The nixos-generators project allows to take the same NixOS configuration, and generate outputs for different target formats.
Just put your stuff into the configuration.nix and then call one of the image builders.
for example:
nixos-generate -f iso
or
nixos-generate -f iso -c /etc/nixos/configuration.nix
it echoes the path to a iso image, which you then can flash onto an usb-stick or mount & boot in a virtual machine.
nixos-generators is part of nixpkgs and can be installed from there.
nixos-generators can be also installed from source into the user profile like this:
nix-env -f https://github.com/nix-community/nixos-generators/archive/master.tar.gz -i
or for flakes users like this:
nix profile install github:nix-community/nixos-generators
or run from the nix flake without installing:
nix run github:nix-community/nixos-generators -- --help
format | description |
---|---|
amazon | Amazon EC2 image |
azure | Microsoft azure image (Generation 1 / VHD) |
cloudstack | qcow2 image for cloudstack |
do | Digital Ocean image |
docker | Docker image (uses systemd to run, probably only works in podman) |
gce | Google Compute image |
hyperv | Hyper-V Image (Generation 2 / VHDX) |
install-iso | Installer ISO |
install-iso-hyperv | Installer ISO with enabled hyper-v support |
iso | ISO |
kexec | kexec tarball (extract to / and run /kexec_nixos) |
kexec-bundle | same as before, but it's just an executable |
kubevirt | KubeVirt image |
linode | Linode image |
lxc | create a tarball which is importable as an lxc container, use together with lxc-metadata |
lxc-metadata | the necessary metadata for the lxc image to start, usage: lxc image import $(nixos-generate -f lxc-metadata) $(nixos-generate -f lxc) |
openstack | qcow2 image for openstack |
proxmox | VMA file for proxmox |
proxmox-lxc | LXC template for proxmox |
qcow | qcow2 image |
raw | raw image with bios/mbr |
raw-efi | raw image with efi support |
sd-aarch64 | Like sd-aarch64-installer, but does not use default installer image config. |
sd-aarch64-installer | create an installer sd card for aarch64. For cross compiling use --system aarch64-linux and read the cross-compile section. |
vagrant-virtualbox | VirtualBox image for Vagrant |
virtualbox | virtualbox VM |
vm | only used as a qemu-kvm runner |
vm-bootloader | same as vm, but uses a real bootloader instead of netbooting |
vm-nogui | same as vm, but without a GUI |
vmware | VMWare image (VMDK) |
Run nixos-generate --help
for detailed usage information.
adds ability to select a specific channel version.
example:
nix-shell --command './nixos-generate -f iso -I nixpkgs=channel:nixos-19.09'
To use features found in a different nixpkgs (for instance the Digital Ocean image was recently merged in nixpkgs):
NIX_PATH=nixpkgs=../nixpkgs nixos-generate -f do
To cross compile nixos images for other architectures you have to configure
boot.binfmt.emulatedSystems
or boot.binfmt.registrations
on your host system.
In your system configuration.nix
:
{
# Enable binfmt emulation of aarch64-linux.
boot.binfmt.emulatedSystems = [ "aarch64-linux" ];
}
Alternatively, if you want to target other architectures:
# Define qemu-arm-static source.
let qemu-arm-static = pkgs.stdenv.mkDerivation {
name = "qemu-arm-static";
src = builtins.fetchurl {
url = "https://github.com/multiarch/qemu-user-static/releases/download/v6.1.0-8/qemu-arm-static";
sha256 = "06344d77d4f08b3e1b26ff440cb115179c63ca8047afb978602d7922a51231e3";
};
dontUnpack = true;
installPhase = "install -D -m 0755 $src $out/bin/qemu-arm-static";
};
in {
# Enable binfmt emulation of extra binary formats (armv7l-linux, for exmaple).
boot.binfmt.registrations.arm = {
interpreter = "${qemu-arm-static}/bin/qemu-arm-static";
magicOrExtension = ''\x7fELF\x01\x01\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x02\x00\x28\x00'';
mask = ''\xff\xff\xff\xff\xff\xff\xff\x00\xff\xff\xff\xff\xff\xff\x00\xff\xfe\xff\xff\xff'';
};
# Define additional settings for nix.
nix.extraOptions = ''
extra-platforms = armv7l-linux
'';
nix.sandboxPaths = [ "/run/binfmt/arm=${qemu-arm-static}/bin/qemu-arm-static" ];
}
For more details on configuring binfmt
, have a look at:
binfmt options,
binfmt.nix,
this comment and
clevers qemu-user.
Once you've run nixos-rebuild
with these options,
you can use the --system
option to create images for other architectures.
nixos-generators
can be included as a Flake
input and provides
a nixos-generate
function for building images as Flake
outputs. This
approach pins all dependencies and allows for conveniently defining multiple
output types based on one config.
An example flake.nix
demonstrating this approach is below. vmware
or
virtualbox
images can be built from the same configuration.nix
by running
nix build .#vmware
or nix build .#virtualbox
{
inputs = {
nixpkgs.url = "nixpkgs/nixos-unstable";
nixos-generators = {
url = "github:nix-community/nixos-generators";
inputs.nixpkgs.follows = "nixpkgs";
};
};
outputs = { self, nixpkgs, nixos-generators, ... }: {
packages.x86_64-linux = {
vmware = nixos-generators.nixosGenerate {
system = "x86_64-linux";
modules = [
# you can include your own nixos configuration here, i.e.
# ./configuration.nix
];
format = "vmware";
};
vbox = nixos-generators.nixosGenerate {
system = "x86_64-linux";
format = "virtualbox";
};
};
};
}
This project is licensed under the MIT License.
this means either /tmp, /run/user/$UID or your TMPFS runs full. sometimes setting TMPDIR to some other location can help, sometimes /tmp needs to be on a bigger partition (not a tmpfs).