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with import ../lib;
{ nixpkgs ? { outPath = cleanSource ./..; revCount = 130979; shortRev = "gfedcba"; }
, stableBranch ? false
, supportedSystems ? [ "x86_64-linux" "aarch64-linux" ]
, configuration ? {}
}:
with import ../pkgs/top-level/release-lib.nix { inherit supportedSystems; };
let
version = fileContents ../.version;
versionSuffix =
(if stableBranch then "." else "pre") + "${toString nixpkgs.revCount}.${nixpkgs.shortRev}";
# 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’.
allTestsForSystem = system:
import ./tests/all-tests.nix {
inherit system;
pkgs = import nixpkgs { inherit system; };
callTest = t: {
${system} = hydraJob t.test;
};
};
allTests =
foldAttrs recursiveUpdate {} (map allTestsForSystem supportedSystems);
pkgs = import nixpkgs { system = "x86_64-linux"; };
versionModule =
{ system.nixos.versionSuffix = versionSuffix;
system.nixos.revision = nixpkgs.rev or nixpkgs.shortRev;
};
makeModules = module: rest: [ configuration versionModule module rest ];
makeIso =
{ module, type, system, ... }:
with import nixpkgs { inherit system; };
hydraJob ((import lib/eval-config.nix {
inherit system;
modules = makeModules module {
isoImage.isoBaseName = "nixos-${type}";
};
}).config.system.build.isoImage);
makeSdImage =
{ module, system, ... }:
with import nixpkgs { inherit system; };
hydraJob ((import lib/eval-config.nix {
inherit system;
modules = makeModules module {};
}).config.system.build.sdImage);
makeSystemTarball =
{ module, maintainers ? ["viric"], system }:
with import nixpkgs { inherit system; };
let
config = (import lib/eval-config.nix {
inherit system;
modules = makeModules module {};
}).config;
tarball = config.system.build.tarball;
in
tarball //
{ meta = {
description = "NixOS system tarball for ${system} - ${stdenv.hostPlatform.platform.name}";
maintainers = map (x: lib.maintainers.${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 = makeModules module
({ ... }:
{ fileSystems."/".device = mkDefault "/dev/sda1";
boot.loader.grub.device = mkDefault "/dev/sda";
});
}).config));
makeNetboot = { module, system, ... }:
let
configEvaled = import lib/eval-config.nix {
inherit system;
modules = makeModules module {};
};
build = configEvaled.config.system.build;
kernelTarget = configEvaled.pkgs.stdenv.hostPlatform.platform.kernelTarget;
in
pkgs.symlinkJoin {
name = "netboot";
paths = [
build.netbootRamdisk
build.kernel
build.netbootIpxeScript
];
postBuild = ''
mkdir -p $out/nix-support
echo "file ${kernelTarget} ${build.kernel}/${kernelTarget}" >> $out/nix-support/hydra-build-products
echo "file initrd ${build.netbootRamdisk}/initrd" >> $out/nix-support/hydra-build-products
echo "file ipxe ${build.netbootIpxeScript}/netboot.ipxe" >> $out/nix-support/hydra-build-products
'';
preferLocalBuild = true;
};
in rec {
channel = import lib/make-channel.nix { inherit pkgs nixpkgs version versionSuffix; };
manualHTML = buildFromConfig ({ ... }: { }) (config: config.system.build.manual.manualHTML);
manual = manualHTML; # TODO(@oxij): remove eventually
manualEpub = (buildFromConfig ({ ... }: { }) (config: config.system.build.manual.manualEpub));
manpages = buildFromConfig ({ ... }: { }) (config: config.system.build.manual.manpages);
manualGeneratedSources = buildFromConfig ({ ... }: { }) (config: config.system.build.manual.generatedSources);
options = (buildFromConfig ({ ... }: { }) (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 ({ ... }: { }) (config: config.system.build.initialRamdisk);
netboot = forMatchingSystems [ "x86_64-linux" "aarch64-linux" ] (system: makeNetboot {
module = ./modules/installer/netboot/netboot-minimal.nix;
inherit system;
});
iso_minimal = forAllSystems (system: makeIso {
module = ./modules/installer/cd-dvd/installation-cd-minimal.nix;
type = "minimal";
inherit system;
});
iso_graphical = forMatchingSystems [ "x86_64-linux" ] (system: makeIso {
module = ./modules/installer/cd-dvd/installation-cd-graphical-kde.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 = forMatchingSystems [ "x86_64-linux" "aarch64-linux" ] (system: makeIso {
module = ./modules/installer/cd-dvd/installation-cd-minimal-new-kernel.nix;
type = "minimal-new-kernel";
inherit system;
});
sd_image = forMatchingSystems [ "armv6l-linux" "armv7l-linux" "aarch64-linux" ] (system: makeSdImage {
module = {
armv6l-linux = ./modules/installer/cd-dvd/sd-image-raspberrypi.nix;
armv7l-linux = ./modules/installer/cd-dvd/sd-image-armv7l-multiplatform.nix;
aarch64-linux = ./modules/installer/cd-dvd/sd-image-aarch64.nix;
}.${system};
inherit system;
});
sd_image_new_kernel = forMatchingSystems [ "aarch64-linux" ] (system: makeSdImage {
module = {
aarch64-linux = ./modules/installer/cd-dvd/sd-image-aarch64-new-kernel.nix;
}.${system};
type = "minimal-new-kernel";
inherit system;
});
# A bootable VirtualBox virtual appliance as an OVA file (i.e. packaged OVF).
ova = forMatchingSystems [ "x86_64-linux" ] (system:
with import nixpkgs { inherit system; };
hydraJob ((import lib/eval-config.nix {
inherit system;
modules =
[ versionModule
./modules/installer/virtualbox-demo.nix
];
}).config.system.build.virtualBoxOVA)
);
# 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 ({ ... }:
{ fileSystems."/".device = mkDefault "/dev/sda1";
boot.loader.grub.device = mkDefault "/dev/sda";
system.stateVersion = mkDefault "18.03";
});
}).config.system.build.toplevel;
preferLocalBuild = true;
}
"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";
};
*/
tests = allTests;
/* Build a bunch of typical closures so that Hydra can keep track of
the evolution of closure sizes. */
closures = {
smallContainer = makeClosure ({ ... }:
{ boot.isContainer = true;
services.openssh.enable = true;
});
tinyContainer = makeClosure ({ ... }:
{ boot.isContainer = true;
imports = [ modules/profiles/minimal.nix ];
});
ec2 = makeClosure ({ ... }:
{ imports = [ modules/virtualisation/amazon-image.nix ];
});
kde = makeClosure ({ ... }:
{ services.xserver.enable = true;
services.xserver.displayManager.sddm.enable = true;
services.xserver.desktopManager.plasma5.enable = true;
});
xfce = makeClosure ({ ... }:
{ 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.postgresql;
environment.systemPackages = [ pkgs.php ];
});
};
}