// 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. #![allow(clippy::similar_names)] use crate::common::util::TestScenario; use std::path::PathBuf; #[test] fn test_invalid_arg() { new_ucmd!().arg("--definitely-invalid").fails().code_is(1); } #[test] fn test_symlink_existing_file() { let (at, mut ucmd) = at_and_ucmd!(); let file = "test_symlink_existing_file"; let link = "test_symlink_existing_file_link"; at.touch(file); ucmd.args(&["-s", file, link]).succeeds().no_stderr(); assert!(at.file_exists(file)); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), file); } #[test] fn test_symlink_dangling_file() { let (at, mut ucmd) = at_and_ucmd!(); let file = "test_symlink_dangling_file"; let link = "test_symlink_dangling_file_link"; ucmd.args(&["-s", file, link]).succeeds().no_stderr(); assert!(!at.file_exists(file)); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), file); } #[test] fn test_symlink_existing_directory() { let (at, mut ucmd) = at_and_ucmd!(); let dir = "test_symlink_existing_dir"; let link = "test_symlink_existing_dir_link"; at.mkdir(dir); ucmd.args(&["-s", dir, link]).succeeds().no_stderr(); assert!(at.dir_exists(dir)); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), dir); } #[test] fn test_symlink_dangling_directory() { let (at, mut ucmd) = at_and_ucmd!(); let dir = "test_symlink_dangling_dir"; let link = "test_symlink_dangling_dir_link"; ucmd.args(&["-s", dir, link]).succeeds().no_stderr(); assert!(!at.dir_exists(dir)); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), dir); } #[test] fn test_symlink_circular() { let (at, mut ucmd) = at_and_ucmd!(); let link = "test_symlink_circular"; ucmd.args(&["-s", link]).succeeds().no_stderr(); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), link); } #[test] fn test_symlink_do_not_overwrite() { let (at, mut ucmd) = at_and_ucmd!(); let file = "test_symlink_do_not_overwrite"; let link = "test_symlink_do_not_overwrite_link"; at.touch(file); at.touch(link); ucmd.args(&["-s", file, link]).fails(); assert!(at.file_exists(file)); assert!(at.file_exists(link)); assert!(!at.is_symlink(link)); } #[test] fn test_symlink_overwrite_force() { let (at, mut ucmd) = at_and_ucmd!(); let file_a = "test_symlink_overwrite_force_a"; let file_b = "test_symlink_overwrite_force_b"; let link = "test_symlink_overwrite_force_link"; // Create symlink at.symlink_file(file_a, link); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), file_a); // Force overwrite of existing symlink ucmd.args(&["--force", "-s", file_b, link]).succeeds(); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), file_b); } #[test] fn test_symlink_interactive() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let file = "test_symlink_interactive_file"; let link = "test_symlink_interactive_file_link"; at.touch(file); at.touch(link); scene .ucmd() .args(&["-i", "-s", file, link]) .pipe_in("n") .fails() .no_stdout(); assert!(at.file_exists(file)); assert!(!at.is_symlink(link)); scene .ucmd() .args(&["-i", "-s", file, link]) .pipe_in("Yesh") // spell-checker:disable-line .succeeds() .no_stdout(); assert!(at.file_exists(file)); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), file); } #[test] fn test_symlink_simple_backup() { let (at, mut ucmd) = at_and_ucmd!(); let file = "test_symlink_simple_backup"; let link = "test_symlink_simple_backup_link"; at.touch(file); at.symlink_file(file, link); assert!(at.file_exists(file)); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), file); ucmd.args(&["-b", "-s", file, link]).succeeds().no_stderr(); assert!(at.file_exists(file)); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), file); let backup = &format!("{link}~"); assert!(at.is_symlink(backup)); assert_eq!(at.resolve_link(backup), file); } #[test] fn test_symlink_custom_backup_suffix() { let (at, mut ucmd) = at_and_ucmd!(); let file = "test_symlink_custom_backup_suffix"; let link = "test_symlink_custom_backup_suffix_link"; let suffix = "super-suffix-of-the-century"; at.touch(file); at.symlink_file(file, link); assert!(at.file_exists(file)); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), file); let arg = &format!("--suffix={suffix}"); ucmd.args(&["-b", arg, "-s", file, link]) .succeeds() .no_stderr(); assert!(at.file_exists(file)); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), file); let backup = &format!("{link}{suffix}"); assert!(at.is_symlink(backup)); assert_eq!(at.resolve_link(backup), file); } #[test] fn test_symlink_custom_backup_suffix_hyphen_value() { let (at, mut ucmd) = at_and_ucmd!(); let file = "test_symlink_custom_backup_suffix"; let link = "test_symlink_custom_backup_suffix_link"; let suffix = "-v"; at.touch(file); at.symlink_file(file, link); assert!(at.file_exists(file)); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), file); let arg = &format!("--suffix={suffix}"); ucmd.args(&["-b", arg, "-s", file, link]) .succeeds() .no_stderr(); assert!(at.file_exists(file)); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), file); let backup = &format!("{link}{suffix}"); assert!(at.is_symlink(backup)); assert_eq!(at.resolve_link(backup), file); } #[test] fn test_symlink_backup_numbering() { let (at, mut ucmd) = at_and_ucmd!(); let file = "test_symlink_backup_numbering"; let link = "test_symlink_backup_numbering_link"; at.touch(file); at.symlink_file(file, link); assert!(at.file_exists(file)); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), file); ucmd.args(&["-s", "--backup=t", file, link]) .succeeds() .no_stderr(); assert!(at.file_exists(file)); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), file); let backup = &format!("{link}.~1~"); assert!(at.is_symlink(backup)); assert_eq!(at.resolve_link(backup), file); } #[test] fn test_symlink_existing_backup() { let (at, mut ucmd) = at_and_ucmd!(); let file = "test_symlink_existing_backup"; let link = "test_symlink_existing_backup_link"; let link_backup = "test_symlink_existing_backup_link.~1~"; let resulting_backup = "test_symlink_existing_backup_link.~2~"; // Create symlink and verify at.touch(file); at.symlink_file(file, link); assert!(at.file_exists(file)); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), file); // Create backup symlink and verify at.symlink_file(file, link_backup); assert!(at.file_exists(file)); assert!(at.is_symlink(link_backup)); assert_eq!(at.resolve_link(link_backup), file); ucmd.args(&["-s", "--backup=nil", file, link]) .succeeds() .no_stderr(); assert!(at.file_exists(file)); assert!(at.is_symlink(link_backup)); assert_eq!(at.resolve_link(link_backup), file); assert!(at.is_symlink(resulting_backup)); assert_eq!(at.resolve_link(resulting_backup), file); } #[test] fn test_symlink_target_dir() { let (at, mut ucmd) = at_and_ucmd!(); let dir = "test_ln_target_dir_dir"; let file_a = "test_ln_target_dir_file_a"; let file_b = "test_ln_target_dir_file_b"; at.touch(file_a); at.touch(file_b); at.mkdir(dir); ucmd.args(&["-s", "-t", dir, file_a, file_b]) .succeeds() .no_stderr(); let file_a_link = &format!("{dir}/{file_a}"); assert!(at.is_symlink(file_a_link)); assert_eq!(at.resolve_link(file_a_link), file_a); let file_b_link = &format!("{dir}/{file_b}"); assert!(at.is_symlink(file_b_link)); assert_eq!(at.resolve_link(file_b_link), file_b); } #[test] fn test_symlink_target_dir_from_dir() { let (at, mut ucmd) = at_and_ucmd!(); let dir = "test_ln_target_dir_dir"; let from_dir = "test_ln_target_dir_from_dir"; let filename_a = "test_ln_target_dir_file_a"; let filename_b = "test_ln_target_dir_file_b"; let file_a = &format!("{from_dir}/{filename_a}"); let file_b = &format!("{from_dir}/{filename_b}"); at.mkdir(from_dir); at.touch(file_a); at.touch(file_b); at.mkdir(dir); ucmd.args(&["-s", "-t", dir, file_a, file_b]) .succeeds() .no_stderr(); let file_a_link = &format!("{dir}/{filename_a}"); assert!(at.is_symlink(file_a_link)); assert_eq!(&at.resolve_link(file_a_link), file_a); let file_b_link = &format!("{dir}/{filename_b}"); assert!(at.is_symlink(file_b_link)); assert_eq!(&at.resolve_link(file_b_link), file_b); } #[test] fn test_symlink_overwrite_dir_fail() { let (at, mut ucmd) = at_and_ucmd!(); let path_a = "test_symlink_overwrite_dir_a"; let path_b = "test_symlink_overwrite_dir_b"; at.touch(path_a); at.mkdir(path_b); assert!(!ucmd .args(&["-s", "-T", path_a, path_b]) .fails() .stderr_str() .is_empty()); } #[test] fn test_symlink_errors() { let (at, mut ucmd) = at_and_ucmd!(); let dir = "test_symlink_errors_dir"; let file_a = "test_symlink_errors_file_a"; let file_b = "test_symlink_errors_file_b"; at.mkdir(dir); at.touch(file_a); at.touch(file_b); // $ ln -T -t a b // ln: cannot combine --target-directory (-t) and --no-target-directory (-T) ucmd.args(&["-T", "-t", dir, file_a, file_b]).fails(); } #[test] fn test_symlink_verbose() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let file_a = "test_symlink_verbose_file_a"; let file_b = "test_symlink_verbose_file_b"; at.touch(file_a); scene .ucmd() .args(&["-s", "-v", file_a, file_b]) .succeeds() .stdout_only(format!("'{file_b}' -> '{file_a}'\n")); at.touch(file_b); scene .ucmd() .args(&["-s", "-v", "-b", file_a, file_b]) .succeeds() .stdout_only(format!("'{file_b}' -> '{file_a}' (backup: '{file_b}~')\n")); } #[test] fn test_symlink_target_only() { let (at, mut ucmd) = at_and_ucmd!(); let dir = "test_symlink_target_only"; at.mkdir(dir); assert!(!ucmd .args(&["-s", "-t", dir]) .fails() .stderr_str() .is_empty()); } #[test] fn test_symlink_implicit_target_dir() { let (at, mut ucmd) = at_and_ucmd!(); let dir = "test_symlink_implicit_target_dir"; // On windows, slashes aren't allowed in symlink targets, so use // PathBuf to construct `file` instead of simple "dir/file". let filename = "test_symlink_implicit_target_file"; let path = PathBuf::from(dir).join(filename); let file = &path.to_string_lossy(); at.mkdir(dir); at.touch(&path); ucmd.args(&["-s", file]).succeeds().no_stderr(); assert!(at.file_exists(filename)); assert!(at.is_symlink(filename)); assert_eq!(at.resolve_link(filename), *file); } #[test] fn test_symlink_to_dir_2args() { let (at, mut ucmd) = at_and_ucmd!(); let filename = "test_symlink_to_dir_2args_file"; let from_file = &format!("{}/{}", at.as_string(), filename); let to_dir = "test_symlink_to_dir_2args_to_dir"; let to_file = &format!("{to_dir}/{filename}"); at.mkdir(to_dir); at.touch(from_file); ucmd.args(&["-s", from_file, to_dir]).succeeds().no_stderr(); assert!(at.file_exists(to_file)); assert!(at.is_symlink(to_file)); assert_eq!(at.resolve_link(to_file), filename); } #[test] fn test_symlink_missing_destination() { let (at, mut ucmd) = at_and_ucmd!(); let file = "test_symlink_missing_destination"; at.touch(file); ucmd.args(&["-s", "-T", file]).fails().stderr_is(format!( "ln: missing destination file operand after '{file}'\n" )); } #[test] fn test_symlink_relative() { let (at, mut ucmd) = at_and_ucmd!(); let file_a = "test_symlink_relative_a"; let link = "test_symlink_relative_link"; at.touch(file_a); // relative symlink ucmd.args(&["-r", "-s", file_a, link]).succeeds(); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), file_a); } #[test] fn test_symlink_relative_path() { let (at, mut ucmd) = at_and_ucmd!(); let dir = "test_symlink_existing_dir"; let file_a = "test_symlink_relative_a"; let link = "test_symlink_relative_link"; let multi_dir = "test_symlink_existing_dir/../test_symlink_existing_dir/../test_symlink_existing_dir/../"; let p = PathBuf::from(multi_dir).join(file_a); at.mkdir(dir); // relative symlink // Thanks to -r, all the ../ should be resolved to a single file ucmd.args(&["-r", "-s", "-v", &p.to_string_lossy(), link]) .succeeds() .stdout_only(format!("'{link}' -> '{file_a}'\n")); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), file_a); // Run the same command without -r to verify that we keep the full // crazy path let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["-s", "-v", &p.to_string_lossy(), link]) .succeeds() .stdout_only(format!("'{}' -> '{}'\n", link, &p.to_string_lossy())); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), p.to_string_lossy()); } #[test] fn test_symlink_relative_dir() { let (at, mut ucmd) = at_and_ucmd!(); let dir = "test_symlink_existing_dir"; let link = "test_symlink_existing_dir_link"; at.mkdir(dir); ucmd.args(&["-s", "-r", dir, link]).succeeds().no_stderr(); assert!(at.dir_exists(dir)); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), dir); } #[test] fn test_symlink_no_deref_dir() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let dir1 = "foo"; let dir2 = "bar"; let link = "baz"; at.mkdir(dir1); at.mkdir(dir2); scene .ucmd() .args(&["-s", dir2, link]) .succeeds() .no_stderr(); assert!(at.dir_exists(dir1)); assert!(at.dir_exists(dir2)); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), dir2); // try the normal behavior scene .ucmd() .args(&["-sf", dir1, link]) .succeeds() .no_stderr(); assert!(at.dir_exists(dir1)); assert!(at.dir_exists(dir2)); assert!(at.is_symlink("baz/foo")); assert_eq!(at.resolve_link("baz/foo"), dir1); // Doesn't work without the force scene.ucmd().args(&["-sn", dir1, link]).fails(); // Try with the no-deref scene.ucmd().args(&["-sfn", dir1, link]).succeeds(); assert!(at.dir_exists(dir1)); assert!(at.dir_exists(dir2)); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), dir1); } #[test] fn test_symlink_no_deref_file() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let file1 = "foo"; let file2 = "bar"; let link = "baz"; at.touch(file1); at.touch(file2); scene .ucmd() .args(&["-s", file2, link]) .succeeds() .no_stderr(); assert!(at.file_exists(file1)); assert!(at.file_exists(file2)); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), file2); // try the normal behavior scene .ucmd() .args(&["-sf", file1, link]) .succeeds() .no_stderr(); assert!(at.file_exists(file1)); assert!(at.file_exists(file2)); assert!(at.is_symlink("baz")); assert_eq!(at.resolve_link("baz"), file1); // Doesn't work without the force scene.ucmd().args(&["-sn", file1, link]).fails(); // Try with the no-deref scene.ucmd().args(&["-sfn", file1, link]).succeeds(); assert!(at.file_exists(file1)); assert!(at.file_exists(file2)); assert!(at.is_symlink(link)); assert_eq!(at.resolve_link(link), file1); } #[test] fn test_relative_requires_symbolic() { new_ucmd!().args(&["-r", "foo", "bar"]).fails(); } #[test] fn test_relative_dst_already_symlink() { let (at, mut ucmd) = at_and_ucmd!(); at.touch("file1"); at.symlink_file("file1", "file2"); ucmd.arg("-srf").arg("file1").arg("file2").succeeds(); at.is_symlink("file2"); } #[test] fn test_relative_src_already_symlink() { let (at, mut ucmd) = at_and_ucmd!(); at.touch("file1"); at.symlink_file("file1", "file2"); ucmd.arg("-sr").arg("file2").arg("file3").succeeds(); assert!(at.resolve_link("file3").ends_with("file1")); } #[test] fn test_relative_recursive() { let (at, mut ucmd) = at_and_ucmd!(); at.mkdir("dir"); ucmd.args(&["-sr", "dir", "dir/recursive"]).succeeds(); assert_eq!(at.resolve_link("dir/recursive"), "."); } #[test] fn test_backup_same_file() { let (at, mut ucmd) = at_and_ucmd!(); at.touch("file1"); ucmd.args(&["--backup", "file1", "./file1"]) .fails() .stderr_contains("n: 'file1' and './file1' are the same file"); } #[test] fn test_backup_force() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.write("a", "a\n"); at.write("b", "b2\n"); scene.ucmd().args(&["-s", "b", "b~"]).succeeds().no_stderr(); assert!(at.file_exists("a")); assert!(at.file_exists("b")); assert!(at.file_exists("b~")); scene .ucmd() .args(&["-s", "-f", "--b=simple", "a", "b"]) .succeeds() .no_stderr(); assert!(at.file_exists("a")); assert!(at.file_exists("b")); assert!(at.file_exists("b~")); assert_eq!(at.read("a"), "a\n"); assert_eq!(at.read("b"), "a\n"); // we should have the same content as b as we had time to do a backup assert_eq!(at.read("b~"), "b2\n"); } #[test] fn test_hard_logical() { let (at, mut ucmd) = at_and_ucmd!(); let file_a = "file1"; let link = "symlink1"; let target = "hard-to-a"; let target2 = "hard-to-a2"; at.touch(file_a); at.symlink_file(file_a, link); ucmd.args(&["-P", "-L", link, target]); assert!(!at.is_symlink(target)); ucmd.args(&["-P", "-L", "-s", link, target2]); assert!(!at.is_symlink(target2)); } #[test] fn test_hard_logical_non_exit_fail() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let file_a = "/no-such-dir"; let link = "hard-to-dangle"; at.relative_symlink_dir(file_a, "no-such-dir"); scene .ucmd() .args(&["-L", "no-such-dir", link]) .fails() .stderr_contains("failed to access 'no-such-dir'"); } #[test] fn test_hard_logical_dir_fail() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let dir = "d"; at.mkdir(dir); let target = "link-to-dir"; scene.ucmd().args(&["-s", dir, target]); scene .ucmd() .args(&["-L", target, "hard-to-dir-link"]) .fails() .stderr_contains("failed to create hard link 'link-to-dir'"); } #[test] fn test_symlink_remove_existing_same_src_and_dest() { let (at, mut ucmd) = at_and_ucmd!(); at.touch("a"); at.write("a", "sample"); ucmd.args(&["-sf", "a", "a"]) .fails() .code_is(1) .stderr_contains("'a' and 'a' are the same file"); assert!(at.file_exists("a") && !at.symlink_exists("a")); assert_eq!(at.read("a"), "sample"); } #[test] #[cfg(not(target_os = "android"))] fn test_ln_seen_file() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.mkdir("a"); at.mkdir("b"); at.mkdir("c"); at.write("a/f", "a"); at.write("b/f", "b"); let result = ts.ucmd().arg("a/f").arg("b/f").arg("c").fails(); #[cfg(not(unix))] assert!(result .stderr_str() .contains("will not overwrite just-created 'c\\f' with 'b/f'")); #[cfg(unix)] assert!(result .stderr_str() .contains("will not overwrite just-created 'c/f' with 'b/f'")); assert!(at.plus("c").join("f").exists()); // b/f still exists assert!(at.plus("b").join("f").exists()); // a/f still exists assert!(at.plus("a").join("f").exists()); #[cfg(unix)] { use std::os::unix::fs::MetadataExt; // Check inode numbers let inode_a_f = at.plus("a").join("f").metadata().unwrap().ino(); let inode_b_f = at.plus("b").join("f").metadata().unwrap().ino(); let inode_c_f = at.plus("c").join("f").metadata().unwrap().ino(); assert_eq!( inode_a_f, inode_c_f, "Inode numbers of a/f and c/f should be equal" ); assert_ne!( inode_b_f, inode_c_f, "Inode numbers of b/f and c/f should not be equal" ); } }