coreutils/mkdir/test.rs
2014-01-05 16:03:13 -06:00

68 lines
1.9 KiB
Rust

use std::{run};
use std::io::fs::rmdir;
static exe: &'static str = "build/mkdir";
static test_dir1: &'static str = "mkdir_test1";
static test_dir2: &'static str = "mkdir_test2";
static test_dir3: &'static str = "mkdir_test3";
static test_dir4: &'static str = "mkdir_test4/mkdir_test4_1";
static test_dir5: &'static str = "mkdir_test5/mkdir_test5_1";
fn cleanup(dir: &'static str) {
let d = dir.into_owned();
let p = Path::new(d.into_owned());
if p.exists() {
rmdir(&p);
}
}
#[test]
fn test_mkdir_mkdir() {
cleanup(test_dir1);
let prog = run::process_status(exe.into_owned(), [test_dir1.into_owned()]);
let exit_success = prog.unwrap().success();
cleanup(test_dir1);
assert_eq!(exit_success, true);
}
#[test]
fn test_mkdir_dup_dir() {
cleanup(test_dir2);
let prog = run::process_status(exe.into_owned(), [test_dir2.into_owned()]);
let exit_success = prog.unwrap().success();
if !exit_success {
cleanup(test_dir2);
fail!();
}
let prog2 = run::process_status(exe.into_owned(), [test_dir2.into_owned()]);
let exit_success2 = prog2.unwrap().success();
cleanup(test_dir2);
assert_eq!(exit_success2, false);
}
#[test]
fn test_mkdir_mode() {
cleanup(test_dir3);
let prog = run::process_status(exe.into_owned(), [~"-m", ~"755", test_dir3.into_owned()]);
let exit_success = prog.unwrap().success();
cleanup(test_dir3);
assert_eq!(exit_success, true);
}
#[test]
fn test_mkdir_parent() {
cleanup(test_dir4);
let prog = run::process_status(exe.into_owned(), [~"-p", test_dir4.into_owned()]);
let exit_success = prog.unwrap().success();
cleanup(test_dir4);
assert_eq!(exit_success, true);
}
#[test]
fn test_mkdir_no_parent() {
cleanup(test_dir5);
let prog = run::process_status(exe.into_owned(), [test_dir5.into_owned()]);
let exit_success = prog.unwrap().success();
cleanup(test_dir5);
assert_eq!(exit_success, false);
}