#[crate_id(name="env", vers="1.0.0", author="LeoTestard")]; /* * This file is part of the uutils coreutils package. * * (c) Jordi Boggiano * * For the full copyright and license information, please view the LICENSE * file that was distributed with this source code. */ /* last synced with: env (GNU coreutils) 8.13 */ struct options { ignore_env: bool, null: bool, unsets: ~[~str], sets: ~[(~str, ~str)], program: ~[~str] } fn usage(prog: &str) { println!("Usage: {:s} [OPTION]... [-] [NAME=VALUE]... [COMMAND [ARG]...]", prog); println!("Set each NAME to VALUE in the environment and run COMMAND\n"); println!("Possible options are:"); println!(" -i --ignore-environment\t start with an empty environment"); println!(" -0 --null \t end each output line with a 0 byte rather than newline"); println!(" -u --unset NAME \t remove variable from the environment"); println!(" -h --help \t display this help and exit"); println!(" -V --version \t output version information and exit\n"); println!("A mere - implies -i. If no COMMAND, print the resulting environment"); } fn version() { println!("env 1.0.0"); } // print name=value env pairs on screen // if null is true, separate pairs with a \0, \n otherwise fn print_env(null: bool) { let env = std::os::env(); for &(ref n, ref v) in env.iter() { print!("{:s}={:s}{:c}", n.as_slice(), v.as_slice(), if null { '\0' } else { '\n' } ); } } fn main() { let args = std::os::args(); let prog = args[0].as_slice(); // to handle arguments the same way than GNU env, we can't use getopts let mut opts = ~options { ignore_env: false, null: false, unsets: ~[], sets: ~[], program: ~[] }; let mut wait_cmd = false; let mut iter = args.iter(); iter.next(); // skip program let mut item = iter.next(); // the for loop doesn't work here, // because we need sometines to read 2 items forward, // and the iter can't be borrowed twice while item != None { let opt = item.unwrap(); if wait_cmd { // we still accept NAME=VAL here but not other options let mut sp = opt.splitn('=', 1); let name = sp.next(); let value = sp.next(); match (name, value) { (Some(n), Some(v)) => { opts.sets.push((n.into_owned(), v.into_owned())); } _ => { // read the program now opts.program.push(opt.to_owned()); break; } } } else if opt.starts_with("--") { match *opt { ~"--help" => { usage(prog); return } ~"--version" => { version(); return } ~"--ignore-environment" => opts.ignore_env = true, ~"--null" => opts.null = true, ~"--unset" => { let var = iter.next(); match var { None => println!("{:s}: this option requires an argument: {:s}", prog, opt.as_slice()), Some(s) => opts.unsets.push(s.to_owned()) } } _ => { println!("{:s}: invalid option \"{:s}\"", prog, *opt); println!("Type \"{:s} --help\" for detailed informations", prog); return } } } else if opt.starts_with("-") { if opt.len() == 0 { // implies -i and stop parsing opts wait_cmd = true; opts.ignore_env = true; continue; } let mut chars = opt.chars(); chars.next(); for c in chars { // short versions of options match c { 'h' => { usage(prog); return } 'V' => { version(); return } 'i' => opts.ignore_env = true, '0' => opts.null = true, 'u' => { let var = iter.next(); match var { None => println!("{:s}: this option requires an argument: {:s}", prog, opt.as_slice()), Some(s) => opts.unsets.push(s.to_owned()) } } _ => { println!("{:s}: illegal option -- {:c}", prog, c); println!("Type \"{:s} --help\" for detailed informations", prog); return } } } } else { // is it a NAME=VALUE like opt ? let mut sp = opt.splitn('=', 1); let name = sp.next(); let value = sp.next(); match (name, value) { (Some(n), Some(v)) => { // yes opts.sets.push((n.into_owned(), v.into_owned())); wait_cmd = true; } // no, its a program-like opt _ => { opts.program.push(opt.to_owned()); break; } } } item = iter.next(); } // read program arguments for opt in iter { opts.program.push(opt.to_owned()); } let env = std::os::env(); if opts.ignore_env { for &(ref name, _) in env.iter() { std::os::unsetenv(name.as_slice()) } } for ref name in opts.unsets.iter() { std::os::unsetenv(name.as_slice()) } for &(ref name, ref val) in opts.sets.iter() { std::os::setenv(name.as_slice(), val.as_slice()) } match opts.program { [ref prog, ..args] => { match std::run::process_status(prog.as_slice(), args.as_slice()) { Some(exit) => std::os::set_exit_status(match exit { std::io::process::ExitStatus(s) => s, _ => 1 }), None => std::os::set_exit_status(1) } } [] => { // no program provided print_env(opts.null); } } }