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nixpkgs/nixos/modules/installer/cd-dvd/iso-image.nix
2017-01-09 19:24:41 +01:00

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Nix

# This module creates a bootable ISO image containing the given NixOS
# configuration. The derivation for the ISO image will be placed in
# config.system.build.isoImage.
{ config, lib, pkgs, ... }:
with lib;
let
# Timeout in syslinux is in units of 1/10 of a second.
# 0 is used to disable timeouts.
syslinuxTimeout = if config.boot.loader.timeout == null then
0
else
max (config.boot.loader.timeout * 10) 1;
max = x: y: if x > y then x else y;
# The configuration file for syslinux.
# Notes on syslinux configuration and UNetbootin compatiblity:
# * Do not use '/syslinux/syslinux.cfg' as the path for this
# configuration. UNetbootin will not parse the file and use it as-is.
# This results in a broken configuration if the partition label does
# not match the specified config.isoImage.volumeID. For this reason
# we're using '/isolinux/isolinux.cfg'.
# * Use APPEND instead of adding command-line arguments directly after
# the LINUX entries.
# * COM32 entries (chainload, reboot, poweroff) are not recognized. They
# result in incorrect boot entries.
baseIsolinuxCfg = ''
SERIAL 0 38400
TIMEOUT ${builtins.toString syslinuxTimeout}
UI vesamenu.c32
MENU TITLE NixOS
MENU BACKGROUND /isolinux/background.png
DEFAULT boot
LABEL boot
MENU LABEL NixOS ${config.system.nixosLabel}${config.isoImage.appendToMenuLabel}
LINUX /boot/bzImage
APPEND init=${config.system.build.toplevel}/init ${toString config.boot.kernelParams}
INITRD /boot/initrd
# A variant to boot with 'nomodeset'
LABEL boot-nomodeset
MENU LABEL NixOS ${config.system.nixosVersion}${config.isoImage.appendToMenuLabel} (with nomodeset)
LINUX /boot/bzImage
APPEND init=${config.system.build.toplevel}/init ${toString config.boot.kernelParams} nomodeset
INITRD /boot/initrd
'';
isolinuxMemtest86Entry = ''
LABEL memtest
MENU LABEL Memtest86+
LINUX /boot/memtest.bin
APPEND ${toString config.boot.loader.grub.memtest86.params}
'';
isolinuxCfg = baseIsolinuxCfg + (optionalString config.boot.loader.grub.memtest86.enable isolinuxMemtest86Entry);
# The EFI boot image.
efiDir = pkgs.runCommand "efi-directory" {} ''
mkdir -p $out/EFI/boot
cp -v ${pkgs.systemd}/lib/systemd/boot/efi/systemd-boot${targetArch}.efi $out/EFI/boot/boot${targetArch}.efi
mkdir -p $out/loader/entries
echo "title NixOS Live CD" > $out/loader/entries/nixos-livecd.conf
echo "linux /boot/bzImage" >> $out/loader/entries/nixos-livecd.conf
echo "initrd /boot/initrd" >> $out/loader/entries/nixos-livecd.conf
echo "options init=${config.system.build.toplevel}/init ${toString config.boot.kernelParams}" >> $out/loader/entries/nixos-livecd.conf
# A variant to boot with 'nomodeset'
echo "title NixOS Live CD (with nomodeset)" > $out/loader/entries/nixos-livecd-nomodeset.conf
echo "linux /boot/bzImage" >> $out/loader/entries/nixos-livecd-nomodeset.conf
echo "initrd /boot/initrd" >> $out/loader/entries/nixos-livecd-nomodeset.conf
echo "options init=${config.system.build.toplevel}/init ${toString config.boot.kernelParams} nomodeset" >> $out/loader/entries/nixos-livecd-nomodeset.conf
echo "default nixos-livecd" > $out/loader/loader.conf
echo "timeout ${builtins.toString config.boot.loader.timeout}" >> $out/loader/loader.conf
'';
efiImg = pkgs.runCommand "efi-image_eltorito" { buildInputs = [ pkgs.mtools pkgs.libfaketime ]; }
# Be careful about determinism: du --apparent-size,
# dates (cp -p, touch, mcopy -m, faketime for label), IDs (mkfs.vfat -i)
''
mkdir ./contents && cd ./contents
cp -rp "${efiDir}"/* .
mkdir ./boot
cp -p "${config.boot.kernelPackages.kernel}/bzImage" \
"${config.system.build.initialRamdisk}/initrd" ./boot/
touch --date=@0 ./*
usage_size=$(du -sb --apparent-size . | tr -cd '[:digit:]')
# Make the image 110% as big as the files need to make up for FAT overhead
image_size=$(( ($usage_size * 110) / 100 ))
# Make the image fit blocks of 1M
block_size=$((1024*1024))
image_size=$(( ($image_size / $block_size + 1) * $block_size ))
echo "Usage size: $usage_size"
echo "Image size: $image_size"
truncate --size=$image_size "$out"
${pkgs.libfaketime}/bin/faketime "2000-01-01 00:00:00" ${pkgs.dosfstools}/sbin/mkfs.vfat -i 12345678 -n EFIBOOT "$out"
mcopy -bpsvm -i "$out" ./* ::
''; # */
targetArch = if pkgs.stdenv.isi686 then
"ia32"
else if pkgs.stdenv.isx86_64 then
"x64"
else
throw "Unsupported architecture";
in
{
options = {
isoImage.isoName = mkOption {
default = "${config.isoImage.isoBaseName}.iso";
description = ''
Name of the generated ISO image file.
'';
};
isoImage.isoBaseName = mkOption {
default = "nixos";
description = ''
Prefix of the name of the generated ISO image file.
'';
};
isoImage.compressImage = mkOption {
default = false;
description = ''
Whether the ISO image should be compressed using
<command>bzip2</command>.
'';
};
isoImage.volumeID = mkOption {
default = "NIXOS_BOOT_CD";
description = ''
Specifies the label or volume ID of the generated ISO image.
Note that the label is used by stage 1 of the boot process to
mount the CD, so it should be reasonably distinctive.
'';
};
isoImage.contents = mkOption {
example = literalExample ''
[ { source = pkgs.memtest86 + "/memtest.bin";
target = "boot/memtest.bin";
}
]
'';
description = ''
This option lists files to be copied to fixed locations in the
generated ISO image.
'';
};
isoImage.storeContents = mkOption {
example = literalExample "[ pkgs.stdenv ]";
description = ''
This option lists additional derivations to be included in the
Nix store in the generated ISO image.
'';
};
isoImage.includeSystemBuildDependencies = mkOption {
default = false;
example = true;
description = ''
Set this option to include all the needed sources etc in the
image. It significantly increases image size. Use that when
you want to be able to keep all the sources needed to build your
system or when you are going to install the system on a computer
with slow or non-existent network connection.
'';
};
isoImage.makeEfiBootable = mkOption {
default = false;
description = ''
Whether the ISO image should be an efi-bootable volume.
'';
};
isoImage.makeUsbBootable = mkOption {
default = false;
description = ''
Whether the ISO image should be bootable from CD as well as USB.
'';
};
isoImage.splashImage = mkOption {
default = pkgs.fetchurl {
url = https://raw.githubusercontent.com/NixOS/nixos-artwork/5729ab16c6a5793c10a2913b5a1b3f59b91c36ee/ideas/grub-splash/grub-nixos-1.png;
sha256 = "43fd8ad5decf6c23c87e9026170a13588c2eba249d9013cb9f888da5e2002217";
};
description = ''
The splash image to use in the bootloader.
'';
};
isoImage.appendToMenuLabel = mkOption {
default = " Installer";
example = " Live System";
description = ''
The string to append after the menu label for the NixOS system.
This will be directly appended (without whitespace) to the NixOS version
string, like for example if it is set to <literal>XXX</literal>:
<para><literal>NixOS 99.99-pre666XXX</literal></para>
'';
};
};
config = {
boot.loader.grub.version = 2;
# Don't build the GRUB menu builder script, since we don't need it
# here and it causes a cyclic dependency.
boot.loader.grub.enable = false;
# !!! Hack - attributes expected by other modules.
system.boot.loader.kernelFile = "bzImage";
environment.systemPackages = [ pkgs.grub2 pkgs.grub2_efi pkgs.syslinux ];
# In stage 1 of the boot, mount the CD as the root FS by label so
# that we don't need to know its device. We pass the label of the
# root filesystem on the kernel command line, rather than in
# `fileSystems' below. This allows CD-to-USB converters such as
# UNetbootin to rewrite the kernel command line to pass the label or
# UUID of the USB stick. It would be nicer to write
# `root=/dev/disk/by-label/...' here, but UNetbootin doesn't
# recognise that.
boot.kernelParams =
[ "root=LABEL=${config.isoImage.volumeID}"
"boot.shell_on_fail"
];
fileSystems."/" =
{ fsType = "tmpfs";
options = [ "mode=0755" ];
};
# Note that /dev/root is a symlink to the actual root device
# specified on the kernel command line, created in the stage 1
# init script.
fileSystems."/iso" =
{ device = "/dev/root";
neededForBoot = true;
noCheck = true;
};
# In stage 1, mount a tmpfs on top of /nix/store (the squashfs
# image) to make this a live CD.
fileSystems."/nix/.ro-store" =
{ fsType = "squashfs";
device = "/iso/nix-store.squashfs";
options = [ "loop" ];
neededForBoot = true;
};
fileSystems."/nix/.rw-store" =
{ fsType = "tmpfs";
options = [ "mode=0755" ];
neededForBoot = true;
};
fileSystems."/nix/store" =
{ fsType = "unionfs-fuse";
device = "unionfs";
options = [ "allow_other" "cow" "nonempty" "chroot=/mnt-root" "max_files=32768" "hide_meta_files" "dirs=/nix/.rw-store=rw:/nix/.ro-store=ro" ];
};
boot.initrd.availableKernelModules = [ "squashfs" "iso9660" "usb-storage" ];
boot.blacklistedKernelModules = [ "nouveau" ];
boot.initrd.kernelModules = [ "loop" ];
# Closures to be copied to the Nix store on the CD, namely the init
# script and the top-level system configuration directory.
isoImage.storeContents =
[ config.system.build.toplevel ] ++
optional config.isoImage.includeSystemBuildDependencies
config.system.build.toplevel.drvPath;
# Create the squashfs image that contains the Nix store.
system.build.squashfsStore = import ../../../lib/make-squashfs.nix {
inherit (pkgs) stdenv squashfsTools perl pathsFromGraph;
storeContents = config.isoImage.storeContents;
};
# Individual files to be included on the CD, outside of the Nix
# store on the CD.
isoImage.contents =
[ { source = pkgs.substituteAll {
name = "isolinux.cfg";
src = pkgs.writeText "isolinux.cfg-in" isolinuxCfg;
bootRoot = "/boot";
};
target = "/isolinux/isolinux.cfg";
}
{ source = config.boot.kernelPackages.kernel + "/bzImage";
target = "/boot/bzImage";
}
{ source = config.system.build.initialRamdisk + "/initrd";
target = "/boot/initrd";
}
{ source = config.system.build.squashfsStore;
target = "/nix-store.squashfs";
}
{ source = "${pkgs.syslinux}/share/syslinux";
target = "/isolinux";
}
{ source = config.isoImage.splashImage;
target = "/isolinux/background.png";
}
] ++ optionals config.isoImage.makeEfiBootable [
{ source = efiImg;
target = "/boot/efi.img";
}
{ source = "${efiDir}/EFI";
target = "/EFI";
}
{ source = "${efiDir}/loader";
target = "/loader";
}
] ++ optionals config.boot.loader.grub.memtest86.enable [
{ source = "${pkgs.memtest86plus}/memtest.bin";
target = "/boot/memtest.bin";
}
];
boot.loader.timeout = 10;
# Create the ISO image.
system.build.isoImage = import ../../../lib/make-iso9660-image.nix ({
inherit (pkgs) stdenv perl pathsFromGraph xorriso syslinux;
inherit (config.isoImage) isoName compressImage volumeID contents;
bootable = true;
bootImage = "/isolinux/isolinux.bin";
} // optionalAttrs config.isoImage.makeUsbBootable {
usbBootable = true;
isohybridMbrImage = "${pkgs.syslinux}/share/syslinux/isohdpfx.bin";
} // optionalAttrs config.isoImage.makeEfiBootable {
efiBootable = true;
efiBootImage = "boot/efi.img";
});
boot.postBootCommands =
''
# After booting, register the contents of the Nix store on the
# CD in the Nix database in the tmpfs.
${config.nix.package.out}/bin/nix-store --load-db < /nix/store/nix-path-registration
# nixos-rebuild also requires a "system" profile and an
# /etc/NIXOS tag.
touch /etc/NIXOS
${config.nix.package.out}/bin/nix-env -p /nix/var/nix/profiles/system --set /run/current-system
'';
# Add vfat support to the initrd to enable people to copy the
# contents of the CD to a bootable USB stick.
boot.initrd.supportedFilesystems = [ "vfat" ];
};
}