nixpkgs/modules/system/activation/top-level.nix
Eelco Dolstra 8d588424d2 * switch-to-configuration: force a reinstallation of GRUB whenever the
GRUB version changes.  (That's the complete version from the name
  attribute, not the boot.loader.grub.version attribute.)  The current
  version is recorded in /boot/grub/version.  This is required to
  prevent massive breakage when we change the default value of
  boot.loader.grub.version to "2".

svn path=/nixos/trunk/; revision=18997
2009-12-16 18:11:26 +00:00

141 lines
4 KiB
Nix

{pkgs, config, ...}:
let
options = {
system.build = pkgs.lib.mkOption {
default = {};
description = ''
Attribute set of derivations used to setup the system.
'';
};
nesting.children = pkgs.lib.mkOption {
default = [];
description = ''
Additional configurations to build.
'';
};
system.boot.loader.id = pkgs.lib.mkOption {
default = "";
description = ''
Id string of the used bootloader.
'';
};
system.boot.loader.kernelFile = pkgs.lib.mkOption {
default = "";
description = ''
Name of the kernel file to be passed to the bootloader.
'';
};
};
# This attribute is responsible for creating boot entries for
# child configuration. They are only (directly) accessible
# when the parent configuration is boot default. For example,
# you can provide an easy way to boot the same configuration
# as you use, but with another kernel
# !!! fix this
children = with pkgs.lib;
map (childConfig:
(import ../../../lib/eval-config.nix {
modules = [
(recursiveUpdate childConfig {
boot.loader.grub.device = "";
# undefined the obsolete name of the previous option.
boot.grubDevice = pkgs.lib.mkNotdef;
})
] ++ attrByPath ["require"] [] childConfig;
}).config.system.build.toplevel
) config.nesting.children;
systemBuilder =
let
kernelPath = "${config.boot.kernelPackages.kernel}/" +
"${config.system.boot.loader.kernelFile}";
in
''
ensureDir $out
if [ ! -f ${kernelPath} ]; then
echo "The bootloader cannot find the proper kernel image."
echo "(Expecting ${kernelPath})"
false
fi
ln -s ${kernelPath} $out/kernel
if [ -n "$grub" ]; then
ln -s $grub $out/grub
fi
ln -s ${config.system.build.bootStage2} $out/init
ln -s ${config.system.build.initialRamdisk}/initrd $out/initrd
ln -s ${config.system.activationScripts.script} $out/activate
ln -s ${config.system.build.etc}/etc $out/etc
ln -s ${config.system.path} $out/sw
ln -s ${config.system.build.upstart} $out/upstart
echo "$kernelParams" > $out/kernel-params
echo "$configurationName" > $out/configuration-name
echo "${toString config.system.build.upstart.interfaceVersion}" > $out/upstart-interface-version
mkdir $out/fine-tune
childCount=0;
for i in $children; do
childCount=$(( childCount + 1 ));
ln -s $i $out/fine-tune/child-$childCount;
done
ensureDir $out/bin
substituteAll ${./switch-to-configuration.sh} $out/bin/switch-to-configuration
chmod +x $out/bin/switch-to-configuration
'';
# Putting it all together. This builds a store path containing
# symlinks to the various parts of the built configuration (the
# kernel, the Upstart services, the init scripts, etc.) as well as a
# script `switch-to-configuration' that activates the configuration
# and makes it bootable.
system = pkgs.stdenv.mkDerivation {
name = "system";
buildCommand = systemBuilder;
inherit children;
kernelParams =
config.boot.kernelParams ++ config.boot.extraKernelParams;
menuBuilder = config.system.build.menuBuilder;
# Most of these are needed by grub-install.
path = [
pkgs.coreutils
pkgs.gnused
pkgs.gnugrep
pkgs.findutils
pkgs.diffutils
config.system.build.upstart # for initctl
];
# Boot loaders
bootLoader = config.system.boot.loader.id;
grub =
if config.boot.loader.grub.enable
then config.system.build.grub
else null;
grubVersion =
if config.boot.loader.grub.enable
then (builtins.parseDrvName config.system.build.grub.name).version
else "";
grubDevice = config.boot.loader.grub.device;
configurationName = config.boot.loader.grub.configurationName;
};
in {
require = [options];
system.build.toplevel = system;
}