{ nixosConfig , diskoLib , pkgs ? nixosConfig.pkgs , lib ? pkgs.lib , name ? "${nixosConfig.config.networking.hostName}-disko-images" , extraPostVM ? nixosConfig.config.disko.extraPostVM , checked ? false }: let vmTools = pkgs.vmTools.override { rootModules = [ "9p" "9pnet_virtio" "virtio_pci" "virtio_blk" ] ++ nixosConfig.config.disko.extraRootModules; kernel = pkgs.aggregateModules (with nixosConfig.config.boot.kernelPackages; [ kernel ] ++ lib.optional (lib.elem "zfs" nixosConfig.config.disko.extraRootModules) zfs); }; cleanedConfig = diskoLib.testLib.prepareDiskoConfig nixosConfig.config diskoLib.testLib.devices; systemToInstall = nixosConfig.extendModules { modules = [{ disko.devices = lib.mkForce cleanedConfig.disko.devices; boot.loader.grub.devices = lib.mkForce cleanedConfig.boot.loader.grub.devices; }]; }; dependencies = with pkgs; [ bash coreutils gnused parted # for partprobe systemdMinimal nix util-linux findutils ] ++ nixosConfig.config.disko.extraDependencies; preVM = '' ${lib.concatMapStringsSep "\n" (disk: "truncate -s ${disk.imageSize} ${disk.name}.raw") (lib.attrValues nixosConfig.config.disko.devices.disk)} # This makes disko work, when canTouchEfiVariables is set to true. # Technically these boot entries will no be persisted this way, but # in most cases this is OK, because we can rely on the standard location for UEFI executables. install -m600 ${pkgs.OVMF.variables} efivars.fd ''; postVM = '' # shellcheck disable=SC2154 mkdir -p "$out" ${lib.concatMapStringsSep "\n" (disk: "mv ${disk.name}.raw \"$out\"/${disk.name}.raw") (lib.attrValues nixosConfig.config.disko.devices.disk)} ${extraPostVM} ''; closureInfo = pkgs.closureInfo { rootPaths = [ systemToInstall.config.system.build.toplevel ]; }; partitioner = '' # running udev, stolen from stage-1.sh echo "running udev..." ln -sfn /proc/self/fd /dev/fd ln -sfn /proc/self/fd/0 /dev/stdin ln -sfn /proc/self/fd/1 /dev/stdout ln -sfn /proc/self/fd/2 /dev/stderr mkdir -p /etc/udev mount -t efivarfs none /sys/firmware/efi/efivars ln -sfn ${systemToInstall.config.system.build.etc}/etc/udev/rules.d /etc/udev/rules.d mkdir -p /dev/.mdadm ${pkgs.systemdMinimal}/lib/systemd/systemd-udevd --daemon partprobe udevadm trigger --action=add udevadm settle ${systemToInstall.config.system.build.diskoScript} ''; installer = '' # populate nix db, so nixos-install doesn't complain export NIX_STATE_DIR=${systemToInstall.config.disko.rootMountPoint}/nix/var/nix nix-store --load-db < "${closureInfo}/registration" # We copy files with cp because `nix copy` seems to have a large memory leak mkdir -p ${systemToInstall.config.disko.rootMountPoint}/nix/store xargs cp --recursive --target ${systemToInstall.config.disko.rootMountPoint}/nix/store < ${closureInfo}/store-paths ${systemToInstall.config.system.build.nixos-install}/bin/nixos-install --root ${systemToInstall.config.disko.rootMountPoint} --system ${systemToInstall.config.system.build.toplevel} --keep-going --no-channel-copy -v --no-root-password --option binary-caches "" umount -Rv ${systemToInstall.config.disko.rootMountPoint} ''; QEMU_OPTS = lib.concatStringsSep " " ([ "-drive if=pflash,format=raw,unit=0,readonly=on,file=${pkgs.OVMF.firmware}" "-drive if=pflash,format=raw,unit=1,file=efivars.fd" ] ++ builtins.map (disk: "-drive file=${disk.name}.raw,if=virtio,cache=unsafe,werror=report,format=raw" ) (lib.attrValues nixosConfig.config.disko.devices.disk)); in { pure = vmTools.runInLinuxVM (pkgs.runCommand name { buildInputs = dependencies; inherit preVM postVM QEMU_OPTS; memSize = nixosConfig.config.disko.memSize; } (partitioner + installer)); impure = diskoLib.writeCheckedBash { inherit checked pkgs; } name '' set -efu export PATH=${lib.makeBinPath dependencies} showUsage() { cat <<\USAGE Usage: $script [options] Options: * --pre-format-files copies the src to the dst on the VM, before disko is run This is useful to provide secrets like LUKS keys, or other files you need for formating * --post-format-files copies the src to the dst on the finished image These end up in the images later and is useful if you want to add some extra stateful files They will have the same permissions but will be owned by root:root * --build-memory specify the ammount of memory that gets allocated to the build vm (in mb) This can be usefull if you want to build images with a more involed NixOS config By default the vm will get 1024M/1GB USAGE } export out=$PWD TMPDIR=$(mktemp -d); export TMPDIR trap 'rm -rf "$TMPDIR"' EXIT cd "$TMPDIR" mkdir copy_before_disko copy_after_disko while [[ $# -gt 0 ]]; do case "$1" in --pre-format-files) src=$2 dst=$3 cp --reflink=auto -r "$src" copy_before_disko/"$(echo "$dst" | base64)" shift 2 ;; --post-format-files) src=$2 dst=$3 cp --reflink=auto -r "$src" copy_after_disko/"$(echo "$dst" | base64)" shift 2 ;; --build-memory) regex="^[0-9]+$" if ! [[ $2 =~ $regex ]]; then echo "'$2' is not a number" exit 1 fi build_memory=$2 shift 1 ;; *) showUsage exit 1 ;; esac shift done export preVM=${diskoLib.writeCheckedBash { inherit pkgs checked; } "preVM.sh" '' set -efu mv copy_before_disko copy_after_disko xchg/ origBuilder=${pkgs.writeScript "disko-builder" '' set -eu export PATH=${lib.makeBinPath dependencies} for src in /tmp/xchg/copy_before_disko/*; do [ -e "$src" ] || continue dst=$(basename "$src" | base64 -d) mkdir -p "$(dirname "$dst")" cp -r "$src" "$dst" done set -f ${partitioner} set +f for src in /tmp/xchg/copy_after_disko/*; do [ -e "$src" ] || continue dst=/mnt/$(basename "$src" | base64 -d) mkdir -p "$(dirname "$dst")" cp -r "$src" "$dst" done ${installer} ''} echo "export origBuilder=$origBuilder" > xchg/saved-env ${preVM} ''} export postVM=${diskoLib.writeCheckedBash { inherit pkgs checked; } "postVM.sh" postVM} build_memory=''${build_memory:-1024} QEMU_OPTS=${lib.escapeShellArg QEMU_OPTS} QEMU_OPTS+=" -m $build_memory" export QEMU_OPTS ${pkgs.bash}/bin/sh -e ${vmTools.vmRunCommand vmTools.qemuCommandLinux} cd / ''; }