{ nixpkgs ? { outPath = ./..; revCount = 56789; shortRev = "gfedcba"; } , stableBranch ? false , supportedSystems ? [ "x86_64-linux" "i686-linux" ] }: with import ../lib; let version = builtins.readFile ../.version; versionSuffix = (if stableBranch then "." else "pre") + "${toString nixpkgs.revCount}.${nixpkgs.shortRev}"; forAllSystems = genAttrs supportedSystems; callTest = fn: args: forAllSystems (system: hydraJob (import fn ({ inherit system; } // args))); pkgs = import nixpkgs { system = "x86_64-linux"; }; versionModule = { system.nixosVersionSuffix = versionSuffix; system.nixosRevision = nixpkgs.rev or nixpkgs.shortRev; }; makeIso = { module, type, description ? type, maintainers ? ["eelco"], system }: with import nixpkgs { inherit system; }; let config = (import lib/eval-config.nix { inherit system; modules = [ module versionModule { isoImage.isoBaseName = "nixos-${type}"; } ]; }).config; iso = config.system.build.isoImage; in # Declare the ISO as a build product so that it shows up in Hydra. hydraJob (runCommand "nixos-iso-${config.system.nixosVersion}" { meta = { description = "NixOS installation CD (${description}) - ISO image for ${system}"; maintainers = map (x: lib.maintainers.${x}) maintainers; }; inherit iso; passthru = { inherit config; }; } '' mkdir -p $out/nix-support echo "file iso" $iso/iso/*.iso* >> $out/nix-support/hydra-build-products ''); # */ makeSystemTarball = { module, maintainers ? ["viric"], system }: with import nixpkgs { inherit system; }; let config = (import lib/eval-config.nix { inherit system; modules = [ module versionModule ]; }).config; tarball = config.system.build.tarball; in tarball // { meta = { description = "NixOS system tarball for ${system} - ${stdenv.platform.name}"; maintainers = map (x: lib.maintainers.${x}) maintainers; }; inherit config; }; makeClosure = module: buildFromConfig module (config: config.system.build.toplevel); buildFromConfig = module: sel: forAllSystems (system: hydraJob (sel (import ./lib/eval-config.nix { inherit system; modules = [ module versionModule ] ++ singleton ({ config, lib, ... }: { fileSystems."/".device = mkDefault "/dev/sda1"; boot.loader.grub.device = mkDefault "/dev/sda"; }); }).config)); in rec { channel = pkgs.releaseTools.makeSourceTarball { name = "nixos-channel"; src = nixpkgs; officialRelease = false; # FIXME: fix this in makeSourceTarball inherit version versionSuffix; buildInputs = [ pkgs.nixUnstable ]; expr = builtins.readFile lib/channel-expr.nix; distPhase = '' rm -rf .git echo -n $VERSION_SUFFIX > .version-suffix echo -n ${nixpkgs.rev or nixpkgs.shortRev} > .git-revision releaseName=nixos-$VERSION$VERSION_SUFFIX mkdir -p $out/tarballs mkdir ../$releaseName cp -prd . ../$releaseName/nixpkgs chmod -R u+w ../$releaseName ln -s nixpkgs/nixos ../$releaseName/nixos echo "$expr" > ../$releaseName/default.nix NIX_STATE_DIR=$TMPDIR nix-env -f ../$releaseName/default.nix -qaP --meta --xml \* > /dev/null cd .. chmod -R u+w $releaseName tar cfJ $out/tarballs/$releaseName.tar.xz $releaseName ''; # */ }; manual = buildFromConfig ({ pkgs, ... }: { }) (config: config.system.build.manual.manual); manualPDF = (buildFromConfig ({ pkgs, ... }: { }) (config: config.system.build.manual.manualPDF)).x86_64-linux; manpages = buildFromConfig ({ pkgs, ... }: { }) (config: config.system.build.manual.manpages); options = (buildFromConfig ({ pkgs, ... }: { }) (config: config.system.build.manual.optionsJSON)).x86_64-linux; # Build the initial ramdisk so Hydra can keep track of its size over time. initialRamdisk = buildFromConfig ({ pkgs, ... }: { }) (config: config.system.build.initialRamdisk); iso_minimal = forAllSystems (system: makeIso { module = ./modules/installer/cd-dvd/installation-cd-minimal.nix; type = "minimal"; inherit system; }); iso_graphical = forAllSystems (system: makeIso { module = ./modules/installer/cd-dvd/installation-cd-graphical.nix; type = "graphical"; inherit system; }); # A variant with a more recent (but possibly less stable) kernel # that might support more hardware. iso_minimal_new_kernel = forAllSystems (system: makeIso { module = ./modules/installer/cd-dvd/installation-cd-minimal-new-kernel.nix; type = "minimal-new-kernel"; inherit system; }); # A bootable VirtualBox virtual appliance as an OVA file (i.e. packaged OVF). ova = forAllSystems (system: with import nixpkgs { inherit system; }; let config = (import lib/eval-config.nix { inherit system; modules = [ versionModule ./modules/installer/virtualbox-demo.nix ]; }).config; in # Declare the OVA as a build product so that it shows up in Hydra. hydraJob (runCommand "nixos-ova-${config.system.nixosVersion}-${system}" { meta = { description = "NixOS VirtualBox appliance (${system})"; maintainers = maintainers.eelco; }; ova = config.system.build.virtualBoxOVA; } '' mkdir -p $out/nix-support fn=$(echo $ova/*.ova) echo "file ova $fn" >> $out/nix-support/hydra-build-products '') # */ ); # Ensure that all packages used by the minimal NixOS config end up in the channel. dummy = forAllSystems (system: pkgs.runCommand "dummy" { toplevel = (import lib/eval-config.nix { inherit system; modules = singleton ({ config, pkgs, ... }: { fileSystems."/".device = mkDefault "/dev/sda1"; boot.loader.grub.device = mkDefault "/dev/sda"; }); }).config.system.build.toplevel; } "mkdir $out; ln -s $toplevel $out/dummy"); # Provide a tarball that can be unpacked into an SD card, and easily # boot that system from uboot (like for the sheevaplug). # The pc variant helps preparing the expression for the system tarball # in a machine faster than the sheevpalug system_tarball_pc = forAllSystems (system: makeSystemTarball { module = ./modules/installer/cd-dvd/system-tarball-pc.nix; inherit system; }); # Provide container tarball for lxc, libvirt-lxc, docker-lxc, ... containerTarball = forAllSystems (system: makeSystemTarball { module = ./modules/virtualisation/lxc-container.nix; inherit system; }); /* system_tarball_fuloong2f = assert builtins.currentSystem == "mips64-linux"; makeSystemTarball { module = ./modules/installer/cd-dvd/system-tarball-fuloong2f.nix; system = "mips64-linux"; }; system_tarball_sheevaplug = assert builtins.currentSystem == "armv5tel-linux"; makeSystemTarball { module = ./modules/installer/cd-dvd/system-tarball-sheevaplug.nix; system = "armv5tel-linux"; }; */ # Run the tests for each platform. You can run a test by doing # e.g. ‘nix-build -A tests.login.x86_64-linux’, or equivalently, # ‘nix-build tests/login.nix -A result’. tests.avahi = callTest tests/avahi.nix {}; tests.bittorrent = callTest tests/bittorrent.nix {}; tests.blivet = callTest tests/blivet.nix {}; tests.cadvisor = hydraJob (import tests/cadvisor.nix { system = "x86_64-linux"; }); tests.chromium = callTest tests/chromium.nix {}; tests.cjdns = callTest tests/cjdns.nix {}; tests.containers = callTest tests/containers.nix {}; tests.docker = hydraJob (import tests/docker.nix { system = "x86_64-linux"; }); tests.dockerRegistry = hydraJob (import tests/docker-registry.nix { system = "x86_64-linux"; }); tests.etcd = hydraJob (import tests/etcd.nix { system = "x86_64-linux"; }); tests.firefox = callTest tests/firefox.nix {}; tests.firewall = callTest tests/firewall.nix {}; tests.fleet = hydraJob (import tests/fleet.nix { system = "x86_64-linux"; }); #tests.gitlab = callTest tests/gitlab.nix {}; tests.gnome3 = callTest tests/gnome3.nix {}; tests.i3wm = callTest tests/i3wm.nix {}; tests.installer.grub1 = forAllSystems (system: hydraJob (import tests/installer.nix { inherit system; }).grub1.test); tests.installer.lvm = forAllSystems (system: hydraJob (import tests/installer.nix { inherit system; }).lvm.test); tests.installer.rebuildCD = forAllSystems (system: hydraJob (import tests/installer.nix { inherit system; }).rebuildCD.test); tests.installer.separateBoot = forAllSystems (system: hydraJob (import tests/installer.nix { inherit system; }).separateBoot.test); tests.installer.simple = forAllSystems (system: hydraJob (import tests/installer.nix { inherit system; }).simple.test); tests.installer.simpleLabels = forAllSystems (system: hydraJob (import tests/installer.nix { inherit system; }).simpleLabels.test); tests.installer.simpleProvided = forAllSystems (system: hydraJob (import tests/installer.nix { inherit system; }).simpleProvided.test); tests.installer.swraid = forAllSystems (system: hydraJob (import tests/installer.nix { inherit system; }).swraid.test); tests.installer.btrfsSimple = forAllSystems (system: hydraJob (import tests/installer.nix { inherit system; }).btrfsSimple.test); tests.installer.btrfsSubvols = forAllSystems (system: hydraJob (import tests/installer.nix { inherit system; }).btrfsSubvols.test); tests.installer.btrfsSubvolDefault = forAllSystems (system: hydraJob (import tests/installer.nix { inherit system; }).btrfsSubvolDefault.test); tests.influxdb = callTest tests/influxdb.nix {}; tests.ipv6 = callTest tests/ipv6.nix {}; tests.jenkins = callTest tests/jenkins.nix {}; tests.kde4 = callTest tests/kde4.nix {}; tests.kubernetes = hydraJob (import tests/kubernetes.nix { system = "x86_64-linux"; }); tests.latestKernel.login = callTest tests/login.nix { latestKernel = true; }; tests.login = callTest tests/login.nix {}; #tests.logstash = callTest tests/logstash.nix {}; tests.misc = callTest tests/misc.nix {}; tests.mumble = callTest tests/mumble.nix {}; tests.munin = callTest tests/munin.nix {}; tests.mysql = callTest tests/mysql.nix {}; tests.mysqlReplication = callTest tests/mysql-replication.nix {}; tests.nat.firewall = callTest tests/nat.nix { withFirewall = true; }; tests.nat.standalone = callTest tests/nat.nix { withFirewall = false; }; tests.networking.networkd.static = callTest tests/networking.nix { networkd = true; test = "static"; }; tests.networking.networkd.dhcpSimple = callTest tests/networking.nix { networkd = true; test = "dhcpSimple"; }; tests.networking.networkd.dhcpOneIf = callTest tests/networking.nix { networkd = true; test = "dhcpOneIf"; }; tests.networking.networkd.bond = callTest tests/networking.nix { networkd = true; test = "bond"; }; tests.networking.networkd.bridge = callTest tests/networking.nix { networkd = true; test = "bridge"; }; tests.networking.networkd.macvlan = callTest tests/networking.nix { networkd = true; test = "macvlan"; }; tests.networking.networkd.sit = callTest tests/networking.nix { networkd = true; test = "sit"; }; tests.networking.networkd.vlan = callTest tests/networking.nix { networkd = true; test = "vlan"; }; tests.networking.scripted.static = callTest tests/networking.nix { networkd = false; test = "static"; }; tests.networking.scripted.dhcpSimple = callTest tests/networking.nix { networkd = false; test = "dhcpSimple"; }; tests.networking.scripted.dhcpOneIf = callTest tests/networking.nix { networkd = false; test = "dhcpOneIf"; }; tests.networking.scripted.bond = callTest tests/networking.nix { networkd = false; test = "bond"; }; tests.networking.scripted.bridge = callTest tests/networking.nix { networkd = false; test = "bridge"; }; tests.networking.scripted.macvlan = callTest tests/networking.nix { networkd = false; test = "macvlan"; }; tests.networking.scripted.sit = callTest tests/networking.nix { networkd = false; test = "sit"; }; tests.networking.scripted.vlan = callTest tests/networking.nix { networkd = false; test = "vlan"; }; # TODO: put in networking.nix after the test becomes more complete tests.networkingProxy = callTest tests/networking-proxy.nix {}; tests.nfs3 = callTest tests/nfs.nix { version = 3; }; tests.nfs4 = callTest tests/nfs.nix { version = 4; }; tests.nsd = callTest tests/nsd.nix {}; tests.openssh = callTest tests/openssh.nix {}; tests.panamax = hydraJob (import tests/panamax.nix { system = "x86_64-linux"; }); tests.peerflix = callTest tests/peerflix.nix {}; tests.printing = callTest tests/printing.nix {}; tests.proxy = callTest tests/proxy.nix {}; tests.quake3 = callTest tests/quake3.nix {}; tests.runInMachine = callTest tests/run-in-machine.nix {}; tests.simple = callTest tests/simple.nix {}; tests.tomcat = callTest tests/tomcat.nix {}; tests.udisks2 = callTest tests/udisks2.nix {}; tests.virtualbox = callTest tests/virtualbox.nix {}; tests.xfce = callTest tests/xfce.nix {}; tests.bootBiosCdrom = forAllSystems (system: hydraJob (import tests/boot.nix { inherit system; }).bootBiosCdrom); tests.bootBiosUsb = forAllSystems (system: hydraJob (import tests/boot.nix { inherit system; }).bootBiosUsb); tests.bootUefiCdrom = forAllSystems (system: hydraJob (import tests/boot.nix { inherit system; }).bootUefiCdrom); tests.bootUefiUsb = forAllSystems (system: hydraJob (import tests/boot.nix { inherit system; }).bootUefiUsb); /* Build a bunch of typical closures so that Hydra can keep track of the evolution of closure sizes. */ closures = { smallContainer = makeClosure ({ pkgs, ... }: { boot.isContainer = true; services.openssh.enable = true; }); tinyContainer = makeClosure ({ pkgs, ... }: { boot.isContainer = true; imports = [ modules/profiles/minimal.nix ]; }); ec2 = makeClosure ({ pkgs, ... }: { imports = [ modules/virtualisation/amazon-image.nix ]; }); kde = makeClosure ({ pkgs, ... }: { services.xserver.enable = true; services.xserver.displayManager.kdm.enable = true; services.xserver.desktopManager.kde4.enable = true; }); xfce = makeClosure ({ pkgs, ... }: { services.xserver.enable = true; services.xserver.desktopManager.xfce.enable = true; }); # Linux/Apache/PostgreSQL/PHP stack. lapp = makeClosure ({ pkgs, ... }: { services.httpd.enable = true; services.httpd.adminAddr = "foo@example.org"; services.postgresql.enable = true; services.postgresql.package = pkgs.postgresql93; environment.systemPackages = [ pkgs.php ]; }); }; }