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Introduce an AWS EC2 AMI which supports aarch64 and x86_64 with a ZFS root. This uses `make-zfs-image` which implies two EBS volumes are needed inside EC2, one for boot, one for root. It should not matter which is identified `xvda` and which is `xvdb`, though I have always uploaded `boot` as `xvda`.
176 lines
6.3 KiB
Nix
176 lines
6.3 KiB
Nix
# Configuration for Amazon EC2 instances. (Note that this file is a
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# misnomer - it should be "amazon-config.nix" or so, not
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# "amazon-image.nix", since it's used not only to build images but
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# also to reconfigure instances. However, we can't rename it because
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# existing "configuration.nix" files on EC2 instances refer to it.)
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{ config, lib, pkgs, ... }:
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with lib;
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let
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cfg = config.ec2;
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metadataFetcher = import ./ec2-metadata-fetcher.nix {
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inherit (pkgs) curl;
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targetRoot = "$targetRoot/";
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wgetExtraOptions = "-q";
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};
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in
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{
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imports = [
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../profiles/headless.nix
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# Note: While we do use the headless profile, we also explicitly
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# turn on the serial console on ttyS0 below. This is because
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# AWS does support accessing the serial console:
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# https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/configure-access-to-serial-console.html
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./ec2-data.nix
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./amazon-init.nix
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];
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config = {
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assertions = [
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{ assertion = cfg.hvm;
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message = "Paravirtualized EC2 instances are no longer supported.";
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}
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{ assertion = cfg.efi -> cfg.hvm;
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message = "EC2 instances using EFI must be HVM instances.";
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}
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];
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boot.growPartition = cfg.hvm;
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fileSystems."/" = mkIf (!cfg.zfs.enable) {
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device = "/dev/disk/by-label/nixos";
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fsType = "ext4";
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autoResize = true;
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};
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fileSystems."/boot" = mkIf (cfg.efi || cfg.zfs.enable) {
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# The ZFS image uses a partition labeled ESP whether or not we're
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# booting with EFI.
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device = "/dev/disk/by-label/ESP";
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fsType = "vfat";
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};
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services.zfs.expandOnBoot = mkIf cfg.zfs.enable "all";
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boot.zfs.devNodes = mkIf cfg.zfs.enable "/dev/";
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boot.extraModulePackages = [
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config.boot.kernelPackages.ena
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];
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boot.initrd.kernelModules = [ "xen-blkfront" "xen-netfront" ];
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boot.initrd.availableKernelModules = [ "ixgbevf" "ena" "nvme" ];
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boot.kernelParams = mkIf cfg.hvm [ "console=ttyS0,115200n8" "random.trust_cpu=on" ];
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# Prevent the nouveau kernel module from being loaded, as it
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# interferes with the nvidia/nvidia-uvm modules needed for CUDA.
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# Also blacklist xen_fbfront to prevent a 30 second delay during
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# boot.
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boot.blacklistedKernelModules = [ "nouveau" "xen_fbfront" ];
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# Generate a GRUB menu. Amazon's pv-grub uses this to boot our kernel/initrd.
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boot.loader.grub.version = if cfg.hvm then 2 else 1;
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boot.loader.grub.device = if (cfg.hvm && !cfg.efi) then "/dev/xvda" else "nodev";
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boot.loader.grub.extraPerEntryConfig = mkIf (!cfg.hvm) "root (hd0)";
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boot.loader.grub.efiSupport = cfg.efi;
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boot.loader.grub.efiInstallAsRemovable = cfg.efi;
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boot.loader.timeout = 1;
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boot.loader.grub.extraConfig = ''
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serial --unit=0 --speed=115200 --word=8 --parity=no --stop=1
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terminal_output console serial
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terminal_input console serial
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'';
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boot.initrd.network.enable = true;
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# Mount all formatted ephemeral disks and activate all swap devices.
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# We cannot do this with the ‘fileSystems’ and ‘swapDevices’ options
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# because the set of devices is dependent on the instance type
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# (e.g. "m1.small" has one ephemeral filesystem and one swap device,
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# while "m1.large" has two ephemeral filesystems and no swap
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# devices). Also, put /tmp and /var on /disk0, since it has a lot
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# more space than the root device. Similarly, "move" /nix to /disk0
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# by layering a unionfs-fuse mount on top of it so we have a lot more space for
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# Nix operations.
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boot.initrd.postMountCommands =
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''
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${metadataFetcher}
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diskNr=0
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diskForUnionfs=
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for device in /dev/xvd[abcde]*; do
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if [ "$device" = /dev/xvda -o "$device" = /dev/xvda1 ]; then continue; fi
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fsType=$(blkid -o value -s TYPE "$device" || true)
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if [ "$fsType" = swap ]; then
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echo "activating swap device $device..."
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swapon "$device" || true
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elif [ "$fsType" = ext3 ]; then
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mp="/disk$diskNr"
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diskNr=$((diskNr + 1))
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if mountFS "$device" "$mp" "" ext3; then
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if [ -z "$diskForUnionfs" ]; then diskForUnionfs="$mp"; fi
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fi
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else
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echo "skipping unknown device type $device"
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fi
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done
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if [ -n "$diskForUnionfs" ]; then
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mkdir -m 755 -p $targetRoot/$diskForUnionfs/root
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mkdir -m 1777 -p $targetRoot/$diskForUnionfs/root/tmp $targetRoot/tmp
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mount --bind $targetRoot/$diskForUnionfs/root/tmp $targetRoot/tmp
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if [ "$(cat "$metaDir/ami-manifest-path")" != "(unknown)" ]; then
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mkdir -m 755 -p $targetRoot/$diskForUnionfs/root/var $targetRoot/var
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mount --bind $targetRoot/$diskForUnionfs/root/var $targetRoot/var
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mkdir -p /unionfs-chroot/ro-nix
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mount --rbind $targetRoot/nix /unionfs-chroot/ro-nix
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mkdir -m 755 -p $targetRoot/$diskForUnionfs/root/nix
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mkdir -p /unionfs-chroot/rw-nix
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mount --rbind $targetRoot/$diskForUnionfs/root/nix /unionfs-chroot/rw-nix
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unionfs -o allow_other,cow,nonempty,chroot=/unionfs-chroot,max_files=32768 /rw-nix=RW:/ro-nix=RO $targetRoot/nix
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fi
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fi
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'';
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boot.initrd.extraUtilsCommands =
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''
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# We need swapon in the initrd.
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copy_bin_and_libs ${pkgs.util-linux}/sbin/swapon
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'';
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# Allow root logins only using the SSH key that the user specified
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# at instance creation time.
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services.openssh.enable = true;
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services.openssh.permitRootLogin = "prohibit-password";
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# Enable the serial console on ttyS0
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systemd.services."serial-getty@ttyS0".enable = true;
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# Creates symlinks for block device names.
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services.udev.packages = [ pkgs.ec2-utils ];
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# Force getting the hostname from EC2.
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networking.hostName = mkDefault "";
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# Always include cryptsetup so that Charon can use it.
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environment.systemPackages = [ pkgs.cryptsetup ];
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boot.initrd.supportedFilesystems = [ "unionfs-fuse" ];
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# EC2 has its own NTP server provided by the hypervisor
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networking.timeServers = [ "169.254.169.123" ];
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# udisks has become too bloated to have in a headless system
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# (e.g. it depends on GTK).
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services.udisks2.enable = false;
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};
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}
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