use crate::env::environment::Environment; use std::cmp::Ordering; use std::fs::Metadata; use std::os::unix::prelude::{FileTypeExt, MetadataExt}; use std::time::SystemTime; use super::prelude::*; use crate::nix::{getegid, geteuid}; use crate::path::path_apply_working_directory; use crate::util::wcsfilecmp_glob; use crate::wcstringutil::split_string_tok; use crate::wutil::{ file_id_for_path, lwstat, normalize_path, waccess, wbasename, wdirname, wrealpath, wstat, INVALID_FILE_ID, }; use bitflags::bitflags; use libc::{mode_t, F_OK, PATH_MAX, R_OK, S_ISGID, S_ISUID, W_OK, X_OK}; use super::shared::BuiltinCmd; macro_rules! path_error { ( $streams:expr, $string:expr $(, $args:expr)+ $(,)? ) => { $streams.err.append(L!("path ")); $streams.err.append(wgettext_fmt!($string, $($args),*)); }; } fn path_unknown_option(parser: &Parser, streams: &mut IoStreams, subcmd: &wstr, opt: &wstr) { path_error!(streams, BUILTIN_ERR_UNKNOWN, subcmd, opt); builtin_print_error_trailer(parser, streams.err, L!("path")); } // How many bytes we read() at once. // We use PATH_MAX here so we always get at least one path, // and so we can automatically detect NULL-separated input. const PATH_CHUNK_SIZE: usize = PATH_MAX as usize; #[inline] fn arguments<'iter, 'args>( args: &'iter [&'args wstr], optind: &'iter mut usize, streams: &mut IoStreams, ) -> Arguments<'args, 'iter> { Arguments::new(args, optind, streams, PATH_CHUNK_SIZE) } bitflags! { #[derive(Copy, Clone, Default)] pub struct TypeFlags: u32 { /// A block device const BLOCK = 1 << 0; /// A directory const DIR = 1 << 1; /// A regular file const FILE = 1 << 2; /// A link const LINK = 1 << 3; /// A character device const CHAR = 1 << 4; /// A fifo const FIFO = 1 << 5; /// A socket const SOCK = 1 << 6; } } impl TryFrom<&wstr> for TypeFlags { type Error = (); fn try_from(value: &wstr) -> Result { let flag = match value { t if t == "file" => Self::FILE, t if t == "dir" => Self::DIR, t if t == "block" => Self::BLOCK, t if t == "char" => Self::CHAR, t if t == "fifo" => Self::FIFO, t if t == "socket" => Self::SOCK, t if t == "link" => Self::LINK, _ => return Err(()), }; Ok(flag) } } bitflags! { #[derive(Copy, Clone, Default)] pub struct PermFlags: u32 { const READ = 1 << 0; const WRITE = 1 << 1; const EXEC = 1 << 2; const SUID = 1 << 3; const SGID = 1 << 4; const USER = 1 << 5; const GROUP = 1 << 6; } } impl PermFlags { fn is_special(self) -> bool { self.intersects(Self::SUID | Self::SGID | Self::USER | Self::GROUP) } } impl TryFrom<&wstr> for PermFlags { type Error = (); fn try_from(value: &wstr) -> Result { let flag = match value { t if t == "read" => Self::READ, t if t == "write" => Self::WRITE, t if t == "exec" => Self::EXEC, t if t == "suid" => Self::SUID, t if t == "sgid" => Self::SGID, t if t == "user" => Self::USER, t if t == "group" => Self::GROUP, _ => return Err(()), }; Ok(flag) } } /// This is used by the subcommands to communicate with the option parser which flags are /// valid and get the result of parsing the command for flags. #[derive(Default)] struct Options<'args> { null_in: bool, null_out: bool, quiet: bool, invert_valid: bool, invert: bool, relative_valid: bool, relative: bool, reverse_valid: bool, reverse: bool, unique_valid: bool, unique: bool, key: Option<&'args wstr>, types_valid: bool, types: Option, perms_valid: bool, perms: Option, arg1: Option<&'args wstr>, } #[inline] fn path_out(streams: &mut IoStreams, opts: &Options<'_>, s: impl AsRef) { let s = s.as_ref(); if !opts.quiet { if !opts.null_out { streams .out .append_with_separation(s, SeparationType::explicitly, true); } else { let mut output = WString::with_capacity(s.len() + 1); output.push_utfstr(s); output.push('\0'); streams.out.append(output); } } } fn construct_short_opts(opts: &Options) -> WString { // All commands accept -z, -Z and -q let mut short_opts = WString::from(":zZq"); if opts.perms_valid { short_opts += L!("p:"); short_opts += L!("rwx"); } if opts.types_valid { short_opts += L!("t:"); short_opts += L!("fld"); } if opts.invert_valid { short_opts.push('v'); } if opts.relative_valid { short_opts.push('R'); } if opts.reverse_valid { short_opts.push('r'); } if opts.unique_valid { short_opts.push('u'); } short_opts } /// Note that several long flags share the same short flag. That is okay. The caller is expected /// to indicate that a max of one of the long flags sharing a short flag is valid. /// Remember: adjust the completions in share/completions/ when options change const LONG_OPTIONS: [woption<'static>; 10] = [ wopt(L!("quiet"), no_argument, 'q'), wopt(L!("null-in"), no_argument, 'z'), wopt(L!("null-out"), no_argument, 'Z'), wopt(L!("perm"), required_argument, 'p'), wopt(L!("type"), required_argument, 't'), wopt(L!("invert"), no_argument, 'v'), wopt(L!("relative"), no_argument, 'R'), wopt(L!("reverse"), no_argument, 'r'), wopt(L!("unique"), no_argument, 'u'), wopt(L!("key"), required_argument, NONOPTION_CHAR_CODE), ]; fn parse_opts<'args>( opts: &mut Options<'args>, optind: &mut usize, n_req_args: usize, args: &mut [&'args wstr], parser: &Parser, streams: &mut IoStreams, ) -> Option { let cmd = args[0]; let mut args_read = Vec::with_capacity(args.len()); args_read.extend_from_slice(args); let short_opts = construct_short_opts(opts); let mut w = wgetopter_t::new(&short_opts, &LONG_OPTIONS, args); while let Some(c) = w.wgetopt_long() { match c { ':' => { streams.err.append(L!("path ")); // clone of string_error builtin_missing_argument(parser, streams, cmd, args_read[w.woptind - 1], false); return STATUS_INVALID_ARGS; } '?' => { path_unknown_option(parser, streams, cmd, args_read[w.woptind - 1]); return STATUS_INVALID_ARGS; } 'q' => { opts.quiet = true; continue; } 'z' => { opts.null_in = true; continue; } 'Z' => { opts.null_out = true; continue; } 'v' if opts.invert_valid => { opts.invert = true; continue; } 't' if opts.types_valid => { let types = opts.types.get_or_insert_with(TypeFlags::default); let types_args = split_string_tok(w.woptarg.unwrap(), L!(","), None); for t in types_args { let Ok(r#type) = t.try_into() else { path_error!(streams, "%ls: Invalid type '%ls'\n", "path", t); return STATUS_INVALID_ARGS; }; *types |= r#type; } continue; } 'p' if opts.perms_valid => { let perms = opts.perms.get_or_insert_with(PermFlags::default); let perms_args = split_string_tok(w.woptarg.unwrap(), L!(","), None); for p in perms_args { let Ok(perm) = p.try_into() else { path_error!(streams, "%ls: Invalid permission '%ls'\n", "path", p); return STATUS_INVALID_ARGS; }; *perms |= perm; } continue; } 'r' if opts.reverse_valid => { opts.reverse = true; continue; } 'r' if opts.perms_valid => { let perms = opts.perms.get_or_insert_with(PermFlags::default); *perms |= PermFlags::READ; continue; } 'w' if opts.perms_valid => { let perms = opts.perms.get_or_insert_with(PermFlags::default); *perms |= PermFlags::WRITE; continue; } 'x' if opts.perms_valid => { let perms = opts.perms.get_or_insert_with(PermFlags::default); *perms |= PermFlags::EXEC; continue; } 'f' if opts.types_valid => { let types = opts.types.get_or_insert_with(TypeFlags::default); *types |= TypeFlags::FILE; continue; } 'l' if opts.types_valid => { let types = opts.types.get_or_insert_with(TypeFlags::default); *types |= TypeFlags::LINK; continue; } 'd' if opts.types_valid => { let types = opts.types.get_or_insert_with(TypeFlags::default); *types |= TypeFlags::DIR; continue; } 'u' if opts.unique_valid => { opts.unique = true; continue; } 'R' if opts.relative_valid => { opts.relative = true; continue; } NONOPTION_CHAR_CODE => { assert!(w.woptarg.is_some()); opts.key = w.woptarg; continue; } _ => { path_unknown_option(parser, streams, cmd, args_read[w.woptind - 1]); return STATUS_INVALID_ARGS; } } } *optind = w.woptind; if n_req_args != 0 { assert!(n_req_args == 1); opts.arg1 = args.get(*optind).copied(); if opts.arg1.is_some() { *optind += 1; } if opts.arg1.is_none() && n_req_args == 1 { path_error!(streams, BUILTIN_ERR_ARG_COUNT0, cmd); return STATUS_INVALID_ARGS; } } // At this point we should not have optional args and be reading args from stdin. if streams.stdin_is_directly_redirected && args.len() > *optind { path_error!(streams, BUILTIN_ERR_TOO_MANY_ARGUMENTS, cmd); return STATUS_INVALID_ARGS; } STATUS_CMD_OK } fn path_transform( parser: &Parser, streams: &mut IoStreams, args: &mut [&wstr], func: impl Fn(&wstr) -> WString, ) -> Option { let mut opts = Options::default(); let mut optind = 0; let retval = parse_opts(&mut opts, &mut optind, 0, args, parser, streams); if retval != STATUS_CMD_OK { return retval; } let mut n_transformed = 0; let arguments = arguments(args, &mut optind, streams).with_split_behavior(match opts.null_in { true => SplitBehavior::Null, false => SplitBehavior::InferNull, }); for (arg, _) in arguments { // Empty paths make no sense, but e.g. wbasename returns true for them. if arg.is_empty() { continue; } let transformed = func(&arg); if transformed != arg { n_transformed += 1; // Return okay if path wasn't already in this form // TODO: Is that correct? if opts.quiet { return STATUS_CMD_OK; }; } path_out(streams, &opts, transformed); } if n_transformed > 0 { STATUS_CMD_OK } else { STATUS_CMD_ERROR } } fn path_basename(parser: &Parser, streams: &mut IoStreams, args: &mut [&wstr]) -> Option { path_transform(parser, streams, args, |s| wbasename(s).to_owned()) } fn path_dirname(parser: &Parser, streams: &mut IoStreams, args: &mut [&wstr]) -> Option { path_transform(parser, streams, args, |s| wdirname(s).to_owned()) } fn normalize_help(path: &wstr) -> WString { let mut np = normalize_path(path, false); if !np.is_empty() && np.char_at(0) == '-' { np = "./".chars().chain(np.chars()).collect(); } np } fn path_normalize(parser: &Parser, streams: &mut IoStreams, args: &mut [&wstr]) -> Option { path_transform(parser, streams, args, normalize_help) } fn path_mtime(parser: &Parser, streams: &mut IoStreams, args: &mut [&wstr]) -> Option { let mut opts = Options::default(); opts.relative_valid = true; let mut optind = 0; let retval = parse_opts(&mut opts, &mut optind, 0, args, parser, streams); if retval != STATUS_CMD_OK { return retval; } let mut n_transformed = 0; let t = match SystemTime::now().duration_since(SystemTime::UNIX_EPOCH) { Ok(dur) => dur.as_secs() as i64, Err(err) => -(err.duration().as_secs() as i64), }; let arguments = arguments(args, &mut optind, streams).with_split_behavior(match opts.null_in { true => SplitBehavior::Null, false => SplitBehavior::InferNull, }); for (arg, _) in arguments { let ret = file_id_for_path(&arg); if ret != INVALID_FILE_ID { if opts.quiet { return STATUS_CMD_OK; } n_transformed += 1; if !opts.relative { path_out(streams, &opts, (ret.mod_seconds).to_wstring()); } else { // note that the mod time can actually be before the system time // so this can end up negative #[allow(clippy::unnecessary_cast)] path_out(streams, &opts, (t - ret.mod_seconds as i64).to_wstring()); } } } if n_transformed > 0 { STATUS_CMD_OK } else { STATUS_CMD_ERROR } } fn find_extension(path: &wstr) -> Option { // The extension belongs to the basename, // if there is a "." before the last component it doesn't matter. // e.g. ~/.config/fish/conf.d/foo // does not have an extension! The ".d" here is not a file extension for "foo". // And "~/.config" doesn't have an extension either - the ".config" is the filename. let filename = wbasename(path); // "." and ".." aren't really *files* and therefore don't have an extension. if filename == "." || filename == ".." { return None; } // If we don't have a "." or the "." is the first in the filename, // we do not have an extension let pos = filename.chars().rposition(|c| c == '.'); match pos { None | Some(0) => None, // Convert pos back to what it would be in the original path. Some(pos) => Some(pos + path.len() - filename.len()), } } #[test] fn test_find_extension() { let cases = [ (L!("foo.wmv"), Some(3)), (L!("verylongfilename.wmv"), Some("verylongfilename".len())), (L!("foo"), None), (L!(".foo"), None), (L!("./foo.wmv"), Some(5)), ]; for (f, ext_idx) in cases { assert_eq!(find_extension(f), ext_idx); } } fn path_extension(parser: &Parser, streams: &mut IoStreams, args: &mut [&wstr]) -> Option { let mut opts = Options::default(); let mut optind = 0; let retval = parse_opts(&mut opts, &mut optind, 0, args, parser, streams); if retval != STATUS_CMD_OK { return retval; } let mut n_transformed = 0; let arguments = arguments(args, &mut optind, streams).with_split_behavior(match opts.null_in { true => SplitBehavior::Null, false => SplitBehavior::InferNull, }); for (arg, _) in arguments { let pos = find_extension(&arg); let Some(pos) = pos else { // If there is no extension the extension is empty. // This is unambiguous because we include the ".". path_out(streams, &opts, L!("")); continue; }; let ext = arg.slice_from(pos); if opts.quiet && !ext.is_empty() { return STATUS_CMD_OK; } path_out(streams, &opts, ext); n_transformed += 1; } if n_transformed > 0 { STATUS_CMD_OK } else { STATUS_CMD_ERROR } } fn path_change_extension( parser: &Parser, streams: &mut IoStreams, args: &mut [&wstr], ) -> Option { let mut opts = Options::default(); let mut optind = 0; let retval = parse_opts(&mut opts, &mut optind, 1, args, parser, streams); if retval != STATUS_CMD_OK { return retval; } let mut n_transformed = 0usize; let arguments = arguments(args, &mut optind, streams).with_split_behavior(match opts.null_in { true => SplitBehavior::Null, false => SplitBehavior::InferNull, }); for (mut arg, _) in arguments { let pos = find_extension(&arg); let mut ext = match pos { Some(pos) => { arg.to_mut().truncate(pos); arg.into_owned() } None => arg.into_owned(), }; // Only add on the extension "." if we have something. // That way specifying an empty extension strips it. if let Some(replacement) = opts.arg1 { if !replacement.is_empty() { if replacement.char_at(0) != '.' { ext.push('.'); } ext.push_utfstr(replacement); } } path_out(streams, &opts, ext); n_transformed += 1; } if n_transformed > 0 { STATUS_CMD_OK } else { STATUS_CMD_ERROR } } fn path_resolve(parser: &Parser, streams: &mut IoStreams, args: &mut [&wstr]) -> Option { let mut opts = Options::default(); let mut optind = 0; let retval = parse_opts(&mut opts, &mut optind, 0, args, parser, streams); if retval != STATUS_CMD_OK { return retval; } let mut n_transformed = 0usize; let arguments = arguments(args, &mut optind, streams).with_split_behavior(match opts.null_in { true => SplitBehavior::Null, false => SplitBehavior::InferNull, }); for (arg, _) in arguments { let mut real = match wrealpath(&arg) { Some(p) => p, None => { // The path doesn't exist, isn't readable or a symlink loop. // We go up until we find something that works. let mut next = arg.into_owned(); // First add $PWD if we're relative if !next.is_empty() && next.char_at(0) != '/' { next = path_apply_working_directory(&next, &parser.vars().get_pwd_slash()); } let mut rest = wbasename(&next).to_owned(); let mut real = None; while !next.is_empty() && next != "/" { next = wdirname(&next).to_owned(); real = wrealpath(&next); if let Some(ref mut real) = real { real.push('/'); real.push_utfstr(&rest); *real = normalize_path(real, false); break; } rest = (wbasename(&next).to_owned() + L!("/")) + rest.as_utfstr(); } match real { Some(p) => p, None => continue, } } }; // Normalize the path so "../" components are eliminated even after // nonexistent or non-directory components. // Otherwise `path resolve foo/../` will be `$PWD/foo/../` if foo is a file. real = normalize_path(&real, false); // Return 0 if we found a realpath. if opts.quiet { return STATUS_CMD_OK; } path_out(streams, &opts, real); n_transformed += 1; } if n_transformed > 0 { STATUS_CMD_OK } else { STATUS_CMD_ERROR } } fn path_sort(parser: &Parser, streams: &mut IoStreams, args: &mut [&wstr]) -> Option { let mut opts = Options::default(); opts.reverse_valid = true; opts.unique_valid = true; let mut optind = 0; let retval = parse_opts(&mut opts, &mut optind, 0, args, parser, streams); if retval != STATUS_CMD_OK { return retval; } let keyfunc: &dyn Fn(&wstr) -> &wstr = match &opts.key { Some(k) if k == "basename" => &wbasename as _, Some(k) if k == "dirname" => &wdirname as _, Some(k) if k == "path" => { // Act as if --key hadn't been given. opts.key = None; &wbasename as _ } None => &wbasename as _, Some(k) => { path_error!(streams, "%ls: Invalid sort key '%ls'\n", args[0], k); return STATUS_INVALID_ARGS; } }; let arguments = arguments(args, &mut optind, streams).with_split_behavior(match opts.null_in { true => SplitBehavior::Null, false => SplitBehavior::InferNull, }); let mut list: Vec<_> = arguments.map(|(f, _)| f).collect(); if opts.key.is_some() { // We use a stable sort here list.sort_by(|a, b| { match wcsfilecmp_glob(keyfunc(a), keyfunc(b)) { // to avoid changing the order so we can chain calls Ordering::Equal => Ordering::Greater, order if opts.reverse => order.reverse(), order => order, } }); if opts.unique { // we are sorted, dedup will remove all duplicates list.dedup_by(|a, b| keyfunc(a) == keyfunc(b)); } } else { // Without --key, we just sort by the entire path, // so we have no need to transform and such. list.sort_by(|a, b| { match wcsfilecmp_glob(a, b) { // to avoid changing the order so we can chain calls Ordering::Equal => Ordering::Greater, order if opts.reverse => order.reverse(), order => order, } }); if opts.unique { // we are sorted, dedup will remove all duplicates list.dedup(); } } for entry in list { path_out(streams, &opts, &entry); } /* TODO: Return true only if already sorted? */ STATUS_CMD_OK } fn filter_path(opts: &Options, path: &wstr, uid: Option, gid: Option) -> bool { // TODO: Add moar stuff: // fifos, sockets, size greater than zero, setuid, ... // Nothing to check, file existence is checked elsewhere. if opts.types.is_none() && opts.perms.is_none() { return true; } // We keep the metadata around for other checks if we have it. let mut metadata: Option = None; if let Some(t) = opts.types { let mut type_ok = false; if t.contains(TypeFlags::LINK) { let md = lwstat(path); type_ok = md.is_ok() && md.unwrap().is_symlink(); } let Ok(md) = wstat(path) else { // Does not exist return false; }; let ft = md.file_type(); type_ok = match type_ok { true => true, _ if t.contains(TypeFlags::FILE) && ft.is_file() => true, _ if t.contains(TypeFlags::DIR) && ft.is_dir() => true, _ if t.contains(TypeFlags::BLOCK) && ft.is_block_device() => true, _ if t.contains(TypeFlags::CHAR) && ft.is_char_device() => true, _ if t.contains(TypeFlags::FIFO) && ft.is_fifo() => true, _ if t.contains(TypeFlags::SOCK) && ft.is_socket() => true, _ => false, }; if !type_ok { return false; } metadata = Some(md); } if let Some(perm) = opts.perms { let mut amode = 0; // TODO: Update bitflags so this works /* for f in perm { amode |= match f { PermFlags::READ => R_OK, PermFlags::WRITE => W_OK, PermFlags::EXEC => X_OK, _ => PermFlags::empty(), } } */ if perm.contains(PermFlags::READ) { amode |= R_OK; } if perm.contains(PermFlags::WRITE) { amode |= W_OK; } if perm.contains(PermFlags::EXEC) { amode |= X_OK; } // access returns 0 on success, // -1 on failure. Yes, C can't even keep its bools straight. // Skip this if we don't have a mode to check - the stat can do existence too. // It's tempting to check metadata here if we have it, // e.g. see if any read-bit is set for READ. // That won't work for root. if amode != 0 && waccess(path, amode) != 0 { return false; } // Permissions that require special handling if perm.is_special() { let md = match metadata { Some(n) => n, _ => { let Ok(md) = wstat(path) else { return false; }; md } }; #[allow(clippy::if_same_then_else)] if perm.contains(PermFlags::SUID) && (md.mode() as mode_t & S_ISUID) == 0 { return false; } else if perm.contains(PermFlags::SGID) && (md.mode() as mode_t & S_ISGID) == 0 { return false; } else if perm.contains(PermFlags::USER) && uid != Some(md.uid()) { return false; } else if perm.contains(PermFlags::GROUP) && gid != Some(md.gid()) { return false; } } } // No filters failed. true } fn path_filter_maybe_is( parser: &Parser, streams: &mut IoStreams, args: &mut [&wstr], is_is: bool, ) -> Option { let mut opts = Options::default(); opts.types_valid = true; opts.perms_valid = true; opts.invert_valid = true; let mut optind = 0; let retval = parse_opts(&mut opts, &mut optind, 0, args, parser, streams); if retval != STATUS_CMD_OK { return retval; } // If we have been invoked as "path is", which is "path filter -q". if is_is { opts.quiet = true; } let mut n_transformed = 0; let arguments = arguments(args, &mut optind, streams).with_split_behavior(match opts.null_in { true => SplitBehavior::Null, false => SplitBehavior::InferNull, }); // If we're looking for the owner/group, get our euid/egid here once. let uid = if opts.perms.unwrap_or_default().contains(PermFlags::USER) { Some(geteuid()) } else { None }; let gid = if opts.perms.unwrap_or_default().contains(PermFlags::GROUP) { Some(getegid()) } else { None }; for (arg, _) in arguments.filter(|(f, _)| { (opts.perms.is_none() && opts.types.is_none()) || (filter_path(&opts, f, uid, gid) != opts.invert) }) { // If we don't have filters, check if it exists. if opts.perms.is_none() && opts.types.is_none() { let ok = waccess(&arg, F_OK) == 0; if ok == opts.invert { continue; } } // We *know* this is a filename, // and so if it starts with a `-` we *know* it is relative // to $PWD. So we can add `./`. // Empty paths make no sense, but e.g. wbasename returns true for them. if !arg.is_empty() && arg.starts_with('-') { let out = WString::from("./") + arg.as_ref(); path_out(streams, &opts, out); } else { path_out(streams, &opts, arg); } n_transformed += 1; if opts.quiet { return STATUS_CMD_OK; }; } if n_transformed > 0 { STATUS_CMD_OK } else { STATUS_CMD_ERROR } } fn path_filter(parser: &Parser, streams: &mut IoStreams, args: &mut [&wstr]) -> Option { path_filter_maybe_is(parser, streams, args, false) } fn path_is(parser: &Parser, streams: &mut IoStreams, args: &mut [&wstr]) -> Option { path_filter_maybe_is(parser, streams, args, true) } /// The path builtin, for handling paths. pub fn path(parser: &Parser, streams: &mut IoStreams, args: &mut [&wstr]) -> Option { let cmd = args[0]; let argc = args.len(); if argc <= 1 { streams .err .append(wgettext_fmt!(BUILTIN_ERR_MISSING_SUBCMD, cmd)); builtin_print_error_trailer(parser, streams.err, cmd); return STATUS_INVALID_ARGS; } if args[1] == "-h" || args[1] == "--help" { builtin_print_help(parser, streams, cmd); return STATUS_CMD_OK; } let subcmd_name = args[1]; let subcmd: BuiltinCmd = match subcmd_name.to_string().as_str() { "basename" => path_basename, "change-extension" => path_change_extension, "dirname" => path_dirname, "extension" => path_extension, "filter" => path_filter, "is" => path_is, "mtime" => path_mtime, "normalize" => path_normalize, "resolve" => path_resolve, "sort" => path_sort, _ => { streams .err .append(wgettext_fmt!(BUILTIN_ERR_INVALID_SUBCMD, cmd, subcmd_name)); builtin_print_error_trailer(parser, streams.err, cmd); return STATUS_INVALID_ARGS; } }; if argc >= 3 && (args[2] == "-h" || args[2] == "--help") { // Unlike string, we don't have separate docs (yet) builtin_print_help(parser, streams, cmd); return STATUS_CMD_OK; } let args = &mut args[1..]; return subcmd(parser, streams, args); }