1
0
Fork 0
mirror of https://github.com/nix-community/home-manager.git synced 2024-12-14 11:57:55 +00:00
home-manager/modules/files.nix

366 lines
12 KiB
Nix
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

{ 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
));
};
}