// This file is part of the uutils coreutils package. // // For the full copyright and license information, please view the LICENSE // file that was distributed with this source code. // spell-checker:ignore udev pcent iuse itotal iused ipcent use std::collections::HashSet; use crate::common::util::TestScenario; #[test] fn test_invalid_arg() { new_ucmd!().arg("--definitely-invalid").fails().code_is(1); } #[test] fn test_df_compatible_no_size_arg() { new_ucmd!().arg("-a").succeeds(); } #[test] fn test_df_shortened_long_argument() { new_ucmd!().arg("--a").succeeds(); } #[test] fn test_df_compatible() { new_ucmd!().arg("-ah").succeeds(); } #[test] fn test_df_compatible_type() { new_ucmd!().arg("-aT").succeeds(); } #[test] fn test_df_compatible_si() { new_ucmd!().arg("-aH").succeeds(); } #[test] fn test_df_compatible_sync() { new_ucmd!().arg("--sync").succeeds(); } #[test] fn test_df_arguments_override_themselves() { new_ucmd!().args(&["--help", "--help"]).succeeds(); new_ucmd!().arg("-aa").succeeds(); new_ucmd!() .args(&["--block-size=3000", "--block-size=1000"]) .succeeds(); new_ucmd!().args(&["--total", "--total"]).succeeds(); new_ucmd!().arg("-hh").succeeds(); new_ucmd!().arg("-HH").succeeds(); new_ucmd!().arg("-ii").succeeds(); new_ucmd!().arg("-kk").succeeds(); new_ucmd!().arg("-ll").succeeds(); new_ucmd!().args(&["--no-sync", "--no-sync"]).succeeds(); new_ucmd!().arg("-PP").succeeds(); new_ucmd!().args(&["--sync", "--sync"]).succeeds(); new_ucmd!().arg("-TT").succeeds(); } #[test] fn test_df_conflicts_overriding() { new_ucmd!().arg("-hH").succeeds(); new_ucmd!().arg("-Hh").succeeds(); new_ucmd!().args(&["--no-sync", "--sync"]).succeeds(); new_ucmd!().args(&["--sync", "--no-sync"]).succeeds(); new_ucmd!().args(&["-k", "--block-size=3000"]).succeeds(); new_ucmd!().args(&["--block-size=3000", "-k"]).succeeds(); } #[test] fn test_df_output_arg() { new_ucmd!().args(&["--output=source", "-iPT"]).fails(); new_ucmd!().args(&["-iPT", "--output=source"]).fails(); new_ucmd!() .args(&["--output=source", "--output=source"]) .fails(); } #[test] fn test_df_output() { let expected = if cfg!(target_os = "macos") { vec![ "Filesystem", "Size", "Used", "Avail", "Capacity", "Use%", "Mounted", "on", ] } else { vec![ "Filesystem", "Size", "Used", "Avail", "Use%", "Mounted", "on", ] }; let output = new_ucmd!() .arg("-H") .arg("--total") .succeeds() .stdout_move_str(); let actual = output.lines().take(1).collect::>()[0]; let actual = actual.split_whitespace().collect::>(); assert_eq!(actual, expected); } #[test] fn test_df_output_overridden() { let expected = if cfg!(target_os = "macos") { vec![ "Filesystem", "Size", "Used", "Avail", "Capacity", "Use%", "Mounted", "on", ] } else { vec![ "Filesystem", "Size", "Used", "Avail", "Use%", "Mounted", "on", ] }; let output = new_ucmd!() .arg("-hH") .arg("--total") .succeeds() .stdout_move_str(); let actual = output.lines().take(1).collect::>()[0]; let actual = actual.split_whitespace().collect::>(); assert_eq!(actual, expected); } #[test] fn test_default_headers() { let expected = if cfg!(target_os = "macos") { vec![ "Filesystem", "1K-blocks", "Used", "Available", "Capacity", "Use%", "Mounted", "on", ] } else { vec![ "Filesystem", "1K-blocks", "Used", "Available", "Use%", "Mounted", "on", ] }; let output = new_ucmd!().succeeds().stdout_move_str(); let actual = output.lines().take(1).collect::>()[0]; let actual = actual.split_whitespace().collect::>(); assert_eq!(actual, expected); } #[test] fn test_precedence_of_human_readable_and_si_header_over_output_header() { let args = ["-h", "--human-readable", "-H", "--si"]; for arg in args { let output = new_ucmd!() .args(&[arg, "--output=size"]) .succeeds() .stdout_move_str(); let header = output.lines().next().unwrap(); assert_eq!(header, " Size"); } } #[test] fn test_used_header_starts_with_space() { let output = new_ucmd!() // using -h here to ensure the width of the column's content is <= 4 .args(&["-h", "--output=used"]) .succeeds() .stdout_move_str(); let header = output.lines().next().unwrap(); assert_eq!(header, " Used"); } #[test] #[cfg(not(target_os = "freebsd"))] // FIXME: fix this test for FreeBSD fn test_total_option_with_single_dash() { // These should fail because `-total` should have two dashes, // not just one. new_ucmd!().arg("-total").fails(); } /// Test that the order of rows in the table does not change across executions. #[test] fn test_order_same() { let output1 = new_ucmd!() .arg("--output=source") .succeeds() .stdout_move_str(); let output2 = new_ucmd!() .arg("--output=source") .succeeds() .stdout_move_str(); assert_eq!(output1, output2); } /// Test of mount point begin repeated #[cfg(all(unix, not(target_os = "freebsd")))] // FIXME: fix this test for FreeBSD #[test] fn test_output_mp_repeat() { let output1 = new_ucmd!().arg("/").arg("/").succeeds().stdout_move_str(); let output1: Vec = output1 .lines() .map(|l| String::from(l.split_once(' ').unwrap().0)) .collect(); assert_eq!(3, output1.len()); assert_eq!(output1[1], output1[2]); } #[test] fn test_output_conflict_options() { for option in ["-i", "-T", "-P"] { new_ucmd!().arg("--output=source").arg(option).fails(); } } #[test] fn test_output_option() { new_ucmd!().arg("--output").succeeds(); new_ucmd!().arg("--output=source,target").succeeds(); new_ucmd!().arg("--output=invalid_option").fails(); } #[test] #[cfg(not(target_os = "freebsd"))] // FIXME: fix this test for FreeBSD fn test_output_option_without_equals_sign() { new_ucmd!().arg("--output").arg(".").succeeds(); } #[test] fn test_type_option() { let fs_types = new_ucmd!() .arg("--output=fstype") .succeeds() .stdout_move_str(); let fs_type = fs_types.lines().nth(1).unwrap().trim(); new_ucmd!().args(&["-t", fs_type]).succeeds(); new_ucmd!() .args(&["-t", fs_type, "-t", "nonexisting"]) .succeeds(); new_ucmd!() .args(&["-t", "nonexisting"]) .fails() .stderr_contains("no file systems processed"); } #[test] #[cfg(not(any(target_os = "freebsd", target_os = "windows")))] // FIXME: fix test for FreeBSD & Win fn test_type_option_with_file() { let fs_type = new_ucmd!() .args(&["--output=fstype", "."]) .succeeds() .stdout_move_str(); let fs_type = fs_type.lines().nth(1).unwrap().trim(); new_ucmd!().args(&["-t", fs_type, "."]).succeeds(); new_ucmd!() .args(&["-t", "nonexisting", "."]) .fails() .stderr_contains("no file systems processed"); let fs_types = new_ucmd!() .arg("--output=fstype") .succeeds() .stdout_move_str(); let fs_types: Vec<_> = fs_types .lines() .skip(1) .filter(|t| t.trim() != fs_type && t.trim() != "") .collect(); if !fs_types.is_empty() { new_ucmd!() .args(&["-t", fs_types[0], "."]) .fails() .stderr_contains("no file systems processed"); } } #[test] fn test_exclude_type_option() { new_ucmd!().args(&["-x", "ext4", "-x", "ext3"]).succeeds(); } #[test] fn test_exclude_all_types() { let fs_types = new_ucmd!() .arg("--output=fstype") .succeeds() .stdout_move_str(); let fs_types: HashSet<_> = fs_types.lines().skip(1).collect(); let mut args = Vec::new(); for fs_type in fs_types { args.push("-x"); args.push(fs_type.trim_end()); } new_ucmd!() .args(&args) .fails() .stderr_contains("no file systems processed"); } #[test] fn test_include_exclude_same_type() { new_ucmd!() .args(&["-t", "ext4", "-x", "ext4"]) .fails() .stderr_is("df: file system type 'ext4' both selected and excluded\n"); new_ucmd!() .args(&["-t", "ext4", "-x", "ext4", "-t", "ext3", "-x", "ext3"]) .fails() .stderr_is( "df: file system type 'ext4' both selected and excluded\n\ df: file system type 'ext3' both selected and excluded\n", ); } #[test] fn test_total() { // Example output: // // Filesystem 1K-blocks Used Available Use% Mounted on // udev 3858016 0 3858016 0% /dev // ... // /dev/loop14 63488 63488 0 100% /snap/core20/1361 // total 258775268 98099712 148220200 40% - let output = new_ucmd!().arg("--total").succeeds().stdout_move_str(); // Skip the header line. let lines: Vec<&str> = output.lines().skip(1).collect(); // Parse the values from the last row. let last_line = lines.last().unwrap(); let mut iter = last_line.split_whitespace(); assert_eq!(iter.next().unwrap(), "total"); let reported_total_size = iter.next().unwrap().parse().unwrap(); let reported_total_used = iter.next().unwrap().parse().unwrap(); let reported_total_avail = iter.next().unwrap().parse().unwrap(); // Loop over each row except the last, computing the sum of each column. let mut computed_total_size = 0; let mut computed_total_used = 0; let mut computed_total_avail = 0; let n = lines.len(); for line in &lines[..n - 1] { let mut iter = line.split_whitespace(); iter.next().unwrap(); computed_total_size += iter.next().unwrap().parse::().unwrap(); computed_total_used += iter.next().unwrap().parse::().unwrap(); computed_total_avail += iter.next().unwrap().parse::().unwrap(); } // Check that the sum of each column matches the reported value in // the last row. assert_eq!(computed_total_size, reported_total_size); assert_eq!(computed_total_used, reported_total_used); assert_eq!(computed_total_avail, reported_total_avail); } /// Test that the "total" label appears in the correct column. /// /// The "total" label should appear in the "source" column, or in the /// "target" column if "source" is not visible. #[cfg(not(target_os = "freebsd"))] // FIXME: fix this test for FreeBSD #[test] fn test_total_label_in_correct_column() { let output = new_ucmd!() .args(&["--output=source", "--total", "."]) .succeeds() .stdout_move_str(); let last_line = output.lines().last().unwrap(); assert_eq!(last_line.trim(), "total"); let output = new_ucmd!() .args(&["--output=target", "--total", "."]) .succeeds() .stdout_move_str(); let last_line = output.lines().last().unwrap(); assert_eq!(last_line.trim(), "total"); let output = new_ucmd!() .args(&["--output=source,target", "--total", "."]) .succeeds() .stdout_move_str(); let last_line = output.lines().last().unwrap(); assert_eq!( last_line.split_whitespace().collect::>(), vec!["total", "-"] ); let output = new_ucmd!() .args(&["--output=target,source", "--total", "."]) .succeeds() .stdout_move_str(); let last_line = output.lines().last().unwrap(); assert_eq!( last_line.split_whitespace().collect::>(), vec!["-", "total"] ); } #[test] fn test_use_percentage() { let output = new_ucmd!() // set block size = 1, otherwise the returned values for // "used" and "avail" will be rounded. And using them to calculate // the "percentage" values might lead to a mismatch with the returned // "percentage" values. .args(&["--total", "--output=used,avail,pcent", "--block-size=1"]) .succeeds() .stdout_move_str(); // Skip the header line. let lines: Vec<&str> = output.lines().skip(1).collect(); for line in lines { let mut iter = line.split_whitespace(); let reported_used = iter.next().unwrap().parse::().unwrap(); let reported_avail = iter.next().unwrap().parse::().unwrap(); let reported_percentage = iter.next().unwrap(); let reported_percentage = reported_percentage[..reported_percentage.len() - 1] .parse::() .unwrap(); let computed_percentage = (100.0 * (reported_used / (reported_used + reported_avail))).ceil() as u8; assert_eq!(computed_percentage, reported_percentage); } } #[test] fn test_iuse_percentage() { let output = new_ucmd!() .args(&["--total", "--output=itotal,iused,ipcent"]) .succeeds() .stdout_move_str(); // Skip the header line. let lines: Vec<&str> = output.lines().skip(1).collect(); for line in lines { let mut iter = line.split_whitespace(); let reported_inodes = iter.next().unwrap().parse::().unwrap(); let reported_iused = iter.next().unwrap().parse::().unwrap(); let reported_percentage = iter.next().unwrap(); if reported_percentage == "-" { assert_eq!(0.0, reported_inodes); assert_eq!(0.0, reported_iused); } else { let reported_percentage = reported_percentage[..reported_percentage.len() - 1] .parse::() .unwrap(); let computed_percentage = (100.0 * (reported_iused / reported_inodes)).ceil() as u8; assert_eq!(computed_percentage, reported_percentage); } } } #[test] fn test_default_block_size() { let output = new_ucmd!() .arg("--output=size") .succeeds() .stdout_move_str(); let header = output.lines().next().unwrap().trim().to_string(); assert_eq!(header, "1K-blocks"); let output = new_ucmd!() .arg("--output=size") .env("POSIXLY_CORRECT", "1") .succeeds() .stdout_move_str(); let header = output.lines().next().unwrap().trim().to_string(); assert_eq!(header, "512B-blocks"); } #[test] fn test_default_block_size_in_posix_portability_mode() { fn get_header(s: &str) -> String { s.lines() .next() .unwrap() .to_string() .split_whitespace() .nth(1) .unwrap() .trim() .to_string() } let output = new_ucmd!().arg("-P").succeeds().stdout_move_str(); assert_eq!(get_header(&output), "1024-blocks"); let output = new_ucmd!() .arg("-P") .env("POSIXLY_CORRECT", "1") .succeeds() .stdout_move_str(); assert_eq!(get_header(&output), "512-blocks"); } #[test] fn test_block_size_1024() { fn get_header(block_size: u64) -> String { let output = new_ucmd!() .args(&["-B", &format!("{block_size}"), "--output=size"]) .succeeds() .stdout_move_str(); output.lines().next().unwrap().trim().to_string() } assert_eq!(get_header(1024), "1K-blocks"); assert_eq!(get_header(2048), "2K-blocks"); assert_eq!(get_header(4096), "4K-blocks"); assert_eq!(get_header(1024 * 1024), "1M-blocks"); assert_eq!(get_header(2 * 1024 * 1024), "2M-blocks"); assert_eq!(get_header(1024 * 1024 * 1024), "1G-blocks"); assert_eq!(get_header(34 * 1024 * 1024 * 1024), "34G-blocks"); // multiples of both 1024 and 1000 assert_eq!(get_header(128_000), "128kB-blocks"); assert_eq!(get_header(1000 * 1024), "1.1MB-blocks"); assert_eq!(get_header(1_000_000_000_000), "1TB-blocks"); } #[test] fn test_block_size_with_suffix() { fn get_header(block_size: &str) -> String { let output = new_ucmd!() .args(&["-B", block_size, "--output=size"]) .succeeds() .stdout_move_str(); output.lines().next().unwrap().trim().to_string() } assert_eq!(get_header("K"), "1K-blocks"); assert_eq!(get_header("M"), "1M-blocks"); assert_eq!(get_header("G"), "1G-blocks"); assert_eq!(get_header("1K"), "1K-blocks"); assert_eq!(get_header("1M"), "1M-blocks"); assert_eq!(get_header("1G"), "1G-blocks"); assert_eq!(get_header("1KiB"), "1K-blocks"); assert_eq!(get_header("1MiB"), "1M-blocks"); assert_eq!(get_header("1GiB"), "1G-blocks"); assert_eq!(get_header("1KB"), "1kB-blocks"); assert_eq!(get_header("1MB"), "1MB-blocks"); assert_eq!(get_header("1GB"), "1GB-blocks"); } #[test] fn test_block_size_in_posix_portability_mode() { fn get_header(block_size: &str) -> String { let output = new_ucmd!() .args(&["-P", "-B", block_size]) .succeeds() .stdout_move_str(); output .lines() .next() .unwrap() .to_string() .split_whitespace() .nth(1) .unwrap() .trim() .to_string() } assert_eq!(get_header("1024"), "1024-blocks"); assert_eq!(get_header("1K"), "1024-blocks"); assert_eq!(get_header("1KB"), "1000-blocks"); assert_eq!(get_header("1M"), "1048576-blocks"); assert_eq!(get_header("1MB"), "1000000-blocks"); } #[test] fn test_block_size_from_env() { fn get_header(env_var: &str, env_value: &str) -> String { let output = new_ucmd!() .arg("--output=size") .env(env_var, env_value) .succeeds() .stdout_move_str(); output.lines().next().unwrap().trim().to_string() } assert_eq!(get_header("DF_BLOCK_SIZE", "111"), "111B-blocks"); assert_eq!(get_header("BLOCK_SIZE", "222"), "222B-blocks"); assert_eq!(get_header("BLOCKSIZE", "333"), "333B-blocks"); } #[test] fn test_block_size_from_env_precedences() { fn get_header(one: (&str, &str), two: (&str, &str)) -> String { let (k1, v1) = one; let (k2, v2) = two; let output = new_ucmd!() .arg("--output=size") .env(k1, v1) .env(k2, v2) .succeeds() .stdout_move_str(); output.lines().next().unwrap().trim().to_string() } let df_block_size = ("DF_BLOCK_SIZE", "111"); let block_size = ("BLOCK_SIZE", "222"); let blocksize = ("BLOCKSIZE", "333"); assert_eq!(get_header(df_block_size, block_size), "111B-blocks"); assert_eq!(get_header(df_block_size, blocksize), "111B-blocks"); assert_eq!(get_header(block_size, blocksize), "222B-blocks"); } #[test] fn test_precedence_of_block_size_arg_over_env() { let output = new_ucmd!() .args(&["-B", "999", "--output=size"]) .env("DF_BLOCK_SIZE", "111") .succeeds() .stdout_move_str(); let header = output.lines().next().unwrap().trim().to_string(); assert_eq!(header, "999B-blocks"); } #[test] fn test_invalid_block_size_from_env() { let default_block_size_header = "1K-blocks"; let output = new_ucmd!() .arg("--output=size") .env("DF_BLOCK_SIZE", "invalid") .succeeds() .stdout_move_str(); let header = output.lines().next().unwrap().trim().to_string(); assert_eq!(header, default_block_size_header); let output = new_ucmd!() .arg("--output=size") .env("DF_BLOCK_SIZE", "invalid") .env("BLOCK_SIZE", "222") .succeeds() .stdout_move_str(); let header = output.lines().next().unwrap().trim().to_string(); assert_eq!(header, default_block_size_header); } #[test] fn test_ignore_block_size_from_env_in_posix_portability_mode() { let default_block_size_header = "1024-blocks"; let output = new_ucmd!() .arg("-P") .env("DF_BLOCK_SIZE", "111") .env("BLOCK_SIZE", "222") .env("BLOCKSIZE", "333") .succeeds() .stdout_move_str(); let header = output .lines() .next() .unwrap() .to_string() .split_whitespace() .nth(1) .unwrap() .trim() .to_string(); assert_eq!(header, default_block_size_header); } #[test] fn test_too_large_block_size() { fn run_command(size: &str) { new_ucmd!() .arg(format!("--block-size={size}")) .fails() .stderr_contains(format!("--block-size argument '{size}' too large")); } let too_large_sizes = vec!["1Y", "1Z"]; for size in too_large_sizes { run_command(size); } } #[test] fn test_invalid_block_size() { new_ucmd!() .arg("--block-size=x") .fails() .stderr_contains("invalid --block-size argument 'x'"); new_ucmd!() .arg("--block-size=0") .fails() .stderr_contains("invalid --block-size argument '0'"); new_ucmd!() .arg("--block-size=0K") .fails() .stderr_contains("invalid --block-size argument '0K'"); } #[test] fn test_invalid_block_size_suffix() { new_ucmd!() .arg("--block-size=1H") .fails() .stderr_contains("invalid suffix in --block-size argument '1H'"); new_ucmd!() .arg("--block-size=1.2") .fails() .stderr_contains("invalid suffix in --block-size argument '1.2'"); } #[test] fn test_output_selects_columns() { let output = new_ucmd!() .args(&["--output=source"]) .succeeds() .stdout_move_str(); assert_eq!(output.lines().next().unwrap(), "Filesystem"); let output = new_ucmd!() .args(&["--output=source,target"]) .succeeds() .stdout_move_str(); assert_eq!( output .lines() .next() .unwrap() .split_whitespace() .collect::>(), vec!["Filesystem", "Mounted", "on"] ); let output = new_ucmd!() .args(&["--output=source,target,used"]) .succeeds() .stdout_move_str(); assert_eq!( output .lines() .next() .unwrap() .split_whitespace() .collect::>(), vec!["Filesystem", "Mounted", "on", "Used"] ); } #[test] fn test_output_multiple_occurrences() { let output = new_ucmd!() .args(&["--output=source", "--output=target"]) .succeeds() .stdout_move_str(); assert_eq!( output .lines() .next() .unwrap() .split_whitespace() .collect::>(), vec!["Filesystem", "Mounted", "on"] ); } #[test] fn test_output_file_all_filesystems() { // When run with no positional arguments, `df` lets "-" represent // the "File" entry for each row. let output = new_ucmd!() .arg("--output=file") .succeeds() .stdout_move_str(); let mut lines = output.lines(); assert_eq!(lines.next().unwrap(), "File"); for line in lines { assert_eq!(line, "-"); } } #[test] #[cfg(not(any(target_os = "freebsd", target_os = "windows")))] // FIXME: fix test for FreeBSD & Win fn test_output_file_specific_files() { // Create three files. let (at, mut ucmd) = at_and_ucmd!(); at.touch("a"); at.touch("b"); at.touch("c"); // When run with positional arguments, the filesystems should // appear in the "File" column. let output = ucmd .args(&["--output=file", "a", "b", "c"]) .succeeds() .stdout_move_str(); let actual: Vec<&str> = output.lines().collect(); assert_eq!(actual, vec!["File", "a", "b", "c"]); } #[test] #[cfg(not(any(target_os = "freebsd", target_os = "windows")))] // FIXME: fix test for FreeBSD & Win fn test_file_column_width_if_filename_contains_unicode_chars() { let (at, mut ucmd) = at_and_ucmd!(); at.touch("äöü.txt"); let output = ucmd .args(&["--output=file,target", "äöü.txt"]) .succeeds() .stdout_move_str(); let actual = output.lines().next().unwrap(); // expected width: 7 chars (length of äöü.txt) + 1 char (column separator) assert_eq!(actual, "File Mounted on"); } #[test] fn test_output_field_no_more_than_once() { new_ucmd!() .arg("--output=target,source,target") .fails() .usage_error("option --output: field 'target' used more than once"); } #[test] #[cfg(not(any(target_os = "freebsd", target_os = "windows")))] // FIXME: fix test for FreeBSD & Win fn test_nonexistent_file() { new_ucmd!() .arg("does-not-exist") .fails() .stderr_only("df: does-not-exist: No such file or directory\n"); new_ucmd!() .args(&["--output=file", "does-not-exist", "."]) .fails() .stderr_is("df: does-not-exist: No such file or directory\n") .stdout_is("File\n.\n"); }