nixpkgs/modules/installer/tools/tools.nix

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# This module generates nixos-install, nixos-rebuild,
# nixos-hardware-scan, etc.
{config, pkgs, modulesPath, ...}:
let
### implementation
cfg = config.installer;
makeProg = args: pkgs.substituteAll (args // {
dir = "bin";
isExecutable = true;
});
- Added nixos-build-vms command, which builds a virtual network from a network.nix expression (also used by nixos-deploy-network) - Added a backdoor option to the interactive run-vms script. This allows me to intergrate the virtual network approach with Disnix - Small documentation fixes Some explanation: The nixos-build-vms command line tool can be used to build a virtual network of a network.nix specification. For example, a network configuration (network.nix) could look like this: { test1 = {pkgs, config, ...}: { services.openssh.enable = true; ... }; test2 = {pkgs, config, ...}: { services.openssh.enable = true; services.xserver.enable = true; } ; } By typing the following instruction: $ nixos-build-vms -n network.nix a virtual network is built, which can be started by typing: $ ./result/bin/run-vms It is also possible to enable a backdoor. In this case *.socket files are stored in the current directory which can be used by the end-user to invoke remote instruction on a VM in the network through a Unix domain socket. For example by building the network with the following instructions: $ nixos-build-vms -n network.nix --use-backdoor and launching the virtual network: $ ./result/bin/run-vms You can find two socket files in your current directory, namely: test1.socket and test2.socket. These Unix domain sockets can be used to remotely administer the test1 and test2 machine in the virtual network. For example by running: $ socat ./test1.socket stdio ls /root You can retrieve the contents of the /root directory of the virtual machine with identifier test1 svn path=/nixos/trunk/; revision=24410
2010-10-21 22:50:12 +00:00
nixosBuildVMS = makeProg {
name = "nixos-build-vms";
src = ./nixos-build-vms/nixos-build-vms.sh;
};
nixosDeployNetwork = makeProg {
name = "nixos-deploy-network";
src = ./nixos-deploy-network/nixos-deploy-network.sh;
};
nixosInstall = makeProg {
name = "nixos-install";
src = ./nixos-install.sh;
inherit (pkgs) perl pathsFromGraph;
nix = config.environment.nix;
nixpkgsURL = cfg.nixpkgsURL;
nixClosure = pkgs.runCommand "closure"
{exportReferencesGraph = ["refs" config.environment.nix];}
"cp refs $out";
};
# rewrite of nixosInstall: each tool does exactly one job.
# So they get more useful.
installer2 =
let nixClosure = pkgs.runCommand "closure"
{exportReferencesGraph = ["refs" config.environment.nix];}
"cp refs $out";
nix = config.environment.nix;
in rec {
nixosPrepareInstall = makeProg {
name = "nixos-prepare-install";
src = ./installer2/nixos-prepare-install.sh;
inherit nix nixClosure nixosBootstrap;
};
runInChroot = makeProg {
name = "run-in-chroot";
src = ./installer2/run-in-chroot.sh;
};
nixosBootstrap = makeProg {
name = "nixos-bootstrap";
src = ./installer2/nixos-bootstrap.sh;
inherit (pkgs) coreutils;
inherit nixClosure nix;
# TODO shell ?
nixpkgsURL = cfg.nixpkgsURL;
};
# see ./nixos-bootstrap-archive/README-BOOTSTRAP-NIXOS
# TODO refactor: It should *not* depend on configuration.nix
# maybe even move this in nixpkgs?
minimalInstallArchive = import ./nixos-bootstrap-archive {
inherit (pkgs) stdenv runCommand perl pathsFromGraph gnutar coreutils bzip2;
inherit nixosPrepareInstall runInChroot nixosBootstrap nixClosure;
};
};
nixosRebuild = makeProg {
name = "nixos-rebuild";
src = ./nixos-rebuild.sh;
};
nixosGenSeccureKeys = makeProg {
name = "nixos-gen-seccure-keys";
src = ./nixos-gen-seccure-keys.sh;
};
nixosHardwareScan = makeProg {
name = "nixos-hardware-scan";
src = ./nixos-hardware-scan.pl;
inherit (pkgs) perl;
profile = cfg.installProfile;
};
nixosOption = makeProg {
name = "nixos-option";
src = ./nixos-option.sh;
};
nixosGui = pkgs.xulrunnerWrapper {
launcher = "nixos-gui";
application = pkgs.stdenv.mkDerivation {
name = "nixos-gui";
buildCommand = ''
cp -r "$gui" "$out"
# Do not force the copy if the file exists in the sources (this
# happens for developpers)
test -e "$out/chrome/content/jquery-1.5.2.js" ||
cp -f "$jquery" "$out/chrome/content/jquery-1.5.2.js"
'';
gui = pkgs.lib.cleanSource "${modulesPath}/../gui";
jquery = pkgs.fetchurl {
url = http://code.jquery.com/jquery-1.5.2.min.js;
sha256 = "8f0a19ee8c606b35a10904951e0a27da1896eafe33c6e88cb7bcbe455f05a24a";
};
};
};
in
{
options = {
installer.nixpkgsURL = pkgs.lib.mkOption {
default = "";
example = http://nixos.org/releases/nix/nixpkgs-0.11pre7577;
description = ''
URL of the Nixpkgs distribution to use when building the
installation CD.
'';
};
installer.manifests = pkgs.lib.mkOption {
default = [http://nixos.org/releases/nixpkgs/channels/nixpkgs-unstable/MANIFEST];
example =
[ http://nixos.org/releases/nixpkgs/channels/nixpkgs-unstable/MANIFEST
http://nixos.org/releases/nixpkgs/channels/nixpkgs-stable/MANIFEST
];
description = ''
URLs of manifests to be downloaded when you run
<command>nixos-rebuild</command> to speed up builds.
'';
};
installer.installProfile = pkgs.lib.mkOption {
default = "base";
example = "graphical";
description = ''
Name of the profile used when generating the hardware-scan.
'';
};
installer.enableGraphicalTools = pkgs.lib.mkOption {
default = false;
type = with pkgs.lib.types; bool;
example = true;
description = ''
Enable the installation of graphical tools.
'';
};
};
config = {
environment.systemPackages =
- Added nixos-build-vms command, which builds a virtual network from a network.nix expression (also used by nixos-deploy-network) - Added a backdoor option to the interactive run-vms script. This allows me to intergrate the virtual network approach with Disnix - Small documentation fixes Some explanation: The nixos-build-vms command line tool can be used to build a virtual network of a network.nix specification. For example, a network configuration (network.nix) could look like this: { test1 = {pkgs, config, ...}: { services.openssh.enable = true; ... }; test2 = {pkgs, config, ...}: { services.openssh.enable = true; services.xserver.enable = true; } ; } By typing the following instruction: $ nixos-build-vms -n network.nix a virtual network is built, which can be started by typing: $ ./result/bin/run-vms It is also possible to enable a backdoor. In this case *.socket files are stored in the current directory which can be used by the end-user to invoke remote instruction on a VM in the network through a Unix domain socket. For example by building the network with the following instructions: $ nixos-build-vms -n network.nix --use-backdoor and launching the virtual network: $ ./result/bin/run-vms You can find two socket files in your current directory, namely: test1.socket and test2.socket. These Unix domain sockets can be used to remotely administer the test1 and test2 machine in the virtual network. For example by running: $ socat ./test1.socket stdio ls /root You can retrieve the contents of the /root directory of the virtual machine with identifier test1 svn path=/nixos/trunk/; revision=24410
2010-10-21 22:50:12 +00:00
[ nixosBuildVMS
nixosDeployNetwork
nixosInstall
nixosRebuild
nixosHardwareScan
nixosGenSeccureKeys
nixosOption
installer2.runInChroot
installer2.nixosPrepareInstall
] ++ pkgs.lib.optional cfg.enableGraphicalTools nixosGui;
system.build = {
inherit nixosInstall nixosHardwareScan nixosOption;
# expose scripts
inherit (installer2) nixosPrepareInstall runInChroot nixosBootstrap minimalInstallArchive;
};
};
}