nixpkgs/tests/installer.nix
Eelco Dolstra 639bb95d0a Test whether the transparent fetchurl cache (tarballs.nixos.org) works
Testing this is useful in any case, but it's necessary now because Nix
1.6 doesn't check the binary cache for fetchurl output anymore.

http://hydra.nixos.org/build/6144188
2013-09-16 13:30:34 +02:00

354 lines
12 KiB
Nix

{ pkgs, system, ... }:
with pkgs.lib;
with import ../lib/qemu-flags.nix;
let
# Build the ISO. This is the regular installation CD but with test
# instrumentation.
iso =
(import ../lib/eval-config.nix {
inherit system;
modules =
[ ../modules/installer/cd-dvd/installation-cd-graphical.nix
../modules/testing/test-instrumentation.nix
{ key = "serial";
boot.loader.grub.timeout = mkOverrideTemplate 0 {} 0;
# The test cannot access the network, so any sources we
# need must be included in the ISO.
isoImage.storeContents =
[ pkgs.glibcLocales
pkgs.sudo
pkgs.docbook5
pkgs.docbook5_xsl
pkgs.grub
pkgs.perlPackages.XMLLibXML
pkgs.unionfs-fuse
];
}
];
}).config.system.build.isoImage;
# The configuration to install.
config = { fileSystems, testChannel, grubVersion, grubDevice }: pkgs.writeText "configuration.nix"
''
{ config, pkgs, modulesPath, ... }:
{ imports =
[ ./hardware.nix
"''${modulesPath}/testing/test-instrumentation.nix"
];
boot.loader.grub.version = ${toString grubVersion};
${optionalString (grubVersion == 1) ''
boot.loader.grub.splashImage = null;
''}
boot.loader.grub.device = "${grubDevice}";
boot.loader.grub.extraConfig = "serial; terminal_output.serial";
boot.initrd.kernelModules = [ "ext3" "ext4" "xfs" "virtio_console" ];
${fileSystems}
swapDevices = [ { label = "swap"; } ];
environment.systemPackages = [ ${optionalString testChannel "pkgs.rlwrap"} ];
}
'';
rootFS =
''
fileSystems."/".device = "/dev/disk/by-label/nixos";
'';
bootFS =
''
fileSystems."/boot".device = "/dev/disk/by-label/boot";
'';
# Configuration of a web server that simulates the Nixpkgs channel
# distribution server.
webserver =
{ config, pkgs, ... }:
{ services.httpd.enable = true;
services.httpd.adminAddr = "foo@example.org";
services.httpd.servedDirs = singleton
{ urlPath = "/";
dir = "/tmp/channel";
};
virtualisation.writableStore = true;
virtualisation.pathsInNixDB = channelContents ++ [ pkgs.hello.src ];
virtualisation.memorySize = 768;
};
channelContents = [ pkgs.rlwrap ];
# The test script boots the CD, installs NixOS on an empty hard
# disk, and then reboot from the hard disk. It's parameterized with
# a test script fragment `createPartitions', which must create
# partitions and filesystems, and a configuration.nix fragment
# `fileSystems'.
testScriptFun = { createPartitions, fileSystems, testChannel, grubVersion, grubDevice }:
let iface = if grubVersion == 1 then "scsi" else "virtio"; in
''
createDisk("harddisk", 4 * 1024);
my $machine = createMachine({ hda => "harddisk",
hdaInterface => "${iface}",
cdrom => glob("${iso}/iso/*.iso"),
qemuFlags => '${optionalString testChannel (toString (qemuNICFlags 1 1 2))} ${optionalString (pkgs.stdenv.system == "x86_64-linux") "-cpu kvm64"}'});
$machine->start;
${optionalString testChannel ''
# Create a channel on the web server containing a few packages
# to simulate the Nixpkgs channel.
$webserver->start;
$webserver->waitForUnit("httpd");
$webserver->succeed(
"nix-push --bzip2 --dest /tmp/channel --manifest --url-prefix http://nixos.org/channels/nixos-unstable " .
"${toString channelContents} >&2");
$webserver->succeed("mkdir /tmp/channel/sha256");
$webserver->succeed("cp ${pkgs.hello.src} /tmp/channel/sha256/${pkgs.hello.src.outputHash}");
''}
# Make sure that we get a login prompt etc.
$machine->succeed("echo hello");
#$machine->waitForUnit('getty@tty2');
$machine->waitForUnit("rogue");
$machine->waitForUnit("nixos-manual");
$machine->waitForUnit("dhcpcd");
${optionalString testChannel ''
# Allow the machine to talk to the fake nixos.org.
$machine->succeed(
"rm /etc/hosts",
"echo 192.168.1.1 nixos.org cache.nixos.org tarballs.nixos.org > /etc/hosts",
"ifconfig eth1 up 192.168.1.2",
);
# Test nix-env.
$machine->fail("hello");
$machine->succeed("nix-env -i hello");
$machine->succeed("hello") =~ /Hello, world/
or die "bad `hello' output";
''}
# Partition the disk.
${createPartitions}
# Create the NixOS configuration.
$machine->succeed(
"mkdir -p /mnt/etc/nixos",
"nixos-hardware-scan > /mnt/etc/nixos/hardware.nix",
);
my $cfg = $machine->succeed("cat /mnt/etc/nixos/hardware.nix");
print STDERR "Result of the hardware scan:\n$cfg\n";
$machine->copyFileFromHost(
"${ config { inherit fileSystems testChannel grubVersion grubDevice; } }",
"/mnt/etc/nixos/configuration.nix");
# Perform the installation.
$machine->succeed("nixos-install >&2");
# Do it again to make sure it's idempotent.
$machine->succeed("nixos-install >&2");
$machine->shutdown;
# Now see if we can boot the installation.
my $machine = createMachine({ hda => "harddisk", hdaInterface => "${iface}" });
# Did /boot get mounted, if appropriate?
$machine->waitForUnit("local-fs.target");
$machine->succeed("test -e /boot/grub");
# Did the swap device get activated?
$machine->waitForUnit("swap.target");
$machine->succeed("cat /proc/swaps | grep -q /dev");
$machine->succeed("nix-env -i coreutils >&2");
$machine->succeed("type -tP ls | tee /dev/stderr") =~ /.nix-profile/
or die "nix-env failed";
$machine->succeed("nixos-rebuild switch >&2");
$machine->shutdown;
# And just to be sure, check that the machine still boots after
# "nixos-rebuild switch".
my $machine = createMachine({ hda => "harddisk", hdaInterface => "${iface}" });
$machine->waitForUnit("network.target");
$machine->shutdown;
'';
makeTest = { createPartitions, fileSystems, testChannel ? false, grubVersion ? 2, grubDevice ? "/dev/vda" }:
{ inherit iso;
nodes = if testChannel then { inherit webserver; } else { };
testScript = testScriptFun {
inherit createPartitions fileSystems testChannel grubVersion grubDevice;
};
};
in {
# !!! `parted mkpart' seems to silently create overlapping partitions.
# The (almost) simplest partitioning scheme: a swap partition and
# one big filesystem partition.
simple = makeTest
{ createPartitions =
''
$machine->succeed(
"parted /dev/vda mklabel msdos",
"parted /dev/vda -- mkpart primary linux-swap 1M 1024M",
"parted /dev/vda -- mkpart primary ext2 1024M -1s",
"udevadm settle",
"mkswap /dev/vda1 -L swap",
"swapon -L swap",
"mkfs.ext3 -L nixos /dev/vda2",
"mount LABEL=nixos /mnt",
);
'';
fileSystems = rootFS;
testChannel = true;
};
# Same as the previous, but now with a separate /boot partition.
separateBoot = makeTest
{ createPartitions =
''
$machine->succeed(
"parted /dev/vda mklabel msdos",
"parted /dev/vda -- mkpart primary ext2 1M 50MB", # /boot
"parted /dev/vda -- mkpart primary linux-swap 50MB 1024M",
"parted /dev/vda -- mkpart primary ext2 1024M -1s", # /
"udevadm settle",
"mkswap /dev/vda2 -L swap",
"swapon -L swap",
"mkfs.ext3 -L nixos /dev/vda3",
"mount LABEL=nixos /mnt",
"mkfs.ext3 -L boot /dev/vda1",
"mkdir /mnt/boot",
"mount LABEL=boot /mnt/boot",
);
'';
fileSystems = rootFS + bootFS;
};
# Create two physical LVM partitions combined into one volume group
# that contains the logical swap and root partitions.
lvm = makeTest
{ createPartitions =
''
$machine->succeed(
"parted /dev/vda mklabel msdos",
"parted /dev/vda -- mkpart primary 1M 2048M", # first PV
"parted /dev/vda -- set 1 lvm on",
"parted /dev/vda -- mkpart primary 2048M -1s", # second PV
"parted /dev/vda -- set 2 lvm on",
"udevadm settle",
"pvcreate /dev/vda1 /dev/vda2",
"vgcreate MyVolGroup /dev/vda1 /dev/vda2",
"lvcreate --size 1G --name swap MyVolGroup",
"lvcreate --size 2G --name nixos MyVolGroup",
"mkswap -f /dev/MyVolGroup/swap -L swap",
"swapon -L swap",
"mkfs.xfs -L nixos /dev/MyVolGroup/nixos",
"mount LABEL=nixos /mnt",
);
'';
fileSystems = rootFS;
};
/*
swraid = makeTest
{ createPartitions =
''
$machine->succeed(
"parted /dev/vda --"
. " mklabel msdos"
. " mkpart primary ext2 1M 30MB" # /boot
. " mkpart extended 30M -1s"
. " mkpart logical 31M 1531M" # md0 (root), first device
. " mkpart logical 1540M 3040M" # md0 (root), second device
. " mkpart logical 3050M 3306M" # md1 (swap), first device
. " mkpart logical 3320M 3576M", # md1 (swap), second device
"udevadm settle",
"ls -l /dev/vda* >&2",
"cat /proc/partitions >&2",
"mdadm --create --force /dev/md0 --metadata 1.2 --level=raid1 --raid-devices=2 /dev/vda5 /dev/vda6",
"mdadm --create --force /dev/md1 --metadata 1.2 --level=raid1 --raid-devices=2 /dev/vda7 /dev/vda8",
"udevadm settle",
"mkswap -f /dev/md1 -L swap",
"swapon -L swap",
"mkfs.ext3 -L nixos /dev/md0",
"mount LABEL=nixos /mnt",
"mkfs.ext3 -L boot /dev/vda1",
"mkdir /mnt/boot",
"mount LABEL=boot /mnt/boot",
"udevadm settle",
"mdadm -W /dev/md0", # wait for sync to finish; booting off an unsynced device tends to fail
"mdadm -W /dev/md1",
);
'';
fileSystems = rootFS + bootFS;
};
*/
# Test a basic install using GRUB 1.
grub1 = makeTest
{ createPartitions =
''
$machine->succeed(
"parted /dev/sda mklabel msdos",
"parted /dev/sda -- mkpart primary linux-swap 1M 1024M",
"parted /dev/sda -- mkpart primary ext2 1024M -1s",
"udevadm settle",
"mkswap /dev/sda1 -L swap",
"swapon -L swap",
"mkfs.ext3 -L nixos /dev/sda2",
"mount LABEL=nixos /mnt",
);
'';
fileSystems = rootFS;
grubVersion = 1;
grubDevice = "/dev/sda";
};
# Rebuild the CD configuration with a little modification.
rebuildCD =
{ inherit iso;
nodes = { };
testScript =
''
my $machine = createMachine({ cdrom => glob("${iso}/iso/*.iso"), qemuFlags => '-m 768' });
$machine->start;
# Enable sshd service.
$machine->succeed(
"sed -i 's,^}\$,systemd.services.sshd.wantedBy = pkgs.lib.mkOverride 0 [\"multi-user.target\"]; },' /etc/nixos/configuration.nix"
);
$machine->succeed("cat /etc/nixos/configuration.nix >&2");
# Apply the new CD configuration.
$machine->succeed("nixos-rebuild test");
# Connect to it-self.
$machine->waitForUnit("sshd");
$machine->waitForOpenPort(22);
$machine->shutdown;
'';
};
}