nu/blog/2019/08/encrypted-zfs-mirror-with-mirrored-boot-on-nixos/.
...
 
  # Boot loader config for configuration.nix:
OpenZFS document for NixOS Root on ZFS is also available:
  boot.loader.systemd-boot.enable = true;
https://openzfs.github.io/openzfs-docs/Getting%20Started/NixOS/Root%20on%20ZFS.html
 
This guide is based on the above OpenZFS guide and the NixOS installation instructions in the [https://nixos.org/manual/nixos/stable/index.html#sec-installation NixOS manual].
 
=== Pool layout considerations ===
 
it is important to keep <code>/nix</code> and the rest of the filesystem in
different sections of the dataset hierarchy, like this:


<syntaxhighlight lang="text">
  # for local disks that are not shared over the network, we don't need this to be random
rpool/
  networking.hostId = "8425e349";
      nixos/
...
            nix        mounted to /nix
      userdata/
            root        mounted to /
            home        mounted to /home
            ...
</syntaxhighlight>
</syntaxhighlight>


the name of <code>nixos</code> and <code>userdata/</code> can change, but them being peers is important.
Now check the hardware-configuration.nix in <code>/mnt/etc/nixos/hardware-configuration.nix</code> and add whats missing e.g. <code>options = [ "zfsutil" ]</code> for all filesystems except boot and <code>randomEncryption = true;</code> for the swap partition. Also change the generated swap device to the partition we created e.g. <code>/dev/disk/by-id/nvme-SKHynix_HFS512GDE9X081N_FNB6N634510106K5O-part2</code> in this case and <code>/dev/disk/by-id/nvme-SKHynix_HFS512GDE9X081N_FNB6N634510106K5O-part1</code> for boot.


ZFS can take consistent and atomic snapshots recursively down a dataset's hierarchy. Since Nix is good at being Nix, most users will want their server's ''data'' backed up, and don't mind reinstalling NixOS and then restoring data. If this is sufficient, only snapshot and back up the <code>userdata</code> hierarchy. Users who want to be able to restore a service with only ZFS snapshots will want to snapshot the entire tree, at the significant expense of snapshotting the Nix store.
<syntaxhighlight lang="nix">
...
  fileSystems."/" = {
    device = "zpool/root";
    fsType = "zfs";
    # the zfsutil option is needed when mounting zfs datasets without "legacy" mountpoints
    options = [ "zfsutil" ];
  };


=== Dataset properties ===
  fileSystems."/nix" = {
    device = "zpool/nix";
    fsType = "zfs";
    options = [ "zfsutil" ];
  };


The following is a list of recommended dataset properties which have no drawbacks under regular uses:
  fileSystems."/var" = {
    device = "zpool/var";
    fsType = "zfs";
    options = [ "zfsutil" ];
  };


* <code>compression=lz4</code> (<code>zstd</code> for higher-end machines)
  fileSystems."/home" = {
* <code>xattr=sa</code> for Journald
    device = "zpool/home";
* <code>acltype=posixacl</code> also for Journald
    fsType = "zfs";
* <code>relatime=on</code> for reduced stress on SSDs
    options = [ "zfsutil" ];
  };


The following is a list of dataset properties which are often useful, but do have drawbacks:
  fileSystems."/boot" = {
  device = "/dev/disk/by-id/nvme-SKHynix_HFS512GDE9X081N_FNB6N634510106K5O-part1";
  fsType = "vfat";
  };


* <code>atime=off</code> disables if a file's access time is updated when the file is read. This can result in significant performance gains, but might confuse some software like mailers.
  swapDevices = [{
 
    device = "/dev/disk/by-id/nvme-SKHynix_HFS512GDE9X081N_FNB6N634510106K5O-part2";
==== Journald ====
    randomEncryption = true;
 
  }];
Journald requires some properties for <code>journalctl</code> to work for non-root users. The dataset containing <code>/var/log/journal</code> (probably the <code>/</code> dataset for simple configurations) should be created with <code>xattr=sa</code> and <code>acltype=posixacl</code>.
}
 
For example:
 
<syntaxhighlight lang="console">
# zpool create  -O xattr=sa -O acltype=posixacl rpool ...
</syntaxhighlight>
 
or:
<syntaxhighlight lang="console">
# zfs create -o xattr=sa -o acltype=posixacl rpool/root
</syntaxhighlight>
</syntaxhighlight>


If you have already created the dataset, these properties can be set later:
Now you may install nixos with <code>nixos-install</code>


<syntaxhighlight lang="console">
== Importing on boot ==
# zfs set xattr=sa acltype=posixacl rpool/root
</syntaxhighlight>


=== Environment setup ===
If you create a zpool, it will not be imported on the next boot unless you either add the zpool name to <syntaxhighlight lang="nix" inline>boot.zfs.extraPools</syntaxhighlight>:
For convenience set a shell variable with the paths to your disk(s):


For multiple disks:
<syntaxhighlight lang="nix">
<syntaxhighlight lang="console">
## In /etc/nixos/configuration.nix:
$ disk=(/dev/disk/by-id/foo /dev/disk/by-id/bar)
boot.zfs.extraPools = [ "zpool_name" ];
</syntaxhighlight>
</syntaxhighlight>


For a single disk:
or if you are using legacy mountpoints, add a <syntaxhighlight lang="nix" inline>fileSystems</syntaxhighlight> entry and NixOS will automatically detect that the pool needs to be imported:
<syntaxhighlight lang="console">
$ disk=/dev/disk/by-id/foo
</syntaxhighlight>


=== Partitioning the disks ===
<syntaxhighlight lang="nix">
<syntaxhighlight lang="bash">
## In /etc/nixos/configuration.nix:
# Multiple disks
fileSystems."/mount/point" = {
for x in "${disk[@]}"; do
   device = "zpool_name";
   sudo parted "$x" -- mklabel gpt
   fsType = "zfs";
   sudo parted "$x" -- mkpart primary 512MiB -8GiB
};
  sudo parted "$x" -- mkpart primary linux-swap -8GiB 100%
  sudo parted "$x" -- mkpart ESP fat32 1MiB 512MiB
  sudo parted "$x" -- set 3 esp on
 
  sudo mkswap -L swap "${x}-part2"
  sudo mkfs.fat -F 32 -n EFI "${x}-part3"
done
 
# Single disk
sudo parted "$disk" -- mklabel gpt
sudo parted "$disk" -- mkpart primary 512MiB -8GiB
sudo parted "$disk" -- mkpart primary linux-swap -8GiB 100%
sudo parted "$disk" -- mkpart ESP fat32 1MiB 512MiB
sudo parted "$disk" -- set 3 esp on
 
sudo mkswap -L swap "${disk}-part2"
sudo mkfs.fat -F 32 -n EFI "${disk}-part3"
</syntaxhighlight>
</syntaxhighlight>


=== Laying out the filesystem hierarchy ===
=== Zpool created with bus-based disk names ===
In this guide, we will be using a <code>tmpfs</code> for <code>/</code>, since no system state will be stored outside of the ZFS datasets we will create.
If you used bus-based disk names in the <syntaxhighlight inline>zpool create</syntaxhighlight> command, e.g., <syntaxhighlight inline>/dev/sda</syntaxhighlight>, NixOS may run into issues importing the pool if the names change. Even if the pool is able to be mounted (with <syntaxhighlight lang="nix" inline>boot.zfs.devNodes = "/dev/disk/by-partuuid";</syntaxhighlight> set), this may manifest as a <syntaxhighlight inline>FAULTED</syntaxhighlight> disk and a <syntaxhighlight inline>DEGRADED</syntaxhighlight> pool reported by <syntaxhighlight inline>zpool status</syntaxhighlight>. The fix is to re-import the pool using disk IDs:
<syntaxhighlight lang="bash">
sudo mount -t tmpfs none /mnt
</syntaxhighlight>


==== Create the ZFS pool ====
<syntaxhighlight>
<syntaxhighlight lang="bash">
# zpool export zpool_name
sudo zpool create \
# zpool import -d /dev/disk/by-id zpool_name
  -o ashift=12 \
  -o autotrim=on \
  -R /mnt \
  -O canmount=off \
  -O mountpoint=none \
  -O acltype=posixacl \
  -O compression=zstd \
  -O dnodesize=auto \
  -O normalization=formD \
  -O relatime=on \
  -O xattr=sa \
  -O encryption=aes-256-gcm \
  -O keylocation=prompt \
  -O keyformat=passphrase \
  rpool \
  mirror \
  "${disk[@]/%/-part1}"
</syntaxhighlight>
</syntaxhighlight>


For a single disk, remove <code>mirror</code> and specify just <code>"${disk}-part1"</code> as the device.
The import setting is reflected in <syntaxhighlight inline="" lang="bash">/etc/zfs/zpool.cache</syntaxhighlight>, so it should persist through subsequent boots.  


If you do not want the entire pool to be encrypted, remove the options <code>encryption</code> <code>keylocation</code> and <code>keyformat</code>.
=== Zpool created with disk IDs ===
If you used disk IDs to refer to disks in the <code>zpool create</code> command, e.g., <code>/dev/disk/by-id</code>, then NixOS may consistently fail to import the pool unless <code>boot.zfs.devNodes = "/dev/disk/by-id"</code> is also set.


==== Create the ZFS datasets ====
== Mount datasets at boot ==
Since zfs is a copy-on-write filesystem even for deleting files disk space is needed. Therefore it should be avoided to run out of disk space. Luckily it is possible to reserve disk space for datasets to prevent this.  
zfs-mount service is enabled by default on NixOS 22.05.
<syntaxhighlight lang="console">
# zfs create -o refreservation=1G -o mountpoint=none rpool/reserved
</syntaxhighlight>


Create the datasets for the operating system.
To automatically mount a dataset at boot, you only need to set <code>canmount=on</code> and <code>mountpoint=/mount/point</code> on the respective datasets.
<syntaxhighlight lang="bash">
sudo zfs create -o canmount=off -o mountpoint=/ rpool/nixos
sudo zfs create -o canmount=on rpool/nixos/nix
sudo zfs create -o canmount=on rpool/nixos/etc
sudo zfs create -o canmount=on rpool/nixos/var
sudo zfs create -o canmount=on rpool/nixos/var/lib
sudo zfs create -o canmount=on rpool/nixos/var/log
sudo zfs create -o canmount=on rpool/nixos/var/spool
</syntaxhighlight>


Create datasets for user home directories.  If you opted to not encrypt the entire pool, you can encrypt just the userdata by specifying the same ZFS properties when creating rpool/userdata, and the child datasets will also be encrypted.
== Changing the Adaptive Replacement Cache size ==
<syntaxhighlight lang="bash">
sudo zfs create -o canmount=off -o mountpoint=/ rpool/userdata
sudo zfs create -o canmount=on rpool/userdata/home
sudo zfs create -o canmount=on -o mountpoint=/root rpool/userdata/home/root
# Create child datasets of home for users' home directories.
sudo zfs create -o canmount=on rpool/userdata/home/alice
sudo zfs create -o canmount=on rpool/userdata/home/bob
sudo zfs create -o canmount=on rpool/userdata/home/...
</syntaxhighlight>


==== Mount <code>/boot</code> ====
To change the maximum size of the ARC to (for example) 12 GB, add this to your NixOS configuration:
We are going to use the default NixOS bootloader systemd-boot, which can install to only one device.  You will want to periodically rsync <code>/mnt/boot</code> to <code>/mnt/boot2</code> so that you can always boot your system if either disk fails.
<syntaxhighlight lang="nix">
<syntaxhighlight lang="bash">
boot.kernelParams = [ "zfs.zfs_arc_max=12884901888" ];
sudo mkdir /mnt/boot /mnt/boot2
sudo mount "${disk[0]}-part3" /mnt/boot
sudo mount "${disk[1]}-part3" /mnt/boot2
</syntaxhighlight>
</syntaxhighlight>


Or for single-disk systems:
== Tuning other parameters ==
<syntaxhighlight lang="bash">
sudo mkdir /mnt/boot
sudo mount "${disk}-part3" /mnt/boot
</syntaxhighlight>


=== Configure the NixOS system ===
To tune other attributes of ARC, L2ARC or of ZFS itself via runtime modprobe config, add this to your NixOS configuration (keys and values are examples only!):
Generate the base NixOS configuration files.
<syntaxhighlight lang="nix">
<syntaxhighlight lang="console">
    boot.extraModprobeConfig = ''
# nixos-generate-config --root /mnt
      options zfs l2arc_noprefetch=0 l2arc_write_boost=33554432 l2arc_write_max=16777216 zfs_arc_max=2147483648
    '';
</syntaxhighlight>
</syntaxhighlight>


Open <code>/mnt/etc/nixos/configuration.nix</code> in a text editor and change <code>imports</code> to include <code>hardware-configuration-zfs.nix</code> instead of the default <code>hardware-configuration.nix</code>.  We will be editing this file later.
You can confirm whether any specified configuration/tuning got applied via commands like <code>arc_summary</code> and <code>arcstat -a -s " "</code>.


Now Add the following block of code anywhere (how you organise your <code>configuration.nix</code> is up to you):
== Automatic scrubbing ==
<syntaxhighlight lang="nix">
# ZFS boot settings.
boot.supportedFilesystems = [ "zfs" ];
boot.zfs.devNodes = "/dev/";
</syntaxhighlight>


Now set <code>networking.hostName</code> and <code>networking.hostId</code>.  The host ID must be an eight digit hexadecimal value.  You can derive it from the <code>/etc/machine-id</code>, taking the first eight characters; from the hostname, by taking the first eight characters of the hostname's md5sum,
Regular scrubbing of ZFS pools is recommended and can be enabled in your NixOS configuration via:
<syntaxhighlight lang="console">
$ hostname | md5sum | head -c 8
</syntaxhighlight>
or by taking eight hexadecimal characters from <code>/dev/urandom</code>,
<syntaxhighlight lang="console">
$ tr -dc 0-9a-f < /dev/urandom | head -c 8
</syntaxhighlight>
 
Now add some ZFS maintenance settings:
<syntaxhighlight lang="nix">
<syntaxhighlight lang="nix">
# ZFS maintenance settings.
services.zfs.trim.enable = true;
services.zfs.autoScrub.enable = true;
services.zfs.autoScrub.enable = true;
services.zfs.autoScrub.pools = [ "rpool" ];
</syntaxhighlight>
</syntaxhighlight>


You may wish to also add <syntaxhighlight lang="nix" inline>services.zfs.autoSnapshot.enable = true;</syntaxhighlight> and set the ZFS property <code>com.sun:auto-snapshot</code> to <code>true</code> on <code>rpool/userdata</code> to have automatic snapshots.  (See [[#How to use the auto-snapshotting service]] earlier on this page.)
You can tweak the interval (defaults to once a week) and which pools should be scrubbed (defaults to all).


Now open <code>/mnt/etc/nixos/hardware-configuration-zfs.nix</code>.


* Add <syntaxhighlight lang="nix" inline>options = [ "zfsutil" ];</syntaxhighlight> to every ZFS <code>fileSystems</code> block.
== Remote unlock ==
* Add <syntaxhighlight lang="nix" inline>options = [ "X-mount.mkdir" ];</syntaxhighlight> to <syntaxhighlight lang="nix" inline>fileSystems."/boot"</syntaxhighlight> and <syntaxhighlight lang="nix" inline>fileSystems."/boot2"</syntaxhighlight>.
=== Unlock encrypted zfs via ssh on boot ===
* Replace <code>swapDevices</code> with the following, replacing <code>DISK1</code> and <code>DISK2</code> with the names of your disks.


<syntaxhighlight lang="nix">
{{note|As of 22.05, rebuilding your config with the below directions may result in a situation where, if you want to revert the changes, you may need to do some pretty hairy nix-store manipulation to be able to successfully rebuild, see https://github.com/NixOS/nixpkgs/issues/101462#issuecomment-1172926129}}
swapDevices = [
  { device = "/dev/disk/by-id/foo-part2";
    randomEncryption = true;
  }
  { device = "/dev/disk/by-id/bar-part2";
    randomEncryption = true;
  }
];
</syntaxhighlight>
For single-disk installs, remove the second entry of this array.


==== Optional additional setup for encrypted ZFS ====
===== Unlock encrypted zfs via ssh on boot =====
In case you want unlock a machine remotely (after an update), having an ssh service in initrd for the password prompt is handy:
In case you want unlock a machine remotely (after an update), having an ssh service in initrd for the password prompt is handy:


Line 431: Line 375:
       authorizedKeys = [ "ssh-rsa AAAA..." ];
       authorizedKeys = [ "ssh-rsa AAAA..." ];
     };
     };
    # this will automatically load the zfs password prompt on login
    # and kill the other prompt so boot can continue
    postCommands = ''
      cat <<EOF > /root/.profile
      if pgrep -x "zfs" > /dev/null
      then
        zfs load-key -a
        killall zfs
      else
        echo "zfs not running -- maybe the pool is taking some time to load for some unforseen reason."
      fi
      EOF
    '';
   };
   };
};
};
</syntaxhighlight>
</syntaxhighlight>
* In order to use DHCP in the initrd, network manager must not be enabled and <syntaxhighlight lang="nix" inline>networking.useDHCP = true;</syntaxhighlight> must be set.
* In order to use DHCP in the initrd, network manager must not be enabled and <syntaxhighlight lang="nix" inline>networking.useDHCP = true;</syntaxhighlight> must be set.
* If your network card isn't started, you'll need to add the according kernel module to the initrd as well, e.g. <syntaxhighlight lang="nix" inline>boot.initrd.kernelModules = [ "r8169" ];</syntaxhighlight>
* If your network card isn't started, you'll need to add the according kernel module to the kernel and initrd as well, e.g. <syntaxhighlight lang="nix">
boot.kernelModules = [ "r8169" ];
boot.initrd.kernelModules = [ "r8169" ];</syntaxhighlight>


===== Import and unlock multiple encrypted pools/dataset at boot =====
After that you can unlock your datasets using the following ssh command:
If you have not only one encrypted pool/dataset but multiple ones and you want to import and unlock them at boot, so that they can be automounted using the hardware-configuration.nix, you could just amend the <code>boot.initrd.network.postCommands</code> option.


Unfortunately having an unlock key file stored in an encrypted zfs dataset cannot be used directly, so the pool must use <code>keyformat=passphrase</code> and <code>keylocation=prompt</code>.
<syntaxhighlight>
ssh -p 2222 root@host "zpool import -a; zfs load-key -a && killall zfs"
</syntaxhighlight>


The following example follows the remote unlocking with OpenSSH, but imports another pool also and prompts for unlocking (either when at the machine itself or when logging in remotely:
Alternatively you could also add the commands as postCommands to your configuration.nix, then you just have to ssh into the initrd:


<syntaxhighlight lang="nix">
<syntaxhighlight>
boot = {
boot = {
   initrd.network = {
   initrd.network = {
    enable = true;
    ssh = {
      enable = true;
      port = 2222;
      hostKeys = [ /path/to/ssh_host_rsa_key ];
      authorizedKeys = [ "ssh-rsa AAAA..." ];
    };
     postCommands = ''
     postCommands = ''
      zpool import tankXXX
    # Import all pools
      echo "zfs load-key -a; killall zfs" >> /root/.profile
    zpool import -a
    # Or import selected pools
    zpool import pool2
    zpool import pool3
    zpool import pool4
    # Add the load-key command to the .profile
    echo "zfs load-key -a; killall zfs" >> /root/.profile
     '';
     '';
   };
   };
Line 475: Line 408:
</syntaxhighlight>
</syntaxhighlight>


When you login by SSH into the box or when you have physical access to the machine itself, you will be prompted to supply the unlocking password for your zroot and tankXXX pools.
After that you can unlock your datasets using the following ssh command:


=== Install NixOS ===
<syntaxhighlight>
<syntaxhighlight lang="console">
ssh -p 2222 root@host
# nixos-install --show-trace --root /mnt
</syntaxhighlight>
</syntaxhighlight>
<code>--show-trace</code> will show you where exactly things went wrong if <code>nixos-install</code> fails.  To take advantage of all cores on your system, also specify <code>--max-jobs n</code> replacing <code>n</code> with the number of cores on your machine.


== ZFS trim support for SSDs ==
== Reservations ==
 
On ZFS, the performance will deteriorate significantly when more than 80% of the available space is used.  To avoid this, reserve disk space beforehand.
 
To reserve space create a new unused dataset that gets a guaranteed disk space of 10GB.


ZFS 0.8 now also features trim support for SSDs.
<syntaxhighlight lang="console">
# zfs create -o refreservation=10G -o mountpoint=none zroot/reserved
</syntaxhighlight>


=== How to use ZFS trimming ===
== Auto ZFS trimming ==


ZFS trimming works on one or more zpools and will trim each ssd inside it. There are two modes of it. One mode will manually trim the specified pool and the other will auto-trim pools. However the main difference is, that auto-trim will skip ranges that it considers too small while manually issued trim will trim all ranges.
<syntaxhighlight lang="nix" inline>services.zfs.trim.enable = true;</syntaxhighlight>.


To manually start trimming of a zpool run: <code>zpool trim tank</code>.
This will periodically run <code>zpool trim</code>. Note that this is different from the <code>autotrim</code> pool property. For further information, see the <code>zpool-trim</code> and <code>zpoolprops</code> man pages.
Since [https://github.com/NixOS/nixpkgs/pull/65331 PR-65331] this can be also done periodically (by default once a week) by setting <syntaxhighlight lang="nix" inline>services.zfs.trim.enable = true;</syntaxhighlight>.


To set a pool for auto-trim run: <code>zpool set autotrim=on tank</code>
== Take snapshots automatically ==


To check the status of the manual trim, you can just run <code>zpool status -t</code>
See <code>services.sanoid</code> section in <code>man configuration.nix</code>.


To see the effects of trimming, you can run <code>zpool iostat -r</code> and <code>zpool iostat -w</code>
== NFS share ==


To see whether auto-trimming works, just run <code>zpool iostat -r</code> note the results and run it later again. The trim entries should change.
With <code>sharenfs</code> property, ZFS has build-in support for generating <code>/etc/exports.d/zfs.exports</code> file, which in turn is processed by NFS service automatically.


For further information read the [https://github.com/zfsonlinux/zfs/pull/8419 PR description].
{{warning|If you are intending on defining an IPv6 subnet as part of your sharenfs rule, as of ZFS 2.0.6 (2021-09-23) please note that due to a bug in openzfs '''your rule will not correctly apply''', and may result in a security vulnerability (CVE-2013-20001). A fix has been implemented in the next yet-to-be-released upstream version - [https://github.com/openzfs/zfs/pull/11939 openzfs/zfs#11939]}}


[[Category:Guide]]
To enable NFS share on a dataset, only two steps are needed:


First, enable [[NFS|NFS service]]:
<syntaxhighlight lang="nix">
services.nfs.server.enable = true;
</syntaxhighlight>
Only this line is needed. Configure firewall if necessary, as described in [[NFS]] article.


Following are a few discourse posts on zfs, serving as pointers, form your own opinion
Then, set <code>sharenfs</code> property:
<syntaxhighlight lang="console">
# zfs set sharenfs="ro=192.168.1.0/24,all_squash,anonuid=70,anongid=70" rpool/myData
</syntaxhighlight>
For more options, see <code>man 5 exports</code>.


* https://discourse.nixos.org/t/zfs-dedup-on-nix-store-is-it-worth-it/4959
Todo: sharesmb property for Samba.
* https://discourse.nixos.org/t/how-to-add-extra-build-input-to-linux-kernel/8208/3


== Mail notification for ZFS Event Daemon ==
== Mail notification for ZFS Event Daemon ==


ZFS Event Daemon (zed) monitors events generated by the ZFS kernel module and runs configured tasks. It can be configured to send an email when a pool scrub is finished or a disk has failed.
ZFS Event Daemon (zed) monitors events generated by the ZFS kernel module and runs configured tasks. It can be configured to send an email when a pool scrub is finished or a disk has failed. [https://search.nixos.org/options?query=services.zfs.zed zed options]
 
=== Alternative 1: Enable Mail Notification without Re-compliation ===


First, we need to configure a mail transfer agent, the program that sends email:
First, we need to configure a mail transfer agent, the program that sends email:
Line 575: Line 521:
</syntaxhighlight>
</syntaxhighlight>


== Mount datasets without legacy mountpoint ==
=== Alternative 2: Rebuild ZFS with Mail Support ===
Contrary to conventional wisdom, <code>mountpoint=legacy</code> is not required for mounting datasets. The trick is to use <code>mount -t zfs -o zfsutil path/to/dataset /path/to/mountpoint</code>.
The <code>zfs</code> package can be rebuilt with mail features. However, please note that this will cause Nix to recompile the entire ZFS package on the computer, and on every kernel update, which could be very time-consuming on lower-end NAS systems.


Also, legacy mountpoints are also inconvenient in that the mounts can not be natively handled by <code>zfs mount</code> command, hence <code>legacy</code> in the name.
An alternative solution that does not involve recompliation can be found above.
 
The following override is needed as <code>zfs</code> is implicitly used in partition mounting:


An example configuration of mounting non-legacy dataset is the following:
<syntaxhighlight lang="nix">
<syntaxhighlight lang="nix">
{
nixpkgs.config.packageOverrides = pkgs: {
   fileSystems."/tank" =
   zfsStable = pkgs.zfsStable.override { enableMail = true; };
    { device = "tank_pool/data";
};
      fsType = "zfs"; options = [ "zfsutil" ];
    };
}
</syntaxhighlight>
</syntaxhighlight>


An alternative is to set <syntaxhighlight lang="nix" inline>boot.zfs.extraPools = [ pool_name ];</syntaxhighlight>, which is recommended by the documentation if you have many zfs filesystems.
A mail sender like [[msmtp]] or [[postfix]] is required.
 
== NFS share ==
With <code>sharenfs</code> property, ZFS has build-in support for generating <code>/etc/exports.d/zfs.exports</code> file, which in turn is processed by NFS service automatically.
 
{{warning|If you are intending on defining an IPv6 subnet as part of your sharenfs rule, as of ZFS 2.0.6 (2021-09-23) please note that due to a bug in openzfs '''your rule will not correctly apply''', and may result in a security vulnerability (CVE-2013-20001). A fix has been implemented in the next yet-to-be-released upstream version - [https://github.com/openzfs/zfs/pull/11939 openzfs/zfs#11939]}}


To enable NFS share on a dataset, only two steps are needed:
A minimal, testable ZED configuration example:


First, enable [[NFS|NFS service]]:
<syntaxhighlight lang="nix">
<syntaxhighlight lang="nix">
services.nfs.server.enable = true;
services.zfs.zed.enableMail = true;
services.zfs.zed.settings = {
  ZED_EMAIL_ADDR = [ "root" ];
  ZED_NOTIFY_VERBOSE = true;
};
</syntaxhighlight>
</syntaxhighlight>
Only this line is needed. Configure firewall if necessary, as described in [[NFS]] article.


Then, set <code>sharenfs</code> property:
Above, <code>ZED_EMAIL_ADDR</code> is set to <code>root</code>, which most people will have an alias for in their mailer. You can change it to directly mail you: <code>ZED_EMAIL_ADDR = [ "you@example.com" ];</code>
<syntaxhighlight lang="console">
 
# zfs set sharenfs="ro=192.168.1.0/24,all_squash,anonuid=70,anongid=70" rpool/myData
ZED pulls in <code>mailutils</code> and runs <code>mail</code> by default, but you can override it with <code>ZED_EMAIL_PROG</code>. If using msmtp, you may need <code>ZED_EMAIL_PROG = "${pkgs.msmtp}/bin/msmtp";</code>.
</syntaxhighlight>
For more options, see <code>man 5 exports</code>.


== See also ==
You can customize the mail command with <code>ZED_EMAIL_OPTS</code>. For example, if your upstream mail server requires a certain FROM address: <code>ZED_EMAIL_OPTS = "-r 'noreply@example.com' -s '@SUBJECT@' @ADDRESS@";</code>


This article on how to setup encrypted ZFS on Hetzner: <https://mazzo.li/posts/hetzner-zfs.html>.
[[Category:Guide]]

Latest revision as of 08:45, 27 September 2024

ZFS (wikipedia:en:ZFS) - also known as OpenZFS (wikipedia:en:OpenZFS) - is a modern filesystem which is well supported on NixOS.

Besides the zfs package (ZFS Filesystem Linux Kernel module) [1] itself there are many packages in the ZFS ecosystem available.

ZFS integrates into NixOS via the boot.zfs[2] and service.zfs[3] options.

Limitations

Latest kernel compatible with ZFS

Newer kernels might not be supported by ZFS yet. If you are running a kernel which is not officially supported by zfs, the module will refuse to evaluate and show an error.

You can pin to a newer kernel version explicitly, but note that this version may be dropped by upstream and in nixpkgs prior to zfs supporting the next version. See Linux kernel for more information.

{
  boot.kernelPackages = pkgs.linuxPackages_latest;
  # OR
  boot.kernelPackages = pkgs.linuxPackages_6_6
}

This snippet will configure the latest compatible kernel. Note that this can over time jump back to old kernel versions because non-lts kernel version get removed over time and their newer replacements might be not supported by zfs yet. 

{
  lib,
  pkgs,
  config,
  ...
}:

let
  isUnstable = config.boot.zfs.package == pkgs.zfsUnstable;
  zfsCompatibleKernelPackages = lib.filterAttrs (
    name: kernelPackages:
    (builtins.match "linux_[0-9]+_[0-9]+" name) != null
    && (builtins.tryEval kernelPackages).success
    && (
      (!isUnstable && !kernelPackages.zfs.meta.broken)
      || (isUnstable && !kernelPackages.zfs_unstable.meta.broken)
    )
  ) pkgs.linuxKernel.packages;
  latestKernelPackage = lib.last (
    lib.sort (a: b: (lib.versionOlder a.kernel.version b.kernel.version)) (
      builtins.attrValues zfsCompatibleKernelPackages
    )
  );
in
{
  # Note this might jump back and worth as kernel get added or removed.
  boot.kernelPackages = latestKernelPackage;
}

Partial support for SWAP on ZFS

ZFS does not support swapfiles. SWAP devices can be used instead. Additionally, hibernation is disabled by default due to a high risk of data corruption. Note that even if that pull request is merged, it does not fully mitigate the risk. If you wish to enable hibernation regardless and made sure that not swapfiles on ZFS are used, set boot.zfs.allowHibernation = true.

Zpool not found

If NixOS fails to import the zpool on reboot, you may need to add boot.zfs.devNodes = "/dev/disk/by-path"; or boot.zfs.devNodes = "/dev/disk/by-partuuid"; to your configuration.nix file.

The differences can be tested by running zpool import -d /dev/disk/by-id when none of the pools are discovered, eg. a live iso.

declarative mounting of ZFS datasets

When using legacy mountpoints (created with egzfs create -o mountpoint=legacy) mountpoints must be specified with fileSystems."/mount/point" = {};. ZFS native mountpoints are not managed as part of the system configuration but better support hibernation with a separate swap partition. This can lead to conflicts if ZFS mount service is also enabled for the same datasets. Disable it with systemd.services.zfs-mount.enable = false;.

Guides

OpenZFS Documentation for installing

Warning: This guide is not endorsed by NixOS and some features like immutable root do not have upstream support and could break on updates. If an issue arises while following this guide, please consult the guides support channels.

One guide for a NixOS installation with ZFS is maintained at OpenZFS Documentation (Getting Started for NixOS)

It is about:

It is not about:

  • Give understandable, easy to follow and close to the standard installation guide instructions
  • integrating ZFS into your existing config


Simple NixOS ZFS in root installation

Start from here in the NixOS manual: [1]. Under manual partitioning [2] do this instead:

Partition your disk with your favorite partition tool.

We need the following partitions:

  • 1G for boot partition with "boot" as the partition label (also called name in some tools) and ef00 as partition code
  • 4G for a swap partition with "swap" as the partition label and 8200 as partition code. We will encrypt this with a random secret on each boot.
  • The rest of disk space for zfs with "root" as the partition label and 8300 as partition code (default code)

Reason for swap partition: ZFS does use a caching mechanism that is different from the normal Linux cache infrastructure. In low-memory situations, ZFS therefore might need a bit longer to free up memory from its cache. The swap partition will help with that.

Example with gdisk: 

sudo gdisk /dev/nvme0n1
GPT fdisk (gdisk) version 1.0.10
...
# boot partition
Command (? for help): n
Partition number (1-128, default 1): 
First sector (2048-1000215182, default = 2048) or {+-}size{KMGTP}: 
Last sector (2048-1000215182, default = 1000215175) or {+-}size{KMGTP}: +1G
Current type is 8300 (Linux filesystem)
Hex code or GUID (L to show codes, Enter = 8300): ef00
Changed type of partition to 'EFI system partition'

# Swap partition
Command (? for help): n
Partition number (2-128, default 2): 
First sector (2099200-1000215182, default = 2099200) or {+-}size{KMGTP}: 
Last sector (2099200-1000215182, default = 1000215175) or {+-}size{KMGTP}: +4G
Current type is 8300 (Linux filesystem)
Hex code or GUID (L to show codes, Enter = 8300): 8200
Changed type of partition to 'Linux swap'

# root partition
Command (? for help): n
Partition number (3-128, default 3): 
First sector (10487808-1000215182, default = 10487808) or {+-}size{KMGTP}: 
Last sector (10487808-1000215182, default = 1000215175) or {+-}size{KMGTP}: 
Current type is 8300 (Linux filesystem)
Hex code or GUID (L to show codes, Enter = 8300): 
Changed type of partition to 'Linux filesystem'

# write changes
Command (? for help): w

Final checks complete. About to write GPT data. THIS WILL OVERWRITE EXISTING
PARTITIONS!!

Do you want to proceed? (Y/N): y
OK; writing new GUID partition table (GPT) to /dev/nvme0n1.
The operation has completed successfully.

Final partition table 

Number  Start (sector)    End (sector)  Size       Code  Name
   1            2048         2099199   1024.0 MiB  EF00  EFI system partition
   2         2099200        10487807   4.0 GiB     8200  Linux swap
   3        10487808      1000215175   471.9 GiB   8300  Linux filesystem

Let's use variables from now on for simplicity. Get the device ID in /dev/disk/by-id/, in our case here it is nvme-SKHynix_HFS512GDE9X081N_FNB6N634510106K5O 

BOOT=/dev/disk/by-id/nvme-SKHynix_HFS512GDE9X081N_FNB6N634510106K5O-part1
SWAP=/dev/disk/by-id/nvme-SKHynix_HFS512GDE9X081N_FNB6N634510106K5O-part2
DISK=/dev/disk/by-id/nvme-SKHynix_HFS512GDE9X081N_FNB6N634510106K5O-part3

'''Make zfs pool with encryption and mount points:'''

'''Note:''' zpool config can significantly affect performance (especially the ashift option) so you may want to do some research. The [https://jrs-s.net/2018/08/17/zfs-tuning-cheat-sheet/ ZFS tuning cheatsheet] or [https://wiki.archlinux.org/title/ZFS#Storage_pools ArchWiki] is a good place to start.

<syntaxhighlight lang="bash">
zpool create -O encryption=on -O keyformat=passphrase -O keylocation=prompt -O compression=zstd -O mountpoint=none -O xattr=sa -O acltype=posixacl -o ashift=12 zpool $DISK
# enter the password to decrypt the pool at boot
Enter new passphrase:
Re-enter new passphrase:

# Create datasets
zfs create zpool/root
zfs create zpool/nix
zfs create zpool/var
zfs create zpool/home

mkdir -p /mnt
mount -t zfs zpool/root /mnt -o zfsutil
mkdir /mnt/nix /mnt/var /mnt/home

mount -t zfs zpool/nix /mnt/nix -o zfsutil
mount -t zfs zpool/var /mnt/var -o zfsutil
mount -t zfs zpool/home /mnt/home -o zfsutil

Output from zpool status: 

zpool status
  pool: zpool
 state: ONLINE
...
config:

	NAME                               STATE     READ WRITE CKSUM
	zpool                              ONLINE       0     0     0
	  nvme-eui.0025384b21406566-part2  ONLINE       0     0     0

Format boot partition with fat as filesystem 

mkfs.fat -F 32 -n boot $BOOT

Enable swap 

mkswap -L swap $SWAP
swapon $SWAP

Installation:

  1. Mount boot
mkdir -p /mnt/boot
mount $BOOT /mnt/boot

# Generate the nixos config
nixos-generate-config --root /mnt
...
writing /mnt/etc/nixos/hardware-configuration.nix...
writing /mnt/etc/nixos/configuration.nix...
For more hardware-specific settings, see https://github.com/NixOS/nixos-hardware.

Now edit the configuration.nix that was just created in /mnt/etc/nixos/configuration.nix and make sure to have at least the following content in it. 

{
...
  # Boot loader config for configuration.nix:
  boot.loader.systemd-boot.enable = true;

  # for local disks that are not shared over the network, we don't need this to be random
  networking.hostId = "8425e349";
...

Now check the hardware-configuration.nix in /mnt/etc/nixos/hardware-configuration.nix and add whats missing e.g. options = [ "zfsutil" ] for all filesystems except boot and randomEncryption = true; for the swap partition. Also change the generated swap device to the partition we created e.g. /dev/disk/by-id/nvme-SKHynix_HFS512GDE9X081N_FNB6N634510106K5O-part2 in this case and /dev/disk/by-id/nvme-SKHynix_HFS512GDE9X081N_FNB6N634510106K5O-part1 for boot. 

...
  fileSystems."/" = { 
    device = "zpool/root";
    fsType = "zfs";
    # the zfsutil option is needed when mounting zfs datasets without "legacy" mountpoints
    options = [ "zfsutil" ];
  };

  fileSystems."/nix" = { 
    device = "zpool/nix";
    fsType = "zfs";
    options = [ "zfsutil" ];
  };

  fileSystems."/var" = { 
    device = "zpool/var";
    fsType = "zfs";
    options = [ "zfsutil" ];
  };

  fileSystems."/home" = {
    device = "zpool/home";
    fsType = "zfs";
    options = [ "zfsutil" ];
  };

  fileSystems."/boot" = { 
   device = "/dev/disk/by-id/nvme-SKHynix_HFS512GDE9X081N_FNB6N634510106K5O-part1";
   fsType = "vfat";
  };

  swapDevices = [{
    device = "/dev/disk/by-id/nvme-SKHynix_HFS512GDE9X081N_FNB6N634510106K5O-part2";
    randomEncryption = true;
  }];
}

Now you may install nixos with nixos-install

Importing on boot

If you create a zpool, it will not be imported on the next boot unless you either add the zpool name to boot.zfs.extraPools: 

## In /etc/nixos/configuration.nix:
boot.zfs.extraPools = [ "zpool_name" ];

or if you are using legacy mountpoints, add a fileSystems entry and NixOS will automatically detect that the pool needs to be imported: 

## In /etc/nixos/configuration.nix:
fileSystems."/mount/point" = {
  device = "zpool_name";
  fsType = "zfs";
};

Zpool created with bus-based disk names

If you used bus-based disk names in the zpool create command, e.g., /dev/sda, NixOS may run into issues importing the pool if the names change. Even if the pool is able to be mounted (with boot.zfs.devNodes = "/dev/disk/by-partuuid"; set), this may manifest as a FAULTED disk and a DEGRADED pool reported by zpool status. The fix is to re-import the pool using disk IDs: 

# zpool export zpool_name
# zpool import -d /dev/disk/by-id zpool_name

The import setting is reflected in /etc/zfs/zpool.cache, so it should persist through subsequent boots.

Zpool created with disk IDs

If you used disk IDs to refer to disks in the zpool create command, e.g., /dev/disk/by-id, then NixOS may consistently fail to import the pool unless boot.zfs.devNodes = "/dev/disk/by-id" is also set.

Mount datasets at boot

zfs-mount service is enabled by default on NixOS 22.05.

To automatically mount a dataset at boot, you only need to set canmount=on and mountpoint=/mount/point on the respective datasets.

Changing the Adaptive Replacement Cache size

To change the maximum size of the ARC to (for example) 12 GB, add this to your NixOS configuration: 

boot.kernelParams = [ "zfs.zfs_arc_max=12884901888" ];

Tuning other parameters

To tune other attributes of ARC, L2ARC or of ZFS itself via runtime modprobe config, add this to your NixOS configuration (keys and values are examples only!): 

    boot.extraModprobeConfig = ''
      options zfs l2arc_noprefetch=0 l2arc_write_boost=33554432 l2arc_write_max=16777216 zfs_arc_max=2147483648
    '';

You can confirm whether any specified configuration/tuning got applied via commands like arc_summary and arcstat -a -s " ".

Automatic scrubbing

Regular scrubbing of ZFS pools is recommended and can be enabled in your NixOS configuration via: 

services.zfs.autoScrub.enable = true;

You can tweak the interval (defaults to once a week) and which pools should be scrubbed (defaults to all).


Remote unlock

Unlock encrypted zfs via ssh on boot

Note: As of 22.05, rebuilding your config with the below directions may result in a situation where, if you want to revert the changes, you may need to do some pretty hairy nix-store manipulation to be able to successfully rebuild, see https://github.com/NixOS/nixpkgs/issues/101462#issuecomment-1172926129

In case you want unlock a machine remotely (after an update), having an ssh service in initrd for the password prompt is handy: 

boot = {
  initrd.network = {
    # This will use udhcp to get an ip address.
    # Make sure you have added the kernel module for your network driver to `boot.initrd.availableKernelModules`, 
    # so your initrd can load it!
    # Static ip addresses might be configured using the ip argument in kernel command line:
    # https://www.kernel.org/doc/Documentation/filesystems/nfs/nfsroot.txt
    enable = true;
    ssh = {
      enable = true;
      # To prevent ssh clients from freaking out because a different host key is used,
      # a different port for ssh is useful (assuming the same host has also a regular sshd running)
      port = 2222; 
      # hostKeys paths must be unquoted strings, otherwise you'll run into issues with boot.initrd.secrets
      # the keys are copied to initrd from the path specified; multiple keys can be set
      # you can generate any number of host keys using 
      # `ssh-keygen -t ed25519 -N "" -f /path/to/ssh_host_ed25519_key`
      hostKeys = [ /path/to/ssh_host_rsa_key ];
      # public ssh key used for login
      authorizedKeys = [ "ssh-rsa AAAA..." ];
    };
  };
};
  • In order to use DHCP in the initrd, network manager must not be enabled and networking.useDHCP = true; must be set.
  • If your network card isn't started, you'll need to add the according kernel module to the kernel and initrd as well, e.g. 
    boot.kernelModules = [ "r8169" ];
boot.initrd.kernelModules = [ "r8169" ];

After that you can unlock your datasets using the following ssh command: 

ssh -p 2222 root@host "zpool import -a; zfs load-key -a && killall zfs"

Alternatively you could also add the commands as postCommands to your configuration.nix, then you just have to ssh into the initrd: 

boot = {
  initrd.network = {
    postCommands = ''
    # Import all pools
    zpool import -a
    # Or import selected pools
    zpool import pool2
    zpool import pool3
    zpool import pool4
    # Add the load-key command to the .profile
    echo "zfs load-key -a; killall zfs" >> /root/.profile
    '';
  };
};

After that you can unlock your datasets using the following ssh command: 

ssh -p 2222 root@host

Reservations

On ZFS, the performance will deteriorate significantly when more than 80% of the available space is used. To avoid this, reserve disk space beforehand.

To reserve space create a new unused dataset that gets a guaranteed disk space of 10GB. 

# zfs create -o refreservation=10G -o mountpoint=none zroot/reserved

Auto ZFS trimming

services.zfs.trim.enable = true;.

This will periodically run zpool trim. Note that this is different from the autotrim pool property. For further information, see the zpool-trim and zpoolprops man pages.

Take snapshots automatically

See services.sanoid section in man configuration.nix.

NFS share

With sharenfs property, ZFS has build-in support for generating /etc/exports.d/zfs.exports file, which in turn is processed by NFS service automatically.

Warning: If you are intending on defining an IPv6 subnet as part of your sharenfs rule, as of ZFS 2.0.6 (2021-09-23) please note that due to a bug in openzfs your rule will not correctly apply, and may result in a security vulnerability (CVE-2013-20001). A fix has been implemented in the next yet-to-be-released upstream version - openzfs/zfs#11939

To enable NFS share on a dataset, only two steps are needed:

First, enable NFS service: 

services.nfs.server.enable = true;

Only this line is needed. Configure firewall if necessary, as described in NFS article.

Then, set sharenfs property: 

# zfs set sharenfs="ro=192.168.1.0/24,all_squash,anonuid=70,anongid=70" rpool/myData

For more options, see man 5 exports.

Todo: sharesmb property for Samba.

Mail notification for ZFS Event Daemon

ZFS Event Daemon (zed) monitors events generated by the ZFS kernel module and runs configured tasks. It can be configured to send an email when a pool scrub is finished or a disk has failed. zed options

Alternative 1: Enable Mail Notification without Re-compliation

First, we need to configure a mail transfer agent, the program that sends email: 

{
  programs.msmtp = {
    enable = true;
    setSendmail = true;
    defaults = {
      aliases = "/etc/aliases";
      port = 465;
      tls_trust_file = "/etc/ssl/certs/ca-certificates.crt";
      tls = "on";
      auth = "login";
      tls_starttls = "off";
    };
    accounts = {
      default = {
        host = "mail.example.com";
        passwordeval = "cat /etc/emailpass.txt";
        user = "user@example.com";
        from = "user@example.com";
      };
    };
  };
}

Then, configure an alias for root account. With this alias configured, all mails sent to root, such as cron job results and failed sudo login events, will be redirected to the configured email account. 

tee -a /etc/aliases <<EOF
root: user@example.com
EOF

Finally, override default zed settings with a custom one: 

{
  services.zfs.zed.settings = {
    ZED_DEBUG_LOG = "/tmp/zed.debug.log";
    ZED_EMAIL_ADDR = [ "root" ];
    ZED_EMAIL_PROG = "${pkgs.msmtp}/bin/msmtp";
    ZED_EMAIL_OPTS = "@ADDRESS@";

    ZED_NOTIFY_INTERVAL_SECS = 3600;
    ZED_NOTIFY_VERBOSE = true;

    ZED_USE_ENCLOSURE_LEDS = true;
    ZED_SCRUB_AFTER_RESILVER = true;
  };
  # this option does not work; will return error
  services.zfs.zed.enableMail = false;
}

You can now test this by performing a scrub 

# zpool scrub $pool

Alternative 2: Rebuild ZFS with Mail Support

The zfs package can be rebuilt with mail features. However, please note that this will cause Nix to recompile the entire ZFS package on the computer, and on every kernel update, which could be very time-consuming on lower-end NAS systems.

An alternative solution that does not involve recompliation can be found above.

The following override is needed as zfs is implicitly used in partition mounting: 

nixpkgs.config.packageOverrides = pkgs: {
  zfsStable = pkgs.zfsStable.override { enableMail = true; };
};

A mail sender like msmtp or postfix is required.

A minimal, testable ZED configuration example: 

services.zfs.zed.enableMail = true;
services.zfs.zed.settings = {
  ZED_EMAIL_ADDR = [ "root" ];
  ZED_NOTIFY_VERBOSE = true;
};

Above, ZED_EMAIL_ADDR is set to root, which most people will have an alias for in their mailer. You can change it to directly mail you: ZED_EMAIL_ADDR = [ "you@example.com" ];

ZED pulls in mailutils and runs mail by default, but you can override it with ZED_EMAIL_PROG. If using msmtp, you may need ZED_EMAIL_PROG = "${pkgs.msmtp}/bin/msmtp";.

You can customize the mail command with ZED_EMAIL_OPTS. For example, if your upstream mail server requires a certain FROM address: ZED_EMAIL_OPTS = "-r 'noreply@example.com' -s '@SUBJECT@' @ADDRESS@";

  1. https://search.nixos.org/packages?channel=unstable&show=zfs&query=zfs
  2. https://search.nixos.org/options?channel=unstable&query=boot.zfs
  3. https://search.nixos.org/options?channel=unstable&query=services.zfs
Retrieved from "https://wiki.nixos.org/w/index.php?title=ZFS&oldid=17664"