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nixpkgs/pkgs/build-support/vm/default.nix
Eelco Dolstra 03f51200c2 * A function `runInGenericVM' that performs a build in an arbitrary VM
image (i.e., it can contain any OS that obeys the interface
  documented in the comment).  See `testFreeBSD' for an example that
  performs a build of the ATerm library on FreeBSD 7.0.  This will be
  used in the build farm to perform builds for platforms for which we
  cannot synthesize VM images automatically.

svn path=/nixpkgs/trunk/; revision=11753
2008-04-29 12:32:17 +00:00

808 lines
23 KiB
Nix

{pkgs}:
with pkgs;
rec {
modulesClosure = makeModulesClosure {
inherit kernel;
rootModules = ["cifs" "ne2k_pci" "nls_utf8" "ata_piix" "sd_mod"];
};
mountCifs = (makeStaticBinaries stdenv).mkDerivation {
name = "mount.cifs";
src = fetchurl {
name = "mount.cifs.c";
url = "http://websvn.samba.org/cgi-bin/viewcvs.cgi/*checkout*/branches/SAMBA_3_0/source/client/mount.cifs.c?rev=6103";
sha256 = "19205gd3pv8g519hlbjaw559wqgf0h2vkln9xgqaqip2h446qarp";
};
buildInputs = [nukeReferences];
buildCommand = ''
ensureDir $out/bin
gcc -Wall $src -o $out/bin/mount.cifs
strip $out/bin/mount.cifs
nuke-refs $out/bin/mount.cifs
'';
allowedReferences = []; # prevent accidents like glibc being included in the initrd
};
stage1Init = writeScript "vm-run-stage1" ''
#! ${klibcShrunk}/bin/sh.shared -e
echo START
export PATH=${klibcShrunk}/bin:${mountCifs}/bin
mkdir /etc
echo -n > /etc/fstab
mount -t proc none /proc
for o in $(cat /proc/cmdline); do
case $o in
mountDisk=1)
mountDisk=1
;;
command=*)
set -- $(IFS==; echo $o)
command=$2
;;
tmpDir=*)
set -- $(IFS==; echo $o)
export tmpDir=$2
;;
out=*)
set -- $(IFS==; echo $o)
export out=$2
;;
esac
done
for i in $(cat ${modulesClosure}/insmod-list); do
args=
case $i in
*/cifs.ko)
args="CIFSMaxBufSize=4194304"
;;
esac
echo "loading module $i with args $args"
insmod $i $args
done
mount -t tmpfs none /dev
mknod /dev/null c 1 3
mknod /dev/zero c 1 5
mknod /dev/tty c 5 0
mknod /dev/sda b 8 0
mknod /dev/hda b 3 0
ipconfig 10.0.2.15:::::eth0:none
mkdir /fs
if test -z "$mountDisk"; then
mount -t tmpfs none /fs
else
mount -t ext2 /dev/sda /fs
fi
mkdir -p /fs/hostfs
mkdir -p /fs/dev
mount -o bind /dev /fs/dev
mount.cifs //10.0.2.4/qemu /fs/hostfs -o guest,username=nobody
mkdir -p /fs/nix/store
mount -o bind /fs/hostfs/nix/store /fs/nix/store
mkdir -p /fs/tmp
mount -t tmpfs -o "mode=755" none /fs/tmp
mkdir -p /fs/proc
mount -t proc none /fs/proc
mkdir -p /fs/etc
ln -sf /proc/mounts /fs/etc/mtab
echo "Now running: $command"
test -n "$command"
set +e
chroot /fs $command /tmp $out /hostfs/$tmpDir
echo $? > /fs/hostfs/$tmpDir/in-vm-exit
mount -o remount,ro dummy /fs
echo DONE
reboot
'';
initrd = makeInitrd {
contents = [
{ object = stage1Init;
symlink = "/init";
}
];
};
stage2Init = writeScript "vm-run-stage2" ''
#! ${bash}/bin/sh
source $3/saved-env
export NIX_STORE=/nix/store
export NIX_BUILD_TOP="$1"
export TMPDIR="$1"
export PATH=/empty
out="$2"
export ORIG_TMPDIR="$3"
cd "$NIX_BUILD_TOP"
if ! test -e /bin/sh; then
${coreutils}/bin/mkdir -p /bin
${coreutils}/bin/ln -s ${bash}/bin/sh /bin/sh
fi
# For debugging: if this is the second time this image is run,
# then don't start the build again, but instead drop the user into
# an interactive shell.
if test -n "$origBuilder" -a ! -e /.debug; then
${coreutils}/bin/touch /.debug
exec $origBuilder $origArgs
else
export PATH=/bin:/usr/bin:${coreutils}/bin
echo "Starting interactive shell..."
echo "(To run the original builder: \$origBuilder \$origArgs)"
exec ${bash}/bin/sh
fi
'';
qemuCommandLinux = ''
QEMU_SMBD_COMMAND=${samba}/sbin/smbd qemu-system-x86_64 \
-nographic -no-reboot \
-smb / -hda $diskImage \
-kernel ${kernel}/vmlinuz \
-initrd ${initrd}/initrd \
-append "console=ttyS0 panic=1 command=${stage2Init} tmpDir=$TMPDIR out=$out mountDisk=$mountDisk" \
$QEMU_OPTS
'';
vmRunCommand = qemuCommand: writeText "vm-run" ''
export > saved-env
PATH=${coreutils}/bin:${kvm}/bin
diskImage=''${diskImage:-/dev/null}
eval "$preVM"
# Write the command to start the VM to a file so that the user can
# debug inside the VM if the build fails (when Nix is called with
# the -K option to preserve the temporary build directory).
cat > ./run-vm <<EOF
#! ${bash}/bin/sh
diskImage=$diskImage
TMPDIR=$TMPDIR
${qemuCommand}
EOF
chmod +x ./run-vm
source ./run-vm
if ! test -e in-vm-exit; then
echo "Virtual machine didn't produce an exit code."
exit 1
fi
eval "$postVM"
exit $(cat in-vm-exit)
'';
createEmptyImage = {size, fullName}: ''
mkdir $out
diskImage=$out/image
qemu-img create -f qcow $diskImage "${toString size}M"
mkdir $out/nix-support
echo "${fullName}" > $out/nix-support/full-name
'';
createRootFS = ''
mkdir /mnt
${e2fsprogs}/sbin/mke2fs -F /dev/sda
${klibcShrunk}/bin/mount -t ext2 /dev/sda /mnt
if test -e /mnt/.debug; then
exec ${bash}/bin/sh
fi
touch /mnt/.debug
mkdir /mnt/proc /mnt/dev /mnt/sys /mnt/bin
'';
/* Run a derivation in a Linux virtual machine (using Qemu/KVM). By
default, there is no disk image; the root filesystem is a tmpfs,
and /nix/store is shared with the host (via the CIFS protocol to
a Samba instance automatically started by Qemu). Thus, any pure
Nix derivation should run unmodified, e.g. the call
runInLinuxVM patchelf
will build the derivation `patchelf' inside a VM. The attribute
`preVM' can optionally contain a shell command to be evaluated
*before* the VM is started (i.e., on the host). The attribute
`memSize' specifies the memory size of the VM in megabytes,
defaulting to 256. The attribute `diskImage' can optionally
specify a file system image to be attached to /dev/sda. (Note
that currently we expect the image to contain a filesystem, not a
full disk image with a partition table etc.)
If the build fails and Nix is run with the `-K' option, a script
`run-vm' will be left behind in the temporary build directory
that allows you to boot into the VM and debug it interactively. */
runInLinuxVM = attrs: derivation (removeAttrs attrs ["meta" "passthru" "outPath" "drvPath"] // {
builder = "${bash}/bin/sh";
args = ["-e" (vmRunCommand qemuCommandLinux)];
origArgs = attrs.args;
origBuilder = attrs.builder;
QEMU_OPTS = "-m ${toString (if attrs ? memSize then attrs.memSize else 256)}";
});
qemuCommandGeneric = ''
QEMU_SMBD_COMMAND=${samba}/sbin/smbd qemu-system-x86_64 \
-nographic -no-reboot \
-smb $(pwd) -hda $diskImage \
$QEMU_OPTS
'';
/* Run a command in a x86 virtual machine image containing an
arbitrary OS. The VM should be configured to do the following:
- Write log output to the serial port.
- Mount //10.0.2.4/qemu via SMB.
- Execute the command "cmd" on the SMB share. It can access the
original derivation attributes in "saved-env" on the share.
- Produce output under "out" on the SMB share.
- Write an exit code to "in-vm-exit" on the SMB share ("0"
meaning success).
- Reboot to shutdown the machine (because Qemu doesn't seem
capable of a APM/ACPI VM shutdown).
*/
runInGenericVM = attrs: derivation (removeAttrs attrs ["meta" "passthru" "outPath" "drvPath"] // {
system = "i686-linux";
builder = "${bash}/bin/sh";
args = ["-e" (vmRunCommand qemuCommandGeneric)];
QEMU_OPTS = "-m ${toString (if attrs ? memSize then attrs.memSize else 256)}";
preVM = ''
diskImage=$(pwd)/image
origImage=${attrs.diskImage}
if test -d "$origImage"; then origImage="$origImage/image"; fi
qemu-img create -b "$origImage" -f qcow $diskImage
echo "$buildCommand" > cmd
eval "$postPreVM"
'';
postVM = ''
cp -prvd out $out
'';
});
/* Like runInLinuxVM, but run the build not using the stdenv from
the Nix store, but using the tools provided by /bin, /usr/bin
etc. from the specified filesystem image, which typically is a
filesystem containing a non-NixOS Linux distribution. */
runInLinuxImage = attrs: runInLinuxVM (attrs // {
mountDisk = true;
/* Mount `image' as the root FS, but use a temporary copy-on-write
image since we don't want to (and can't) write to `image'. */
preVM = ''
diskImage=$(pwd)/image
origImage=${attrs.diskImage}
if test -d "$origImage"; then origImage="$origImage/image"; fi
qemu-img create -b "$origImage" -f qcow $diskImage
'';
/* Inside the VM, run the stdenv setup script normally, but at the
very end set $PATH and $SHELL to the `native' paths for the
distribution inside the VM. */
postHook = ''
PATH=/usr/bin:/bin:/usr/sbin:/sbin
SHELL=/bin/sh
eval "$origPostHook"
'';
origPostHook = if attrs ? postHook then attrs.postHook else "";
/* Don't run Nix-specific build steps like patchelf. */
fixupPhase = "true";
});
/* Create a filesystem image of the specified size and fill it with
a set of RPM packages. */
fillDiskWithRPMs =
{size ? 1024, rpms, name, fullName, preInstall ? "", postInstall ? "", runScripts ? true}:
runInLinuxVM (stdenv.mkDerivation {
inherit name preInstall postInstall rpms;
preVM = createEmptyImage {inherit size fullName;};
buildCommand = ''
${createRootFS}
chroot=$(type -tP chroot)
echo "unpacking RPMs..."
for i in $rpms; do
echo "$i..."
${rpm}/bin/rpm2cpio "$i" | (cd /mnt && ${cpio}/bin/cpio -i --make-directories)
done
eval "$preInstall"
echo "initialising RPM DB..."
PATH=/usr/bin:/bin:/usr/sbin:/sbin $chroot /mnt \
rpm --initdb
# Make the Nix store available in /mnt, because that's where the RPMs live.
mkdir -p /mnt/nix/store
${klibcShrunk}/bin/mount -o bind /nix/store /mnt/nix/store
echo "installing RPMs..."
PATH=/usr/bin:/bin:/usr/sbin:/sbin $chroot /mnt \
rpm -iv ${if runScripts then "" else "--noscripts"} $rpms
echo "running post-install script..."
eval "$postInstall"
rm /mnt/.debug
${klibcShrunk}/bin/umount /mnt/nix/store
${klibcShrunk}/bin/umount /mnt
'';
});
/* Generate a script that can be used to run an interactive session
in the given image. */
makeImageTestScript = image: writeScript "image-test" ''
#! ${bash}/bin/sh
if test -z "$1"; then
echo "Syntax: $0 <copy-on-write-temp-file>"
exit 1
fi
diskImage="$1"
if ! test -e "$diskImage"; then
qemu-img create -b ${image}/image -f qcow "$diskImage"
fi
export TMPDIR=$(mktemp -d)
export out=/dummy
export origBuilder=
export origArgs=
export > $TMPDIR/saved-env
mountDisk=1
${qemuCommandLinux}
'';
/* Build RPM packages from the tarball `src' in the Linux
distribution installed in the filesystem `diskImage'. The
tarball must contain an RPM specfile. */
buildRPM = attrs: runInLinuxImage (stdenv.mkDerivation ({
phases = "prepareImagePhase sysInfoPhase buildPhase installPhase";
outDir = "rpms/${attrs.diskImage.name}";
prepareImagePhase = ''
if test -n "$extraRPMs"; then
rpm -iv $extraRPMs
fi
'';
sysInfoPhase = ''
if test -e /etc/fedora-release; then echo "Fedora release: $(cat /etc/fedora-release)"; fi
if test -e /etc/SuSE-release; then echo "SUSE release: $(cat /etc/SuSE-release)"; fi
header "installed RPM packages"
rpm -qa --qf "%{Name}-%{Version}-%{Release} (%{Arch}; %{Distribution}; %{Vendor})\n"
stopNest
'';
buildPhase = ''
eval "$preBuild"
# Hacky: RPM looks for <basename>.spec inside the tarball, so
# strip off the hash.
stripHash "$src"
srcName="$strippedName"
cp "$src" "$srcName" # `ln' doesn't work always work: RPM requires that the file is owned by root
rpmbuild -vv -ta "$srcName" || fail
eval "$postBuild"
'';
installPhase = ''
ensureDir $out/$outDir
find /usr/src -name "*.rpm" -exec cp {} $out/$outDir \;
for i in $out/$outDir/*.rpm; do
header "Generated RPM/SRPM: $i"
rpm -qip $i
stopNest
done
''; # */
} // attrs));
/* Create a filesystem image of the specified size and fill it with
a set of Debian packages. `debs' must be a list of list of
.deb files, namely, the Debian packages grouped together into
strongly connected components. See deb/deb-closure.nix. */
fillDiskWithDebs =
{size ? 1024, debs, name, fullName, postInstall ? null}:
runInLinuxVM (stdenv.mkDerivation {
inherit name postInstall;
debs = (lib.intersperse "|" debs);
preVM = createEmptyImage {inherit size fullName;};
buildCommand = ''
${createRootFS}
echo "initialising Debian DB..."
PATH=$PATH:${dpkg}/bin:${dpkg}/sbin:${glibc}/sbin
# Unpack the .debs. We do this to prevent pre-install scripts
# (which have lots of circular dependencies) from barfing.
echo "unpacking Debs..."
for deb in $debs; do
if test "$deb" != "|"; then
echo "$deb..."
dpkg-deb --extract "$deb" /mnt
fi
done
# Make the Nix store available in /mnt, because that's where the .debs live.
mkdir -p /mnt/inst/nix/store
${klibcShrunk}/bin/mount -o bind /nix/store /mnt/inst/nix/store
${klibcShrunk}/bin/mount -o bind /dev /mnt/dev
# Misc. files/directories assumed by various packages.
touch /mnt/etc/shells
touch /mnt/var/lib/dpkg/status
touch /mnt/var/lib/dpkg/available
touch /mnt/var/lib/dpkg/diversions
# Now install the .debs. This is basically just to register
# them with dpkg and to make their pre/post-install scripts
# run.
echo "installing Debs..."
export DEBIAN_FRONTEND=noninteractive
oldIFS="$IFS"
IFS="|"
for component in $debs; do
IFS="$oldIFS"
echo
echo ">>> INSTALLING COMPONENT: $component"
debs=
for i in $component; do
debs="$debs /inst/$i";
done
chroot=$(type -tP chroot)
PATH=/usr/bin:/bin:/usr/sbin:/sbin $chroot /mnt \
/usr/bin/dpkg --install --force-all $debs < /dev/null
done
echo "running post-install script..."
eval "$postInstall"
rm /mnt/.debug
${klibcShrunk}/bin/umount /mnt/inst/nix/store
${klibcShrunk}/bin/umount /mnt/dev
${klibcShrunk}/bin/umount /mnt
'';
});
/* Generate a Nix expression containing fetchurl calls for the
closure of a set of top-level RPM packages from the
`primary.xml.gz' file of a Fedora or openSUSE distribution. */
rpmClosureGenerator =
{name, packagesList, urlPrefix, packages, archs ? []}:
runCommand "${name}.nix" {buildInputs = [perl perlXMLSimple]; inherit archs;} ''
gunzip < ${packagesList} > ./packages.xml
perl -w ${rpm/rpm-closure.pl} \
./packages.xml ${urlPrefix} ${toString packages} > $out
'';
/* Helper function that combines rpmClosureGenerator and
fillDiskWithRPMs to generate a disk image from a set of package
names. */
makeImageFromRPMDist =
{ name, fullName, size ? 1024, urlPrefix, packagesList, packages
, postInstall ? "", archs ? ["noarch" "i386"], runScripts ? true}:
fillDiskWithRPMs {
inherit name fullName size postInstall runScripts;
rpms = import (rpmClosureGenerator {
inherit name packagesList urlPrefix packages archs;
}) {inherit fetchurl;};
};
/* Like `rpmClosureGenerator', but now for Debian/Ubuntu releases
(i.e. generate a closure from a Packages.bz2 file). */
debClosureGenerator =
{name, packagesList, urlPrefix, packages}:
runCommand "${name}.nix" {} ''
bunzip2 < ${packagesList} > ./Packages
${perl}/bin/perl -I${dpkg} -w ${deb/deb-closure.pl} \
./Packages ${urlPrefix} ${toString packages} > $out
'';
/* Helper function that combines debClosureGenerator and
fillDiskWithDebs to generate a disk image from a set of package
names. */
makeImageFromDebDist =
{name, fullName, size ? 1024, urlPrefix, packagesList, packages, postInstall ? ""}:
fillDiskWithDebs {
inherit name fullName size postInstall;
debs = import (debClosureGenerator {
inherit name packagesList urlPrefix packages;
}) {inherit fetchurl;};
};
/* A bunch of functions that build disk images of various Linux
distributions, given a set of top-level package names to be
installed in the image. */
diskImageFuns = {
fedora2i386 = args: makeImageFromRPMDist ({
name = "fedora-core-2-i386";
fullName = "Fedora Core 2 (i386)";
packagesList = fetchurl {
url = mirror://fedora/linux/core/2/i386/os/repodata/primary.xml.gz;
sha256 = "1nq1k2k0nzkii737cka301f0vbd2ix2wsfvi6bblpi748q6h2w4k";
};
urlPrefix = mirror://fedora/linux/core/2/i386/os;
runScripts = false;
} // args);
fedora3i386 = args: makeImageFromRPMDist ({
name = "fedora-core-3-i386";
fullName = "Fedora Core 3 (i386)";
packagesList = fetchurl {
url = mirror://fedora/linux/core/3/i386/os/repodata/primary.xml.gz;
sha256 = "13znspn4g1bkjkk47393k9chswgzl6nx1n0q6h2wrw52c7d9nw9i";
};
urlPrefix = mirror://fedora/linux/core/3/i386/os;
archs = ["noarch" "i386" "i586"];
runScripts = false;
} // args);
fedora5i386 = args: makeImageFromRPMDist ({
name = "fedora-core-5-i386";
fullName = "Fedora Core 5 (i386)";
packagesList = fetchurl {
url = mirror://fedora/linux/core/5/i386/os/repodata/primary.xml.gz;
sha256 = "0lfk4mzrpiyls8h7k9ckc3vgywbmg05zsr4ag6qakgnv9gljijig";
};
urlPrefix = mirror://fedora/linux/core/5/i386/os;
} // args);
fedora7i386 = args: makeImageFromRPMDist ({
name = "fedora-7-i386";
fullName = "Fedora 7 (i386)";
packagesList = fetchurl {
url = mirror://fedora/linux/releases/7/Fedora/i386/os/repodata/primary.xml.gz;
sha256 = "0zq7ifirj45wry7b2qkm12qhzzazal3hn610h5kwbrfr2xavs882";
};
urlPrefix = mirror://fedora/linux/releases/7/Fedora/i386/os;
} // args);
fedora8i386 = args: makeImageFromRPMDist ({
name = "fedora-8-i386";
fullName = "Fedora 8 (i386)";
packagesList = fetchurl {
url = mirror://fedora/linux/releases/8/Fedora/i386/os/repodata/primary.xml.gz;
sha256 = "0vr9345rrk0vhs4pc9cjp8npdkqz0xqyirv84vhyfn533m9ws36f";
};
urlPrefix = mirror://fedora/linux/releases/8/Fedora/i386/os;
} // args);
opensuse103i386 = args: makeImageFromRPMDist ({
name = "opensuse-10.3-i586";
fullName = "openSUSE 10.3 (i586)";
packagesList = fetchurl {
url = mirror://opensuse/distribution/10.3/repo/oss/suse/repodata/primary.xml.gz;
sha256 = "0zb5kxsb755nqq9i8jdclmanacyf551ncx6a011v9jqphsvyfvd7";
};
urlPrefix = mirror://opensuse/distribution/10.3/repo/oss/suse/;
archs = ["noarch" "i586"];
} // args);
ubuntu710i386 = args: makeImageFromDebDist ({
name = "ubuntu-7.10-gutsy-i386";
fullName = "Ubuntu 7.10 Gutsy (i386)";
packagesList = fetchurl {
url = mirror://ubuntu/dists/gutsy/main/binary-i386/Packages.bz2;
sha1 = "8b52ee3d417700e2b2ee951517fa25a8792cabfd";
};
urlPrefix = mirror://ubuntu;
} // args);
debian40r3i386 = args: makeImageFromDebDist ({
name = "debian-4.0r3-etch-i386";
fullName = "Debian 4.0r3 Etch (i386)";
packagesList = fetchurl {
url = mirror://debian/dists/etch/main/binary-i386/Packages.bz2;
sha256 = "7a8f2777315d71fd7321d1076b3bf5f76afe179fe66c2ce8e1ff4baed6424340";
};
urlPrefix = mirror://ubuntu;
} // args);
};
/* Common packages for Fedora images. */
commonFedoraPackages = [
"autoconf"
"automake"
"basesystem"
"bzip2"
"curl"
"diffutils"
"fedora-release"
"findutils"
"gawk"
"gcc-c++"
"gzip"
"make"
"patch"
"perl"
"pkgconfig"
"rpm"
"rpm-build"
"tar"
"unzip"
];
/* Common packages for openSUSE images. */
commonOpenSUSEPackages = [
"aaa_base"
"autoconf"
"automake"
"bzip2"
"curl"
"devs"
"diffutils"
"findutils"
"gawk"
"gcc-c++"
"gzip"
"make"
"patch"
"perl"
"pkg-config"
"rpm"
"tar"
"unzip"
"util-linux"
];
/* Common packages for Debian/Ubuntu images. */
commonDebianPackages = [
"base-passwd"
"dpkg"
"libc6-dev"
"perl"
"sysvinit"
"bash"
"gzip"
"bzip2"
"tar"
"grep"
"findutils"
"g++"
"make"
"curl"
"patch"
"diff"
];
/* A bunch of disk images. */
diskImages = {
redhat9i386 = fillDiskWithRPMs {
name = "redhat-9-i386";
fullName = "Red Hat Linux 9 (i386)";
size = 1024;
rpms = import ./rpm/redhat-9-i386.nix {inherit fetchurl;};
};
suse90i386 = fillDiskWithRPMs {
name = "suse-9.0-i386";
fullName = "SUSE Linux 9.0 (i386)";
size = 1024;
rpms = import ./rpm/suse-9-i386.nix {inherit fetchurl;};
# Urgh. The /etc/group entries are installed by aaa_base (or
# something) but due to dependency ordering, that package isn't
# installed yet by the time some other packages refer to these
# entries.
preInstall = ''
echo 'bin:x:1:daemon' >> /mnt/etc/group
echo 'tty:x:5:' >> /mnt/etc/group
echo 'disk:x:6:' >> /mnt/etc/group
echo 'lp:x:7:' >> /mnt/etc/group
echo 'uucp:x:14:' >> /mnt/etc/group
echo 'audio:x:17:' >> /mnt/etc/group
echo 'video:x:33:' >> /mnt/etc/group
'';
};
fedora2i386 = diskImageFuns.fedora2i386 { packages = commonFedoraPackages; };
fedora3i386 = diskImageFuns.fedora3i386 { packages = commonFedoraPackages; };
fedora5i386 = diskImageFuns.fedora5i386 { packages = commonFedoraPackages; };
fedora7i386 = diskImageFuns.fedora7i386 { packages = commonFedoraPackages; };
fedora8i386 = diskImageFuns.fedora8i386 { packages = commonFedoraPackages; };
opensuse103i386 = diskImageFuns.opensuse103i386 { packages = commonOpenSUSEPackages; };
ubuntu710i386 = diskImageFuns.ubuntu710i386 { packages = commonDebianPackages; };
debian40r3i386 = diskImageFuns.debian40r3i386 { packages = commonDebianPackages; };
};
}