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nixpkgs/nixos/lib/make-disk-image.nix

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{ pkgs
, lib
, # The NixOS configuration to be installed onto the disk image.
config
, # The size of the disk, in megabytes.
# if "auto" size is calculated based on the contents copied to it and
# additionalSpace is taken into account.
diskSize ? "auto"
, # additional disk space to be added to the image if diskSize "auto"
# is used
additionalSpace ? "512M"
, # size of the boot partition, is only used if partitionTableType is
# either "efi" or "hybrid"
# This will be undersized slightly, as this is actually the offset of
# the end of the partition. Generally it will be 1MiB smaller.
bootSize ? "256M"
, # The files and directories to be placed in the target file system.
# This is a list of attribute sets {source, target, mode, user, group} where
# `source' is the file system object (regular file or directory) to be
# grafted in the file system at path `target', `mode' is a string containing
# the permissions that will be set (ex. "755"), `user' and `group' are the
# user and group name that will be set as owner of the files.
# `mode', `user', and `group' are optional.
# When setting one of `user' or `group', the other needs to be set too.
contents ? []
, # Type of partition table to use; either "legacy", "efi", or "none".
# For "efi" images, the GPT partition table is used and a mandatory ESP
# partition of reasonable size is created in addition to the root partition.
# For "legacy", the msdos partition table is used and a single large root
# partition is created.
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# For "legacy+gpt", the GPT partition table is used, a 1MiB no-fs partition for
# use by the bootloader is created, and a single large root partition is
# created.
# For "hybrid", the GPT partition table is used and a mandatory ESP
# partition of reasonable size is created in addition to the root partition.
# Also a legacy MBR will be present.
# For "none", no partition table is created. Enabling `installBootLoader`
# most likely fails as GRUB will probably refuse to install.
partitionTableType ? "legacy"
, # The root file system type.
fsType ? "ext4"
, # Filesystem label
label ? "nixos"
, # The initial NixOS configuration file to be copied to
# /etc/nixos/configuration.nix.
configFile ? null
, # Shell code executed after the VM has finished.
postVM ? ""
, name ? "nixos-disk-image"
, # Disk image format, one of qcow2, qcow2-compressed, vdi, vpc, raw.
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format ? "raw"
}:
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assert partitionTableType == "legacy" || partitionTableType == "legacy+gpt" || partitionTableType == "efi" || partitionTableType == "hybrid" || partitionTableType == "none";
# We use -E offset=X below, which is only supported by e2fsprogs
assert partitionTableType != "none" -> fsType == "ext4";
# Either both or none of {user,group} need to be set
assert lib.all
(attrs: ((attrs.user or null) == null)
== ((attrs.group or null) == null))
contents;
with lib;
let format' = format; in let
format = if format' == "qcow2-compressed" then "qcow2" else format';
compress = optionalString (format' == "qcow2-compressed") "-c";
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filename = "nixos." + {
qcow2 = "qcow2";
vdi = "vdi";
vpc = "vhd";
raw = "img";
}.${format} or format;
rootPartition = { # switch-case
legacy = "1";
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"legacy+gpt" = "2";
efi = "2";
hybrid = "3";
}.${partitionTableType};
partitionDiskScript = { # switch-case
legacy = ''
parted --script $diskImage -- \
mklabel msdos \
mkpart primary ext4 1MiB -1
'';
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"legacy+gpt" = ''
parted --script $diskImage -- \
mklabel gpt \
mkpart no-fs 1MB 2MB \
set 1 bios_grub on \
align-check optimal 1 \
mkpart primary ext4 2MB -1 \
align-check optimal 2 \
print
'';
efi = ''
parted --script $diskImage -- \
mklabel gpt \
mkpart ESP fat32 8MiB ${bootSize} \
set 1 boot on \
mkpart primary ext4 ${bootSize} -1
'';
hybrid = ''
parted --script $diskImage -- \
mklabel gpt \
mkpart ESP fat32 8MiB ${bootSize} \
set 1 boot on \
mkpart no-fs 0 1024KiB \
set 2 bios_grub on \
mkpart primary ext4 ${bootSize} -1
'';
none = "";
}.${partitionTableType};
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nixpkgs = cleanSource pkgs.path;
# FIXME: merge with channel.nix / make-channel.nix.
channelSources = pkgs.runCommand "nixos-${config.system.nixos.version}" {} ''
mkdir -p $out
cp -prd ${nixpkgs.outPath} $out/nixos
chmod -R u+w $out/nixos
if [ ! -e $out/nixos/nixpkgs ]; then
ln -s . $out/nixos/nixpkgs
fi
rm -rf $out/nixos/.git
echo -n ${config.system.nixos.versionSuffix} > $out/nixos/.version-suffix
'';
binPath = with pkgs; makeBinPath (
[ rsync
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util-linux
parted
e2fsprogs
lkl
config.system.build.nixos-install
config.system.build.nixos-enter
nix
] ++ stdenv.initialPath);
# I'm preserving the line below because I'm going to search for it across nixpkgs to consolidate
# image building logic. The comment right below this now appears in 4 different places in nixpkgs :)
# !!! should use XML.
sources = map (x: x.source) contents;
targets = map (x: x.target) contents;
modes = map (x: x.mode or "''") contents;
users = map (x: x.user or "''") contents;
groups = map (x: x.group or "''") contents;
closureInfo = pkgs.closureInfo { rootPaths = [ config.system.build.toplevel channelSources ]; };
blockSize = toString (4 * 1024); # ext4fs block size (not block device sector size)
prepareImage = ''
export PATH=${binPath}
# Yes, mkfs.ext4 takes different units in different contexts. Fun.
sectorsToKilobytes() {
echo $(( ( "$1" * 512 ) / 1024 ))
}
sectorsToBytes() {
echo $(( "$1" * 512 ))
}
# Given lines of numbers, adds them together
sum_lines() {
local acc=0
while read -r number; do
acc=$((acc+number))
done
echo "$acc"
}
mebibyte=$(( 1024 * 1024 ))
# Approximative percentage of reserved space in an ext4 fs over 512MiB.
# 0.05208587646484375
# × 1000, integer part: 52
compute_fudge() {
echo $(( $1 * 52 / 1000 ))
}
mkdir $out
root="$PWD/root"
mkdir -p $root
# Copy arbitrary other files into the image
# Semi-shamelessly copied from make-etc.sh. I (@copumpkin) shall factor this stuff out as part of
# https://github.com/NixOS/nixpkgs/issues/23052.
set -f
sources_=(${concatStringsSep " " sources})
targets_=(${concatStringsSep " " targets})
modes_=(${concatStringsSep " " modes})
set +f
for ((i = 0; i < ''${#targets_[@]}; i++)); do
source="''${sources_[$i]}"
target="''${targets_[$i]}"
mode="''${modes_[$i]}"
if [ -n "$mode" ]; then
rsync_chmod_flags="--chmod=$mode"
else
rsync_chmod_flags=""
fi
# Unfortunately cptofs only supports modes, not ownership, so we can't use
# rsync's --chown option. Instead, we change the ownerships in the
# VM script with chown.
rsync_flags="-a --no-o --no-g $rsync_chmod_flags"
if [[ "$source" =~ '*' ]]; then
# If the source name contains '*', perform globbing.
mkdir -p $root/$target
for fn in $source; do
rsync $rsync_flags "$fn" $root/$target/
done
else
mkdir -p $root/$(dirname $target)
if ! [ -e $root/$target ]; then
rsync $rsync_flags $source $root/$target
else
echo "duplicate entry $target -> $source"
exit 1
fi
fi
done
export HOME=$TMPDIR
# Provide a Nix database so that nixos-install can copy closures.
export NIX_STATE_DIR=$TMPDIR/state
nix-store --load-db < ${closureInfo}/registration
chmod 755 "$TMPDIR"
echo "running nixos-install..."
nixos-install --root $root --no-bootloader --no-root-passwd \
--system ${config.system.build.toplevel} --channel ${channelSources} --substituters ""
diskImage=nixos.raw
${if diskSize == "auto" then ''
${if partitionTableType == "efi" || partitionTableType == "hybrid" then ''
# Add the GPT at the end
gptSpace=$(( 512 * 34 * 1 ))
# Normally we'd need to account for alignment and things, if bootSize
# represented the actual size of the boot partition. But it instead
# represents the offset at which it ends.
# So we know bootSize is the reserved space in front of the partition.
reservedSpace=$(( gptSpace + $(numfmt --from=iec '${bootSize}') ))
'' else if partitionTableType == "legacy+gpt" then ''
# Add the GPT at the end
gptSpace=$(( 512 * 34 * 1 ))
# And include the bios_grub partition; the ext4 partition starts at 2MB exactly.
reservedSpace=$(( gptSpace + 2 * mebibyte ))
'' else if partitionTableType == "legacy" then ''
# Add the 1MiB aligned reserved space (includes MBR)
reservedSpace=$(( mebibyte ))
'' else ''
reservedSpace=0
''}
additionalSpace=$(( $(numfmt --from=iec '${additionalSpace}') + reservedSpace ))
# Compute required space in filesystem blocks
diskUsage=$(find . ! -type d -print0 | du --files0-from=- --apparent-size --block-size "${blockSize}" | cut -f1 | sum_lines)
# Each inode takes space!
numInodes=$(find . | wc -l)
# Convert to bytes, inodes take two blocks each!
diskUsage=$(( (diskUsage + 2 * numInodes) * ${blockSize} ))
# Then increase the required space to account for the reserved blocks.
fudge=$(compute_fudge $diskUsage)
requiredFilesystemSpace=$(( diskUsage + fudge ))
diskSize=$(( requiredFilesystemSpace + additionalSpace ))
# Round up to the nearest mebibyte.
# This ensures whole 512 bytes sector sizes in the disk image
# and helps towards aligning partitions optimally.
if (( diskSize % mebibyte )); then
diskSize=$(( ( diskSize / mebibyte + 1) * mebibyte ))
fi
truncate -s "$diskSize" $diskImage
printf "Automatic disk size...\n"
printf " Closure space use: %d bytes\n" $diskUsage
printf " fudge: %d bytes\n" $fudge
printf " Filesystem size needed: %d bytes\n" $requiredFilesystemSpace
printf " Additional space: %d bytes\n" $additionalSpace
printf " Disk image size: %d bytes\n" $diskSize
'' else ''
truncate -s ${toString diskSize}M $diskImage
''}
${partitionDiskScript}
${if partitionTableType != "none" then ''
# Get start & length of the root partition in sectors to $START and $SECTORS.
eval $(partx $diskImage -o START,SECTORS --nr ${rootPartition} --pairs)
mkfs.${fsType} -b ${blockSize} -F -L ${label} $diskImage -E offset=$(sectorsToBytes $START) $(sectorsToKilobytes $SECTORS)K
'' else ''
mkfs.${fsType} -b ${blockSize} -F -L ${label} $diskImage
''}
echo "copying staging root to image..."
cptofs -p ${optionalString (partitionTableType != "none") "-P ${rootPartition}"} -t ${fsType} -i $diskImage $root/* / ||
(echo >&2 "ERROR: cptofs failed. diskSize might be too small for closure."; exit 1)
'';
in pkgs.vmTools.runInLinuxVM (
pkgs.runCommand name
{ preVM = prepareImage;
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buildInputs = with pkgs; [ util-linux e2fsprogs dosfstools ];
postVM = ''
${if format == "raw" then ''
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mv $diskImage $out/${filename}
'' else ''
${pkgs.qemu}/bin/qemu-img convert -f raw -O ${format} ${compress} $diskImage $out/${filename}
''}
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diskImage=$out/${filename}
${postVM}
'';
memSize = 1024;
}
''
export PATH=${binPath}:$PATH
rootDisk=${if partitionTableType != "none" then "/dev/vda${rootPartition}" else "/dev/vda"}
# Some tools assume these exist
nixos/lib/make-disk-image: refactor to use nixos-install - Replace hand-rolled version of nixos-install in make-disk-image by an actual call to nixos-install - Required a few cleanups of nixos-install - nixos-install invokes an activation script which the hand-rolled version in make-disk-image did not do. We remove /etc/machine-id as that's a host-specific, impure, output of the activation script Testing: nix-build '<nixpkgs/nixos/release.nix>' -A tests.installer.simple passes Also tried generating an image with: nix-build -E 'let pkgs = import <nixpkgs> {}; lib = pkgs.lib; nixos = import <nixpkgs/nixos> { configuration = { fileSystems."/".device = "/dev/disk/by-label/nixos"; boot.loader.grub.devices = [ "/dev/sda" ]; boot.loader.grub.extraEntries = '"''"' menuentry "Ubuntu" { insmod ext2 search --set=root --label ubuntu configfile /boot/grub/grub.cfg } '"''"'; }; }; in import <nixpkgs/nixos/lib/make-disk-image.nix> { inherit pkgs lib; config = nixos.config; diskSize = 2000; partitioned = false; installBootLoader = false; }' Then installed the image: $ sudo df if=./result/nixos.img of=/dev/sdaX bs=1M $ sudo resize2fs /dev/disk/by-label/nixos $ sudo mount /dev/disk/by-label/nixos /mnt $ sudo mount --rbind /proc /mnt/proc $ sudo mount --rbind /dev /mnt/dev $ sudo chroot /mnt /nix/var/nix/profiles/system/bin/switch-to-configuration boot [ … optionally do something about passwords … ] and successfully rebooted to that image. Was doing all this from inside a Ubuntu VM with a single user nix install.
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ln -s vda /dev/xvda
ln -s vda /dev/sda
# make systemd-boot find ESP without udev
mkdir /dev/block
ln -s /dev/vda1 /dev/block/254:1
mountPoint=/mnt
mkdir $mountPoint
mount $rootDisk $mountPoint
# Create the ESP and mount it. Unlike e2fsprogs, mkfs.vfat doesn't support an
# '-E offset=X' option, so we can't do this outside the VM.
${optionalString (partitionTableType == "efi" || partitionTableType == "hybrid") ''
mkdir -p /mnt/boot
mkfs.vfat -n ESP /dev/vda1
mount /dev/vda1 /mnt/boot
''}
# Install a configuration.nix
mkdir -p /mnt/etc/nixos
${optionalString (configFile != null) ''
cp ${configFile} /mnt/etc/nixos/configuration.nix
''}
# Set up core system link, GRUB, etc.
NIXOS_INSTALL_BOOTLOADER=1 nixos-enter --root $mountPoint -- /nix/var/nix/profiles/system/bin/switch-to-configuration boot
# The above scripts will generate a random machine-id and we don't want to bake a single ID into all our images
rm -f $mountPoint/etc/machine-id
# Set the ownerships of the contents. The modes are set in preVM.
# No globbing on targets, so no need to set -f
targets_=(${concatStringsSep " " targets})
users_=(${concatStringsSep " " users})
groups_=(${concatStringsSep " " groups})
for ((i = 0; i < ''${#targets_[@]}; i++)); do
target="''${targets_[$i]}"
user="''${users_[$i]}"
group="''${groups_[$i]}"
if [ -n "$user$group" ]; then
# We have to nixos-enter since we need to use the user and group of the VM
nixos-enter --root $mountPoint -- chown -R "$user:$group" "$target"
fi
done
umount -R /mnt
# Make sure resize2fs works. Note that resize2fs has stricter criteria for resizing than a normal
# mount, so the `-c 0` and `-i 0` don't affect it. Setting it to `now` doesn't produce deterministic
# output, of course, but we can fix that when/if we start making images deterministic.
${optionalString (fsType == "ext4") ''
tune2fs -T now -c 0 -i 0 $rootDisk
''}
''
)