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# Builds an ext4 image containing a populated /nix/store with the closure
# of store paths passed in the storePaths parameter, in addition to the
# contents of a directory that can be populated with commands. The
# generated image is sized to only fit its contents, with the expectation
# that a script resizes the filesystem at boot time.
{ pkgs
, lib
# List of derivations to be included
, storePaths
# Whether or not to compress the resulting image with zstd
, compressImage ? false, zstd
# Shell commands to populate the ./files directory.
# All files in that directory are copied to the root of the FS.
, populateImageCommands ? ""
, volumeLabel
, uuid ? "44444444-4444-4444-8888-888888888888"
, e2fsprogs
, libfaketime
, perl
, fakeroot
}:

let
  sdClosureInfo = pkgs.buildPackages.closureInfo { rootPaths = storePaths; };
in
pkgs.stdenv.mkDerivation {
  name = "ext4-fs.img${lib.optionalString compressImage ".zst"}";

  nativeBuildInputs = [ e2fsprogs.bin libfaketime perl fakeroot ]
  ++ lib.optional compressImage zstd;

  buildCommand =
    ''
      ${if compressImage then "img=temp.img" else "img=$out"}
      (
      mkdir -p ./files
      ${populateImageCommands}
      )

      echo "Preparing store paths for image..."

      # Create nix/store before copying path
      mkdir -p ./rootImage/nix/store

      xargs -I % cp -a --reflink=auto % -t ./rootImage/nix/store/ < ${sdClosureInfo}/store-paths
      (
        GLOBIGNORE=".:.."
        shopt -u dotglob

        for f in ./files/*; do
            cp -a --reflink=auto -t ./rootImage/ "$f"
        done
      )

      # Also include a manifest of the closures in a format suitable for nix-store --load-db
      cp ${sdClosureInfo}/registration ./rootImage/nix-path-registration

      # Make a crude approximation of the size of the target image.
      # If the script starts failing, increase the fudge factors here.
      numInodes=$(find ./rootImage | wc -l)
      numDataBlocks=$(du -s -c -B 4096 --apparent-size ./rootImage | tail -1 | awk '{ print int($1 * 1.20) }')
      bytes=$((2 * 4096 * $numInodes + 4096 * $numDataBlocks))
      echo "Creating an EXT4 image of $bytes bytes (numInodes=$numInodes, numDataBlocks=$numDataBlocks)"

      mebibyte=$(( 1024 * 1024 ))
      # Round up to the nearest mebibyte.
      # This ensures whole 512 bytes sector sizes in the disk image
      # and helps towards aligning partitions optimally.
      if (( bytes % mebibyte )); then
        bytes=$(( ( bytes / mebibyte + 1) * mebibyte ))
      fi

      truncate -s $bytes $img

      faketime -f "1970-01-01 00:00:01" fakeroot mkfs.ext4 -L ${volumeLabel} -U ${uuid} -d ./rootImage $img

      export EXT2FS_NO_MTAB_OK=yes
      # I have ended up with corrupted images sometimes, I suspect that happens when the build machine's disk gets full during the build.
      if ! fsck.ext4 -n -f $img; then
        echo "--- Fsck failed for EXT4 image of $bytes bytes (numInodes=$numInodes, numDataBlocks=$numDataBlocks) ---"
        cat errorlog
        return 1
      fi

      # We may want to shrink the file system and resize the image to
      # get rid of the unnecessary slack here--but see
      # https://github.com/NixOS/nixpkgs/issues/125121 for caveats.

      # shrink to fit
      resize2fs -M $img

      # Add 16 MebiByte to the current_size
      new_size=$(dumpe2fs -h $img | awk -F: \
        '/Block count/{count=$2} /Block size/{size=$2} END{print (count*size+16*2**20)/size}')

      resize2fs $img $new_size

      if [ ${builtins.toString compressImage} ]; then
        echo "Compressing image"
        zstd -v --no-progress ./$img -o $out
      fi
    '';
}