coreutils/src/hashsum/hashsum.rs

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#![crate_name = "hashsum"]
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/*
* This file is part of the uutils coreutils package.
*
* (c) Arcterus <arcterus@mail.com>
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* (c) Vsevolod Velichko <torkvemada@sorokdva.net>
* (c) Gil Cottle <gcottle@redtown.org>
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*
* For the full copyright and license information, please view the LICENSE
* file that was distributed with this source code.
*/
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#![feature(macro_rules)]
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extern crate regex;
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extern crate crypto;
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extern crate getopts;
use std::io::fs::File;
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use std::io::stdio::stdin_raw;
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use std::io::BufferedReader;
use std::io::IoError;
use std::io::EndOfFile;
use regex::Regex;
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use crypto::digest::Digest;
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use crypto::md5::Md5;
use crypto::sha1::Sha1;
use crypto::sha2::{Sha224, Sha256, Sha384, Sha512};
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#[path = "../common/util.rs"]
mod util;
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static NAME: &'static str = "hashsum";
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static VERSION: &'static str = "1.0.0";
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fn is_custom_binary(program: &str) -> bool {
match program {
"md5sum" | "sha1sum"
| "sha224sum" | "sha256sum"
| "sha384sum" | "sha512sum" => true,
_ => false
}
}
fn get_algo_opts(program: &str) -> Vec<getopts::OptGroup> {
if is_custom_binary(program) {
Vec::new()
} else {
vec!(
getopts::optflag("", "md5", "work with MD5"),
getopts::optflag("", "sha1", "work with SHA1"),
getopts::optflag("", "sha224", "work with SHA224"),
getopts::optflag("", "sha256", "work with SHA256"),
getopts::optflag("", "sha384", "work with SHA384"),
getopts::optflag("", "sha512", "work with SHA512")
)
}
}
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fn detect_algo(program: &str, matches: &getopts::Matches) -> (&'static str, Box<Digest+'static>) {
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let mut alg: Option<Box<Digest>> = None;
let mut name: &'static str = "";
match program {
"md5sum" => ("MD5", box Md5::new() as Box<Digest>),
"sha1sum" => ("SHA1", box Sha1::new() as Box<Digest>),
"sha224sum" => ("SHA224", box Sha224::new() as Box<Digest>),
"sha256sum" => ("SHA256", box Sha256::new() as Box<Digest>),
"sha384sum" => ("SHA384", box Sha384::new() as Box<Digest>),
"sha512sum" => ("SHA512", box Sha512::new() as Box<Digest>),
_ => {
{
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let set_or_crash = |n, val| -> () {
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if alg.is_some() { crash!(1, "You cannot combine multiple hash algorithms!") };
name = n;
alg = Some(val);
};
if matches.opt_present("md5") { set_or_crash("MD5", box Md5::new()) };
if matches.opt_present("sha1") { set_or_crash("SHA1", box Sha1::new()) };
if matches.opt_present("sha224") { set_or_crash("SHA224", box Sha224::new()) };
if matches.opt_present("sha256") { set_or_crash("SHA256", box Sha256::new()) };
if matches.opt_present("sha384") { set_or_crash("SHA384", box Sha384::new()) };
if matches.opt_present("sha512") { set_or_crash("SHA512", box Sha512::new()) };
}
if alg.is_none() { crash!(1, "You must specify hash algorithm!") };
(name, alg.unwrap())
}
}
}
pub fn uumain(args: Vec<String>) -> int {
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let program = args[0].clone();
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let binary = Path::new(program.as_slice());
let binary_name = binary.filename_str().unwrap();
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// Default binary in Windows, text mode otherwise
let binary_flag_default = cfg!(windows);
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let mut opts: Vec<getopts::OptGroup> = vec!(
getopts::optflag("b", "binary", format!("read in binary mode{}", if binary_flag_default { " (default)" } else { "" }).as_slice()),
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getopts::optflag("c", "check", "read hashsums from the FILEs and check them"),
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getopts::optflag("", "tag", "create a BSD-style checksum"),
getopts::optflag("t", "text", format!("read in text mode{}", if binary_flag_default { "" } else { " (default)" }).as_slice()),
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getopts::optflag("q", "quiet", "don't print OK for each successfully verified file"),
getopts::optflag("s", "status", "don't output anything, status code shows success"),
getopts::optflag("", "strict", "exit non-zero for improperly formatted checksum lines"),
getopts::optflag("w", "warn", "warn about improperly formatted checksum lines"),
getopts::optflag("h", "help", "display this help and exit"),
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getopts::optflag("V", "version", "output version information and exit"),
);
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opts.extend(get_algo_opts(binary_name.as_slice()).into_iter());
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let matches = match getopts::getopts(args.tail(), opts.as_slice()) {
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Ok(m) => m,
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Err(f) => crash!(1, "{}", f)
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};
if matches.opt_present("help") {
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usage(program.as_slice(), binary_name.as_slice(), opts.as_slice());
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} else if matches.opt_present("version") {
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version();
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} else {
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let (name, algo) = detect_algo(binary_name.as_slice(), &matches);
let binary_flag = matches.opt_present("binary");
let text_flag = matches.opt_present("text");
if binary_flag && text_flag {
crash!(1, "cannot set binary and text mode at the same time");
}
let binary = if binary_flag { true } else if text_flag { false } else { binary_flag_default };
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let check = matches.opt_present("check");
let tag = matches.opt_present("tag");
let status = matches.opt_present("status");
let quiet = matches.opt_present("quiet") || status;
let strict = matches.opt_present("strict");
let warn = matches.opt_present("warn") && !status;
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let files = if matches.free.is_empty() {
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vec!("-".to_string())
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} else {
matches.free
};
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match hashsum(name, algo, files, binary, check, tag, status, quiet, strict, warn) {
Ok(()) => return 0,
Err(e) => return e
}
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}
0
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}
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fn version() {
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pipe_println!("{} v{}", NAME, VERSION);
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}
fn usage(program: &str, binary_name: &str, opts: &[getopts::OptGroup]) {
version();
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pipe_println!("");
pipe_println!("Usage:");
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if is_custom_binary(binary_name) {
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pipe_println!(" {} [OPTION]... [FILE]...", program);
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} else {
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pipe_println!(" {} {{--md5|--sha1|--sha224|--sha256|--sha384|--sha512}} [OPTION]... [FILE]...", program);
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}
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pipe_println!("");
pipe_print!("{}", getopts::usage("Compute and check message digests.", opts));
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}
fn hashsum(algoname: &str, mut digest: Box<Digest>, files: Vec<String>, binary: bool, check: bool, tag: bool, status: bool, quiet: bool, strict: bool, warn: bool) -> Result<(), int> {
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let mut bad_format = 0u;
let mut failed = 0u;
let binary_marker = if binary {
"*"
} else {
" "
};
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for filename in files.iter() {
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let filename: &str = filename.as_slice();
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let mut stdin_buf;
let mut file_buf;
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let mut file = BufferedReader::new(
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if filename == "-" {
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stdin_buf = stdin_raw();
&mut stdin_buf as &mut Reader
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} else {
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file_buf = safe_unwrap!(File::open(&Path::new(filename)));
&mut file_buf as &mut Reader
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}
);
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if check {
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// Set up Regexes for line validation and parsing
let bytes = digest.output_bits() / 4;
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let gnu_re = safe_unwrap!(
Regex::new(
format!(
r"^(?P<digest>[a-fA-F0-9]{{{}}}) (?P<binary>[ \*])(?P<fileName>.*)",
bytes
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).as_slice()
)
);
let bsd_re = safe_unwrap!(
Regex::new(
format!(
r"^{algorithm} \((?P<fileName>.*)\) = (?P<digest>[a-fA-F0-9]{{{digest_size}}})",
algorithm = algoname,
digest_size = bytes
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).as_slice()
)
);
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let mut buffer = file;
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for (i, line) in buffer.lines().enumerate() {
let line = safe_unwrap!(line);
let (ck_filename, sum, binary_check): (_, Vec<Ascii>, _) = match gnu_re.captures(line.as_slice()) {
Some(caps) => (caps.name("fileName"), caps.name("digest").to_ascii().iter().map(|ch| ch.to_lowercase()).collect(), caps.name("binary") == "*"),
None => match bsd_re.captures(line.as_slice()) {
Some(caps) => (caps.name("fileName"), caps.name("digest").to_ascii().iter().map(|ch| ch.to_lowercase()).collect(), true),
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None => {
bad_format += 1;
if strict {
return Err(1);
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}
if warn {
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show_warning!("{}: {}: improperly formatted {} checksum line", filename, i + 1, algoname);
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}
continue;
}
}
};
let real_sum: Vec<Ascii> = safe_unwrap!(digest_reader(&mut digest, &mut safe_unwrap!(File::open(&Path::new(ck_filename))), binary_check))
.as_slice().to_ascii().iter().map(|ch| ch.to_lowercase()).collect();
if sum.as_slice() == real_sum.as_slice() {
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if !quiet {
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pipe_println!("{}: OK", ck_filename);
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}
} else {
if !status {
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pipe_println!("{}: FAILED", ck_filename);
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}
failed += 1;
}
}
} else {
let sum = safe_unwrap!(digest_reader(&mut digest, &mut file, binary));
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if tag {
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pipe_println!("{} ({}) = {}", algoname, filename, sum);
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} else {
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pipe_println!("{} {}{}", sum, binary_marker, filename);
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}
}
}
if !status {
if bad_format == 1 {
show_warning!("{} line is improperly formatted", bad_format);
} else if bad_format > 1 {
show_warning!("{} lines are improperly formatted", bad_format);
}
if failed > 0 {
show_warning!("{} computed checksum did NOT match", failed);
}
}
Ok(())
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}
fn digest_reader(digest: &mut Box<Digest>, reader: &mut Reader, binary: bool) -> Result<String, IoError> {
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digest.reset();
// Digest file, do not hold too much in memory at any given moment
let windows = cfg!(windows);
let mut buffer = [0, ..524288];
let mut vec = Vec::with_capacity(524288);
let mut looking_for_newline = false;
loop {
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match reader.read(&mut buffer) {
Ok(0) => {},
Ok(nread) => {
if windows && !binary {
// Windows text mode returns '\n' when reading '\r\n'
for i in range(0, nread) {
if looking_for_newline {
if buffer[i] != ('\n' as u8) {
vec.push('\r' as u8);
}
if buffer[i] != ('\r' as u8) {
vec.push(buffer[i]);
looking_for_newline = false;
}
} else if buffer[i] != ('\r' as u8) {
vec.push(buffer[i]);
} else {
looking_for_newline = true;
}
}
digest.input(vec.as_slice());
vec.clear();
} else {
digest.input(buffer.slice(0, nread));
}
},
Err(e) => match e.kind {
EndOfFile => {
break;
},
_ => {
return Err(e);
}
}
}
}
if windows && looking_for_newline {
vec.push('\r' as u8);
digest.input(vec.as_slice());
}
Ok(digest.result_str())
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}