{ pkgs , kernel ? pkgs.linux , img ? pkgs.stdenv.platform.kernelTarget , storeDir ? builtins.storeDir , rootModules ? [ "virtio_pci" "virtio_mmio" "virtio_blk" "virtio_balloon" "virtio_rng" "ext4" "unix" "9p" "9pnet_virtio" "crc32c_generic" ] ++ pkgs.lib.optional (pkgs.stdenv.isi686 || pkgs.stdenv.isx86_64) "rtc_cmos" }: with pkgs; with import ../../../nixos/lib/qemu-flags.nix { inherit pkgs; }; rec { qemu = pkgs.qemu_kvm; modulesClosure = makeModulesClosure { inherit kernel rootModules; firmware = kernel; }; hd = "vda"; # either "sda" or "vda" initrdUtils = runCommand "initrd-utils" { buildInputs = [ nukeReferences ]; allowedReferences = [ "out" modulesClosure ]; # prevent accidents like glibc being included in the initrd } '' mkdir -p $out/bin mkdir -p $out/lib # Copy what we need from Glibc. cp -p ${pkgs.stdenv.glibc.out}/lib/ld-linux*.so.? $out/lib cp -p ${pkgs.stdenv.glibc.out}/lib/libc.so.* $out/lib cp -p ${pkgs.stdenv.glibc.out}/lib/libm.so.* $out/lib # Copy BusyBox. cp -pd ${pkgs.busybox}/bin/* $out/bin # Run patchelf to make the programs refer to the copied libraries. for i in $out/bin/* $out/lib/*; do if ! test -L $i; then nuke-refs $i; fi; done for i in $out/bin/*; do if [ -f "$i" -a ! -L "$i" ]; then echo "patching $i..." patchelf --set-interpreter $out/lib/ld-linux*.so.? --set-rpath $out/lib $i || true fi done ''; # */ stage1Init = writeScript "vm-run-stage1" '' #! ${initrdUtils}/bin/ash -e export PATH=${initrdUtils}/bin mkdir /etc echo -n > /etc/fstab mount -t proc none /proc mount -t sysfs none /sys echo 2 > /proc/sys/vm/panic_on_oom for o in $(cat /proc/cmdline); do case $o in mountDisk=1) mountDisk=1 ;; command=*) set -- $(IFS==; echo $o) command=$2 ;; out=*) set -- $(IFS==; echo $o) export out=$2 ;; esac done echo "loading kernel modules..." for i in $(cat ${modulesClosure}/insmod-list); do insmod $i || echo "warning: unable to load $i" done mount -t devtmpfs devtmpfs /dev ifconfig lo up mkdir /fs if test -z "$mountDisk"; then mount -t tmpfs none /fs else mount /dev/${hd} /fs fi mkdir -p /fs/dev mount -o bind /dev /fs/dev mkdir -p /fs/dev/shm /fs/dev/pts mount -t tmpfs -o "mode=1777" none /fs/dev/shm mount -t devpts none /fs/dev/pts echo "mounting Nix store..." mkdir -p /fs${storeDir} mount -t 9p store /fs${storeDir} -o trans=virtio,version=9p2000.L,cache=loose mkdir -p /fs/tmp /fs/run /fs/var mount -t tmpfs -o "mode=1777" none /fs/tmp mount -t tmpfs -o "mode=755" none /fs/run ln -sfn /run /fs/var/run echo "mounting host's temporary directory..." mkdir -p /fs/tmp/xchg mount -t 9p xchg /fs/tmp/xchg -o trans=virtio,version=9p2000.L,cache=loose mkdir -p /fs/proc mount -t proc none /fs/proc mkdir -p /fs/sys mount -t sysfs none /fs/sys mkdir -p /fs/etc ln -sf /proc/mounts /fs/etc/mtab echo "127.0.0.1 localhost" > /fs/etc/hosts echo "starting stage 2 ($command)" exec switch_root /fs $command $out ''; initrd = makeInitrd { contents = [ { object = stage1Init; symlink = "/init"; } ]; }; stage2Init = writeScript "vm-run-stage2" '' #! ${bash}/bin/sh source /tmp/xchg/saved-env # Set the system time from the hardware clock. Works around an # apparent KVM > 1.5.2 bug. ${pkgs.utillinux}/bin/hwclock -s export NIX_STORE=${storeDir} export NIX_BUILD_TOP=/tmp export TMPDIR=/tmp export PATH=/empty out="$1" cd "$NIX_BUILD_TOP" if ! test -e /bin/sh; then ${coreutils}/bin/mkdir -p /bin ${coreutils}/bin/ln -s ${bash}/bin/sh /bin/sh fi # Set up automatic kernel module loading. export MODULE_DIR=${linux}/lib/modules/ ${coreutils}/bin/cat < /run/modprobe #! /bin/sh export MODULE_DIR=$MODULE_DIR exec ${kmod}/bin/modprobe "\$@" EOF ${coreutils}/bin/chmod 755 /run/modprobe echo /run/modprobe > /proc/sys/kernel/modprobe # For debugging: if this is the second time this image is run, # then don't start the build again, but instead drop the user into # an interactive shell. if test -n "$origBuilder" -a ! -e /.debug; then exec < /dev/null ${coreutils}/bin/touch /.debug $origBuilder $origArgs echo $? > /tmp/xchg/in-vm-exit ${busybox}/bin/mount -o remount,ro dummy / ${busybox}/bin/poweroff -f else export PATH=/bin:/usr/bin:${coreutils}/bin echo "Starting interactive shell..." echo "(To run the original builder: \$origBuilder \$origArgs)" exec ${busybox}/bin/setsid ${bashInteractive}/bin/bash < /dev/${qemuSerialDevice} &> /dev/${qemuSerialDevice} fi ''; qemuCommandLinux = '' ${qemuBinary qemu} \ -nographic -no-reboot \ -device virtio-rng-pci \ -virtfs local,path=${storeDir},security_model=none,mount_tag=store \ -virtfs local,path=$TMPDIR/xchg,security_model=none,mount_tag=xchg \ ''${diskImage:+-drive file=$diskImage,if=virtio,cache=unsafe,werror=report} \ -kernel ${kernel}/${img} \ -initrd ${initrd}/initrd \ -append "console=${qemuSerialDevice} panic=1 command=${stage2Init} out=$out mountDisk=$mountDisk loglevel=4" \ $QEMU_OPTS ''; vmRunCommand = qemuCommand: writeText "vm-run" '' export > saved-env PATH=${coreutils}/bin mkdir xchg mv saved-env xchg/ eval "$preVM" if [ "$enableParallelBuilding" = 1 ]; then if [ ''${NIX_BUILD_CORES:-0} = 0 ]; then QEMU_OPTS+=" -smp cpus=$(nproc)" else QEMU_OPTS+=" -smp cpus=$NIX_BUILD_CORES" fi fi # 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 < $out/nix-support/full-name ''; defaultCreateRootFS = '' mkdir /mnt ${e2fsprogs}/bin/mkfs.ext4 /dev/${hd} ${utillinux}/bin/mount -t ext4 /dev/${hd} /mnt if test -e /mnt/.debug; then exec ${bash}/bin/sh fi touch /mnt/.debug mkdir /mnt/proc /mnt/dev /mnt/sys ''; /* Run a derivation in a Linux virtual machine (using Qemu/KVM). By default, there is no disk image; the root filesystem is a tmpfs, and the nix store is shared with the host (via the 9P protocol). Thus, any pure Nix derivation should run unmodified, e.g. the call runInLinuxVM patchelf will build the derivation `patchelf' inside a VM. The attribute `preVM' can optionally contain a shell command to be evaluated *before* the VM is started (i.e., on the host). The attribute `memSize' specifies the memory size of the VM in megabytes, defaulting to 512. The attribute `diskImage' can optionally specify a file system image to be attached to /dev/sda. (Note that currently we expect the image to contain a filesystem, not a full disk image with a partition table etc.) If the build fails and Nix is run with the `-K' option, a script `run-vm' will be left behind in the temporary build directory that allows you to boot into the VM and debug it interactively. */ runInLinuxVM = drv: lib.overrideDerivation drv ({ memSize ? 512, QEMU_OPTS ? "", args, builder, ... }: { requiredSystemFeatures = [ "kvm" ]; builder = "${bash}/bin/sh"; args = ["-e" (vmRunCommand qemuCommandLinux)]; origArgs = args; origBuilder = builder; QEMU_OPTS = "${QEMU_OPTS} -m ${toString memSize}"; passAsFile = []; # HACK fix - see https://github.com/NixOS/nixpkgs/issues/16742 }); extractFs = {file, fs ? null} : with pkgs; runInLinuxVM ( stdenv.mkDerivation { name = "extract-file"; buildInputs = [ utillinux ]; buildCommand = '' ln -s ${linux}/lib /lib ${kmod}/bin/modprobe loop ${kmod}/bin/modprobe ext4 ${kmod}/bin/modprobe hfs ${kmod}/bin/modprobe hfsplus ${kmod}/bin/modprobe squashfs ${kmod}/bin/modprobe iso9660 ${kmod}/bin/modprobe ufs ${kmod}/bin/modprobe cramfs mkdir -p $out mkdir -p tmp mount -o loop,ro,ufstype=44bsd ${lib.optionalString (fs != null) "-t ${fs} "}${file} tmp || mount -o loop,ro ${lib.optionalString (fs != null) "-t ${fs} "}${file} tmp cp -Rv tmp/* $out/ || exit 0 ''; }); extractMTDfs = {file, fs ? null} : with pkgs; runInLinuxVM ( stdenv.mkDerivation { name = "extract-file-mtd"; buildInputs = [ utillinux mtdutils ]; buildCommand = '' ln -s ${linux}/lib /lib ${kmod}/bin/modprobe mtd ${kmod}/bin/modprobe mtdram total_size=131072 ${kmod}/bin/modprobe mtdchar ${kmod}/bin/modprobe mtdblock ${kmod}/bin/modprobe jffs2 ${kmod}/bin/modprobe zlib mkdir -p $out mkdir -p tmp dd if=${file} of=/dev/mtd0 mount ${lib.optionalString (fs != null) "-t ${fs} "}/dev/mtdblock0 tmp cp -R tmp/* $out/ ''; }); /* Like runInLinuxVM, but run the build not using the stdenv from the Nix store, but using the tools provided by /bin, /usr/bin etc. from the specified filesystem image, which typically is a filesystem containing a non-NixOS Linux distribution. */ runInLinuxImage = drv: runInLinuxVM (lib.overrideDerivation drv (attrs: { mountDisk = true; /* Mount `image' as the root FS, but use a temporary copy-on-write image since we don't want to (and can't) write to `image'. */ preVM = '' diskImage=$(pwd)/disk-image.qcow2 origImage=${attrs.diskImage} if test -d "$origImage"; then origImage="$origImage/disk-image.qcow2"; fi ${qemu}/bin/qemu-img create -b "$origImage" -f qcow2 $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 ? 4096, rpms, name, fullName, preInstall ? "", postInstall ? "" , runScripts ? true, createRootFS ? defaultCreateRootFS , QEMU_OPTS ? "", memSize ? 512 , unifiedSystemDir ? false }: runInLinuxVM (stdenv.mkDerivation { inherit name preInstall postInstall rpms QEMU_OPTS memSize; preVM = createEmptyImage {inherit size fullName;}; buildCommand = '' ${createRootFS} chroot=$(type -tP chroot) # Make the Nix store available in /mnt, because that's where the RPMs live. mkdir -p /mnt${storeDir} ${utillinux}/bin/mount -o bind ${storeDir} /mnt${storeDir} # Newer distributions like Fedora 18 require /lib etc. to be # symlinked to /usr. ${lib.optionalString unifiedSystemDir '' mkdir -p /mnt/usr/bin /mnt/usr/sbin /mnt/usr/lib /mnt/usr/lib64 ln -s /usr/bin /mnt/bin ln -s /usr/sbin /mnt/sbin ln -s /usr/lib /mnt/lib ln -s /usr/lib64 /mnt/lib64 ${utillinux}/bin/mount -t proc none /mnt/proc ''} echo "unpacking RPMs..." set +o pipefail for i in $rpms; do echo "$i..." ${rpm}/bin/rpm2cpio "$i" | chroot /mnt ${cpio}/bin/cpio -i --make-directories --unconditional --extract-over-symlinks done eval "$preInstall" echo "initialising RPM DB..." PATH=/usr/bin:/bin:/usr/sbin:/sbin $chroot /mnt \ ldconfig -v || true PATH=/usr/bin:/bin:/usr/sbin:/sbin $chroot /mnt \ rpm --initdb ${utillinux}/bin/mount -o bind /tmp /mnt/tmp echo "installing RPMs..." PATH=/usr/bin:/bin:/usr/sbin:/sbin $chroot /mnt \ rpm -iv --nosignature ${if runScripts then "" else "--noscripts"} $rpms echo "running post-install script..." eval "$postInstall" rm /mnt/.debug ${utillinux}/bin/umount /mnt${storeDir} /mnt/tmp ${lib.optionalString unifiedSystemDir "/mnt/proc"} ${utillinux}/bin/umount /mnt ''; passthru = { inherit fullName; }; }); /* 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 " exit 1 fi diskImage="$1" if ! test -e "$diskImage"; then ${qemu}/bin/qemu-img create -b ${image}/disk-image.qcow2 -f qcow2 "$diskImage" fi export TMPDIR=$(mktemp -d) export out=/dummy export origBuilder= export origArgs= mkdir $TMPDIR/xchg export > $TMPDIR/xchg/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 for rpmdir in $extraRPMs ; do rpm -iv $(ls $rpmdir/rpms/*/*.rpm | grep -v 'src\.rpm' | sort | head -1) done fi ''; sysInfoPhase = '' echo "System/kernel: $(uname -a)" 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 .spec inside the tarball, so # strip off the hash. srcName="$(stripHash "$src")" cp "$src" "$srcName" # `ln' doesn't work always work: RPM requires that the file is owned by root export HOME=/tmp/home mkdir $HOME rpmout=/tmp/rpmout mkdir $rpmout $rpmout/SPECS $rpmout/BUILD $rpmout/RPMS $rpmout/SRPMS echo "%_topdir $rpmout" >> $HOME/.rpmmacros if [ `uname -m` = i686 ]; then extra="--target i686-linux"; fi rpmbuild -vv $extra -ta "$srcName" eval "$postBuild" ''; installPhase = '' eval "$preInstall" mkdir -p $out/$outDir find $rpmout -name "*.rpm" -exec cp {} $out/$outDir \; for i in $out/$outDir/*.rpm; do header "Generated RPM/SRPM: $i" rpm -qip $i stopNest done eval "$postInstall" ''; # */ } // 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 ? 4096, debs, name, fullName, postInstall ? null, createRootFS ? defaultCreateRootFS , QEMU_OPTS ? "", memSize ? 512 }: runInLinuxVM (stdenv.mkDerivation { inherit name postInstall QEMU_OPTS memSize; debs = (lib.intersperse "|" debs); preVM = createEmptyImage {inherit size fullName;}; buildCommand = '' ${createRootFS} PATH=$PATH:${stdenv.lib.makeBinPath [ dpkg dpkg glibc lzma ]} # 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${storeDir} ${utillinux}/bin/mount -o bind ${storeDir} /mnt/inst${storeDir} ${utillinux}/bin/mount -o bind /proc /mnt/proc ${utillinux}/bin/mount -o bind /dev /mnt/dev # Misc. files/directories assumed by various packages. echo "initialising Dpkg DB..." touch /mnt/etc/shells touch /mnt/var/lib/dpkg/status touch /mnt/var/lib/dpkg/available touch /mnt/var/lib/dpkg/diversions # Now install the .debs. This is basically just to register # them with dpkg and to make their pre/post-install scripts # run. echo "installing Debs..." export DEBIAN_FRONTEND=noninteractive oldIFS="$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) # Create a fake start-stop-daemon script, as done in debootstrap. mv "/mnt/sbin/start-stop-daemon" "/mnt/sbin/start-stop-daemon.REAL" echo "#!/bin/true" > "/mnt/sbin/start-stop-daemon" chmod 755 "/mnt/sbin/start-stop-daemon" PATH=/usr/bin:/bin:/usr/sbin:/sbin $chroot /mnt \ /usr/bin/dpkg --install --force-all $debs < /dev/null || true # Move the real start-stop-daemon back into its place. mv "/mnt/sbin/start-stop-daemon.REAL" "/mnt/sbin/start-stop-daemon" done echo "running post-install script..." eval "$postInstall" ln -sf dash /mnt/bin/sh rm /mnt/.debug ${utillinux}/bin/umount /mnt/inst${storeDir} ${utillinux}/bin/umount /mnt/proc ${utillinux}/bin/umount /mnt/dev ${utillinux}/bin/umount /mnt ''; passthru = { inherit fullName; }; }); /* Generate a Nix expression containing fetchurl calls for the closure of a set of top-level RPM packages from the `primary.xml.gz' file of a Fedora or openSUSE distribution. */ rpmClosureGenerator = {name, packagesLists, urlPrefixes, packages, archs ? []}: assert (builtins.length packagesLists) == (builtins.length urlPrefixes); runCommand "${name}.nix" {buildInputs = [perl perlPackages.XMLSimple]; inherit archs;} '' ${lib.concatImapStrings (i: pl: '' gunzip < ${pl} > ./packages_${toString i}.xml '') packagesLists} perl -w ${rpm/rpm-closure.pl} \ ${lib.concatImapStrings (i: pl: "./packages_${toString i}.xml ${pl.snd} " ) (lib.zipLists packagesLists urlPrefixes)} \ ${toString packages} > $out ''; /* Helper function that combines rpmClosureGenerator and fillDiskWithRPMs to generate a disk image from a set of package names. */ makeImageFromRPMDist = { name, fullName, size ? 4096 , urlPrefix ? "", urlPrefixes ? [urlPrefix] , packagesList ? "", packagesLists ? [packagesList] , packages, extraPackages ? [] , preInstall ? "", postInstall ? "", archs ? ["noarch" "i386"] , runScripts ? true, createRootFS ? defaultCreateRootFS , QEMU_OPTS ? "", memSize ? 512 , unifiedSystemDir ? false }: fillDiskWithRPMs { inherit name fullName size preInstall postInstall runScripts createRootFS unifiedSystemDir QEMU_OPTS memSize; rpms = import (rpmClosureGenerator { inherit name packagesLists urlPrefixes archs; packages = packages ++ extraPackages; }) { inherit fetchurl; }; }; /* Like `rpmClosureGenerator', but now for Debian/Ubuntu releases (i.e. generate a closure from a Packages.bz2 file). */ debClosureGenerator = {name, packagesLists, urlPrefix, packages}: runCommand "${name}.nix" { buildInputs = [ perl dpkg ]; } '' for i in ${toString packagesLists}; do echo "adding $i..." case $i in *.xz | *.lzma) xz -d < $i >> ./Packages ;; *.bz2) bunzip2 < $i >> ./Packages ;; *.gz) gzip -dc < $i >> ./Packages ;; esac done # Work around this bug: http://bugs.debian.org/cgi-bin/bugreport.cgi?bug=452279 sed -i ./Packages -e s/x86_64-linux-gnu/x86-64-linux-gnu/g perl -w ${deb/deb-closure.pl} \ ./Packages ${urlPrefix} ${toString packages} > $out ''; /* Helper function that combines debClosureGenerator and fillDiskWithDebs to generate a disk image from a set of package names. */ makeImageFromDebDist = { name, fullName, size ? 4096, urlPrefix , packagesList ? "", packagesLists ? [packagesList] , packages, extraPackages ? [], postInstall ? "" , extraDebs ? [] , QEMU_OPTS ? "", memSize ? 512 }: let expr = debClosureGenerator { inherit name packagesLists urlPrefix; packages = packages ++ extraPackages; }; in (fillDiskWithDebs { inherit name fullName size postInstall QEMU_OPTS memSize; debs = import expr {inherit fetchurl;} ++ extraDebs; }) // {inherit expr;}; /* The set of supported RPM-based distributions. */ rpmDistros = { # Note: no i386 release for Fedora >= 26 fedora26x86_64 = let version = "26"; in rec { name = "fedora-${version}-x86_64"; fullName = "Fedora ${version} (x86_64)"; packagesList = fetchurl rec { url = "mirror://fedora/linux/releases/${version}/Everything/x86_64/os/repodata/${sha256}-primary.xml.gz"; sha256 = "880055a50c05b20641530d09b23f64501a000b2f92fe252417c530178730a95e"; }; urlPrefix = "mirror://fedora/linux/releases/${version}/Everything/x86_64/os"; archs = ["noarch" "x86_64"]; packages = commonFedoraPackages ++ [ "cronie" "util-linux" ]; unifiedSystemDir = true; }; fedora27x86_64 = let version = "27"; in rec { name = "fedora-${version}-x86_64"; fullName = "Fedora ${version} (x86_64)"; packagesList = fetchurl rec { url = "mirror://fedora/linux/releases/${version}/Everything/x86_64/os/repodata/${sha256}-primary.xml.gz"; sha256 = "48986ce4583cd09825c6d437150314446f0f49fa1a1bd62dcfa1085295030fe9"; }; urlPrefix = "mirror://fedora/linux/releases/${version}/Everything/x86_64/os"; archs = ["noarch" "x86_64"]; packages = commonFedoraPackages ++ [ "cronie" "util-linux" ]; unifiedSystemDir = true; }; centos6i386 = let version = "6.9"; in rec { name = "centos-${version}-i386"; fullName = "CentOS ${version} (i386)"; # N.B. Switch to vault.centos.org when the next release comes out # urlPrefix = "http://vault.centos.org/${version}/os/i386"; urlPrefix = "http://mirror.centos.org/centos-6/${version}/os/i386"; packagesList = fetchurl rec { url = "${urlPrefix}/repodata/${sha256}-primary.xml.gz"; sha256 = "b826a45082ef68340325c0855f3d2e5d5a4d0f77d28ba3b871791d6f14a97aeb"; }; archs = ["noarch" "i386"]; packages = commonCentOSPackages ++ [ "procps" ]; }; centos6x86_64 = let version = "6.9"; in rec { name = "centos-${version}-x86_64"; fullName = "CentOS ${version} (x86_64)"; # N.B. Switch to vault.centos.org when the next release comes out # urlPrefix = "http://vault.centos.org/${version}/os/x86_64"; urlPrefix = "http://mirror.centos.org/centos-6/${version}/os/x86_64"; packagesList = fetchurl rec { url = "${urlPrefix}/repodata/${sha256}-primary.xml.gz"; sha256 = "ed2b2d4ac98d774d4cd3e91467e1532f7e8b0275cfc91a0d214b532dcaf1e979"; }; archs = ["noarch" "x86_64"]; packages = commonCentOSPackages ++ [ "procps" ]; }; # Note: no i386 release for 7.x centos7x86_64 = let version = "7.4.1708"; in rec { name = "centos-${version}-x86_64"; fullName = "CentOS ${version} (x86_64)"; # N.B. Switch to vault.centos.org when the next release comes out # urlPrefix = "http://vault.centos.org/${version}/os/x86_64"; urlPrefix = "http://mirror.centos.org/centos-7/${version}/os/x86_64"; packagesList = fetchurl rec { url = "${urlPrefix}/repodata/${sha256}-primary.xml.gz"; sha256 = "b686d3a0f337323e656d9387b9a76ce6808b26255fc3a138b1a87d3b1cb95ed5"; }; archs = ["noarch" "x86_64"]; packages = commonCentOSPackages ++ [ "procps-ng" ]; }; }; /* The set of supported Dpkg-based distributions. */ debDistros = rec { # Interestingly, the SHA-256 hashes provided by Ubuntu in # http://nl.archive.ubuntu.com/ubuntu/dists/{gutsy,hardy}/Release are # wrong, but the SHA-1 and MD5 hashes are correct. Intrepid is fine. ubuntu1204i386 = { name = "ubuntu-12.04-precise-i386"; fullName = "Ubuntu 12.04 Precise (i386)"; packagesLists = [ (fetchurl { url = mirror://ubuntu/dists/precise/main/binary-i386/Packages.bz2; sha256 = "18ns9h4qhvjfcip9z55grzi371racxavgqkp6b5kfkdq2wwwax2d"; }) (fetchurl { url = mirror://ubuntu/dists/precise/universe/binary-i386/Packages.bz2; sha256 = "085lkzbnzkc74kfdmwdc32sfqyfz8dr0rbiifk8kx9jih3xjw2jk"; }) ]; urlPrefix = mirror://ubuntu; packages = commonDebPackages ++ [ "diffutils" ]; }; ubuntu1204x86_64 = { name = "ubuntu-12.04-precise-amd64"; fullName = "Ubuntu 12.04 Precise (amd64)"; packagesLists = [ (fetchurl { url = mirror://ubuntu/dists/precise/main/binary-amd64/Packages.bz2; sha256 = "1aabpn0hdih6cbabyn87yvhccqj44q9k03mqmjsb920iqlckl3fc"; }) (fetchurl { url = mirror://ubuntu/dists/precise/universe/binary-amd64/Packages.bz2; sha256 = "0x4hz5aplximgb7gnpvrhkw8m7a40s80rkm5b8hil0afblwlg4vr"; }) ]; urlPrefix = mirror://ubuntu; packages = commonDebPackages ++ [ "diffutils" ]; }; ubuntu1404i386 = { name = "ubuntu-14.04-trusty-i386"; fullName = "Ubuntu 14.04 Trusty (i386)"; packagesLists = [ (fetchurl { url = mirror://ubuntu/dists/trusty/main/binary-i386/Packages.bz2; sha256 = "1d5y3v3v079gdq45hc07ja0bjlmzqfwdwwlq0brwxi8m75k3iz7x"; }) (fetchurl { url = mirror://ubuntu/dists/trusty/universe/binary-i386/Packages.bz2; sha256 = "03x9w92by320rfklrqhcl3qpwmnxds9c8ijl5zhcb21d6dcz5z1a"; }) ]; urlPrefix = mirror://ubuntu; packages = commonDebPackages ++ [ "diffutils" "libc-bin" ]; }; ubuntu1404x86_64 = { name = "ubuntu-14.04-trusty-amd64"; fullName = "Ubuntu 14.04 Trusty (amd64)"; packagesLists = [ (fetchurl { url = mirror://ubuntu/dists/trusty/main/binary-amd64/Packages.bz2; sha256 = "1hhzbyqfr5i0swahwnl5gfp5l9p9hspywb1vpihr3b74p1z935bh"; }) (fetchurl { url = mirror://ubuntu/dists/trusty/universe/binary-amd64/Packages.bz2; sha256 = "04560ba8s4z4v5iawknagrkn9q1nzvpn081ycmqvhh73p3p3g1jm"; }) ]; urlPrefix = mirror://ubuntu; packages = commonDebPackages ++ [ "diffutils" "libc-bin" ]; }; ubuntu1604i386 = { name = "ubuntu-16.04-xenial-i386"; fullName = "Ubuntu 16.04 Xenial (i386)"; packagesLists = [ (fetchurl { url = mirror://ubuntu/dists/xenial/main/binary-i386/Packages.xz; sha256 = "13r75sp4slqy8w32y5dnr7pp7p3cfvavyr1g7gwnlkyrq4zx4ahy"; }) (fetchurl { url = mirror://ubuntu/dists/xenial/universe/binary-i386/Packages.xz; sha256 = "14fid1rqm3sc0wlygcvn0yx5aljf51c2jpd4x0zxij4019316hsh"; }) ]; urlPrefix = mirror://ubuntu; packages = commonDebPackages ++ [ "diffutils" "libc-bin" ]; }; ubuntu1604x86_64 = { name = "ubuntu-16.04-xenial-amd64"; fullName = "Ubuntu 16.04 Xenial (amd64)"; packagesLists = [ (fetchurl { url = mirror://ubuntu/dists/xenial/main/binary-amd64/Packages.xz; sha256 = "110qnkhjkkwm316fbig3aivm2595ydz6zskc4ld5cr8ngcrqm1bn"; }) (fetchurl { url = mirror://ubuntu/dists/xenial/universe/binary-amd64/Packages.xz; sha256 = "0mm7gj491yi6q4v0n4qkbsm94s59bvqir6fk60j73w7y4la8rg68"; }) ]; urlPrefix = mirror://ubuntu; packages = commonDebPackages ++ [ "diffutils" "libc-bin" ]; }; ubuntu1710i386 = { name = "ubuntu-17.10-artful-i386"; fullName = "Ubuntu 17.10 Artful (i386)"; packagesLists = [ (fetchurl { url = mirror://ubuntu/dists/artful/main/binary-i386/Packages.xz; sha256 = "18yrj4kqdzm39q0527m97h5ing58hkm9yq9iyj636zh2rclym3c8"; }) (fetchurl { url = mirror://ubuntu/dists/artful/universe/binary-i386/Packages.xz; sha256 = "1v0njw2w80xfmxi7by76cs8hyxlla5h3gqajlpdw5srjgx2qrm2g"; }) ]; urlPrefix = mirror://ubuntu; packages = commonDebPackages ++ [ "diffutils" "libc-bin" ]; }; ubuntu1710x86_64 = { name = "ubuntu-17.10-artful-amd64"; fullName = "Ubuntu 17.10 Artful (amd64)"; packagesLists = [ (fetchurl { url = mirror://ubuntu/dists/artful/main/binary-amd64/Packages.xz; sha256 = "104g57j1l3vi8wb5f7rgjvjhf82ccs0vwhc59jfc4ynd51z7fqjk"; }) (fetchurl { url = mirror://ubuntu/dists/artful/universe/binary-amd64/Packages.xz; sha256 = "1qzs95wfy9inaskfx9cf1l5yd3aaqwzy72zzi9xyvkxi75k5gcn4"; }) ]; urlPrefix = mirror://ubuntu; packages = commonDebPackages ++ [ "diffutils" "libc-bin" ]; }; debian8i386 = { name = "debian-8.10-jessie-i386"; fullName = "Debian 8.10 Jessie (i386)"; packagesList = fetchurl { url = mirror://debian/dists/jessie/main/binary-i386/Packages.xz; sha256 = "1w1gm195dcrndy5486kcv0h9l3br9dqnqyyhmavp4vr5w2zk7amk"; }; urlPrefix = mirror://debian; packages = commonDebianPackages; }; debian8x86_64 = { name = "debian-8.10-jessie-amd64"; fullName = "Debian 8.10 Jessie (amd64)"; packagesList = fetchurl { url = mirror://debian/dists/jessie/main/binary-amd64/Packages.xz; sha256 = "045700qsrmd3lng2rw8nfs5ci7pf660lwl6alpzkyjikyp6pg7k8"; }; urlPrefix = mirror://debian; packages = commonDebianPackages; }; debian9i386 = { name = "debian-9.4-stretch-i386"; fullName = "Debian 9.4 Stretch (i386)"; packagesList = fetchurl { url = mirror://debian/dists/stretch/main/binary-i386/Packages.xz; sha256 = "05z5ccg4ysbrgallhai53sh83i0364w7a3fdq84dpv1li059jf10"; }; urlPrefix = mirror://debian; packages = commonDebianPackages; }; debian9x86_64 = { name = "debian-9.4-stretch-amd64"; fullName = "Debian 9.4 Stretch (amd64)"; packagesList = fetchurl { url = mirror://debian/dists/stretch/main/binary-amd64/Packages.xz; sha256 = "19j0c54b1b9lbk9fv2c2aswdh0s2c3klf97zrlmsz4hs8wm9jylq"; }; urlPrefix = mirror://debian; packages = commonDebianPackages; }; }; /* Common packages for Fedora images. */ commonFedoraPackages = [ "autoconf" "automake" "basesystem" "bzip2" "curl" "diffutils" "fedora-release" "findutils" "gawk" "gcc-c++" "gzip" "make" "patch" "perl" "pkgconf-pkg-config" "rpm" "rpm-build" "tar" "unzip" ]; commonCentOSPackages = [ "autoconf" "automake" "basesystem" "bzip2" "curl" "diffutils" "centos-release" "findutils" "gawk" "gcc-c++" "gzip" "make" "patch" "perl" "pkgconfig" "rpm" "rpm-build" "tar" "unzip" ]; commonRHELPackages = [ "autoconf" "automake" "basesystem" "bzip2" "curl" "diffutils" "findutils" "gawk" "gcc-c++" "gzip" "make" "patch" "perl" "pkgconfig" "procps-ng" "rpm" "rpm-build" "tar" "unzip" ]; /* Common packages for openSUSE images. */ commonOpenSUSEPackages = [ "aaa_base" "autoconf" "automake" "bzip2" "curl" "diffutils" "findutils" "gawk" "gcc-c++" "gzip" "make" "patch" "perl" "pkg-config" "rpm" "tar" "unzip" "util-linux" "gnu-getopt" ]; /* Common packages for Debian/Ubuntu images. */ commonDebPackages = [ "base-passwd" "dpkg" "libc6-dev" "perl" "bash" "dash" "gzip" "bzip2" "tar" "grep" "mawk" "sed" "findutils" "g++" "make" "curl" "patch" "locales" "coreutils" # Needed by checkinstall: "util-linux" "file" "dpkg-dev" "pkg-config" # Needed because it provides /etc/login.defs, whose absence causes # the "passwd" post-installs script to fail. "login" "passwd" ]; commonDebianPackages = commonDebPackages ++ [ "sysvinit" "diff" "mktemp" ]; /* A set of functions that build the Linux distributions specified in `rpmDistros' and `debDistros'. For instance, `diskImageFuns.ubuntu1004x86_64 { }' builds an Ubuntu 10.04 disk image containing the default packages specified above. Overrides of the default image parameters can be given. In particular, `extraPackages' specifies the names of additional packages from the distribution that should be included in the image; `packages' allows the entire set of packages to be overriden; and `size' sets the size of the disk in megabytes. E.g., `diskImageFuns.ubuntu1004x86_64 { extraPackages = ["firefox"]; size = 8192; }' builds an 8 GiB image containing Firefox in addition to the default packages. */ diskImageFuns = (lib.mapAttrs (name: as: as2: makeImageFromRPMDist (as // as2)) rpmDistros) // (lib.mapAttrs (name: as: as2: makeImageFromDebDist (as // as2)) debDistros); /* Shorthand for `diskImageFuns. { extraPackages = ... }'. */ diskImageExtraFuns = lib.mapAttrs (name: f: extraPackages: f { inherit extraPackages; }) diskImageFuns; /* Default disk images generated from the `rpmDistros' and `debDistros' sets. */ diskImages = lib.mapAttrs (name: f: f {}) diskImageFuns; } // import ./windows pkgs