// spell-checker:ignore NOFILE use crate::common::util::*; use std::fs::OpenOptions; #[cfg(unix)] use std::io::Read; #[cfg(any(target_os = "linux", target_os = "android"))] use rlimit::Resource; #[test] fn test_output_simple() { new_ucmd!() .args(&["alpha.txt"]) .succeeds() .stdout_only("abcde\nfghij\nklmno\npqrst\nuvwxyz\n"); // spell-checker:disable-line } #[test] fn test_no_options() { // spell-checker:disable-next-line for fixture in ["empty.txt", "alpha.txt", "nonewline.txt"] { // Give fixture through command line file argument new_ucmd!() .args(&[fixture]) .succeeds() .stdout_is_fixture(fixture); // Give fixture through stdin new_ucmd!() .pipe_in_fixture(fixture) .succeeds() .stdout_is_fixture(fixture); } } #[test] #[cfg(any(target_vendor = "apple", target_os = "linux", target_os = "android"))] fn test_no_options_big_input() { for n in [ 0, 1, 42, 16 * 1024 - 7, 16 * 1024 - 1, 16 * 1024, 16 * 1024 + 1, 16 * 1024 + 3, 32 * 1024, 64 * 1024, 80 * 1024, 96 * 1024, 112 * 1024, 128 * 1024, ] { let data = vec_of_size(n); let data2 = data.clone(); assert_eq!(data.len(), data2.len()); new_ucmd!().pipe_in(data).succeeds().stdout_is_bytes(&data2); } } #[test] #[cfg(unix)] fn test_fifo_symlink() { use std::io::Write; use std::thread; let s = TestScenario::new(util_name!()); s.fixtures.mkdir("dir"); s.fixtures.mkfifo("dir/pipe"); assert!(s.fixtures.is_fifo("dir/pipe")); // Make cat read the pipe through a symlink s.fixtures.symlink_file("dir/pipe", "sympipe"); // spell-checker:disable-line let proc = s.ucmd().args(&["sympipe"]).run_no_wait(); // spell-checker:disable-line let data = vec_of_size(128 * 1024); let data2 = data.clone(); let pipe_path = s.fixtures.plus("dir/pipe"); let thread = thread::spawn(move || { let mut pipe = OpenOptions::new() .write(true) .create(false) .open(pipe_path) .unwrap(); pipe.write_all(&data).unwrap(); }); let output = proc.wait_with_output().unwrap(); assert_eq!(&output.stdout, &data2); thread.join().unwrap(); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_closes_file_descriptors() { // Each file creates a pipe, which has two file descriptors. // If they are not closed then five is certainly too many. new_ucmd!() .args(&[ "alpha.txt", "alpha.txt", "alpha.txt", "alpha.txt", "alpha.txt", ]) .with_limit(Resource::NOFILE, 9, 9) .succeeds(); } #[test] #[cfg(unix)] fn test_piped_to_regular_file() { use std::fs::read_to_string; for append in [true, false] { let s = TestScenario::new(util_name!()); let file_path = s.fixtures.plus("file.txt"); { let file = OpenOptions::new() .create_new(true) .write(true) .append(append) .open(&file_path) .unwrap(); s.ucmd() .set_stdout(file) .pipe_in_fixture("alpha.txt") .succeeds(); } let contents = read_to_string(&file_path).unwrap(); assert_eq!(contents, "abcde\nfghij\nklmno\npqrst\nuvwxyz\n"); // spell-checker:disable-line } } #[test] #[cfg(unix)] fn test_piped_to_dev_null() { for append in [true, false] { let s = TestScenario::new(util_name!()); { let dev_null = OpenOptions::new() .write(true) .append(append) .open("/dev/null") .unwrap(); s.ucmd() .set_stdout(dev_null) .pipe_in_fixture("alpha.txt") .succeeds(); } } } #[test] #[cfg(any(target_os = "linux", target_os = "freebsd", target_os = "netbsd"))] fn test_piped_to_dev_full() { for append in [true, false] { let s = TestScenario::new(util_name!()); { let dev_full = OpenOptions::new() .write(true) .append(append) .open("/dev/full") .unwrap(); s.ucmd() .set_stdout(dev_full) .pipe_in_fixture("alpha.txt") .fails() .stderr_contains("No space left on device"); } } } #[test] fn test_directory() { let s = TestScenario::new(util_name!()); s.fixtures.mkdir("test_directory"); s.ucmd() .args(&["test_directory"]) .fails() .stderr_is("cat: test_directory: Is a directory"); } #[test] fn test_directory_and_file() { let s = TestScenario::new(util_name!()); s.fixtures.mkdir("test_directory2"); // spell-checker:disable-next-line for fixture in ["empty.txt", "alpha.txt", "nonewline.txt"] { s.ucmd() .args(&["test_directory2", fixture]) .fails() .stderr_is("cat: test_directory2: Is a directory") .stdout_is_fixture(fixture); } } #[test] #[cfg(unix)] fn test_three_directories_and_file_and_stdin() { let s = TestScenario::new(util_name!()); s.fixtures.mkdir("test_directory3"); s.fixtures.mkdir("test_directory3/test_directory4"); s.fixtures.mkdir("test_directory3/test_directory5"); s.ucmd() .args(&[ "test_directory3/test_directory4", "alpha.txt", "-", "file_which_does_not_exist.txt", "nonewline.txt", // spell-checker:disable-line "test_directory3/test_directory5", "test_directory3/../test_directory3/test_directory5", "test_directory3", ]) .pipe_in("stdout bytes") .fails() .stderr_is_fixture("three_directories_and_file_and_stdin.stderr.expected") .stdout_is( "abcde\nfghij\nklmno\npqrst\nuvwxyz\nstdout bytestext without a trailing newline", // spell-checker:disable-line ); } #[test] fn test_output_multi_files_print_all_chars() { // spell-checker:disable new_ucmd!() .args(&["alpha.txt", "256.txt", "-A", "-n"]) .succeeds() .stdout_only( " 1\tabcde$\n 2\tfghij$\n 3\tklmno$\n 4\tpqrst$\n \ 5\tuvwxyz$\n 6\t^@^A^B^C^D^E^F^G^H^I$\n \ 7\t^K^L^M^N^O^P^Q^R^S^T^U^V^W^X^Y^Z^[^\\^]^^^_ \ !\"#$%&\'()*+,-./0123456789:;\ <=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\\]^_`abcdefghijklmnopqrstuvwxyz{|}~^?M-^@M-^AM-^\ BM-^CM-^DM-^EM-^FM-^GM-^HM-^IM-^JM-^KM-^LM-^MM-^NM-^OM-^PM-^QM-^RM-^SM-^TM-^UM-^V\ M-^WM-^XM-^YM-^ZM-^[M-^\\M-^]M-^^M-^_M- \ M-!M-\"M-#M-$M-%M-&M-\'M-(M-)M-*M-+M-,M--M-.M-/M-0M-1M-2M-3M-4M-5M-6M-7M-8M-9M-:\ M-;M-M-?M-@M-AM-BM-CM-DM-EM-FM-GM-HM-IM-JM-KM-LM-MM-NM-OM-PM-QM-RM-SM-TM-U\ M-VM-WM-XM-YM-ZM-[M-\\M-]M-^M-_M-`M-aM-bM-cM-dM-eM-fM-gM-hM-iM-jM-kM-lM-mM-nM-oM-\ pM-qM-rM-sM-tM-uM-vM-wM-xM-yM-zM-{M-|M-}M-~M-^?", ); // spell-checker:enable } #[test] fn test_numbered_lines_no_trailing_newline() { // spell-checker:disable new_ucmd!() .args(&["nonewline.txt", "alpha.txt", "-n"]) .succeeds() .stdout_only( " 1\ttext without a trailing newlineabcde\n 2\tfghij\n \ 3\tklmno\n 4\tpqrst\n 5\tuvwxyz\n", ); // spell-checker:enable } #[test] fn test_stdin_show_nonprinting() { for same_param in ["-v", "--show-nonprinting", "--show-non"] { new_ucmd!() .args(&[same_param]) .pipe_in("\t\0\n") .succeeds() .stdout_only("\t^@\n"); } } #[test] fn test_stdin_show_tabs() { for same_param in ["-T", "--show-tabs", "--show-ta"] { new_ucmd!() .args(&[same_param]) .pipe_in("\t\0\n") .succeeds() .stdout_only("^I\0\n"); } } #[test] fn test_stdin_show_ends() { for same_param in ["-E", "--show-ends", "--show-e"] { new_ucmd!() .args(&[same_param, "-"]) .pipe_in("\t\0\n\t") .succeeds() .stdout_only("\t\0$\n\t"); } } #[test] fn squeeze_all_files() { // empty lines at the end of a file are "squeezed" together with empty lines at the beginning let (at, mut ucmd) = at_and_ucmd!(); at.write("input1", "a\n\n"); at.write("input2", "\n\nb"); ucmd.args(&["input1", "input2", "-s"]) .succeeds() .stdout_only("a\n\nb"); } #[test] fn test_show_ends_crlf() { new_ucmd!() .arg("-E") .pipe_in("a\nb\r\n\rc\n\r\n\r") .succeeds() .stdout_only("a$\nb^M$\n\rc$\n^M$\n\r"); } #[test] fn test_stdin_show_all() { for same_param in ["-A", "--show-all", "--show-a"] { new_ucmd!() .args(&[same_param]) .pipe_in("\t\0\n") .succeeds() .stdout_only("^I^@$\n"); } } #[test] fn test_stdin_nonprinting_and_endofline() { new_ucmd!() .args(&["-e"]) .pipe_in("\t\0\n") .succeeds() .stdout_only("\t^@$\n"); } #[test] fn test_stdin_nonprinting_and_tabs() { new_ucmd!() .args(&["-t"]) .pipe_in("\t\0\n") .succeeds() .stdout_only("^I^@\n"); } #[test] fn test_stdin_squeeze_blank() { for same_param in ["-s", "--squeeze-blank", "--squeeze"] { new_ucmd!() .arg(same_param) .pipe_in("\n\na\n\n\n\n\nb\n\n\n") .succeeds() .stdout_only("\na\n\nb\n\n"); } } #[test] fn test_stdin_number_non_blank() { // spell-checker:disable-next-line for same_param in ["-b", "--number-nonblank", "--number-non"] { new_ucmd!() .arg(same_param) .arg("-") .pipe_in("\na\nb\n\n\nc") .succeeds() .stdout_only("\n 1\ta\n 2\tb\n\n\n 3\tc"); } } #[test] fn test_non_blank_overrides_number() { // spell-checker:disable-next-line for same_param in ["-b", "--number-nonblank"] { new_ucmd!() .args(&[same_param, "-"]) .pipe_in("\na\nb\n\n\nc") .succeeds() .stdout_only("\n 1\ta\n 2\tb\n\n\n 3\tc"); } } #[test] fn test_squeeze_blank_before_numbering() { for same_param in ["-s", "--squeeze-blank"] { new_ucmd!() .args(&[same_param, "-n", "-"]) .pipe_in("a\n\n\nb") .succeeds() .stdout_only(" 1\ta\n 2\t\n 3\tb"); } } /// This tests reading from Unix character devices #[test] #[cfg(unix)] fn test_dev_random() { let mut buf = [0; 2048]; #[cfg(any(target_os = "linux", target_os = "android"))] const DEV_RANDOM: &str = "/dev/urandom"; #[cfg(not(any(target_os = "linux", target_os = "android")))] const DEV_RANDOM: &str = "/dev/random"; let mut proc = new_ucmd!().args(&[DEV_RANDOM]).run_no_wait(); let mut proc_stdout = proc.stdout.take().unwrap(); proc_stdout.read_exact(&mut buf).unwrap(); let num_zeroes = buf.iter().fold(0, |mut acc, &n| { if n == 0 { acc += 1; } acc }); // The probability of more than 512 zero bytes is essentially zero if the // output is truly random. assert!(num_zeroes < 512); proc.kill().unwrap(); } /// Reading from /dev/full should return an infinite amount of zero bytes. /// Wikipedia says there is support on Linux, FreeBSD, and NetBSD. #[test] #[cfg(any(target_os = "linux", target_os = "freebsd", target_os = "netbsd"))] fn test_dev_full() { let mut buf = [0; 2048]; let mut proc = new_ucmd!().args(&["/dev/full"]).run_no_wait(); let mut proc_stdout = proc.stdout.take().unwrap(); let expected = [0; 2048]; proc_stdout.read_exact(&mut buf).unwrap(); assert_eq!(&buf[..], &expected[..]); proc.kill().unwrap(); } #[test] #[cfg(any(target_os = "linux", target_os = "freebsd", target_os = "netbsd"))] fn test_dev_full_show_all() { let mut buf = [0; 2048]; let mut proc = new_ucmd!().args(&["-A", "/dev/full"]).run_no_wait(); let mut proc_stdout = proc.stdout.take().unwrap(); proc_stdout.read_exact(&mut buf).unwrap(); let expected: Vec = (0..buf.len()) .map(|n| if n & 1 == 0 { b'^' } else { b'@' }) .collect(); assert_eq!(&buf[..], &expected[..]); proc.kill().unwrap(); } #[test] #[cfg(unix)] #[ignore] fn test_domain_socket() { use std::io::prelude::*; use std::sync::{Arc, Barrier}; use std::thread; use unix_socket::UnixListener; let dir = tempfile::Builder::new() .prefix("unix_socket") .tempdir() .expect("failed to create dir"); let socket_path = dir.path().join("sock"); let listener = UnixListener::bind(&socket_path).expect("failed to create socket"); // use a barrier to ensure we don't run cat before the listener is setup let barrier = Arc::new(Barrier::new(2)); let barrier2 = Arc::clone(&barrier); let thread = thread::spawn(move || { let mut stream = listener.accept().expect("failed to accept connection").0; barrier2.wait(); stream .write_all(b"a\tb") .expect("failed to write test data"); }); let child = new_ucmd!().args(&[socket_path]).run_no_wait(); barrier.wait(); let stdout = &child.wait_with_output().unwrap().stdout; let output = String::from_utf8_lossy(stdout); assert_eq!("a\tb", output); thread.join().unwrap(); } #[test] fn test_write_to_self_empty() { // it's ok if the input file is also the output file if it's empty let s = TestScenario::new(util_name!()); let file_path = s.fixtures.plus("file.txt"); let file = OpenOptions::new() .create_new(true) .write(true) .append(true) .open(&file_path) .unwrap(); s.ucmd().set_stdout(file).arg(&file_path).succeeds(); } #[test] fn test_write_to_self() { let s = TestScenario::new(util_name!()); let file_path = s.fixtures.plus("first_file"); s.fixtures.write("second_file", "second_file_content."); let file = OpenOptions::new() .create_new(true) .write(true) .append(true) .open(&file_path) .unwrap(); s.fixtures.append("first_file", "first_file_content."); s.ucmd() .set_stdout(file) .arg("first_file") .arg("first_file") .arg("second_file") .fails() .code_is(2) .stderr_only("cat: first_file: input file is output file\ncat: first_file: input file is output file"); assert_eq!( s.fixtures.read("first_file"), "first_file_content.second_file_content." ); }