home-manager/modules/files.nix

{ pkgs, config, lib, ... }:

with lib;

let

  cfg = filterAttrs (n: f: f.enable) config.home.file;

  homeDirectory = config.home.homeDirectory;

  fileType =
    (import lib/file-type.nix { inherit homeDirectory lib pkgs; }).fileType;

  sourceStorePath = file:
    let
      sourcePath = toString file.source;
      sourceName = config.lib.strings.storeFileName (baseNameOf sourcePath);
    in if builtins.hasContext sourcePath then
      file.source
    else
      builtins.path {
        path = file.source;
        name = sourceName;
      };

in {
  options = {
    home.file = mkOption {
      description = "Attribute set of files to link into the user home.";
      default = { };
      type = fileType "home.file" "{env}`HOME`" homeDirectory;
    };

    home-files = mkOption {
      type = types.package;
      internal = true;
      description = "Package to contain all home files";
    };
  };

  config = {
    assertions = [
      (let
        dups = attrNames (filterAttrs (n: v: v > 1)
          (foldAttrs (acc: v: acc + v) 0
            (mapAttrsToList (n: v: { ${v.target} = 1; }) cfg)));
        dupsStr = concatStringsSep ", " dups;
      in {
        assertion = dups == [ ];
        message = ''
          Conflicting managed target files: ${dupsStr}

          This may happen, for example, if you have a configuration similar to

              home.file = {
                conflict1 = { source = ./foo.nix; target = "baz"; };
                conflict2 = { source = ./bar.nix; target = "baz"; };
              }'';
      })
    ];

    lib.file.mkOutOfStoreSymlink = path:
      let
        pathStr = toString path;
        name = hm.strings.storeFileName (baseNameOf pathStr);
      in pkgs.runCommandLocal name { } "ln -s ${escapeShellArg pathStr} $out";

    # This verifies that the links we are about to create will not
    # overwrite an existing file.
    home.activation.checkLinkTargets = hm.dag.entryBefore [ "writeBoundary" ]
      (let
        # Paths that should be forcibly overwritten by Home Manager.
        # Caveat emptor!
        forcedPaths =
          concatMapStringsSep " " (p: ''"$HOME"/${escapeShellArg p}'')
          (mapAttrsToList (n: v: v.target) (filterAttrs (n: v: v.force) cfg));

        storeDir = escapeShellArg builtins.storeDir;

        check = pkgs.substituteAll {
          src = ./files/check-link-targets.sh;

          inherit (config.lib.bash) initHomeManagerLib;
          inherit forcedPaths storeDir;
        };
      in ''
        function checkNewGenCollision() {
          local newGenFiles
          newGenFiles="$(readlink -e "$newGenPath/home-files")"
          find "$newGenFiles" \( -type f -or -type l \) \
              -exec bash ${check} "$newGenFiles" {} +
        }

        checkNewGenCollision || exit 1
      '');

    # This activation script will
    #
    # 1. Remove files from the old generation that are not in the new
    #    generation.
    #
    # 2. Switch over the Home Manager gcroot and current profile
    #    links.
    #
    # 3. Symlink files from the new generation into $HOME.
    #
    # This order is needed to ensure that we always know which links
    # belong to which generation. Specifically, if we're moving from
    # generation A to generation B having sets of home file links FA
    # and FB, respectively then cleaning before linking produces state
    # transitions similar to
    #
    #      FA   →   FA ∩ FB   →   (FA ∩ FB) ∪ FB = FB
    #
    # and a failure during the intermediate state FA ∩ FB will not
    # result in lost links because this set of links are in both the
    # source and target generation.
    home.activation.linkGeneration = hm.dag.entryAfter [ "writeBoundary" ] (let
      link = pkgs.writeShellScript "link" ''
        ${config.lib.bash.initHomeManagerLib}

        newGenFiles="$1"
        shift
        for sourcePath in "$@" ; do
          relativePath="''${sourcePath#$newGenFiles/}"
          targetPath="$HOME/$relativePath"
          if [[ -e "$targetPath" && ! -L "$targetPath" && -n "$HOME_MANAGER_BACKUP_EXT" ]] ; then
            # The target exists, back it up
            backup="$targetPath.$HOME_MANAGER_BACKUP_EXT"
            run mv $VERBOSE_ARG "$targetPath" "$backup" || errorEcho "Moving '$targetPath' failed!"
          fi

          if [[ -e "$targetPath" && ! -L "$targetPath" ]] && cmp -s "$sourcePath" "$targetPath" ; then
            # The target exists but is identical – don't do anything.
            verboseEcho "Skipping '$targetPath' as it is identical to '$sourcePath'"
          else
            # Place that symlink, --force
            # This can still fail if the target is a directory, in which case we bail out.
            run mkdir -p $VERBOSE_ARG "$(dirname "$targetPath")"
            run ln -Tsf $VERBOSE_ARG "$sourcePath" "$targetPath" || exit 1
          fi
        done
      '';

      cleanup = pkgs.writeShellScript "cleanup" ''
        ${config.lib.bash.initHomeManagerLib}

        # A symbolic link whose target path matches this pattern will be
        # considered part of a Home Manager generation.
        homeFilePattern="$(readlink -e ${
          escapeShellArg builtins.storeDir
        })/*-home-manager-files/*"

        newGenFiles="$1"
        shift 1
        for relativePath in "$@" ; do
          targetPath="$HOME/$relativePath"
          if [[ -e "$newGenFiles/$relativePath" ]] ; then
            verboseEcho "Checking $targetPath: exists"
          elif [[ ! "$(readlink "$targetPath")" == $homeFilePattern ]] ; then
            warnEcho "Path '$targetPath' does not link into a Home Manager generation. Skipping delete."
          else
            verboseEcho "Checking $targetPath: gone (deleting)"
            run rm $VERBOSE_ARG "$targetPath"

            # Recursively delete empty parent directories.
            targetDir="$(dirname "$relativePath")"
            if [[ "$targetDir" != "." ]] ; then
              pushd "$HOME" > /dev/null

              # Call rmdir with a relative path excluding $HOME.
              # Otherwise, it might try to delete $HOME and exit
              # with a permission error.
              run rmdir $VERBOSE_ARG \
                  -p --ignore-fail-on-non-empty \
                  "$targetDir"

              popd > /dev/null
            fi
          fi
        done
      '';
    in ''
      function linkNewGen() {
        _i "Creating home file links in %s" "$HOME"

        local newGenFiles
        newGenFiles="$(readlink -e "$newGenPath/home-files")"
        find "$newGenFiles" \( -type f -or -type l \) \
          -exec bash ${link} "$newGenFiles" {} +
      }

      function cleanOldGen() {
        if [[ ! -v oldGenPath || ! -e "$oldGenPath/home-files" ]] ; then
          return
        fi

        _i "Cleaning up orphan links from %s" "$HOME"

        local newGenFiles oldGenFiles
        newGenFiles="$(readlink -e "$newGenPath/home-files")"
        oldGenFiles="$(readlink -e "$oldGenPath/home-files")"

        # Apply the cleanup script on each leaf in the old
        # generation. The find command below will print the
        # relative path of the entry.
        find "$oldGenFiles" '(' -type f -or -type l ')' -printf '%P\0' \
          | xargs -0 bash ${cleanup} "$newGenFiles"
      }

      cleanOldGen

      if [[ ! -v oldGenPath || "$oldGenPath" != "$newGenPath" ]] ; then
        _i "Creating profile generation %s" $newGenNum
        if [[ -e "$genProfilePath"/manifest.json ]] ; then
          # Remove all packages from "$genProfilePath"
          # `nix profile remove '.*' --profile "$genProfilePath"` was not working, so here is a workaround:
          nix profile list --profile "$genProfilePath" \
            | cut -d ' ' -f 4 \
            | xargs -rt $DRY_RUN_CMD nix profile remove $VERBOSE_ARG --profile "$genProfilePath"
          run nix profile install $VERBOSE_ARG --profile "$genProfilePath" "$newGenPath"
        else
          run nix-env $VERBOSE_ARG --profile "$genProfilePath" --set "$newGenPath"
        fi

        run --quiet nix-store --realise "$newGenPath" --add-root "$newGenGcPath" --indirect
        if [[ -e "$legacyGenGcPath" ]]; then
          run rm $VERBOSE_ARG "$legacyGenGcPath"
        fi
      else
        _i "No change so reusing latest profile generation %s" "$oldGenNum"
      fi

      linkNewGen
    '');

    home.activation.checkFilesChanged = hm.dag.entryBefore [ "linkGeneration" ]
      (let homeDirArg = escapeShellArg homeDirectory;
      in ''
        function _cmp() {
          if [[ -d $1 && -d $2 ]]; then
            diff -rq "$1" "$2" &> /dev/null
          else
            cmp --quiet "$1" "$2"
          fi
        }
        declare -A changedFiles
      '' + concatMapStrings (v:
        let
          sourceArg = escapeShellArg (sourceStorePath v);
          targetArg = escapeShellArg v.target;
        in ''
          _cmp ${sourceArg} ${homeDirArg}/${targetArg} \
            && changedFiles[${targetArg}]=0 \
            || changedFiles[${targetArg}]=1
        '') (filter (v: v.onChange != "") (attrValues cfg)) + ''
          unset -f _cmp
        '');

    home.activation.onFilesChange = hm.dag.entryAfter [ "linkGeneration" ]
      (concatMapStrings (v: ''
        if (( ''${changedFiles[${escapeShellArg v.target}]} == 1 )); then
          if [[ -v DRY_RUN || -v VERBOSE ]]; then
            echo "Running onChange hook for" ${escapeShellArg v.target}
          fi
          if [[ ! -v DRY_RUN ]]; then
            ${v.onChange}
          fi
        fi
      '') (filter (v: v.onChange != "") (attrValues cfg)));

    # Symlink directories and files that have the right execute bit.
    # Copy files that need their execute bit changed.
    home-files = pkgs.runCommandLocal "home-manager-files" {
      nativeBuildInputs = [ pkgs.xorg.lndir ];
    } (''
      mkdir -p $out

      # Needed in case /nix is a symbolic link.
      realOut="$(realpath -m "$out")"

      function insertFile() {
        local source="$1"
        local relTarget="$2"
        local executable="$3"
        local recursive="$4"

        # If the target already exists then we have a collision. Note, this
        # should not happen due to the assertion found in the 'files' module.
        # We therefore simply log the conflict and otherwise ignore it, mainly
        # to make the `files-target-config` test work as expected.
        if [[ -e "$realOut/$relTarget" ]]; then
          echo "File conflict for file '$relTarget'" >&2
          return
        fi

        # Figure out the real absolute path to the target.
        local target
        target="$(realpath -m "$realOut/$relTarget")"

        # Target path must be within $HOME.
        if [[ ! $target == $realOut* ]] ; then
          echo "Error installing file '$relTarget' outside \$HOME" >&2
          exit 1
        fi

        mkdir -p "$(dirname "$target")"
        if [[ -d $source ]]; then
          if [[ $recursive ]]; then
            mkdir -p "$target"
            lndir -silent "$source" "$target"
          else
            ln -s "$source" "$target"
          fi
        else
          [[ -x $source ]] && isExecutable=1 || isExecutable=""

          # Link the file into the home file directory if possible,
          # i.e., if the executable bit of the source is the same we
          # expect for the target. Otherwise, we copy the file and
          # set the executable bit to the expected value.
          if [[ $executable == inherit || $isExecutable == $executable ]]; then
            ln -s "$source" "$target"
          else
            cp "$source" "$target"

            if [[ $executable == inherit ]]; then
              # Don't change file mode if it should match the source.
              :
            elif [[ $executable ]]; then
              chmod +x "$target"
            else
              chmod -x "$target"
            fi
          fi
        fi
      }
    '' + concatStrings (mapAttrsToList (n: v: ''
      insertFile ${
        escapeShellArgs [
          (sourceStorePath v)
          v.target
          (if v.executable == null then "inherit" else toString v.executable)
          (toString v.recursive)
        ]
      }
    '') cfg));
  };
}