coreutils/src/stat/stat.rs

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#![crate_name = "uu_stat"]
// This file is part of the uutils coreutils package.
//
// (c) Jian Zeng <anonymousknight96@gmail.com>
//
// For the full copyright and license information, please view the LICENSE file
// that was distributed with this source code.
//
extern crate getopts;
use getopts::Options;
#[macro_use]
mod fsext;
pub use fsext::*;
#[macro_use]
extern crate uucore;
use std::{fs, iter, cmp};
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use std::fs::File;
use std::io::{Write, BufReader, BufRead};
use std::borrow::Cow;
use std::os::unix::fs::{FileTypeExt, MetadataExt};
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use std::path::Path;
use std::convert::AsRef;
macro_rules! check_bound {
($str: ident, $bound:expr, $beg: expr, $end: expr) => (
if $end >= $bound {
return Err(format!("{}: invalid directive", &$str[$beg..$end]));
}
)
}
macro_rules! fill_string {
($str: ident, $c: expr, $cnt: expr) => (
iter::repeat($c).take($cnt).map(|c| $str.push(c)).all(|_| true)
)
}
macro_rules! extend_digits {
($str: expr, $min: expr) => (
if $min > $str.len() {
let mut pad = String::with_capacity($min);
fill_string!(pad, '0', $min - $str.len());
pad.push_str($str);
pad.into()
} else {
$str.into()
}
)
}
macro_rules! pad_and_print {
($result: ident, $str: ident, $left: expr, $width: expr, $padding: expr) => (
if $str.len() < $width {
if $left {
$result.push_str($str.as_ref());
fill_string!($result, $padding, $width - $str.len());
} else {
fill_string!($result, $padding, $width - $str.len());
$result.push_str($str.as_ref());
}
} else {
$result.push_str($str.as_ref());
}
print!("{}", $result);
)
}
macro_rules! print_adjusted {
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($str: ident, $left: expr, $width: expr, $padding: expr) => ({
let field_width = cmp::max($width, $str.len());
let mut result = String::with_capacity(field_width);
pad_and_print!(result, $str, $left, field_width, $padding);
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});
($str: ident, $left: expr, $need_prefix: expr, $prefix: expr, $width: expr, $padding: expr) => ({
let mut field_width = cmp::max($width, $str.len());
let mut result = String::with_capacity(field_width + $prefix.len());
if $need_prefix {
result.push_str($prefix);
field_width -= $prefix.len();
}
pad_and_print!(result, $str, $left, field_width, $padding);
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})
}
static NAME: &'static str = "stat";
static VERSION: &'static str = env!("CARGO_PKG_VERSION");
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const MOUNT_INFO: &'static str = "/etc/mtab";
pub const F_ALTER: u8 = 1;
pub const F_ZERO: u8 = 1 << 1;
pub const F_LEFT: u8 = 1 << 2;
pub const F_SPACE: u8 = 1 << 3;
pub const F_SIGN: u8 = 1 << 4;
// unused at present
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pub const F_GROUP: u8 = 1 << 5;
#[derive(Debug, PartialEq)]
pub enum OutputType {
Str,
Integer,
Unsigned,
UnsignedHex,
UnsignedOct,
Unknown,
}
#[derive(Debug, PartialEq)]
pub enum Token {
Char(char),
Directive {
flag: u8,
width: usize,
precision: i32,
format: char,
},
}
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pub trait ScanUtil {
fn scan_num<F>(&self) -> Option<(F, usize)> where F: std::str::FromStr;
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fn scan_char(&self, radix: u32) -> Option<(char, usize)>;
}
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impl ScanUtil for str {
fn scan_num<F>(&self) -> Option<(F, usize)>
where F: std::str::FromStr
{
let mut chars = self.chars();
let mut i = 0;
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match chars.next() {
Some('-') | Some('+') | Some('0'...'9') => i += 1,
_ => return None,
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}
while let Some(c) = chars.next() {
match c {
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'0'...'9' => i += 1,
_ => break,
}
}
if i > 0 {
F::from_str(&self[..i]).ok().map(|x| (x, i))
} else {
None
}
}
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fn scan_char(&self, radix: u32) -> Option<(char, usize)> {
let count = match radix {
8 => 3_usize,
16 => 2,
_ => return None,
};
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let mut chars = self.chars().enumerate();
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let mut res = 0_u32;
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let mut offset = 0_usize;
while let Some((i, c)) = chars.next() {
if i >= count {
break;
}
match c.to_digit(radix) {
Some(digit) => {
let tmp = res * radix + digit;
if tmp < 256 {
res = tmp;
} else {
break;
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}
}
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None => break,
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}
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offset = i + 1;
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}
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if offset > 0 {
Some((res as u8 as char, offset))
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} else {
None
}
}
}
pub fn group_num<'a>(s: &'a str) -> Cow<'a, str> {
assert!(s.chars().all(char::is_numeric));
if s.len() < 4 {
return s.into();
}
let mut res = String::with_capacity((s.len() - 1) / 3);
let mut alone = (s.len() - 1) % 3 + 1;
res.push_str(&s[..alone]);
while alone != s.len() {
res.push(',');
res.push_str(&s[alone..alone + 3]);
alone += 3;
}
res.into()
}
pub struct Stater {
follow: bool,
showfs: bool,
from_user: bool,
files: Vec<String>,
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mount_list: Vec<String>,
default_tokens: Vec<Token>,
default_dev_tokens: Vec<Token>,
}
fn print_it(arg: &str, otype: OutputType, flag: u8, width: usize, precision: i32) {
// If the precision is given as just '.', the precision is taken to be zero.
// A negative precision is taken as if the precision were omitted.
// This gives the minimum number of digits to appear for d, i, o, u, x, and X conversions,
// the maximum number of characters to be printed from a string for s and S conversions.
// #
// The value should be converted to an "alternate form".
// For o conversions, the first character of the output string is made zero (by prefixing a 0 if it was not zero already).
// For x and X conversions, a nonzero result has the string "0x" (or "0X" for X conversions) prepended to it.
// 0
// The value should be zero padded.
// For d, i, o, u, x, X, a, A, e, E, f, F, g, and G conversions, the converted value is padded on the left with zeros rather than blanks.
// If the 0 and - flags both appear, the 0 flag is ignored.
// If a precision is given with a numeric conversion (d, i, o, u, x, and X), the 0 flag is ignored.
// For other conversions, the behavior is undefined.
// -
// The converted value is to be left adjusted on the field boundary. (The default is right justification.)
// The converted value is padded on the right with blanks, rather than on the left with blanks or zeros.
// A - overrides a 0 if both are given.
// ' ' (a space)
// A blank should be left before a positive number (or empty string) produced by a signed conversion.
// +
// A sign (+ or -) should always be placed before a number produced by a signed conversion.
// By default, a sign is used only for negative numbers.
// A + overrides a space if both are used.
if otype == OutputType::Unknown {
return print!("?");
}
let left_align = has!(flag, F_LEFT);
let padding_char = if has!(flag, F_ZERO) && !left_align && precision == -1 {
'0'
} else {
' '
};
let has_sign = has!(flag, F_SIGN) || has!(flag, F_SPACE);
let should_alter = has!(flag, F_ALTER);
let prefix = match otype {
OutputType::UnsignedOct => "0",
OutputType::UnsignedHex => "0x",
OutputType::Integer => {
if has!(flag, F_SIGN) {
"+"
} else {
" "
}
}
_ => "",
};
match otype {
OutputType::Str => {
let limit = cmp::min(precision, arg.len() as i32);
let s: &str = if limit >= 0 {
&arg[..limit as usize]
} else {
arg
};
print_adjusted!(s, left_align, width, ' ');
}
OutputType::Integer => {
let arg = if has!(flag, F_GROUP) {
group_num(arg)
} else {
Cow::Borrowed(arg)
};
let min_digits = cmp::max(precision, arg.len() as i32) as usize;
let extended: Cow<str> = extend_digits!(arg.as_ref(), min_digits);
print_adjusted!(extended, left_align, has_sign, prefix, width, padding_char);
}
OutputType::Unsigned => {
let arg = if has!(flag, F_GROUP) {
group_num(arg)
} else {
Cow::Borrowed(arg)
};
let min_digits = cmp::max(precision, arg.len() as i32) as usize;
let extended: Cow<str> = extend_digits!(arg.as_ref(), min_digits);
print_adjusted!(extended, left_align, width, padding_char);
}
OutputType::UnsignedOct => {
let min_digits = cmp::max(precision, arg.len() as i32) as usize;
let extended: Cow<str> = extend_digits!(arg, min_digits);
print_adjusted!(extended,
left_align,
should_alter,
prefix,
width,
padding_char);
}
OutputType::UnsignedHex => {
let min_digits = cmp::max(precision, arg.len() as i32) as usize;
let extended: Cow<str> = extend_digits!(arg, min_digits);
print_adjusted!(extended,
left_align,
should_alter,
prefix,
width,
padding_char);
}
_ => unreachable!(),
}
}
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use std::ptr;
use std::ffi::CStr;
use uucore::c_types::{getpwuid, getgrgid};
fn get_grp_name(gid: u32) -> String {
let p = unsafe { getgrgid(gid) };
if !p.is_null() {
unsafe { CStr::from_ptr(ptr::read(p).gr_name).to_string_lossy().into_owned() }
} else {
"UNKNOWN".to_owned()
}
}
fn get_usr_name(uid: u32) -> String {
let p = unsafe { getpwuid(uid) };
if !p.is_null() {
unsafe {
CStr::from_ptr(ptr::read(p).pw_name)
.to_string_lossy()
.into_owned()
}
} else {
"UNKNOWN".to_owned()
}
}
impl Stater {
pub fn generate_tokens(fmtstr: &str, use_printf: bool) -> Result<Vec<Token>, String> {
let mut tokens = Vec::new();
let bound = fmtstr.len();
let chars = fmtstr.chars().collect::<Vec<char>>();
let mut i = 0_usize;
while i < bound {
match chars[i] {
'%' => {
let old = i;
i += 1;
if i >= bound {
tokens.push(Token::Char('%'));
continue;
}
if chars[i] == '%' {
tokens.push(Token::Char('%'));
i += 1;
continue;
}
let mut flag: u8 = 0;
while i < bound {
match chars[i] {
'#' => flag |= F_ALTER,
'0' => flag |= F_ZERO,
'-' => flag |= F_LEFT,
' ' => flag |= F_SPACE,
'+' => flag |= F_SIGN,
'\'' => flag |= F_GROUP,
'I' => unimplemented!(),
_ => break,
}
i += 1;
}
check_bound!(fmtstr, bound, old, i);
let mut width = 0_usize;
let mut precision = -1_i32;
let mut j = i;
match fmtstr[j..].scan_num::<usize>() {
Some((field_width, offset)) => {
width = field_width;
j += offset;
}
None => (),
}
check_bound!(fmtstr, bound, old, j);
if chars[j] == '.' {
j += 1;
check_bound!(fmtstr, bound, old, j);
match fmtstr[j..].scan_num::<i32>() {
Some((prec, offset)) => {
if prec >= 0 {
precision = prec;
}
j += offset;
}
None => precision = 0,
}
check_bound!(fmtstr, bound, old, j);
}
i = j;
tokens.push(Token::Directive {
width: width,
flag: flag,
precision: precision,
format: chars[i],
})
}
'\\' => {
if !use_printf {
tokens.push(Token::Char('\\'));
} else {
i += 1;
if i >= bound {
show_warning!("backslash at end of format");
tokens.push(Token::Char('\\'));
continue;
}
match chars[i] {
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'x' if i + 1 < bound => {
if let Some((c, offset)) = fmtstr[i + 1..].scan_char(16) {
tokens.push(Token::Char(c));
i += offset;
} else {
show_warning!("unrecognized escape '\\x'");
tokens.push(Token::Char('x'));
}
}
'0'...'7' => {
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let (c, offset) = fmtstr[i..].scan_char(8).unwrap();
tokens.push(Token::Char(c));
i += offset - 1;
}
'"' => tokens.push(Token::Char('"')),
'\\' => tokens.push(Token::Char('\\')),
'a' => tokens.push(Token::Char('\x07')),
'b' => tokens.push(Token::Char('\x08')),
'e' => tokens.push(Token::Char('\x1B')),
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'f' => tokens.push(Token::Char('\x0C')),
'n' => tokens.push(Token::Char('\n')),
'r' => tokens.push(Token::Char('\r')),
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'v' => tokens.push(Token::Char('\x0B')),
c => {
show_warning!("unrecognized escape '\\{}'", c);
tokens.push(Token::Char(c));
}
}
}
}
c => tokens.push(Token::Char(c)),
}
i += 1;
}
if !use_printf && !fmtstr.ends_with('\n') {
tokens.push(Token::Char('\n'));
}
Ok(tokens)
}
fn new(matches: getopts::Matches) -> Result<Stater, String> {
let fmtstr = if matches.opt_present("printf") {
matches.opt_str("printf").expect("Invalid format string")
} else {
matches.opt_str("format").unwrap_or("".to_owned())
};
let use_printf = matches.opt_present("printf");
let terse = matches.opt_present("terse");
let showfs = matches.opt_present("file-system");
let default_tokens = if fmtstr.is_empty() {
Stater::generate_tokens(&Stater::default_fmt(showfs, terse, false), use_printf).unwrap()
} else {
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try!(Stater::generate_tokens(&fmtstr, use_printf))
};
let default_dev_tokens = Stater::generate_tokens(&Stater::default_fmt(showfs, terse, true), use_printf)
.unwrap();
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let reader = BufReader::new(File::open(MOUNT_INFO).expect("Failed to read /etc/mtab"));
let mut mount_list = reader.lines()
.filter_map(|s| s.ok())
.filter_map(|line| line.split_whitespace().nth(1).map(|s| s.to_owned()))
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.collect::<Vec<String>>();
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// Reverse sort. The longer comes first.
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mount_list.sort_by(|a, b| b.cmp(a));
Ok(Stater {
follow: matches.opt_present("dereference"),
showfs: showfs,
from_user: !fmtstr.is_empty(),
files: matches.free,
default_tokens: default_tokens,
default_dev_tokens: default_dev_tokens,
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mount_list: mount_list,
})
}
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fn find_mount_point<P: AsRef<Path>>(&self, p: P) -> Option<String> {
let path = match p.as_ref().canonicalize() {
Ok(s) => s,
Err(_) => return None,
};
for root in (&self.mount_list).into_iter() {
if path.starts_with(root) {
return Some(root.clone());
}
}
None
}
fn exec(&self) -> i32 {
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let mut ret = 0;
for f in &self.files {
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ret |= self.do_stat(f.as_str());
}
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ret
}
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fn do_stat(&self, file: &str) -> i32 {
if !self.showfs {
let result = if self.follow {
fs::metadata(file)
} else {
fs::symlink_metadata(file)
};
match result {
Ok(meta) => {
let ftype = meta.file_type();
let tokens = if self.from_user || !(ftype.is_char_device() || ftype.is_block_device()) {
&self.default_tokens
} else {
&self.default_dev_tokens
};
for t in tokens.into_iter() {
match t {
&Token::Char(c) => print!("{}", c),
&Token::Directive { flag, width, precision, format } => {
let arg: String;
let otype: OutputType;
match format {
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// access rights in octal
'a' => {
arg = format!("{:o}", 0o7777 & meta.mode());
otype = OutputType::UnsignedOct;
}
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// access rights in human readable form
'A' => {
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arg = pretty_access(meta.mode() as mode_t);
otype = OutputType::Str;
}
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// number of blocks allocated (see %B)
'b' => {
arg = format!("{}", meta.blocks());
otype = OutputType::Unsigned;
}
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// the size in bytes of each block reported by %b
// FIXME: blocksize differs on various platform
// See coreutils/gnulib/lib/stat-size.h ST_NBLOCKSIZE
'B' => {
// the size in bytes of each block reported by %b
arg = format!("{}", 512);
otype = OutputType::Unsigned;
}
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// device number in decimal
'd' => {
arg = format!("{}", meta.dev());
otype = OutputType::Unsigned;
}
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// device number in hex
'D' => {
arg = format!("{:x}", meta.dev());
otype = OutputType::UnsignedHex;
}
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// raw mode in hex
'f' => {
arg = format!("{:x}", meta.mode());
otype = OutputType::UnsignedHex;
}
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// file type
'F' => {
arg = pretty_filetype(meta.mode() as mode_t, meta.len()).to_owned();
otype = OutputType::Str;
}
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// group ID of owner
'g' => {
arg = format!("{}", meta.gid());
otype = OutputType::Unsigned;
}
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// group name of owner
'G' => {
arg = get_grp_name(meta.gid());
otype = OutputType::Str;
}
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// number of hard links
'h' => {
arg = format!("{}", meta.nlink());
otype = OutputType::Unsigned;
}
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// inode number
'i' => {
arg = format!("{}", meta.ino());
otype = OutputType::Unsigned;
}
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// mount point
'm' => {
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arg = self.find_mount_point(file).unwrap();
otype = OutputType::Str;
}
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// file name
'n' => {
arg = file.to_owned();
otype = OutputType::Str;
}
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// quoted file name with dereference if symbolic link
'N' => {
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if ftype.is_symlink() {
let dst = match fs::read_link(file) {
Ok(path) => path,
Err(e) => {
println!("{}", e);
return 1;
}
};
arg = format!("`{}' -> `{}'", file, dst.to_string_lossy());
} else {
arg = format!("`{}'", file);
}
otype = OutputType::Str;
}
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// optimal I/O transfer size hint
'o' => {
arg = format!("{}", meta.blksize());
otype = OutputType::Unsigned;
}
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// total size, in bytes
's' => {
arg = format!("{}", meta.len());
otype = OutputType::Integer;
}
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// major device type in hex, for character/block device special
// files
't' => {
arg = format!("{:x}", meta.rdev() >> 8);
otype = OutputType::UnsignedHex;
}
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// minor device type in hex, for character/block device special
// files
'T' => {
arg = format!("{:x}", meta.rdev() & 0xff);
otype = OutputType::UnsignedHex;
}
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// user ID of owner
'u' => {
arg = format!("{}", meta.uid());
otype = OutputType::Unsigned;
}
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// user name of owner
'U' => {
arg = get_usr_name(meta.uid());
otype = OutputType::Str;
}
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// time of file birth, human-readable; - if unknown
'w' => {
arg = if cfg!(feature = "nightly") {
// Unstable
meta.created()
.map(|t| t.elapsed().unwrap())
.map(|e| pretty_time(e.as_secs() as i64, e.subsec_nanos() as i64))
.unwrap_or("-".to_owned())
} else {
"-".to_owned()
};
otype = OutputType::Str;
}
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// time of file birth, seconds since Epoch; 0 if unknown
'W' => {
arg = if cfg!(feature = "nightly") {
// Unstable
meta.created()
.map(|t| t.elapsed().unwrap())
.map(|e| format!("{}", e.as_secs()))
.unwrap_or("0".to_owned())
} else {
"0".to_owned()
};
otype = OutputType::Integer;
}
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// time of last access, human-readable
'x' => {
arg = pretty_time(meta.atime(), meta.atime_nsec());
otype = OutputType::Str;
}
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// time of last access, seconds since Epoch
'X' => {
arg = format!("{}", meta.atime());
otype = OutputType::Integer;
}
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// time of last data modification, human-readable
'y' => {
arg = pretty_time(meta.mtime(), meta.mtime_nsec());
otype = OutputType::Str;
}
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// time of last data modification, seconds since Epoch
'Y' => {
arg = format!("{}", meta.mtime());
otype = OutputType::Str;
}
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// time of last status change, human-readable
'z' => {
arg = pretty_time(meta.ctime(), meta.ctime_nsec());
otype = OutputType::Str;
}
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// time of last status change, seconds since Epoch
'Z' => {
arg = format!("{}", meta.ctime());
otype = OutputType::Integer;
}
_ => {
arg = "?".to_owned();
otype = OutputType::Unknown;
}
}
print_it(&arg, otype, flag, width, precision);
}
}
}
}
Err(e) => {
show_info!("cannot stat '{}': {}", file, e);
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return 1;
}
}
} else {
match statfs(file) {
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Ok(meta) => {
let tokens = &self.default_tokens;
for t in tokens.into_iter() {
match t {
&Token::Char(c) => print!("{}", c),
&Token::Directive { flag, width, precision, format } => {
let arg: String;
let otype: OutputType;
match format {
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// free blocks available to non-superuser
'a' => {
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arg = format!("{}", meta.avail_blocks());
otype = OutputType::Integer;
}
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// total data blocks in file system
'b' => {
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arg = format!("{}", meta.total_blocks());
otype = OutputType::Integer;
}
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// total file nodes in file system
'c' => {
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arg = format!("{}", meta.total_fnodes());
otype = OutputType::Unsigned;
}
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// free file nodes in file system
'd' => {
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arg = format!("{}", meta.free_fnodes());
otype = OutputType::Integer;
}
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// free blocks in file system
'f' => {
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arg = format!("{}", meta.free_blocks());
otype = OutputType::Integer;
}
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// file system ID in hex
'i' => {
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arg = format!("{:x}", meta.fsid());
otype = OutputType::UnsignedHex;
}
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// maximum length of filenames
'l' => {
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arg = format!("{}", meta.namelen());
otype = OutputType::Unsigned;
}
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// file name
'n' => {
arg = file.to_owned();
otype = OutputType::Str;
}
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// block size (for faster transfers)
's' => {
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arg = format!("{}", meta.iosize());
otype = OutputType::Unsigned;
}
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// fundamental block size (for block counts)
'S' => {
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arg = format!("{}", meta.blksize());
otype = OutputType::Unsigned;
}
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// file system type in hex
't' => {
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arg = format!("{:x}", meta.fs_type());
otype = OutputType::UnsignedHex;
}
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// file system type in human readable form
'T' => {
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arg = pretty_fstype(meta.fs_type()).into_owned();
otype = OutputType::Str;
}
_ => {
arg = "?".to_owned();
otype = OutputType::Unknown;
}
}
print_it(&arg, otype, flag, width, precision);
}
}
}
}
Err(e) => {
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show_info!("cannot read file system information for '{}': {}", file, e);
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return 1;
}
}
}
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0
}
// taken from coreutils/src/stat.c
fn default_fmt(showfs: bool, terse: bool, dev: bool) -> String {
// SELinux related format is *ignored*
let mut fmtstr = String::with_capacity(36);
if showfs {
if terse {
fmtstr.push_str("%n %i %l %t %s %S %b %f %a %c %d\n");
} else {
fmtstr.push_str(" File: \"%n\"\n ID: %-8i Namelen: %-7l Type: %T\nBlock \
size: %-10s Fundamental block size: %S\nBlocks: Total: %-10b \
Free: %-10f Available: %a\nInodes: Total: %-10c Free: %d\n");
}
} else if terse {
fmtstr.push_str("%n %s %b %f %u %g %D %i %h %t %T %X %Y %Z %W %o\n");
} else {
fmtstr.push_str(" File: %N\n Size: %-10s\tBlocks: %-10b IO Block: %-6o %F\n");
if dev {
fmtstr.push_str("Device: %Dh/%dd\tInode: %-10i Links: %-5h Device type: %t,%T\n");
} else {
fmtstr.push_str("Device: %Dh/%dd\tInode: %-10i Links: %h\n");
}
fmtstr.push_str("Access: (%04a/%10.10A) Uid: (%5u/%8U) Gid: (%5g/%8G)\n");
fmtstr.push_str("Access: %x\nModify: %y\nChange: %z\n Birth: %w\n");
}
fmtstr
}
}
pub fn uumain(args: Vec<String>) -> i32 {
let mut opts = Options::new();
opts.optflag("h", "help", "display this help and exit");
opts.optflag("", "version", "output version information and exit");
opts.optflag("L", "dereference", "follow links");
opts.optflag("f",
"file-system",
"display file system status instead of file status");
opts.optflag("t", "terse", "print the information in terse form");
// Omit the unused description as they are too long
opts.optopt("c", "format", "", "FORMAT");
opts.optopt("", "printf", "", "FORMAT");
let matches = match opts.parse(&args[1..]) {
Ok(m) => m,
Err(f) => {
disp_err!("{}", f);
return 1;
}
};
if matches.opt_present("help") {
return help();
} else if matches.opt_present("version") {
return version();
}
if matches.free.is_empty() {
disp_err!("missing operand");
return 1;
}
match Stater::new(matches) {
Ok(stater) => stater.exec(),
Err(e) => {
show_info!("{}", e);
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1
}
}
}
fn version() -> i32 {
println!("{} {}", NAME, VERSION);
0
}
fn help() -> i32 {
let msg = format!(r#"Usage: {} [OPTION]... FILE...
Display file or file system status.
Mandatory arguments to long options are mandatory for short options too.
-L, --dereference follow links
-f, --file-system display file system status instead of file status
-c --format=FORMAT use the specified FORMAT instead of the default;
output a newline after each use of FORMAT
--printf=FORMAT like --format, but interpret backslash escapes,
and do not output a mandatory trailing newline;
if you want a newline, include \n in FORMAT
-t, --terse print the information in terse form
--help display this help and exit
--version output version information and exit
The valid format sequences for files (without --file-system):
%a access rights in octal (note '#' and '0' printf flags)
%A access rights in human readable form
%b number of blocks allocated (see %B)
%B the size in bytes of each block reported by %b
%C SELinux security context string
%d device number in decimal
%D device number in hex
%f raw mode in hex
%F file type
%g group ID of owner
%G group name of owner
%h number of hard links
%i inode number
%m mount point
%n file name
%N quoted file name with dereference if symbolic link
%o optimal I/O transfer size hint
%s total size, in bytes
%t major device type in hex, for character/block device special files
%T minor device type in hex, for character/block device special files
%u user ID of owner
%U user name of owner
%w time of file birth, human-readable; - if unknown
%W time of file birth, seconds since Epoch; 0 if unknown
%x time of last access, human-readable
%X time of last access, seconds since Epoch
%y time of last data modification, human-readable
%Y time of last data modification, seconds since Epoch
%z time of last status change, human-readable
%Z time of last status change, seconds since Epoch
Valid format sequences for file systems:
%a free blocks available to non-superuser
%b total data blocks in file system
%c total file nodes in file system
%d free file nodes in file system
%f free blocks in file system
%i file system ID in hex
%l maximum length of filenames
%n file name
%s block size (for faster transfers)
%S fundamental block size (for block counts)
%t file system type in hex
%T file system type in human readable form
NOTE: your shell may have its own version of stat, which usually supersedes
the version described here. Please refer to your shell's documentation
for details about the options it supports."#,
NAME);
println!("{}", msg);
0
}