nixpkgs/nixos/lib/utils.nix

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{ lib, config, pkgs }: with lib;
rec {
# Copy configuration files to avoid having the entire sources in the system closure
copyFile = filePath: pkgs.runCommand (builtins.unsafeDiscardStringContext (builtins.baseNameOf filePath)) {} ''
cp ${filePath} $out
'';
# Check whenever fileSystem is needed for boot. NOTE: Make sure
# pathsNeededForBoot is closed under the parent relationship, i.e. if /a/b/c
# is in the list, put /a and /a/b in as well.
pathsNeededForBoot = [ "/" "/nix" "/nix/store" "/var" "/var/log" "/var/lib" "/var/lib/nixos" "/etc" "/usr" ];
fsNeededForBoot = fs: fs.neededForBoot || elem fs.mountPoint pathsNeededForBoot;
# Check whenever `b` depends on `a` as a fileSystem
fsBefore = a: b:
let
# normalisePath adds a slash at the end of the path if it didn't already
# have one.
#
# The reason slashes are added at the end of each path is to prevent `b`
# from accidentally depending on `a` in cases like
# a = { mountPoint = "/aaa"; ... }
# b = { device = "/aaaa"; ... }
# Here a.mountPoint *is* a prefix of b.device even though a.mountPoint is
# *not* a parent of b.device. If we add a slash at the end of each string,
# though, this is not a problem: "/aaa/" is not a prefix of "/aaaa/".
normalisePath = path: "${path}${optionalString (!(hasSuffix "/" path)) "/"}";
normalise = mount: mount // { device = normalisePath (toString mount.device);
mountPoint = normalisePath mount.mountPoint;
depends = map normalisePath mount.depends;
};
a' = normalise a;
b' = normalise b;
in hasPrefix a'.mountPoint b'.device
|| hasPrefix a'.mountPoint b'.mountPoint
|| any (hasPrefix a'.mountPoint) b'.depends;
# Escape a path according to the systemd rules. FIXME: slow
# The rules are described in systemd.unit(5) as follows:
# The escaping algorithm operates as follows: given a string, any "/" character is replaced by "-", and all other characters which are not ASCII alphanumerics, ":", "_" or "." are replaced by C-style "\x2d" escapes. In addition, "." is replaced with such a C-style escape when it would appear as the first character in the escaped string.
# When the input qualifies as absolute file system path, this algorithm is extended slightly: the path to the root directory "/" is encoded as single dash "-". In addition, any leading, trailing or duplicate "/" characters are removed from the string before transformation. Example: /foo//bar/baz/ becomes "foo-bar-baz".
escapeSystemdPath = s: let
replacePrefix = p: r: s: (if (hasPrefix p s) then r + (removePrefix p s) else s);
trim = s: removeSuffix "/" (removePrefix "/" s);
normalizedPath = strings.normalizePath s;
in
replaceChars ["/"] ["-"]
(replacePrefix "." (strings.escapeC ["."] ".")
(strings.escapeC (stringToCharacters " !\"#$%&'()*+,;<=>=@[\\]^`{|}~-")
(if normalizedPath == "/" then normalizedPath else trim normalizedPath)));
# Quotes an argument for use in Exec* service lines.
# systemd accepts "-quoted strings with escape sequences, toJSON produces
# a subset of these.
# Additionally we escape % to disallow expansion of % specifiers. Any lone ;
# in the input will be turned it ";" and thus lose its special meaning.
# Every $ is escaped to $$, this makes it unnecessary to disable environment
# substitution for the directive.
escapeSystemdExecArg = arg:
let
s = if builtins.isPath arg then "${arg}"
else if builtins.isString arg then arg
else if builtins.isInt arg || builtins.isFloat arg then toString arg
else throw "escapeSystemdExecArg only allows strings, paths and numbers";
in
replaceChars [ "%" "$" ] [ "%%" "$$" ] (builtins.toJSON s);
# Quotes a list of arguments into a single string for use in a Exec*
# line.
escapeSystemdExecArgs = concatMapStringsSep " " escapeSystemdExecArg;
# Returns a system path for a given shell package
toShellPath = shell:
if types.shellPackage.check shell then
"/run/current-system/sw${shell.shellPath}"
else if types.package.check shell then
throw "${shell} is not a shell package"
else
shell;
/* Recurse into a list or an attrset, searching for attrs named like
the value of the "attr" parameter, and return an attrset where the
names are the corresponding jq path where the attrs were found and
the values are the values of the attrs.
Example:
recursiveGetAttrWithJqPrefix {
example = [
{
irrelevant = "not interesting";
}
{
ignored = "ignored attr";
relevant = {
secret = {
_secret = "/path/to/secret";
};
};
}
];
} "_secret" -> { ".example[1].relevant.secret" = "/path/to/secret"; }
*/
recursiveGetAttrWithJqPrefix = item: attr:
let
recurse = prefix: item:
if item ? ${attr} then
nameValuePair prefix item.${attr}
else if isAttrs item then
map (name:
let
escapedName = ''"${replaceChars [''"'' "\\"] [''\"'' "\\\\"] name}"'';
in
recurse (prefix + "." + escapedName) item.${name}) (attrNames item)
else if isList item then
imap0 (index: item: recurse (prefix + "[${toString index}]") item) item
else
[];
in listToAttrs (flatten (recurse "" item));
/* Takes an attrset and a file path and generates a bash snippet that
outputs a JSON file at the file path with all instances of
{ _secret = "/path/to/secret" }
in the attrset replaced with the contents of the file
"/path/to/secret" in the output JSON.
When a configuration option accepts an attrset that is finally
converted to JSON, this makes it possible to let the user define
arbitrary secret values.
Example:
If the file "/path/to/secret" contains the string
"topsecretpassword1234",
genJqSecretsReplacementSnippet {
example = [
{
irrelevant = "not interesting";
}
{
ignored = "ignored attr";
relevant = {
secret = {
_secret = "/path/to/secret";
};
};
}
];
} "/path/to/output.json"
would generate a snippet that, when run, outputs the following
JSON file at "/path/to/output.json":
{
"example": [
{
"irrelevant": "not interesting"
},
{
"ignored": "ignored attr",
"relevant": {
"secret": "topsecretpassword1234"
}
}
]
}
*/
genJqSecretsReplacementSnippet = genJqSecretsReplacementSnippet' "_secret";
# Like genJqSecretsReplacementSnippet, but allows the name of the
# attr which identifies the secret to be changed.
genJqSecretsReplacementSnippet' = attr: set: output:
let
secrets = recursiveGetAttrWithJqPrefix set attr;
in ''
if [[ -h '${output}' ]]; then
rm '${output}'
fi
inherit_errexit_enabled=0
shopt -pq inherit_errexit && inherit_errexit_enabled=1
shopt -s inherit_errexit
''
+ concatStringsSep
"\n"
(imap1 (index: name: ''
secret${toString index}=$(<'${secrets.${name}}')
export secret${toString index}
'')
(attrNames secrets))
+ "\n"
+ "${pkgs.jq}/bin/jq >'${output}' "
+ lib.escapeShellArg (concatStringsSep
" | "
(imap1 (index: name: ''${name} = $ENV.secret${toString index}'')
(attrNames secrets)))
+ ''
<<'EOF'
${builtins.toJSON set}
EOF
(( ! $inherit_errexit_enabled )) && shopt -u inherit_errexit
'';
/* Remove packages of packagesToRemove from packages, based on their names.
Relies on package names and has quadratic complexity so use with caution!
Type:
removePackagesByName :: [package] -> [package] -> [package]
Example:
removePackagesByName [ nautilus file-roller ] [ file-roller totem ]
=> [ nautilus ]
*/
removePackagesByName = packages: packagesToRemove:
let
namesToRemove = map lib.getName packagesToRemove;
in
lib.filter (x: !(builtins.elem (lib.getName x) namesToRemove)) packages;
systemdUtils = {
lib = import ./systemd-lib.nix { inherit lib config pkgs; };
unitOptions = import ./systemd-unit-options.nix { inherit lib systemdUtils; };
2022-04-24 19:47:28 +01:00
types = import ./systemd-types.nix { inherit lib systemdUtils pkgs; };
};
}