{ pkgs , diskImageSize ? "22G" , qemuMem ? "4G" , windowsImage ? null , autoUnattendParams ? {} , impureMode ? false , baseRtc ? "2020-04-20T14:21:42" , installCommands ? [] , users ? {} , ... }@attrs: let lib = pkgs.lib; # qemu_test is a smaller closure only building for a single system arch qemu = pkgs.qemu_test; libguestfs = pkgs.libguestfs-with-appliance; # p7zip on >20.03 has known vulns but we have no better option p7zip = pkgs.p7zip.overrideAttrs(old: { meta = old.meta // { knownVulnerabilities = []; }; }); runQemuCommand = name: command: ( pkgs.runCommandNoCC name { buildInputs = [ p7zip qemu libguestfs ]; } ( '' if ! test -f; then echo "KVM not available, bailing out" >> /dev/stderr exit 1 fi '' + command ) ); windowsIso = if windowsImage != null then windowsImage else pkgs.fetchurl { url = "https://software-download.microsoft.com/download/sg/17763.107.101029-1455.rs5_release_svc_refresh_CLIENT_LTSC_EVAL_x64FRE_en-us.iso"; sha256 = "668fe1af70c2f7416328aee3a0bb066b12dc6bbd2576f40f812b95741e18bc3a"; }; openSshServerPackage = ./openssh/server-package.cab; autounattend = import ./autounattend.nix ( attrs // { inherit pkgs; } ); bundleInstaller = pkgs.callPackage ./bundle {}; # Packages required to drive installation of other packages bootstrapPkgs = runQemuCommand "bootstrap-win-pkgs.img" '' mkdir pkgs mkdir pkgs/fod cp ${bundleInstaller} pkgs/"$(stripHash "${bundleInstaller}")" # Install optional windows features cp ${openSshServerPackage} pkgs/fod/OpenSSH-Server-Package~31bf3856ad364e35~amd64~~.cab # SSH setup script goes here because windows XML parser sucks cp ${autounattend.setupScript} pkgs/ssh-setup.ps1 virt-make-fs --partition --type=fat pkgs/ $out ''; mkQemuFlags = extraFlags: [ "-enable-kvm" "-cpu" "host" "-smp" "$NIX_BUILD_CORES" "-m" "${qemuMem}" "-bios" "${pkgs.OVMF.fd}/FV/OVMF.fd" "-vga" "virtio" "-device" "piix3-usb-uhci" # USB root hub # "CD" drive with windows features-on-demand # "-cdrom" "${fodIso}" # Set the base clock inside the VM "-rtc base=${baseRtc}" # Always enable SSH port forward # It's not really required for the initial setup but we do it here anyway "-netdev user,id=n1,net=192.168.1.0/24,restrict=off,hostfwd=tcp::2022-:22" "-device e1000,netdev=n1" ] ++ lib.optional (!impureMode) "-nographic" ++ extraFlags; installScript = pkgs.writeScript "windows-install-script" ( let qemuParams = mkQemuFlags [ # "CD" drive with bootstrap pkgs "-drive" "id=virtio-win,file=${bootstrapPkgs},if=none,format=raw,readonly=on" "-device" "usb-storage,drive=virtio-win" # USB boot "-drive" "id=win-install,file=usbimage.img,if=none,format=raw,readonly=on" "-device" "usb-storage,drive=win-install" # Output image "-drive" "file=c.img,index=0,media=disk,cache=unsafe" ]; in '' #!${pkgs.runtimeShell} set -euxo pipefail export PATH=${lib.makeBinPath [ p7zip qemu libguestfs ]}:$PATH if test -z "''${NIX_BUILD_CORES+x}"; then export NIX_BUILD_CORES=$(nproc) fi # Create a bootable "USB" image # Booting in USB mode circumvents the "press any key to boot from cdrom" prompt # # Also embed the autounattend answer file in this image mkdir -p win mkdir -p win/nix-win 7z x -y ${windowsIso} -owin cp ${autounattend.autounattendXML} win/autounattend.xml virt-make-fs --partition --type=fat win/ usbimage.img rm -rf win # Qemu requires files to be rw qemu-img create -f qcow2 c.img ${diskImageSize} env NIX_BUILD_CORES="''${NIX_BUILD_CORES:4}" qemu-system-x86_64 ${lib.concatStringsSep " " qemuParams} '' ); baseImage = pkgs.runCommandNoCC "windows.img" {} '' ${installScript} mv c.img $out ''; # Pass empty config file to prevent ssh from failing to create ~/.ssh sshOpts = "-F /dev/null -o StrictHostKeyChecking=accept-new -o UserKnownHostsFile=\$TMP/known_hosts -o ConnectTimeout=1"; win-exec = pkgs.writeShellScriptBin "win-exec" '' ${pkgs.sshpass}/bin/sshpass -p${users.artiq.password} -- \ ${pkgs.openssh}/bin/ssh -np 2022 ${sshOpts} \ artiq@localhost \ $1 ''; win-put = pkgs.writeShellScriptBin "win-put" '' echo scp windows $1 -\> $2 ${pkgs.sshpass}/bin/sshpass -p${users.artiq.password} -- \ ${pkgs.openssh}/bin/scp -P 2022 ${sshOpts} \ $1 artiq@localhost:$2 ''; finalImage = builtins.foldl' (acc: v: pkgs.runCommandNoCC "${v.name}.img" { buildInputs = [ win-exec win-put qemu ] ++ (v.buildInputs or []); } (let script = pkgs.writeScript "${v.name}-script" v.script; qemuParams = mkQemuFlags [ # Output image "-drive" "file=c.img,index=0,media=disk,cache=unsafe" ]; in '' export HOME=$(mktemp -d) # Create an image referencing the previous image in the chain qemu-img create -f qcow2 -b ${acc} c.img set -m qemu-system-x86_64 ${lib.concatStringsSep " " qemuParams} & # If the machine is not up within 10 minutes it's likely never coming up timeout=600 # Wait for VM to be accessible sleep 20 echo "Waiting for SSH" while true; do if test "$timeout" -eq 0; then echo "SSH connection timed out" exit 1 fi output=$(win-exec 'echo|set /p="Ran command"' || echo "") if test "$output" = "Ran command"; then break fi echo "Retrying in 1 second, timing out in $timeout seconds" ((timeout=$timeout-1)) sleep 1 done echo "Executing user script..." ${script} echo "User script done" echo "Shutting down..." win-exec 'shutdown /s' echo "Waiting for VM to terminate..." fg echo "Done" mv c.img $out '')) baseImage installCommands; in # impureMode is meant for debugging the base image, not the full incremental build process if !(impureMode) then finalImage else assert installCommands == []; installScript