// 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 (flags) reflink (fs) tmpfs (linux) rlimit Rlim NOFILE clob btrfs neve ROOTDIR USERDIR procfs outfile uufs xattrs // spell-checker:ignore bdfl hlsl IRWXO IRWXG use crate::common::util::TestScenario; #[cfg(not(windows))] use std::fs::set_permissions; #[cfg(not(windows))] use std::os::unix::fs; #[cfg(unix)] use std::os::unix::fs::MetadataExt; #[cfg(unix)] use std::os::unix::fs::PermissionsExt; #[cfg(windows)] use std::os::windows::fs::symlink_file; #[cfg(not(windows))] use std::path::Path; #[cfg(target_os = "linux")] use std::path::PathBuf; #[cfg(any(target_os = "linux", target_os = "android"))] use filetime::FileTime; #[cfg(target_os = "linux")] use std::ffi::OsString; #[cfg(any(target_os = "linux", target_os = "android"))] use std::fs as std_fs; use std::thread::sleep; use std::time::Duration; #[cfg(any(target_os = "linux", target_os = "android"))] #[cfg(feature = "truncate")] use crate::common::util::PATH; static TEST_EXISTING_FILE: &str = "existing_file.txt"; static TEST_HELLO_WORLD_SOURCE: &str = "hello_world.txt"; static TEST_HELLO_WORLD_SOURCE_SYMLINK: &str = "hello_world.txt.link"; static TEST_HELLO_WORLD_DEST: &str = "copy_of_hello_world.txt"; static TEST_HELLO_WORLD_DEST_SYMLINK: &str = "copy_of_hello_world.txt.link"; static TEST_HOW_ARE_YOU_SOURCE: &str = "how_are_you.txt"; static TEST_HOW_ARE_YOU_DEST: &str = "hello_dir/how_are_you.txt"; static TEST_COPY_TO_FOLDER: &str = "hello_dir/"; static TEST_COPY_TO_FOLDER_FILE: &str = "hello_dir/hello_world.txt"; static TEST_COPY_FROM_FOLDER: &str = "hello_dir_with_file/"; static TEST_COPY_FROM_FOLDER_FILE: &str = "hello_dir_with_file/hello_world.txt"; static TEST_COPY_TO_FOLDER_NEW: &str = "hello_dir_new"; static TEST_COPY_TO_FOLDER_NEW_FILE: &str = "hello_dir_new/hello_world.txt"; #[cfg(any(target_os = "linux", target_os = "android", target_os = "freebsd"))] static TEST_MOUNT_COPY_FROM_FOLDER: &str = "dir_with_mount"; #[cfg(any(target_os = "linux", target_os = "android", target_os = "freebsd"))] static TEST_MOUNT_MOUNTPOINT: &str = "mount"; #[cfg(any(target_os = "linux", target_os = "android", target_os = "freebsd"))] static TEST_MOUNT_OTHER_FILESYSTEM_FILE: &str = "mount/DO_NOT_copy_me.txt"; #[cfg(unix)] static TEST_NONEXISTENT_FILE: &str = "nonexistent_file.txt"; #[cfg(all( unix, not(any(target_os = "android", target_os = "macos", target_os = "openbsd")) ))] use crate::common::util::compare_xattrs; /// Assert that mode, ownership, and permissions of two metadata objects match. #[cfg(all(not(windows), not(target_os = "freebsd")))] macro_rules! assert_metadata_eq { ($m1:expr, $m2:expr) => {{ assert_eq!($m1.mode(), $m2.mode(), "mode is different"); assert_eq!($m1.uid(), $m2.uid(), "uid is different"); assert_eq!($m1.atime(), $m2.atime(), "atime is different"); assert_eq!( $m1.atime_nsec(), $m2.atime_nsec(), "atime_nsec is different" ); assert_eq!($m1.mtime(), $m2.mtime(), "mtime is different"); assert_eq!( $m1.mtime_nsec(), $m2.mtime_nsec(), "mtime_nsec is different" ); }}; } #[test] fn test_cp_cp() { let (at, mut ucmd) = at_and_ucmd!(); // Invoke our binary to make the copy. ucmd.arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HELLO_WORLD_DEST) .succeeds(); // Check the content of the destination file that was copied. assert_eq!(at.read(TEST_HELLO_WORLD_DEST), "Hello, World!\n"); } #[test] fn test_cp_existing_target() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_EXISTING_FILE) .succeeds(); // Check the content of the destination file assert_eq!(at.read(TEST_EXISTING_FILE), "Hello, World!\n"); // No backup should have been created assert!(!at.file_exists(format!("{TEST_EXISTING_FILE}~"))); } #[test] fn test_cp_duplicate_files() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_COPY_TO_FOLDER) .succeeds() .stderr_contains(format!( "source file '{TEST_HELLO_WORLD_SOURCE}' specified more than once" )); assert_eq!(at.read(TEST_COPY_TO_FOLDER_FILE), "Hello, World!\n"); } #[test] fn test_cp_same_file() { let (at, mut ucmd) = at_and_ucmd!(); let file = "a"; at.touch(file); ucmd.arg(file) .arg(file) .fails() .code_is(1) .stderr_contains(format!("'{file}' and '{file}' are the same file")); } #[test] fn test_cp_multiple_files_target_is_file() { new_ucmd!() .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_EXISTING_FILE) .fails() .stderr_contains("not a directory"); } #[test] fn test_cp_directory_not_recursive() { new_ucmd!() .arg(TEST_COPY_TO_FOLDER) .arg(TEST_HELLO_WORLD_DEST) .fails() .stderr_is(format!( "cp: -r not specified; omitting directory '{TEST_COPY_TO_FOLDER}'\n" )); } #[test] fn test_cp_multiple_files() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HOW_ARE_YOU_SOURCE) .arg(TEST_COPY_TO_FOLDER) .succeeds(); assert_eq!(at.read(TEST_COPY_TO_FOLDER_FILE), "Hello, World!\n"); assert_eq!(at.read(TEST_HOW_ARE_YOU_DEST), "How are you?\n"); } #[test] // FixME: for MacOS, this has intermittent failures; track repair progress at GH:uutils/coreutils/issues/1590 #[cfg(not(target_os = "macos"))] fn test_cp_recurse() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg("-r") .arg(TEST_COPY_FROM_FOLDER) .arg(TEST_COPY_TO_FOLDER_NEW) .succeeds(); // Check the content of the destination file that was copied. assert_eq!(at.read(TEST_COPY_TO_FOLDER_NEW_FILE), "Hello, World!\n"); } #[test] #[cfg(not(target_os = "macos"))] fn test_cp_recurse_several() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg("-r") .arg("-r") .arg(TEST_COPY_FROM_FOLDER) .arg(TEST_COPY_TO_FOLDER_NEW) .succeeds(); // Check the content of the destination file that was copied. assert_eq!(at.read(TEST_COPY_TO_FOLDER_NEW_FILE), "Hello, World!\n"); } #[test] fn test_cp_with_dirs_t() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg("-t") .arg(TEST_COPY_TO_FOLDER) .arg(TEST_HELLO_WORLD_SOURCE) .succeeds(); assert_eq!(at.read(TEST_COPY_TO_FOLDER_FILE), "Hello, World!\n"); } #[test] // FixME: for MacOS, this has intermittent failures; track repair progress at GH:uutils/coreutils/issues/1590 #[cfg(not(target_os = "macos"))] fn test_cp_with_dirs() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; scene .ucmd() .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_COPY_TO_FOLDER) .succeeds(); assert_eq!(at.read(TEST_COPY_TO_FOLDER_FILE), "Hello, World!\n"); scene .ucmd() .arg(TEST_COPY_FROM_FOLDER_FILE) .arg(TEST_HELLO_WORLD_DEST) .succeeds(); assert_eq!(at.read(TEST_HELLO_WORLD_DEST), "Hello, World!\n"); } #[test] fn test_cp_arg_target_directory() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg(TEST_HELLO_WORLD_SOURCE) .arg("-t") .arg(TEST_COPY_TO_FOLDER) .succeeds(); assert_eq!(at.read(TEST_COPY_TO_FOLDER_FILE), "Hello, World!\n"); } #[test] fn test_cp_arg_no_target_directory() { new_ucmd!() .arg(TEST_HELLO_WORLD_SOURCE) .arg("-v") .arg("-T") .arg(TEST_COPY_TO_FOLDER) .fails() .stderr_contains("cannot overwrite directory"); } #[test] fn test_cp_arg_no_target_directory_with_recursive() { let (at, mut ucmd) = at_and_ucmd!(); at.mkdir("dir"); at.mkdir("dir2"); at.touch("dir/a"); at.touch("dir/b"); ucmd.arg("-rT").arg("dir").arg("dir2").succeeds(); assert!(at.plus("dir2").join("a").exists()); assert!(at.plus("dir2").join("b").exists()); assert!(!at.plus("dir2").join("dir").exists()); } #[test] fn test_cp_target_directory_is_file() { new_ucmd!() .arg("-t") .arg(TEST_HOW_ARE_YOU_SOURCE) .arg(TEST_HELLO_WORLD_SOURCE) .fails() .stderr_contains(format!("'{TEST_HOW_ARE_YOU_SOURCE}' is not a directory")); } #[test] fn test_cp_arg_update_interactive_error() { new_ucmd!() .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HOW_ARE_YOU_SOURCE) .arg("-i") .fails() .no_stdout(); } #[test] fn test_cp_arg_update_none() { for argument in ["--update=none", "--update=non", "--update=n"] { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HOW_ARE_YOU_SOURCE) .arg(argument) .succeeds() .no_stderr() .no_stdout(); assert_eq!(at.read(TEST_HOW_ARE_YOU_SOURCE), "How are you?\n"); } } #[test] fn test_cp_arg_update_all() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HOW_ARE_YOU_SOURCE) .arg("--update=all") .succeeds() .no_stderr() .no_stdout(); assert_eq!( at.read(TEST_HOW_ARE_YOU_SOURCE), at.read(TEST_HELLO_WORLD_SOURCE) ); } #[test] fn test_cp_arg_update_older_dest_not_older_than_src() { let (at, mut ucmd) = at_and_ucmd!(); let old = "test_cp_arg_update_dest_not_older_file1"; let new = "test_cp_arg_update_dest_not_older_file2"; let old_content = "old content\n"; let new_content = "new content\n"; at.write(old, old_content); at.write(new, new_content); ucmd.arg(old) .arg(new) .arg("--update=older") .succeeds() .no_stderr() .no_stdout(); assert_eq!(at.read(new), "new content\n"); } #[test] fn test_cp_arg_update_older_dest_older_than_src() { let (at, mut ucmd) = at_and_ucmd!(); let old = "test_cp_arg_update_dest_older_file1"; let new = "test_cp_arg_update_dest_older_file2"; let old_content = "old content\n"; let new_content = "new content\n"; at.write(old, old_content); sleep(Duration::from_secs(1)); at.write(new, new_content); ucmd.arg(new) .arg(old) .arg("--update=older") .succeeds() .no_stderr() .no_stdout(); assert_eq!(at.read(old), "new content\n"); } #[test] fn test_cp_arg_update_short_no_overwrite() { // same as --update=older let (at, mut ucmd) = at_and_ucmd!(); let old = "test_cp_arg_update_short_no_overwrite_file1"; let new = "test_cp_arg_update_short_no_overwrite_file2"; let old_content = "old content\n"; let new_content = "new content\n"; at.write(old, old_content); sleep(Duration::from_secs(1)); at.write(new, new_content); ucmd.arg(old) .arg(new) .arg("-u") .succeeds() .no_stderr() .no_stdout(); assert_eq!(at.read(new), "new content\n"); } #[test] fn test_cp_arg_update_short_overwrite() { // same as --update=older let (at, mut ucmd) = at_and_ucmd!(); let old = "test_cp_arg_update_short_overwrite_file1"; let new = "test_cp_arg_update_short_overwrite_file2"; let old_content = "old content\n"; let new_content = "new content\n"; at.write(old, old_content); sleep(Duration::from_secs(1)); at.write(new, new_content); ucmd.arg(new) .arg(old) .arg("-u") .succeeds() .no_stderr() .no_stdout(); assert_eq!(at.read(old), "new content\n"); } #[test] fn test_cp_arg_update_none_then_all() { // take last if multiple update args are supplied, // update=all wins in this case let (at, mut ucmd) = at_and_ucmd!(); let old = "test_cp_arg_update_none_then_all_file1"; let new = "test_cp_arg_update_none_then_all_file2"; let old_content = "old content\n"; let new_content = "new content\n"; at.write(old, old_content); sleep(Duration::from_secs(1)); at.write(new, new_content); ucmd.arg(old) .arg(new) .arg("--update=none") .arg("--update=all") .succeeds() .no_stderr() .no_stdout(); assert_eq!(at.read(new), "old content\n"); } #[test] fn test_cp_arg_update_all_then_none() { // take last if multiple update args are supplied, // update=none wins in this case let (at, mut ucmd) = at_and_ucmd!(); let old = "test_cp_arg_update_all_then_none_file1"; let new = "test_cp_arg_update_all_then_none_file2"; let old_content = "old content\n"; let new_content = "new content\n"; at.write(old, old_content); sleep(Duration::from_secs(1)); at.write(new, new_content); ucmd.arg(old) .arg(new) .arg("--update=all") .arg("--update=none") .succeeds() .no_stderr() .no_stdout(); assert_eq!(at.read(new), "new content\n"); } #[test] fn test_cp_arg_interactive() { let (at, mut ucmd) = at_and_ucmd!(); at.touch("a"); at.touch("b"); ucmd.args(&["-i", "a", "b"]) .pipe_in("N\n") .fails() .no_stdout() .stderr_is("cp: overwrite 'b'? "); } #[test] #[cfg(not(any(target_os = "android", target_os = "freebsd", target_os = "openbsd")))] fn test_cp_arg_interactive_update_overwrite_newer() { // -u -i won't show the prompt to validate the override or not // Therefore, the error code will be 0 let (at, mut ucmd) = at_and_ucmd!(); at.touch("a"); at.touch("b"); ucmd.args(&["-i", "-u", "a", "b"]) .pipe_in("") .succeeds() .no_stdout(); // Make extra sure that closing stdin behaves identically to piping-in nothing. let (at, mut ucmd) = at_and_ucmd!(); at.touch("a"); at.touch("b"); ucmd.args(&["-i", "-u", "a", "b"]).succeeds().no_stdout(); } #[test] #[cfg(not(any(target_os = "android", target_os = "freebsd")))] fn test_cp_arg_interactive_update_overwrite_older() { // -u -i *WILL* show the prompt to validate the override. // Therefore, the error code depends on the prompt response. // Option N let (at, mut ucmd) = at_and_ucmd!(); at.touch("b"); std::thread::sleep(Duration::from_secs(1)); at.touch("a"); ucmd.args(&["-i", "-u", "a", "b"]) .pipe_in("N\n") .fails() .code_is(1) .no_stdout() .stderr_is("cp: overwrite 'b'? "); // Option Y let (at, mut ucmd) = at_and_ucmd!(); at.touch("b"); std::thread::sleep(Duration::from_secs(1)); at.touch("a"); ucmd.args(&["-i", "-u", "a", "b"]) .pipe_in("Y\n") .succeeds() .no_stdout(); } #[test] #[cfg(not(target_os = "android"))] fn test_cp_arg_interactive_verbose() { let (at, mut ucmd) = at_and_ucmd!(); at.touch("a"); at.touch("b"); ucmd.args(&["-vi", "a", "b"]) .pipe_in("N\n") .fails() .stderr_is("cp: overwrite 'b'? ") .no_stdout(); } #[test] #[cfg(not(target_os = "android"))] fn test_cp_arg_interactive_verbose_clobber() { let (at, mut ucmd) = at_and_ucmd!(); at.touch("a"); at.touch("b"); ucmd.args(&["-vin", "a", "b"]) .fails() .stderr_is("cp: not replacing 'b'\n") .no_stdout(); } #[test] #[cfg(target_os = "linux")] fn test_cp_arg_link() { use std::os::linux::fs::MetadataExt; let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg(TEST_HELLO_WORLD_SOURCE) .arg("--link") .arg(TEST_HELLO_WORLD_DEST) .succeeds(); assert_eq!(at.metadata(TEST_HELLO_WORLD_SOURCE).st_nlink(), 2); } #[test] #[cfg(target_os = "linux")] fn test_cp_arg_link_with_dest_hardlink_to_source() { use std::os::linux::fs::MetadataExt; let (at, mut ucmd) = at_and_ucmd!(); let file = "file"; let hardlink = "hardlink"; at.touch(file); at.hard_link(file, hardlink); ucmd.args(&["--link", file, hardlink]).succeeds(); assert_eq!(at.metadata(file).st_nlink(), 2); assert!(at.file_exists(file)); assert!(at.file_exists(hardlink)); } #[test] #[cfg(target_os = "linux")] fn test_cp_arg_link_with_same_file() { use std::os::linux::fs::MetadataExt; let (at, mut ucmd) = at_and_ucmd!(); let file = "file"; at.touch(file); ucmd.args(&["--link", file, file]).succeeds(); assert_eq!(at.metadata(file).st_nlink(), 1); assert!(at.file_exists(file)); } #[test] #[cfg(target_os = "linux")] fn test_cp_verbose_preserved_link_to_dir() { use std::os::linux::fs::MetadataExt; let (at, mut ucmd) = at_and_ucmd!(); let file = "file"; let hardlink = "hardlink"; let dir = "dir"; let dst_file = "dir/file"; let dst_hardlink = "dir/hardlink"; at.touch(file); at.hard_link(file, hardlink); at.mkdir(dir); ucmd.args(&["-d", "--verbose", file, hardlink, dir]) .succeeds() .stdout_is("'file' -> 'dir/file'\n'hardlink' -> 'dir/hardlink'\n"); assert!(at.file_exists(dst_file)); assert!(at.file_exists(dst_hardlink)); assert_eq!(at.metadata(dst_file).st_nlink(), 2); assert_eq!(at.metadata(dst_hardlink).st_nlink(), 2); assert_eq!( at.metadata(dst_file).st_ino(), at.metadata(dst_hardlink).st_ino() ); } #[test] fn test_cp_arg_symlink() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg(TEST_HELLO_WORLD_SOURCE) .arg("--symbolic-link") .arg(TEST_HELLO_WORLD_DEST) .succeeds(); assert!(at.is_symlink(TEST_HELLO_WORLD_DEST)); } #[test] fn test_cp_arg_no_clobber() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HOW_ARE_YOU_SOURCE) .arg("--no-clobber") .fails() .stderr_contains("not replacing"); assert_eq!(at.read(TEST_HOW_ARE_YOU_SOURCE), "How are you?\n"); } #[test] fn test_cp_arg_no_clobber_inferred_arg() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HOW_ARE_YOU_SOURCE) .arg("--no-clob") .fails(); assert_eq!(at.read(TEST_HOW_ARE_YOU_SOURCE), "How are you?\n"); } #[test] fn test_cp_arg_no_clobber_twice() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.touch("source.txt"); scene .ucmd() .arg("--no-clobber") .arg("source.txt") .arg("dest.txt") .succeeds() .no_stderr(); assert_eq!(at.read("source.txt"), ""); at.append("source.txt", "some-content"); scene .ucmd() .arg("--no-clobber") .arg("source.txt") .arg("dest.txt") .fails(); assert_eq!(at.read("source.txt"), "some-content"); // Should be empty as the "no-clobber" should keep // the previous version assert_eq!(at.read("dest.txt"), ""); } #[test] #[cfg(not(windows))] fn test_cp_arg_force() { let (at, mut ucmd) = at_and_ucmd!(); // create dest without write permissions let mut permissions = at .make_file(TEST_HELLO_WORLD_DEST) .metadata() .unwrap() .permissions(); permissions.set_readonly(true); set_permissions(at.plus(TEST_HELLO_WORLD_DEST), permissions).unwrap(); ucmd.arg(TEST_HELLO_WORLD_SOURCE) .arg("--force") .arg(TEST_HELLO_WORLD_DEST) .succeeds(); assert_eq!(at.read(TEST_HELLO_WORLD_DEST), "Hello, World!\n"); } /// TODO: write a better test that differentiates --remove-destination /// from --force. Also this test currently doesn't work on /// Windows. This test originally checked file timestamps, which /// proved to be unreliable per target / CI platform #[test] #[cfg(not(windows))] fn test_cp_arg_remove_destination() { let (at, mut ucmd) = at_and_ucmd!(); // create dest without write permissions let mut permissions = at .make_file(TEST_HELLO_WORLD_DEST) .metadata() .unwrap() .permissions(); permissions.set_readonly(true); set_permissions(at.plus(TEST_HELLO_WORLD_DEST), permissions).unwrap(); ucmd.arg(TEST_HELLO_WORLD_SOURCE) .arg("--remove-destination") .arg(TEST_HELLO_WORLD_DEST) .succeeds(); assert_eq!(at.read(TEST_HELLO_WORLD_DEST), "Hello, World!\n"); } #[test] fn test_cp_arg_backup() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HOW_ARE_YOU_SOURCE) .arg("-b") .succeeds(); assert_eq!(at.read(TEST_HOW_ARE_YOU_SOURCE), "Hello, World!\n"); assert_eq!( at.read(&format!("{TEST_HOW_ARE_YOU_SOURCE}~")), "How are you?\n" ); } #[test] fn test_cp_arg_backup_with_dest_a_symlink() { let (at, mut ucmd) = at_and_ucmd!(); let source = "source"; let source_content = "content"; let symlink = "symlink"; let original = "original"; let backup = "symlink~"; at.write(source, source_content); at.write(original, "original"); at.symlink_file(original, symlink); ucmd.arg("-b").arg(source).arg(symlink).succeeds(); assert!(!at.symlink_exists(symlink)); assert_eq!(source_content, at.read(symlink)); assert!(at.symlink_exists(backup)); assert_eq!(original, at.resolve_link(backup)); } #[test] fn test_cp_arg_backup_with_dest_a_symlink_to_source() { let (at, mut ucmd) = at_and_ucmd!(); let source = "source"; let source_content = "content"; let symlink = "symlink"; let backup = "symlink~"; at.write(source, source_content); at.symlink_file(source, symlink); ucmd.arg("-b").arg(source).arg(symlink).succeeds(); assert!(!at.symlink_exists(symlink)); assert_eq!(source_content, at.read(symlink)); assert!(at.symlink_exists(backup)); assert_eq!(source, at.resolve_link(backup)); } #[test] fn test_cp_arg_backup_with_other_args() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HOW_ARE_YOU_SOURCE) .arg("-vbL") .succeeds(); assert_eq!(at.read(TEST_HOW_ARE_YOU_SOURCE), "Hello, World!\n"); assert_eq!( at.read(&format!("{TEST_HOW_ARE_YOU_SOURCE}~")), "How are you?\n" ); } #[test] fn test_cp_arg_backup_arg_first() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg("--backup") .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HOW_ARE_YOU_SOURCE) .succeeds(); assert_eq!(at.read(TEST_HOW_ARE_YOU_SOURCE), "Hello, World!\n"); assert_eq!( at.read(&format!("{TEST_HOW_ARE_YOU_SOURCE}~")), "How are you?\n" ); } #[test] fn test_cp_arg_suffix() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg(TEST_HELLO_WORLD_SOURCE) .arg("-b") .arg("--suffix") .arg(".bak") .arg(TEST_HOW_ARE_YOU_SOURCE) .succeeds(); assert_eq!(at.read(TEST_HOW_ARE_YOU_SOURCE), "Hello, World!\n"); assert_eq!( at.read(&format!("{TEST_HOW_ARE_YOU_SOURCE}.bak")), "How are you?\n" ); } #[test] fn test_cp_arg_suffix_hyphen_value() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg(TEST_HELLO_WORLD_SOURCE) .arg("-b") .arg("--suffix") .arg("-v") .arg(TEST_HOW_ARE_YOU_SOURCE) .succeeds(); assert_eq!(at.read(TEST_HOW_ARE_YOU_SOURCE), "Hello, World!\n"); assert_eq!( at.read(&format!("{TEST_HOW_ARE_YOU_SOURCE}-v")), "How are you?\n" ); } #[test] fn test_cp_custom_backup_suffix_via_env() { let (at, mut ucmd) = at_and_ucmd!(); let suffix = "super-suffix-of-the-century"; ucmd.arg("-b") .env("SIMPLE_BACKUP_SUFFIX", suffix) .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HOW_ARE_YOU_SOURCE) .succeeds() .no_stderr(); assert_eq!(at.read(TEST_HOW_ARE_YOU_SOURCE), "Hello, World!\n"); assert_eq!( at.read(&format!("{TEST_HOW_ARE_YOU_SOURCE}{suffix}")), "How are you?\n" ); } #[test] fn test_cp_backup_numbered_with_t() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg("--backup=t") .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HOW_ARE_YOU_SOURCE) .succeeds() .no_stderr(); assert_eq!(at.read(TEST_HOW_ARE_YOU_SOURCE), "Hello, World!\n"); assert_eq!( at.read(&format!("{TEST_HOW_ARE_YOU_SOURCE}.~1~")), "How are you?\n" ); } #[test] fn test_cp_backup_numbered() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg("--backup=numbered") .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HOW_ARE_YOU_SOURCE) .succeeds() .no_stderr(); assert_eq!(at.read(TEST_HOW_ARE_YOU_SOURCE), "Hello, World!\n"); assert_eq!( at.read(&format!("{TEST_HOW_ARE_YOU_SOURCE}.~1~")), "How are you?\n" ); } #[test] fn test_cp_backup_existing() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg("--backup=existing") .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HOW_ARE_YOU_SOURCE) .succeeds() .no_stderr(); assert_eq!(at.read(TEST_HOW_ARE_YOU_SOURCE), "Hello, World!\n"); assert_eq!( at.read(&format!("{TEST_HOW_ARE_YOU_SOURCE}~")), "How are you?\n" ); } #[test] fn test_cp_backup_nil() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg("--backup=nil") .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HOW_ARE_YOU_SOURCE) .succeeds() .no_stderr(); assert_eq!(at.read(TEST_HOW_ARE_YOU_SOURCE), "Hello, World!\n"); assert_eq!( at.read(&format!("{TEST_HOW_ARE_YOU_SOURCE}~")), "How are you?\n" ); } #[test] fn test_cp_numbered_if_existing_backup_existing() { let (at, mut ucmd) = at_and_ucmd!(); let existing_backup = &format!("{TEST_HOW_ARE_YOU_SOURCE}.~1~"); at.touch(existing_backup); ucmd.arg("--backup=existing") .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HOW_ARE_YOU_SOURCE) .succeeds() .no_stderr(); assert!(at.file_exists(TEST_HOW_ARE_YOU_SOURCE)); assert!(at.file_exists(existing_backup)); assert_eq!( at.read(&format!("{TEST_HOW_ARE_YOU_SOURCE}.~2~")), "How are you?\n" ); } #[test] fn test_cp_numbered_if_existing_backup_nil() { let (at, mut ucmd) = at_and_ucmd!(); let existing_backup = &format!("{TEST_HOW_ARE_YOU_SOURCE}.~1~"); at.touch(existing_backup); ucmd.arg("--backup=nil") .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HOW_ARE_YOU_SOURCE) .succeeds() .no_stderr(); assert!(at.file_exists(TEST_HOW_ARE_YOU_SOURCE)); assert!(at.file_exists(existing_backup)); assert_eq!( at.read(&format!("{TEST_HOW_ARE_YOU_SOURCE}.~2~")), "How are you?\n" ); } #[test] fn test_cp_backup_simple() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg("--backup=simple") .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HOW_ARE_YOU_SOURCE) .succeeds() .no_stderr(); assert_eq!(at.read(TEST_HOW_ARE_YOU_SOURCE), "Hello, World!\n"); assert_eq!( at.read(&format!("{TEST_HOW_ARE_YOU_SOURCE}~")), "How are you?\n" ); } #[test] fn test_cp_backup_simple_protect_source() { let (at, mut ucmd) = at_and_ucmd!(); let source = format!("{TEST_HELLO_WORLD_SOURCE}~"); at.touch(&source); ucmd.arg("--backup=simple") .arg(&source) .arg(TEST_HELLO_WORLD_SOURCE) .fails() .stderr_only(format!( "cp: backing up '{TEST_HELLO_WORLD_SOURCE}' might destroy source; '{source}' not copied\n", )); assert_eq!(at.read(TEST_HELLO_WORLD_SOURCE), "Hello, World!\n"); assert_eq!(at.read(&source), ""); } #[test] fn test_cp_backup_never() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg("--backup=never") .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HOW_ARE_YOU_SOURCE) .succeeds() .no_stderr(); assert_eq!(at.read(TEST_HOW_ARE_YOU_SOURCE), "Hello, World!\n"); assert_eq!( at.read(&format!("{TEST_HOW_ARE_YOU_SOURCE}~")), "How are you?\n" ); } #[test] fn test_cp_backup_none() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg("--backup=none") .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HOW_ARE_YOU_SOURCE) .succeeds() .no_stderr(); assert_eq!(at.read(TEST_HOW_ARE_YOU_SOURCE), "Hello, World!\n"); assert!(!at.file_exists(format!("{TEST_HOW_ARE_YOU_SOURCE}~"))); } #[test] fn test_cp_backup_off() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg("--backup=off") .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HOW_ARE_YOU_SOURCE) .succeeds() .no_stderr(); assert_eq!(at.read(TEST_HOW_ARE_YOU_SOURCE), "Hello, World!\n"); assert!(!at.file_exists(format!("{TEST_HOW_ARE_YOU_SOURCE}~"))); } #[test] fn test_cp_backup_no_clobber_conflicting_options() { new_ucmd!() .arg("--backup") .arg("--no-clobber") .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HOW_ARE_YOU_SOURCE) .fails() .usage_error("options --backup and --no-clobber are mutually exclusive"); } #[test] fn test_cp_deref_conflicting_options() { new_ucmd!() .arg("-LP") .arg(TEST_COPY_TO_FOLDER) .arg(TEST_HELLO_WORLD_SOURCE) .fails(); } #[test] fn test_cp_deref() { let (at, mut ucmd) = at_and_ucmd!(); #[cfg(not(windows))] let _r = fs::symlink( TEST_HELLO_WORLD_SOURCE, at.subdir.join(TEST_HELLO_WORLD_SOURCE_SYMLINK), ); #[cfg(windows)] let _r = symlink_file( TEST_HELLO_WORLD_SOURCE, at.subdir.join(TEST_HELLO_WORLD_SOURCE_SYMLINK), ); //using -L option ucmd.arg("-L") .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HELLO_WORLD_SOURCE_SYMLINK) .arg(TEST_COPY_TO_FOLDER) .succeeds(); let path_to_new_symlink = at .subdir .join(TEST_COPY_TO_FOLDER) .join(TEST_HELLO_WORLD_SOURCE_SYMLINK); // unlike -P/--no-deref, we expect a file, not a link assert!(at.file_exists( path_to_new_symlink .clone() .into_os_string() .into_string() .unwrap() )); // Check the content of the destination file that was copied. assert_eq!(at.read(TEST_COPY_TO_FOLDER_FILE), "Hello, World!\n"); let path_to_check = path_to_new_symlink.to_str().unwrap(); assert_eq!(at.read(path_to_check), "Hello, World!\n"); } #[test] fn test_cp_no_deref() { let (at, mut ucmd) = at_and_ucmd!(); #[cfg(not(windows))] let _r = fs::symlink( TEST_HELLO_WORLD_SOURCE, at.subdir.join(TEST_HELLO_WORLD_SOURCE_SYMLINK), ); #[cfg(windows)] let _r = symlink_file( TEST_HELLO_WORLD_SOURCE, at.subdir.join(TEST_HELLO_WORLD_SOURCE_SYMLINK), ); //using -P option ucmd.arg("-P") .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_HELLO_WORLD_SOURCE_SYMLINK) .arg(TEST_COPY_TO_FOLDER) .succeeds(); let path_to_new_symlink = at .subdir .join(TEST_COPY_TO_FOLDER) .join(TEST_HELLO_WORLD_SOURCE_SYMLINK); assert!(at.is_symlink( &path_to_new_symlink .clone() .into_os_string() .into_string() .unwrap() )); // Check the content of the destination file that was copied. assert_eq!(at.read(TEST_COPY_TO_FOLDER_FILE), "Hello, World!\n"); let path_to_check = path_to_new_symlink.to_str().unwrap(); assert_eq!(at.read(path_to_check), "Hello, World!\n"); } #[test] fn test_cp_no_deref_link_onto_link() { let (at, mut ucmd) = at_and_ucmd!(); at.copy(TEST_HELLO_WORLD_SOURCE, TEST_HELLO_WORLD_DEST); #[cfg(not(windows))] let _r = fs::symlink( TEST_HELLO_WORLD_SOURCE, at.subdir.join(TEST_HELLO_WORLD_SOURCE_SYMLINK), ); #[cfg(windows)] let _r = symlink_file( TEST_HELLO_WORLD_SOURCE, at.subdir.join(TEST_HELLO_WORLD_SOURCE_SYMLINK), ); #[cfg(not(windows))] let _r = fs::symlink( TEST_HELLO_WORLD_DEST, at.subdir.join(TEST_HELLO_WORLD_DEST_SYMLINK), ); #[cfg(windows)] let _r = symlink_file( TEST_HELLO_WORLD_DEST, at.subdir.join(TEST_HELLO_WORLD_DEST_SYMLINK), ); ucmd.arg("-P") .arg(TEST_HELLO_WORLD_SOURCE_SYMLINK) .arg(TEST_HELLO_WORLD_DEST_SYMLINK) .succeeds(); // Ensure that the target of the destination was not modified. assert!(!at .symlink_metadata(TEST_HELLO_WORLD_DEST) .file_type() .is_symlink()); assert!(at .symlink_metadata(TEST_HELLO_WORLD_DEST_SYMLINK) .file_type() .is_symlink()); assert_eq!(at.read(TEST_HELLO_WORLD_DEST_SYMLINK), "Hello, World!\n"); } #[test] fn test_cp_strip_trailing_slashes() { let (at, mut ucmd) = at_and_ucmd!(); //using --strip-trailing-slashes option ucmd.arg("--strip-trailing-slashes") .arg(format!("{TEST_HELLO_WORLD_SOURCE}/")) .arg(TEST_HELLO_WORLD_DEST) .succeeds(); // Check the content of the destination file that was copied. assert_eq!(at.read(TEST_HELLO_WORLD_DEST), "Hello, World!\n"); } #[test] fn test_cp_parents() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg("--parents") .arg(TEST_COPY_FROM_FOLDER_FILE) .arg(TEST_COPY_TO_FOLDER) .succeeds(); assert_eq!( at.read(&format!( "{TEST_COPY_TO_FOLDER}/{TEST_COPY_FROM_FOLDER_FILE}" )), "Hello, World!\n" ); } #[test] fn test_cp_parents_multiple_files() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg("--parents") .arg(TEST_COPY_FROM_FOLDER_FILE) .arg(TEST_HOW_ARE_YOU_SOURCE) .arg(TEST_COPY_TO_FOLDER) .succeeds(); assert_eq!( at.read(&format!( "{TEST_COPY_TO_FOLDER}/{TEST_COPY_FROM_FOLDER_FILE}" )), "Hello, World!\n" ); assert_eq!( at.read(&format!("{TEST_COPY_TO_FOLDER}/{TEST_HOW_ARE_YOU_SOURCE}")), "How are you?\n" ); } #[test] fn test_cp_parents_dest_not_directory() { new_ucmd!() .arg("--parents") .arg(TEST_COPY_FROM_FOLDER_FILE) .arg(TEST_HELLO_WORLD_DEST) .fails() .stderr_contains("with --parents, the destination must be a directory"); } #[test] #[cfg(not(target_os = "openbsd"))] fn test_cp_parents_with_permissions_copy_file() { let (at, mut ucmd) = at_and_ucmd!(); let dir = "dir"; let file = "p1/p2/file"; at.mkdir(dir); at.mkdir_all("p1/p2"); at.touch(file); #[cfg(unix)] { let p1_mode = 0o0777; let p2_mode = 0o0711; let file_mode = 0o0702; at.set_mode("p1", p1_mode); at.set_mode("p1/p2", p2_mode); at.set_mode(file, file_mode); } ucmd.arg("-p") .arg("--parents") .arg(file) .arg(dir) .succeeds(); #[cfg(all(unix, not(target_os = "freebsd")))] { let p1_metadata = at.metadata("p1"); let p2_metadata = at.metadata("p1/p2"); let file_metadata = at.metadata(file); assert_metadata_eq!(p1_metadata, at.metadata("dir/p1")); assert_metadata_eq!(p2_metadata, at.metadata("dir/p1/p2")); assert_metadata_eq!(file_metadata, at.metadata("dir/p1/p2/file")); } } #[test] #[cfg(not(target_os = "openbsd"))] fn test_cp_parents_with_permissions_copy_dir() { let (at, mut ucmd) = at_and_ucmd!(); let dir1 = "dir"; let dir2 = "p1/p2"; let file = "p1/p2/file"; at.mkdir(dir1); at.mkdir_all(dir2); at.touch(file); #[cfg(unix)] { let p1_mode = 0o0777; let p2_mode = 0o0711; let file_mode = 0o0702; at.set_mode("p1", p1_mode); at.set_mode("p1/p2", p2_mode); at.set_mode(file, file_mode); } ucmd.arg("-p") .arg("--parents") .arg("-r") .arg(dir2) .arg(dir1) .succeeds(); #[cfg(all(unix, not(target_os = "freebsd")))] { let p1_metadata = at.metadata("p1"); let p2_metadata = at.metadata("p1/p2"); let file_metadata = at.metadata(file); assert_metadata_eq!(p1_metadata, at.metadata("dir/p1")); assert_metadata_eq!(p2_metadata, at.metadata("dir/p1/p2")); assert_metadata_eq!(file_metadata, at.metadata("dir/p1/p2/file")); } } #[test] #[cfg(unix)] fn test_cp_writable_special_file_permissions() { new_ucmd!().arg("/dev/null").arg("/dev/zero").succeeds(); } #[test] #[cfg(unix)] fn test_cp_issue_1665() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg("/dev/null").arg("foo").succeeds(); assert!(at.file_exists("foo")); assert_eq!(at.read("foo"), ""); } #[test] #[cfg(not(target_os = "openbsd"))] fn test_cp_preserve_no_args() { let (at, mut ucmd) = at_and_ucmd!(); let src_file = "a"; let dst_file = "b"; // Prepare the source file at.touch(src_file); #[cfg(unix)] at.set_mode(src_file, 0o0500); // Copy ucmd.arg(src_file) .arg(dst_file) .arg("--preserve") .succeeds(); #[cfg(all(unix, not(target_os = "freebsd")))] { // Assert that the mode, ownership, and timestamps are preserved // NOTICE: the ownership is not modified on the src file, because that requires root permissions let metadata_src = at.metadata(src_file); let metadata_dst = at.metadata(dst_file); assert_metadata_eq!(metadata_src, metadata_dst); } } #[test] #[cfg(not(target_os = "openbsd"))] fn test_cp_preserve_no_args_before_opts() { let (at, mut ucmd) = at_and_ucmd!(); let src_file = "a"; let dst_file = "b"; // Prepare the source file at.touch(src_file); #[cfg(unix)] at.set_mode(src_file, 0o0500); // Copy ucmd.arg("--preserve") .arg(src_file) .arg(dst_file) .succeeds(); #[cfg(all(unix, not(target_os = "freebsd")))] { // Assert that the mode, ownership, and timestamps are preserved // NOTICE: the ownership is not modified on the src file, because that requires root permissions let metadata_src = at.metadata(src_file); let metadata_dst = at.metadata(dst_file); assert_metadata_eq!(metadata_src, metadata_dst); } } #[test] fn test_cp_preserve_all() { for argument in ["--preserve=all", "--preserve=al"] { let (at, mut ucmd) = at_and_ucmd!(); let src_file = "a"; let dst_file = "b"; // Prepare the source file at.touch(src_file); #[cfg(unix)] at.set_mode(src_file, 0o0500); // TODO: create a destination that does not allow copying of xattr and context // Copy ucmd.arg(src_file).arg(dst_file).arg(argument).succeeds(); #[cfg(all(unix, not(target_os = "freebsd")))] { // Assert that the mode, ownership, and timestamps are preserved // NOTICE: the ownership is not modified on the src file, because that requires root permissions let metadata_src = at.metadata(src_file); let metadata_dst = at.metadata(dst_file); assert_metadata_eq!(metadata_src, metadata_dst); } } } #[test] #[cfg(all(unix, not(any(target_os = "android", target_os = "openbsd"))))] fn test_cp_preserve_xattr() { let (at, mut ucmd) = at_and_ucmd!(); let src_file = "a"; let dst_file = "b"; // Prepare the source file at.touch(src_file); #[cfg(unix)] at.set_mode(src_file, 0o0500); // Sleep so that the time stats are different sleep(Duration::from_secs(1)); // TODO: create a destination that does not allow copying of xattr and context // Copy ucmd.arg(src_file) .arg(dst_file) .arg("--preserve=xattr") .succeeds(); // FIXME: macos copy keeps the original mtime #[cfg(not(any(target_os = "freebsd", target_os = "macos")))] { // Assert that the mode, ownership, and timestamps are *NOT* preserved // NOTICE: the ownership is not modified on the src file, because that requires root permissions let metadata_src = at.metadata(src_file); let metadata_dst = at.metadata(dst_file); assert_ne!(metadata_src.mtime(), metadata_dst.mtime()); // TODO: verify access time as well. It shouldn't change, however, it does change in this test. } } #[test] #[cfg(all(target_os = "linux", not(feature = "feat_selinux")))] fn test_cp_preserve_all_context_fails_on_non_selinux() { new_ucmd!() .arg(TEST_COPY_FROM_FOLDER_FILE) .arg(TEST_HELLO_WORLD_DEST) .arg("--preserve=all,context") .fails(); } #[test] fn test_cp_preserve_link_parses() { // TODO: Also check whether --preserve=link did the right thing! for argument in [ "--preserve=links", "--preserve=link", "--preserve=li", "--preserve=l", ] { new_ucmd!() .arg(argument) .arg(TEST_COPY_FROM_FOLDER_FILE) .arg(TEST_HELLO_WORLD_DEST) .succeeds() .no_output(); } } #[test] fn test_cp_preserve_invalid_rejected() { new_ucmd!() .arg("--preserve=invalid-value") .arg(TEST_COPY_FROM_FOLDER_FILE) .arg(TEST_HELLO_WORLD_DEST) .fails() .code_is(1) .no_stdout(); } #[test] #[cfg(target_os = "android")] #[ignore = "disabled until fixed"] // FIXME: the test looks to .succeed on android fn test_cp_preserve_xattr_fails_on_android() { // Because of the SELinux extended attributes used on Android, trying to copy extended // attributes has to fail in this case, since we specify `--preserve=xattr` and this puts it // into the required attributes new_ucmd!() .arg(TEST_COPY_FROM_FOLDER_FILE) .arg(TEST_HELLO_WORLD_DEST) .arg("--preserve=xattr") .fails(); } #[test] // android platform will causing stderr = cp: Permission denied (os error 13) #[cfg(not(target_os = "android"))] fn test_cp_preserve_links_case_1() { let (at, mut ucmd) = at_and_ucmd!(); at.touch("a"); at.hard_link("a", "b"); at.mkdir("c"); ucmd.arg("-d").arg("a").arg("b").arg("c").succeeds(); assert!(at.dir_exists("c")); assert!(at.plus("c").join("a").exists()); assert!(at.plus("c").join("b").exists()); #[cfg(unix)] { let metadata_a = std::fs::metadata(at.subdir.join("c").join("a")).unwrap(); let metadata_b = std::fs::metadata(at.subdir.join("c").join("b")).unwrap(); assert_eq!(metadata_a.ino(), metadata_b.ino()); } } #[test] // android platform will causing stderr = cp: Permission denied (os error 13) #[cfg(not(target_os = "android"))] fn test_cp_preserve_links_case_2() { let (at, mut ucmd) = at_and_ucmd!(); at.touch("a"); at.symlink_file("a", "b"); at.mkdir("c"); ucmd.arg("--preserve=links") .arg("-R") .arg("-H") .arg("a") .arg("b") .arg("c") .succeeds(); assert!(at.dir_exists("c")); assert!(at.plus("c").join("a").exists()); assert!(at.plus("c").join("b").exists()); #[cfg(unix)] { let metadata_a = std::fs::metadata(at.subdir.join("c").join("a")).unwrap(); let metadata_b = std::fs::metadata(at.subdir.join("c").join("b")).unwrap(); assert_eq!(metadata_a.ino(), metadata_b.ino()); } } #[test] // android platform will causing stderr = cp: Permission denied (os error 13) #[cfg(not(target_os = "android"))] fn test_cp_preserve_links_case_3() { let (at, mut ucmd) = at_and_ucmd!(); at.mkdir("d"); at.touch("d/a"); at.symlink_file("d/a", "d/b"); ucmd.arg("--preserve=links") .arg("-R") .arg("-L") .arg("d") .arg("c") .succeeds(); assert!(at.dir_exists("c")); assert!(at.plus("c").join("a").exists()); assert!(at.plus("c").join("b").exists()); #[cfg(unix)] { let metadata_a = std::fs::metadata(at.subdir.join("c").join("a")).unwrap(); let metadata_b = std::fs::metadata(at.subdir.join("c").join("b")).unwrap(); assert_eq!(metadata_a.ino(), metadata_b.ino()); } } #[test] // android platform will causing stderr = cp: Permission denied (os error 13) #[cfg(not(target_os = "android"))] fn test_cp_preserve_links_case_4() { let (at, mut ucmd) = at_and_ucmd!(); at.mkdir("d"); at.touch("d/a"); at.hard_link("d/a", "d/b"); ucmd.arg("--preserve=links") .arg("-R") .arg("-L") .arg("d") .arg("c") .succeeds(); assert!(at.dir_exists("c")); assert!(at.plus("c").join("a").exists()); assert!(at.plus("c").join("b").exists()); #[cfg(unix)] { let metadata_a = std::fs::metadata(at.subdir.join("c").join("a")).unwrap(); let metadata_b = std::fs::metadata(at.subdir.join("c").join("b")).unwrap(); assert_eq!(metadata_a.ino(), metadata_b.ino()); } } #[test] // android platform will causing stderr = cp: Permission denied (os error 13) #[cfg(not(target_os = "android"))] fn test_cp_preserve_links_case_5() { let (at, mut ucmd) = at_and_ucmd!(); at.mkdir("d"); at.touch("d/a"); at.hard_link("d/a", "d/b"); ucmd.arg("-dR") .arg("--no-preserve=links") .arg("d") .arg("c") .succeeds(); assert!(at.dir_exists("c")); assert!(at.plus("c").join("a").exists()); assert!(at.plus("c").join("b").exists()); #[cfg(unix)] { let metadata_a = std::fs::metadata(at.subdir.join("c").join("a")).unwrap(); let metadata_b = std::fs::metadata(at.subdir.join("c").join("b")).unwrap(); assert_ne!(metadata_a.ino(), metadata_b.ino()); } } #[test] // android platform will causing stderr = cp: Permission denied (os error 13) #[cfg(not(target_os = "android"))] fn test_cp_preserve_links_case_6() { let (at, mut ucmd) = at_and_ucmd!(); at.touch("a"); at.hard_link("a", "b"); at.mkdir("c"); ucmd.arg("-d").arg("a").arg("b").arg("c").succeeds(); assert!(at.dir_exists("c")); assert!(at.plus("c").join("a").exists()); assert!(at.plus("c").join("b").exists()); #[cfg(unix)] { let metadata_a = std::fs::metadata(at.subdir.join("c").join("a")).unwrap(); let metadata_b = std::fs::metadata(at.subdir.join("c").join("b")).unwrap(); assert_eq!(metadata_a.ino(), metadata_b.ino()); } } #[test] // android platform will causing stderr = cp: Permission denied (os error 13) #[cfg(not(target_os = "android"))] fn test_cp_preserve_links_case_7() { let (at, mut ucmd) = at_and_ucmd!(); at.mkdir("src"); at.touch("src/f"); at.hard_link("src/f", "src/g"); at.mkdir("dest"); at.touch("dest/g"); ucmd.arg("-n") .arg("--preserve=links") .arg("src/f") .arg("src/g") .arg("dest") .fails() .stderr_contains("not replacing"); assert!(at.dir_exists("dest")); assert!(at.plus("dest").join("f").exists()); assert!(at.plus("dest").join("g").exists()); } #[test] #[cfg(unix)] fn test_cp_no_preserve_mode() { use uucore::fs as uufs; let (at, mut ucmd) = at_and_ucmd!(); at.touch("a"); at.set_mode("a", 0o731); ucmd.arg("-a") .arg("--no-preserve=mode") .arg("a") .arg("b") .umask(0o077) .succeeds(); assert!(at.file_exists("b")); let metadata_b = std::fs::metadata(at.subdir.join("b")).unwrap(); let permission_b = uufs::display_permissions(&metadata_b, false); assert_eq!(permission_b, "rw-------".to_string()); } #[test] // For now, disable the test on Windows. Symlinks aren't well support on Windows. // It works on Unix for now and it works locally when run from a powershell #[cfg(not(windows))] fn test_cp_deref_folder_to_folder() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let path_to_new_symlink = at.plus(TEST_COPY_FROM_FOLDER); at.symlink_file( &path_to_new_symlink .join(TEST_HELLO_WORLD_SOURCE) .to_string_lossy(), &path_to_new_symlink .join(TEST_HELLO_WORLD_SOURCE_SYMLINK) .to_string_lossy(), ); //using -P -R option scene .ucmd() .arg("-L") .arg("-R") .arg("-v") .arg(TEST_COPY_FROM_FOLDER) .arg(TEST_COPY_TO_FOLDER_NEW) .succeeds(); #[cfg(not(windows))] { let scene2 = TestScenario::new("ls"); let result = scene2.cmd("ls").arg("-al").arg(path_to_new_symlink).run(); println!("ls source {}", result.stdout_str()); let path_to_new_symlink = at.subdir.join(TEST_COPY_TO_FOLDER_NEW); let result = scene2.cmd("ls").arg("-al").arg(path_to_new_symlink).run(); println!("ls dest {}", result.stdout_str()); } #[cfg(windows)] { // No action as this test is disabled but kept in case we want to // try to make it work in the future. let a = Command::new("cmd").args(&["/C", "dir"]).output(); println!("output {:#?}", a); let a = Command::new("cmd") .args(&["/C", "dir", &at.as_string()]) .output(); println!("output {:#?}", a); let a = Command::new("cmd") .args(&["/C", "dir", path_to_new_symlink.to_str().unwrap()]) .output(); println!("output {:#?}", a); let path_to_new_symlink = at.subdir.join(TEST_COPY_FROM_FOLDER); let a = Command::new("cmd") .args(&["/C", "dir", path_to_new_symlink.to_str().unwrap()]) .output(); println!("output {:#?}", a); let path_to_new_symlink = at.subdir.join(TEST_COPY_TO_FOLDER_NEW); let a = Command::new("cmd") .args(&["/C", "dir", path_to_new_symlink.to_str().unwrap()]) .output(); println!("output {:#?}", a); } let path_to_new_symlink = at .subdir .join(TEST_COPY_TO_FOLDER_NEW) .join(TEST_HELLO_WORLD_SOURCE_SYMLINK); assert!(at.file_exists( path_to_new_symlink .clone() .into_os_string() .into_string() .unwrap() )); let path_to_new = at.subdir.join(TEST_COPY_TO_FOLDER_NEW_FILE); // Check the content of the destination file that was copied. let path_to_check = path_to_new.to_str().unwrap(); assert_eq!(at.read(path_to_check), "Hello, World!\n"); // Check the content of the symlink let path_to_check = path_to_new_symlink.to_str().unwrap(); assert_eq!(at.read(path_to_check), "Hello, World!\n"); } #[test] // For now, disable the test on Windows. Symlinks aren't well support on Windows. // It works on Unix for now and it works locally when run from a powershell #[cfg(not(windows))] fn test_cp_no_deref_folder_to_folder() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let path_to_new_symlink = at.plus(TEST_COPY_FROM_FOLDER); at.symlink_file( &path_to_new_symlink .join(TEST_HELLO_WORLD_SOURCE) .to_string_lossy(), &path_to_new_symlink .join(TEST_HELLO_WORLD_SOURCE_SYMLINK) .to_string_lossy(), ); //using -P -R option scene .ucmd() .arg("-P") .arg("-R") .arg("-v") .arg(TEST_COPY_FROM_FOLDER) .arg(TEST_COPY_TO_FOLDER_NEW) .succeeds(); #[cfg(not(windows))] { let scene2 = TestScenario::new("ls"); let result = scene2.cmd("ls").arg("-al").arg(path_to_new_symlink).run(); println!("ls source {}", result.stdout_str()); let path_to_new_symlink = at.subdir.join(TEST_COPY_TO_FOLDER_NEW); let result = scene2.cmd("ls").arg("-al").arg(path_to_new_symlink).run(); println!("ls dest {}", result.stdout_str()); } #[cfg(windows)] { // No action as this test is disabled but kept in case we want to // try to make it work in the future. let a = Command::new("cmd").args(&["/C", "dir"]).output(); println!("output {:#?}", a); let a = Command::new("cmd") .args(&["/C", "dir", &at.as_string()]) .output(); println!("output {:#?}", a); let a = Command::new("cmd") .args(&["/C", "dir", path_to_new_symlink.to_str().unwrap()]) .output(); println!("output {:#?}", a); let path_to_new_symlink = at.subdir.join(TEST_COPY_FROM_FOLDER); let a = Command::new("cmd") .args(&["/C", "dir", path_to_new_symlink.to_str().unwrap()]) .output(); println!("output {:#?}", a); let path_to_new_symlink = at.subdir.join(TEST_COPY_TO_FOLDER_NEW); let a = Command::new("cmd") .args(&["/C", "dir", path_to_new_symlink.to_str().unwrap()]) .output(); println!("output {:#?}", a); } let path_to_new_symlink = at .subdir .join(TEST_COPY_TO_FOLDER_NEW) .join(TEST_HELLO_WORLD_SOURCE_SYMLINK); assert!(at.is_symlink( &path_to_new_symlink .clone() .into_os_string() .into_string() .unwrap() )); let path_to_new = at.subdir.join(TEST_COPY_TO_FOLDER_NEW_FILE); // Check the content of the destination file that was copied. let path_to_check = path_to_new.to_str().unwrap(); assert_eq!(at.read(path_to_check), "Hello, World!\n"); // Check the content of the symlink let path_to_check = path_to_new_symlink.to_str().unwrap(); assert_eq!(at.read(path_to_check), "Hello, World!\n"); } #[test] #[cfg(target_os = "linux")] fn test_cp_archive() { let (at, mut ucmd) = at_and_ucmd!(); let ts = time::OffsetDateTime::now_utc(); let previous = FileTime::from_unix_time(ts.unix_timestamp() - 3600, ts.nanosecond()); // set the file creation/modification an hour ago filetime::set_file_times( at.plus_as_string(TEST_HELLO_WORLD_SOURCE), previous, previous, ) .unwrap(); ucmd.arg(TEST_HELLO_WORLD_SOURCE) .arg("--archive") .arg(TEST_HOW_ARE_YOU_SOURCE) .succeeds(); assert_eq!(at.read(TEST_HOW_ARE_YOU_SOURCE), "Hello, World!\n"); let metadata = std_fs::metadata(at.subdir.join(TEST_HELLO_WORLD_SOURCE)).unwrap(); let creation = metadata.modified().unwrap(); let metadata2 = std_fs::metadata(at.subdir.join(TEST_HOW_ARE_YOU_SOURCE)).unwrap(); let creation2 = metadata2.modified().unwrap(); let scene2 = TestScenario::new("ls"); let result = scene2.cmd("ls").arg("-al").arg(at.subdir).succeeds(); println!("ls dest {}", result.stdout_str()); assert_eq!(creation, creation2); } #[test] #[cfg(all(unix, not(target_os = "android")))] fn test_cp_archive_recursive() { let (at, mut ucmd) = at_and_ucmd!(); // creates // dir/1 // dir/1.link => dir/1 // dir/2 // dir/2.link => dir/2 let file_1 = at.subdir.join(TEST_COPY_TO_FOLDER).join("1"); let file_1_link = at.subdir.join(TEST_COPY_TO_FOLDER).join("1.link"); let file_2 = at.subdir.join(TEST_COPY_TO_FOLDER).join("2"); let file_2_link = at.subdir.join(TEST_COPY_TO_FOLDER).join("2.link"); at.touch(file_1); at.touch(file_2); at.symlink_file("1", &file_1_link.to_string_lossy()); at.symlink_file("2", &file_2_link.to_string_lossy()); ucmd.arg("--archive") .arg(TEST_COPY_TO_FOLDER) .arg(TEST_COPY_TO_FOLDER_NEW) .succeeds(); let scene2 = TestScenario::new("ls"); let result = scene2 .cmd("ls") .arg("-al") .arg(&at.subdir.join(TEST_COPY_TO_FOLDER)) .run(); println!("ls dest {}", result.stdout_str()); let result = scene2 .cmd("ls") .arg("-al") .arg(&at.subdir.join(TEST_COPY_TO_FOLDER_NEW)) .run(); println!("ls dest {}", result.stdout_str()); assert!(at.file_exists(at.subdir.join(TEST_COPY_TO_FOLDER_NEW).join("1"))); assert!(at.file_exists(at.subdir.join(TEST_COPY_TO_FOLDER_NEW).join("2"))); assert!(at.is_symlink( &at.subdir .join(TEST_COPY_TO_FOLDER_NEW) .join("1.link") .to_string_lossy() )); assert!(at.is_symlink( &at.subdir .join(TEST_COPY_TO_FOLDER_NEW) .join("2.link") .to_string_lossy() )); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_preserve_timestamps() { let (at, mut ucmd) = at_and_ucmd!(); let ts = time::OffsetDateTime::now_utc(); let previous = FileTime::from_unix_time(ts.unix_timestamp() - 3600, ts.nanosecond()); // set the file creation/modification an hour ago filetime::set_file_times( at.plus_as_string(TEST_HELLO_WORLD_SOURCE), previous, previous, ) .unwrap(); ucmd.arg(TEST_HELLO_WORLD_SOURCE) .arg("--preserve=timestamps") .arg(TEST_HOW_ARE_YOU_SOURCE) .succeeds(); assert_eq!(at.read(TEST_HOW_ARE_YOU_SOURCE), "Hello, World!\n"); let metadata = std_fs::metadata(at.subdir.join(TEST_HELLO_WORLD_SOURCE)).unwrap(); let creation = metadata.modified().unwrap(); let metadata2 = std_fs::metadata(at.subdir.join(TEST_HOW_ARE_YOU_SOURCE)).unwrap(); let creation2 = metadata2.modified().unwrap(); let scene2 = TestScenario::new("ls"); let result = scene2.cmd("ls").arg("-al").arg(at.subdir).run(); println!("ls dest {}", result.stdout_str()); assert_eq!(creation, creation2); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_no_preserve_timestamps() { let (at, mut ucmd) = at_and_ucmd!(); let ts = time::OffsetDateTime::now_utc(); let previous = FileTime::from_unix_time(ts.unix_timestamp() - 3600, ts.nanosecond()); // set the file creation/modification an hour ago filetime::set_file_times( at.plus_as_string(TEST_HELLO_WORLD_SOURCE), previous, previous, ) .unwrap(); sleep(Duration::from_secs(3)); ucmd.arg(TEST_HELLO_WORLD_SOURCE) .arg("--no-preserve=timestamps") .arg(TEST_HOW_ARE_YOU_SOURCE) .succeeds(); assert_eq!(at.read(TEST_HOW_ARE_YOU_SOURCE), "Hello, World!\n"); let metadata = std_fs::metadata(at.subdir.join(TEST_HELLO_WORLD_SOURCE)).unwrap(); let creation = metadata.modified().unwrap(); let metadata2 = std_fs::metadata(at.subdir.join(TEST_HOW_ARE_YOU_SOURCE)).unwrap(); let creation2 = metadata2.modified().unwrap(); let scene2 = TestScenario::new("ls"); let result = scene2.cmd("ls").arg("-al").arg(at.subdir).run(); println!("ls dest {}", result.stdout_str()); println!("creation {creation:?} / {creation2:?}"); assert_ne!(creation, creation2); let res = creation.elapsed().unwrap() - creation2.elapsed().unwrap(); // Some margins with time check assert!(res.as_secs() > 3595); assert!(res.as_secs() < 3605); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_target_file_dev_null() { let (at, mut ucmd) = at_and_ucmd!(); let file1 = "/dev/null"; let file2 = "test_cp_target_file_file_i2"; at.touch(file2); ucmd.arg(file1).arg(file2).succeeds().no_stderr(); assert!(at.file_exists(file2)); } #[test] #[cfg(any(target_os = "linux", target_os = "android", target_os = "freebsd"))] fn test_cp_one_file_system() { use crate::common::util::AtPath; use walkdir::WalkDir; let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; // Test must be run as root (or with `sudo -E`) if scene.cmd("whoami").run().stdout_str() != "root\n" { return; } let at_src = AtPath::new(&at.plus(TEST_MOUNT_COPY_FROM_FOLDER)); let at_dst = AtPath::new(&at.plus(TEST_COPY_TO_FOLDER_NEW)); // Prepare the mount at_src.mkdir(TEST_MOUNT_MOUNTPOINT); let mountpoint_path = &at_src.plus_as_string(TEST_MOUNT_MOUNTPOINT); scene .cmd("mount") .arg("-t") .arg("tmpfs") .arg("-o") .arg("size=640k") // ought to be enough .arg("tmpfs") .arg(mountpoint_path) .succeeds(); at_src.touch(TEST_MOUNT_OTHER_FILESYSTEM_FILE); // Begin testing -x flag scene .ucmd() .arg("-rx") .arg(TEST_MOUNT_COPY_FROM_FOLDER) .arg(TEST_COPY_TO_FOLDER_NEW) .succeeds(); // Ditch the mount before the asserts scene.cmd("umount").arg(mountpoint_path).succeeds(); assert!(!at_dst.file_exists(TEST_MOUNT_OTHER_FILESYSTEM_FILE)); // Check if the other files were copied from the source folder hierarchy for entry in WalkDir::new(at_src.as_string()) { let entry = entry.unwrap(); let relative_src = entry .path() .strip_prefix(at_src.as_string()) .unwrap() .to_str() .unwrap(); let ft = entry.file_type(); match (ft.is_dir(), ft.is_file(), ft.is_symlink()) { (true, _, _) => assert!(at_dst.dir_exists(relative_src)), (_, true, _) => assert!(at_dst.file_exists(relative_src)), (_, _, _) => panic!(), } } } #[test] #[cfg(any(target_os = "linux", target_os = "android", target_os = "macos"))] fn test_cp_reflink_always() { let (at, mut ucmd) = at_and_ucmd!(); let result = ucmd .arg("--reflink=always") .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_EXISTING_FILE) .run(); if result.succeeded() { // Check the content of the destination file assert_eq!(at.read(TEST_EXISTING_FILE), "Hello, World!\n"); } else { // Older Linux versions do not support cloning. } } #[test] #[cfg(any(target_os = "linux", target_os = "android", target_os = "macos"))] fn test_cp_reflink_auto() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg("--reflink=auto") .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_EXISTING_FILE) .succeeds(); // Check the content of the destination file assert_eq!(at.read(TEST_EXISTING_FILE), "Hello, World!\n"); } #[test] #[cfg(any(target_os = "linux", target_os = "android", target_os = "macos"))] fn test_cp_reflink_none() { let (at, mut ucmd) = at_and_ucmd!(); let result = ucmd .arg("--reflink") .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_EXISTING_FILE) .run(); if result.succeeded() { // Check the content of the destination file assert_eq!(at.read(TEST_EXISTING_FILE), "Hello, World!\n"); } else { // Older Linux versions do not support cloning. } } #[test] #[cfg(any(target_os = "linux", target_os = "android", target_os = "macos"))] fn test_cp_reflink_never() { for argument in ["--reflink=never", "--reflink=neve", "--reflink=n"] { let (at, mut ucmd) = at_and_ucmd!(); ucmd.arg(argument) .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_EXISTING_FILE) .succeeds(); // Check the content of the destination file assert_eq!(at.read(TEST_EXISTING_FILE), "Hello, World!\n"); } } #[test] #[cfg(any(target_os = "linux", target_os = "android", target_os = "macos"))] fn test_cp_reflink_bad() { let (_, mut ucmd) = at_and_ucmd!(); let _result = ucmd .arg("--reflink=bad") .arg(TEST_HELLO_WORLD_SOURCE) .arg(TEST_EXISTING_FILE) .fails() .stderr_contains("error: invalid value 'bad' for '--reflink[=]'"); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_reflink_insufficient_permission() { let (at, mut ucmd) = at_and_ucmd!(); at.make_file("unreadable") .set_permissions(PermissionsExt::from_mode(0o000)) .unwrap(); ucmd.arg("-r") .arg("--reflink=auto") .arg("unreadable") .arg(TEST_EXISTING_FILE) .fails() .stderr_only("cp: 'unreadable' -> 'existing_file.txt': Permission denied (os error 13)\n"); } #[cfg(target_os = "linux")] #[test] fn test_closes_file_descriptors() { use procfs::process::Process; use rlimit::Resource; let me = Process::myself().unwrap(); // The test suite runs in parallel, we have pipe, sockets // opened by other tests. // So, we take in account the various fd to increase the limit let number_file_already_opened: u64 = me.fd_count().unwrap().try_into().unwrap(); let limit_fd: u64 = number_file_already_opened + 9; // For debugging purposes: for f in me.fd().unwrap() { let fd = f.unwrap(); println!("{:?} {:?}", fd, fd.mode()); } new_ucmd!() .arg("-r") .arg("--reflink=auto") .arg("dir_with_10_files/") .arg("dir_with_10_files_new/") .limit(Resource::NOFILE, limit_fd, limit_fd) .succeeds(); } #[cfg(any(target_os = "linux", target_os = "android"))] #[test] fn test_cp_sparse_never_empty() { const BUFFER_SIZE: usize = 4096 * 4; let (at, mut ucmd) = at_and_ucmd!(); let buf: [u8; BUFFER_SIZE] = [0; BUFFER_SIZE]; at.make_file("src_file1"); at.write_bytes("src_file1", &buf); ucmd.args(&["--sparse=never", "src_file1", "dst_file_non_sparse"]) .succeeds(); assert_eq!(at.read_bytes("dst_file_non_sparse"), buf); assert_eq!( at.metadata("dst_file_non_sparse").blocks() * 512, buf.len() as u64 ); } #[cfg(any(target_os = "linux", target_os = "android"))] #[test] fn test_cp_sparse_always_empty() { const BUFFER_SIZE: usize = 4096 * 4; for argument in ["--sparse=always", "--sparse=alway", "--sparse=al"] { let (at, mut ucmd) = at_and_ucmd!(); let buf: [u8; BUFFER_SIZE] = [0; BUFFER_SIZE]; at.make_file("src_file1"); at.write_bytes("src_file1", &buf); ucmd.args(&[argument, "src_file1", "dst_file_sparse"]) .succeeds(); assert_eq!(at.read_bytes("dst_file_sparse"), buf); assert_eq!(at.metadata("dst_file_sparse").blocks(), 0); } } #[cfg(any(target_os = "linux", target_os = "android"))] #[test] fn test_cp_sparse_always_non_empty() { const BUFFER_SIZE: usize = 4096 * 16 + 3; let (at, mut ucmd) = at_and_ucmd!(); let mut buf: [u8; BUFFER_SIZE] = [0; BUFFER_SIZE]; let blocks_to_touch = [buf.len() / 3, 2 * (buf.len() / 3)]; for i in blocks_to_touch { buf[i] = b'x'; } at.make_file("src_file1"); at.write_bytes("src_file1", &buf); ucmd.args(&["--sparse=always", "src_file1", "dst_file_sparse"]) .succeeds(); let touched_block_count = blocks_to_touch.len() as u64 * at.metadata("dst_file_sparse").blksize() / 512; assert_eq!(at.read_bytes("dst_file_sparse"), buf); assert_eq!(at.metadata("dst_file_sparse").blocks(), touched_block_count); } #[cfg(any(target_os = "linux", target_os = "android"))] #[test] fn test_cp_sparse_invalid_option() { let (at, mut ucmd) = at_and_ucmd!(); at.make_file("src_file1"); ucmd.args(&["--sparse=invalid", "src_file1", "dst_file"]) .fails(); } #[cfg(any(target_os = "linux", target_os = "android"))] #[test] fn test_cp_sparse_always_reflink_always() { let (at, mut ucmd) = at_and_ucmd!(); at.make_file("src_file1"); ucmd.args(&[ "--sparse=always", "--reflink=always", "src_file1", "dst_file", ]) .fails(); } #[cfg(any(target_os = "linux", target_os = "android"))] #[test] fn test_cp_sparse_never_reflink_always() { let (at, mut ucmd) = at_and_ucmd!(); at.make_file("src_file1"); ucmd.args(&[ "--sparse=never", "--reflink=always", "src_file1", "dst_file", ]) .fails(); } #[cfg(any(target_os = "linux", target_os = "android"))] #[cfg(feature = "truncate")] #[test] fn test_cp_reflink_always_override() { const DISK: &str = "disk.img"; const ROOTDIR: &str = "disk_root/"; const USERDIR: &str = "dir/"; const MOUNTPOINT: &str = "mountpoint/"; let scene = TestScenario::new(util_name!()); let src1_path: &str = &[MOUNTPOINT, USERDIR, "src1"].concat(); let src2_path: &str = &[MOUNTPOINT, USERDIR, "src2"].concat(); let dst_path: &str = &[MOUNTPOINT, USERDIR, "dst"].concat(); scene.fixtures.mkdir(ROOTDIR); scene.fixtures.mkdir([ROOTDIR, USERDIR].concat()); // Setup: // Because neither `mkfs.btrfs` not btrfs `mount` options allow us to have a mountpoint owned // by a non-root user, we want the following directory structure: // // uid | path // --------------------------- // user | . // root | └── mountpoint // user | └── dir // user | ├── src1 // user | └── src2 scene .ccmd("truncate") .args(&["-s", "128M", DISK]) .succeeds(); if !scene .cmd("env") .env("PATH", PATH) .args(&["mkfs.btrfs", "--rootdir", ROOTDIR, DISK]) .run() .succeeded() { print!("Test skipped; couldn't make btrfs disk image"); return; } scene.fixtures.mkdir(MOUNTPOINT); let mount = scene .cmd("sudo") .env("PATH", PATH) .args(&["-E", "--non-interactive", "mount", DISK, MOUNTPOINT]) .run(); if !mount.succeeded() { print!("Test skipped; requires root user"); return; } scene.fixtures.make_file(src1_path); scene.fixtures.write_bytes(src1_path, &[0x64; 8192]); scene.fixtures.make_file(src2_path); scene.fixtures.write(src2_path, "other data"); scene .ucmd() .args(&["--reflink=always", src1_path, dst_path]) .succeeds(); scene .ucmd() .args(&["--reflink=always", src2_path, dst_path]) .succeeds(); scene .cmd("sudo") .env("PATH", PATH) .args(&["-E", "--non-interactive", "umount", MOUNTPOINT]) .succeeds(); } #[test] fn test_copy_dir_symlink() { let (at, mut ucmd) = at_and_ucmd!(); at.mkdir("dir"); at.symlink_dir("dir", "dir-link"); ucmd.args(&["-r", "dir-link", "copy"]).succeeds(); assert_eq!(at.resolve_link("copy"), "dir"); } #[test] #[cfg(not(target_os = "freebsd"))] // FIXME: fix this test for FreeBSD #[cfg(feature = "ln")] fn test_copy_dir_with_symlinks() { let (at, mut ucmd) = at_and_ucmd!(); at.mkdir("dir"); at.make_file("dir/file"); TestScenario::new("ln") .ucmd() .arg("-sr") .arg(at.subdir.join("dir/file")) .arg(at.subdir.join("dir/file-link")) .succeeds(); ucmd.args(&["-r", "dir", "copy"]).succeeds(); assert_eq!(at.resolve_link("copy/file-link"), "file"); } #[test] #[cfg(not(windows))] fn test_copy_symlink_force() { let (at, mut ucmd) = at_and_ucmd!(); at.touch("file"); at.symlink_file("file", "file-link"); at.touch("copy"); ucmd.args(&["file-link", "copy", "-f", "--no-dereference"]) .succeeds(); assert_eq!(at.resolve_link("copy"), "file"); } #[test] #[cfg(unix)] #[cfg(not(target_os = "openbsd"))] fn test_no_preserve_mode() { use std::os::unix::prelude::MetadataExt; const PERMS_ALL: u32 = if cfg!(target_os = "freebsd") { // Only the superuser can set the sticky bit on a file. 0o6777 } else { 0o7777 }; let (at, mut ucmd) = at_and_ucmd!(); at.touch("file"); set_permissions(at.plus("file"), PermissionsExt::from_mode(PERMS_ALL)).unwrap(); let umask: u16 = 0o022; ucmd.arg("file") .arg("dest") .umask(libc::mode_t::from(umask)) .succeeds() .no_stderr() .no_stdout(); // remove sticky bit, setuid and setgid bit; apply umask let expected_perms = PERMS_ALL & !0o7000 & u32::from(!umask); assert_eq!( at.plus("dest").metadata().unwrap().mode() & 0o7777, expected_perms ); } #[test] #[cfg(unix)] #[cfg(not(target_os = "openbsd"))] fn test_preserve_mode() { use std::os::unix::prelude::MetadataExt; const PERMS_ALL: u32 = if cfg!(target_os = "freebsd") { // Only the superuser can set the sticky bit on a file. 0o6777 } else { 0o7777 }; let (at, mut ucmd) = at_and_ucmd!(); at.touch("file"); set_permissions(at.plus("file"), PermissionsExt::from_mode(PERMS_ALL)).unwrap(); ucmd.arg("file") .arg("dest") .arg("-p") .succeeds() .no_stderr() .no_stdout(); assert_eq!( at.plus("dest").metadata().unwrap().mode() & 0o7777, PERMS_ALL ); } #[test] fn test_canonicalize_symlink() { let (at, mut ucmd) = at_and_ucmd!(); at.mkdir("dir"); at.touch("dir/file"); at.relative_symlink_file("../dir/file", "dir/file-ln"); ucmd.arg("dir/file-ln") .arg(".") .succeeds() .no_stderr() .no_stdout(); } #[test] fn test_copy_through_just_created_symlink() { for create_t in [true, false] { let (at, mut ucmd) = at_and_ucmd!(); at.mkdir("a"); at.mkdir("b"); at.mkdir("c"); at.relative_symlink_file("../t", "a/1"); at.write("b/1", "hello"); if create_t { at.write("t", "world"); } ucmd.arg("--no-dereference") .arg("a/1") .arg("b/1") .arg("c") .fails() .stderr_only(if cfg!(not(target_os = "windows")) { "cp: will not copy 'b/1' through just-created symlink 'c/1'\n" } else { "cp: will not copy 'b/1' through just-created symlink 'c\\1'\n" }); if create_t { assert_eq!(at.read("a/1"), "world"); } } } #[test] fn test_copy_through_dangling_symlink() { let (at, mut ucmd) = at_and_ucmd!(); at.touch("file"); at.symlink_file("nonexistent", "target"); ucmd.arg("file") .arg("target") .fails() .stderr_only("cp: not writing through dangling symlink 'target'\n"); } #[test] fn test_copy_through_dangling_symlink_posixly_correct() { let (at, mut ucmd) = at_and_ucmd!(); at.touch("file"); at.symlink_file("nonexistent", "target"); ucmd.arg("file") .arg("target") .env("POSIXLY_CORRECT", "1") .succeeds(); } #[test] fn test_copy_through_dangling_symlink_no_dereference() { let (at, mut ucmd) = at_and_ucmd!(); at.symlink_file("no-such-file", "dangle"); ucmd.arg("-P") .arg("dangle") .arg("d2") .succeeds() .no_stderr() .no_stdout(); } #[test] fn test_cp_symlink_overwrite_detection() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.mkdir("good"); at.mkdir("tmp"); at.write("README", "file1"); at.write("good/README", "file2"); at.symlink_file("tmp/foo", "tmp/README"); at.touch("tmp/foo"); ts.ucmd() .arg("README") .arg("good/README") .arg("tmp") .fails() .stderr_only(if cfg!(target_os = "windows") { "cp: will not copy 'good/README' through just-created symlink 'tmp\\README'\n" } else if cfg!(target_os = "macos") { "cp: will not overwrite just-created 'tmp/README' with 'good/README'\n" } else { "cp: will not copy 'good/README' through just-created symlink 'tmp/README'\n" }); let contents = at.read("tmp/foo"); // None of the files seem to be copied in macos if cfg!(not(target_os = "macos")) { assert_eq!(contents, "file1"); } } #[test] fn test_cp_dangling_symlink_inside_directory() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.mkdir("good"); at.mkdir("tmp"); at.write("README", "file1"); at.write("good/README", "file2"); at.symlink_file("foo", "tmp/README"); ts.ucmd() .arg("README") .arg("good/README") .arg("tmp") .fails() .stderr_only( if cfg!(target_os="windows") { "cp: not writing through dangling symlink 'tmp\\README'\ncp: not writing through dangling symlink 'tmp\\README'\n" } else { "cp: not writing through dangling symlink 'tmp/README'\ncp: not writing through dangling symlink 'tmp/README'\n" } ); } /// Test for copying a dangling symbolic link and its permissions. #[cfg(not(any(target_os = "freebsd", target_os = "openbsd")))] // FIXME: fix this test for FreeBSD/OpenBSD #[test] fn test_copy_through_dangling_symlink_no_dereference_permissions() { let (at, mut ucmd) = at_and_ucmd!(); // target name link name at.symlink_file("no-such-file", "dangle"); // to check if access time and modification time didn't change sleep(Duration::from_millis(5000)); // don't dereference the link // | copy permissions, too // | | from the link // | | | to new file d2 // | | | | // V V V V ucmd.args(&["-P", "-p", "dangle", "d2"]) .succeeds() .no_stderr() .no_stdout(); assert!(at.symlink_exists("d2"), "symlink wasn't created"); // `-p` means `--preserve=mode,ownership,timestamps` #[cfg(all(unix, not(target_os = "freebsd")))] { let metadata1 = at.symlink_metadata("dangle"); let metadata2 = at.symlink_metadata("d2"); assert_metadata_eq!(metadata1, metadata2); } } #[test] fn test_copy_through_dangling_symlink_no_dereference_2() { let (at, mut ucmd) = at_and_ucmd!(); at.touch("file"); at.symlink_file("nonexistent", "target"); ucmd.args(&["-P", "file", "target"]) .fails() .stderr_only("cp: not writing through dangling symlink 'target'\n"); } /// Test that copy through a dangling symbolic link fails, even with --force. #[test] #[cfg(not(windows))] fn test_copy_through_dangling_symlink_force() { let (at, mut ucmd) = at_and_ucmd!(); at.touch("src"); at.symlink_file("no-such-file", "dest"); ucmd.args(&["--force", "src", "dest"]) .fails() .stderr_only("cp: not writing through dangling symlink 'dest'\n"); assert!(!at.file_exists("dest")); } #[test] #[cfg(unix)] fn test_cp_archive_on_nonexistent_file() { new_ucmd!() .arg("-a") .arg(TEST_NONEXISTENT_FILE) .arg(TEST_EXISTING_FILE) .fails() .stderr_only( "cp: cannot stat 'nonexistent_file.txt': No such file or directory (os error 2)\n", ); } #[test] #[cfg(not(target_os = "android"))] fn test_cp_link_backup() { let (at, mut ucmd) = at_and_ucmd!(); at.touch("file2"); ucmd.arg("-l") .arg("-b") .arg(TEST_HELLO_WORLD_SOURCE) .arg("file2") .succeeds(); assert!(at.file_exists("file2~")); assert_eq!(at.read("file2"), "Hello, World!\n"); } #[test] #[cfg(unix)] fn test_cp_fifo() { let (at, mut ucmd) = at_and_ucmd!(); at.mkfifo("fifo"); ucmd.arg("-r") .arg("fifo") .arg("fifo2") .succeeds() .no_stderr() .no_stdout(); assert!(at.is_fifo("fifo2")); } #[test] fn test_dir_recursive_copy() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.mkdir_all("parent1/child"); at.mkdir_all("parent2/child1/child2/child3"); // case-1: copy parent1 -> parent1: should fail scene .ucmd() .arg("-R") .arg("parent1") .arg("parent1") .fails() .stderr_contains("cannot copy a directory"); // case-2: copy parent1 -> parent1/child should fail scene .ucmd() .arg("-R") .arg("parent1") .arg("parent1/child") .fails() .stderr_contains("cannot copy a directory"); // case-3: copy parent1/child -> parent2 should pass scene .ucmd() .arg("-R") .arg("parent1/child") .arg("parent2") .succeeds(); // case-4: copy parent2/child1/ -> parent2/child1/child2/child3 scene .ucmd() .arg("-R") .arg("parent2/child1/") .arg("parent2/child1/child2/child3") .fails() .stderr_contains("cannot copy a directory"); } #[test] fn test_cp_dir_vs_file() { new_ucmd!() .arg("-R") .arg(TEST_COPY_FROM_FOLDER) .arg(TEST_EXISTING_FILE) .fails() .stderr_only("cp: cannot overwrite non-directory with directory\n"); } #[test] fn test_cp_overriding_arguments() { let s = TestScenario::new(util_name!()); s.fixtures.touch("file1"); for (arg1, arg2) in [ #[cfg(not(windows))] ("--remove-destination", "--force"), #[cfg(not(windows))] ("--force", "--remove-destination"), ("--interactive", "--no-clobber"), ("--link", "--symbolic-link"), #[cfg(not(target_os = "android"))] ("--symbolic-link", "--link"), ("--dereference", "--no-dereference"), ("--no-dereference", "--dereference"), ] { s.ucmd() .arg(arg1) .arg(arg2) .arg("file1") .arg("file2") .succeeds(); s.fixtures.remove("file2"); } } #[test] fn test_copy_no_dereference_1() { let (at, mut ucmd) = at_and_ucmd!(); at.mkdir("a"); at.mkdir("b"); at.write("a/foo", "bar"); at.relative_symlink_file("../a/foo", "b/foo"); ucmd.args(&["-P", "a/foo", "b"]).fails(); } #[test] fn test_abuse_existing() { let (at, mut ucmd) = at_and_ucmd!(); at.mkdir("a"); at.mkdir("b"); at.mkdir("c"); at.relative_symlink_file("../t", "a/1"); at.write("b/1", "hello"); at.relative_symlink_file("../t", "c/1"); at.write("t", "i"); ucmd.args(&["-dR", "a/1", "b/1", "c"]) .fails() .stderr_contains(format!( "will not copy 'b/1' through just-created symlink 'c{}1'", if cfg!(windows) { "\\" } else { "/" } )); assert_eq!(at.read("t"), "i"); } #[test] fn test_copy_same_symlink_no_dereference() { let (at, mut ucmd) = at_and_ucmd!(); at.relative_symlink_file("t", "a"); at.relative_symlink_file("t", "b"); at.touch("t"); ucmd.args(&["-d", "a", "b"]).succeeds(); } #[test] fn test_copy_same_symlink_no_dereference_dangling() { let (at, mut ucmd) = at_and_ucmd!(); at.relative_symlink_file("t", "a"); at.relative_symlink_file("t", "b"); ucmd.args(&["-d", "a", "b"]).succeeds(); } // TODO: enable for Android, when #3477 solved #[cfg(not(any(windows, target_os = "android", target_os = "openbsd")))] #[test] fn test_cp_parents_2_dirs() { let (at, mut ucmd) = at_and_ucmd!(); at.mkdir_all("a/b/c"); at.mkdir("d"); ucmd.args(&["-a", "--parents", "a/b/c", "d"]) .succeeds() .no_stderr() .no_stdout(); assert!(at.dir_exists("d/a/b/c")); } #[test] fn test_cp_parents_2() { let (at, mut ucmd) = at_and_ucmd!(); at.mkdir_all("a/b"); at.touch("a/b/c"); at.mkdir("d"); #[cfg(not(windows))] let expected_stdout = "a -> d/a\na/b -> d/a/b\n'a/b/c' -> 'd/a/b/c'\n"; #[cfg(windows)] let expected_stdout = "a -> d\\a\na/b -> d\\a/b\n'a/b/c' -> 'd\\a/b/c'\n"; ucmd.args(&["--verbose", "--parents", "a/b/c", "d"]) .succeeds() .stdout_only(expected_stdout); assert!(at.file_exists("d/a/b/c")); } #[test] fn test_cp_parents_2_link() { let (at, mut ucmd) = at_and_ucmd!(); at.mkdir_all("a/b"); at.touch("a/b/c"); at.mkdir("d"); at.relative_symlink_file("b", "a/link"); #[cfg(not(windows))] let expected_stdout = "a -> d/a\na/link -> d/a/link\n'a/link/c' -> 'd/a/link/c'\n"; #[cfg(windows)] let expected_stdout = "a -> d\\a\na/link -> d\\a/link\n'a/link/c' -> 'd\\a/link/c'\n"; ucmd.args(&["--verbose", "--parents", "a/link/c", "d"]) .succeeds() .stdout_only(expected_stdout); assert!(at.dir_exists("d/a/link")); assert!(!at.symlink_exists("d/a/link")); assert!(at.file_exists("d/a/link/c")); } #[test] fn test_cp_parents_2_dir() { let (at, mut ucmd) = at_and_ucmd!(); at.mkdir_all("a/b/c"); at.mkdir("d"); #[cfg(not(windows))] let expected_stdout = "a -> d/a\na/b -> d/a/b\n'a/b/c' -> 'd/a/b/c'\n"; #[cfg(windows)] let expected_stdout = "a -> d\\a\na/b -> d\\a/b\n'a/b/c' -> 'd\\a/b\\c'\n"; ucmd.args(&["--verbose", "-r", "--parents", "a/b/c", "d"]) .succeeds() .stdout_only(expected_stdout); assert!(at.dir_exists("d/a/b/c")); } #[test] fn test_cp_parents_2_deep_dir() { let (at, mut ucmd) = at_and_ucmd!(); at.mkdir_all("a/b/c"); at.mkdir_all("d/e"); #[cfg(not(windows))] let expected_stdout = "a -> d/e/a\na/b -> d/e/a/b\n'a/b/c' -> 'd/e/a/b/c'\n"; #[cfg(windows)] let expected_stdout = "a -> d/e\\a\na/b -> d/e\\a/b\n'a/b/c' -> 'd/e\\a/b\\c'\n"; ucmd.args(&["--verbose", "-r", "--parents", "a/b/c", "d/e"]) .succeeds() .stdout_only(expected_stdout); assert!(at.dir_exists("d/e/a/b/c")); } #[test] fn test_cp_copy_symlink_contents_recursive() { let (at, mut ucmd) = at_and_ucmd!(); at.mkdir("src-dir"); at.mkdir("dest-dir"); at.write("f", "f"); at.relative_symlink_file("f", "slink"); at.relative_symlink_file("no-file", &path_concat!("src-dir", "slink")); ucmd.args(&["-H", "-R", "slink", "src-dir", "dest-dir"]) .succeeds(); assert!(at.dir_exists("src-dir")); assert!(at.dir_exists("dest-dir")); assert!(at.dir_exists(&path_concat!("dest-dir", "src-dir"))); let regular_file = path_concat!("dest-dir", "slink"); assert!(!at.symlink_exists(®ular_file) && at.file_exists(®ular_file)); assert_eq!(at.read(®ular_file), "f"); } #[test] fn test_cp_mode_symlink() { for from in ["file", "slink", "slink2"] { let (at, mut ucmd) = at_and_ucmd!(); at.write("file", "f"); at.relative_symlink_file("file", "slink"); at.relative_symlink_file("slink", "slink2"); ucmd.args(&["-s", "-L", from, "z"]).succeeds(); assert!(at.symlink_exists("z")); assert_eq!(at.read_symlink("z"), from); } } // Android doesn't allow creating hard links #[cfg(not(target_os = "android"))] #[test] fn test_cp_mode_hardlink() { for from in ["file", "slink", "slink2"] { let (at, mut ucmd) = at_and_ucmd!(); at.write("file", "f"); at.relative_symlink_file("file", "slink"); at.relative_symlink_file("slink", "slink2"); ucmd.args(&["--link", "-L", from, "z"]).succeeds(); assert!(at.file_exists("z") && !at.symlink_exists("z")); assert_eq!(at.read("z"), "f"); // checking that it's the same hard link at.append("z", "g"); assert_eq!(at.read("file"), "fg"); } } // Android doesn't allow creating hard links #[cfg(not(target_os = "android"))] #[test] fn test_cp_mode_hardlink_no_dereference() { let (at, mut ucmd) = at_and_ucmd!(); at.write("file", "f"); at.relative_symlink_file("file", "slink"); at.relative_symlink_file("slink", "slink2"); ucmd.args(&["--link", "-P", "slink2", "z"]).succeeds(); assert!(at.symlink_exists("z")); assert_eq!(at.read_symlink("z"), "slink"); } #[cfg(not(any(windows, target_os = "android")))] #[test] fn test_remove_destination_with_destination_being_a_hardlink_to_source() { let (at, mut ucmd) = at_and_ucmd!(); let file = "file"; let hardlink = "hardlink"; at.touch(file); at.hard_link(file, hardlink); ucmd.args(&["--remove-destination", file, hardlink]) .succeeds(); assert_eq!("", at.resolve_link(hardlink)); assert!(at.file_exists(file)); assert!(at.file_exists(hardlink)); } #[test] fn test_remove_destination_with_destination_being_a_symlink_to_source() { let (at, mut ucmd) = at_and_ucmd!(); let file = "file"; let symlink = "symlink"; at.touch(file); at.symlink_file(file, symlink); ucmd.args(&["--remove-destination", file, symlink]) .succeeds(); assert!(!at.symlink_exists(symlink)); assert!(at.file_exists(file)); assert!(at.file_exists(symlink)); } #[test] fn test_remove_destination_symbolic_link_loop() { let (at, mut ucmd) = at_and_ucmd!(); at.symlink_file("loop", "loop"); at.plus("loop"); at.touch("f"); ucmd.args(&["--remove-destination", "f", "loop"]) .succeeds() .no_stdout() .no_stderr(); assert!(at.file_exists("loop")); } #[test] #[cfg(not(windows))] fn test_cp_symbolic_link_loop() { let (at, mut ucmd) = at_and_ucmd!(); at.symlink_file("loop", "loop"); at.plus("loop"); at.touch("f"); ucmd.args(&["-f", "f", "loop"]) .succeeds() .no_stdout() .no_stderr(); assert!(at.file_exists("loop")); } /// Test that copying a directory to itself is disallowed. #[test] fn test_copy_directory_to_itself_disallowed() { let (at, mut ucmd) = at_and_ucmd!(); at.mkdir("d"); #[cfg(not(windows))] let expected = "cp: cannot copy a directory, 'd', into itself, 'd/d'\n"; #[cfg(windows)] let expected = "cp: cannot copy a directory, 'd', into itself, 'd\\d'\n"; ucmd.args(&["-R", "d", "d"]).fails().stderr_only(expected); } /// Test that copying a nested directory to itself is disallowed. #[test] fn test_copy_nested_directory_to_itself_disallowed() { let (at, mut ucmd) = at_and_ucmd!(); at.mkdir("a"); at.mkdir("a/b"); at.mkdir("a/b/c"); #[cfg(not(windows))] let expected = "cp: cannot copy a directory, 'a/b', into itself, 'a/b/c/b'\n"; #[cfg(windows)] let expected = "cp: cannot copy a directory, 'a/b', into itself, 'a/b/c\\b'\n"; ucmd.args(&["-R", "a/b", "a/b/c"]) .fails() .stderr_only(expected); } /// Test for preserving permissions when copying a directory. #[cfg(all(not(windows), not(target_os = "freebsd"), not(target_os = "openbsd")))] #[test] fn test_copy_dir_preserve_permissions() { // Create a directory that has some non-default permissions. let (at, mut ucmd) = at_and_ucmd!(); at.mkdir("d1"); at.set_mode("d1", 0o0500); // Copy the directory, preserving those permissions. // // preserve permissions (mode, ownership, timestamps) // | copy directories recursively // | | from this source directory // | | | to this destination // | | | | // V V V V ucmd.args(&["-p", "-R", "d1", "d2"]) .succeeds() .no_stderr() .no_stdout(); assert!(at.dir_exists("d2")); // Assert that the permissions are preserved. let metadata1 = at.metadata("d1"); let metadata2 = at.metadata("d2"); assert_metadata_eq!(metadata1, metadata2); } /// Test for preserving permissions when copying a directory, even in /// the face of an inaccessible file in that directory. #[cfg(all(not(windows), not(target_os = "freebsd"), not(target_os = "openbsd")))] #[test] fn test_copy_dir_preserve_permissions_inaccessible_file() { // Create a directory that has some non-default permissions and // contains an inaccessible file. let (at, mut ucmd) = at_and_ucmd!(); at.mkdir("d1"); at.touch("d1/f"); at.set_mode("d1/f", 0); at.set_mode("d1", 0o0500); // Copy the directory, preserving those permissions. There should // be an error message that the file `d1/f` is inaccessible. // // preserve permissions (mode, ownership, timestamps) // | copy directories recursively // | | from this source directory // | | | to this destination // | | | | // V V V V ucmd.args(&["-p", "-R", "d1", "d2"]) .fails() .code_is(1) .stderr_only("cp: cannot open 'd1/f' for reading: permission denied\n"); assert!(at.dir_exists("d2")); assert!(!at.file_exists("d2/f")); // Assert that the permissions are preserved. let metadata1 = at.metadata("d1"); let metadata2 = at.metadata("d2"); assert_metadata_eq!(metadata1, metadata2); } /// Test that copying file to itself with backup fails. #[test] fn test_same_file_backup() { let (at, mut ucmd) = at_and_ucmd!(); at.touch("f"); ucmd.args(&["--backup", "f", "f"]) .fails() .stderr_only("cp: 'f' and 'f' are the same file\n"); assert!(!at.file_exists("f~")); } /// Test that copying file to itself with forced backup succeeds. #[cfg(not(windows))] #[test] fn test_same_file_force() { let (at, mut ucmd) = at_and_ucmd!(); at.touch("f"); ucmd.args(&["--force", "f", "f"]) .fails() .stderr_only("cp: 'f' and 'f' are the same file\n"); assert!(!at.file_exists("f~")); } /// Test that copying file to itself with forced backup succeeds. #[cfg(not(windows))] #[test] fn test_same_file_force_backup() { let (at, mut ucmd) = at_and_ucmd!(); at.touch("f"); ucmd.args(&["--force", "--backup", "f", "f"]) .succeeds() .no_stdout() .no_stderr(); assert!(at.file_exists("f~")); } /// Test for copying the contents of a FIFO as opposed to the FIFO object itself. #[cfg(all(unix, not(target_os = "freebsd"), not(target_os = "openbsd")))] #[test] fn test_copy_contents_fifo() { // TODO this test should work on FreeBSD, but the command was // causing an error: // // cp: 'fifo' -> 'outfile': the source path is neither a regular file nor a symlink to a regular file // // the underlying `std::fs:copy` doesn't support copying fifo on freeBSD let scenario = TestScenario::new(util_name!()); let at = &scenario.fixtures; // Start the `cp` process, reading the contents of `fifo` and // writing to regular file `outfile`. at.mkfifo("fifo"); let mut ucmd = scenario.ucmd(); let child = ucmd .args(&["--copy-contents", "fifo", "outfile"]) .run_no_wait(); // Write some bytes to the `fifo`. We expect these bytes to get // copied through to `outfile`. std::fs::write(at.plus("fifo"), "foo").unwrap(); // At this point the child process should have terminated // successfully with no output. The `outfile` should have the // contents of `fifo` copied into it. child.wait().unwrap().no_stdout().no_stderr().success(); assert_eq!(at.read("outfile"), "foo"); } #[cfg(target_os = "linux")] #[test] fn test_reflink_never_sparse_always() { let (at, mut ucmd) = at_and_ucmd!(); // Create a file and make it a large sparse file. // // On common Linux filesystems, setting the length to one megabyte // should cause the file to become a sparse file, but it depends // on the system. std::fs::File::create(at.plus("src")) .unwrap() .set_len(1024 * 1024) .unwrap(); ucmd.args(&["--reflink=never", "--sparse=always", "src", "dest"]) .succeeds() .no_stdout() .no_stderr(); at.file_exists("dest"); let src_metadata = std::fs::metadata(at.plus("src")).unwrap(); let dest_metadata = std::fs::metadata(at.plus("dest")).unwrap(); assert_eq!(src_metadata.blocks(), dest_metadata.blocks()); assert_eq!(dest_metadata.len(), 1024 * 1024); } /// Test for preserving attributes of a hard link in a directory. #[test] #[cfg(not(any(target_os = "android", target_os = "openbsd")))] fn test_preserve_hardlink_attributes_in_directory() { let (at, mut ucmd) = at_and_ucmd!(); // The source directory tree. at.mkdir("src"); at.touch("src/f"); at.hard_link("src/f", "src/link"); // The destination directory tree. // // The file `f` already exists, but the `link` does not. at.mkdir_all("dest/src"); at.touch("dest/src/f"); ucmd.args(&["-a", "src", "dest"]).succeeds().no_output(); // The hard link should now appear in the destination directory tree. // // A hard link should have the same inode as the target file. at.file_exists("dest/src/link"); #[cfg(all(unix, not(target_os = "freebsd")))] assert_eq!( at.metadata("dest/src/f").ino(), at.metadata("dest/src/link").ino() ); } #[test] #[cfg(not(any(windows, target_os = "android")))] fn test_hard_link_file() { let (at, mut ucmd) = at_and_ucmd!(); at.touch("src"); at.touch("dest"); ucmd.args(&["-f", "--link", "src", "dest"]) .succeeds() .no_output(); #[cfg(all(unix, not(target_os = "freebsd")))] assert_eq!(at.metadata("src").ino(), at.metadata("dest").ino()); } #[test] #[cfg(not(windows))] fn test_symbolic_link_file() { let (at, mut ucmd) = at_and_ucmd!(); at.touch("src"); at.touch("dest"); ucmd.args(&["-f", "--symbolic-link", "src", "dest"]) .succeeds() .no_output(); assert_eq!( std::fs::read_link(at.plus("dest")).unwrap(), Path::new("src") ); } #[test] fn test_src_base_dot() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.mkdir("x"); at.mkdir("y"); ts.ucmd() .current_dir(at.plus("y")) .args(&["--verbose", "-r", "../x/.", "."]) .succeeds() .no_stderr() .no_stdout(); assert!(!at.dir_exists("y/x")); } #[cfg(target_os = "linux")] fn non_utf8_name(suffix: &str) -> OsString { use std::os::unix::ffi::OsStringExt; let mut name = OsString::from_vec(vec![0xff, 0xff]); name.push(suffix); name } #[cfg(target_os = "linux")] #[test] fn test_non_utf8_src() { let (at, mut ucmd) = at_and_ucmd!(); let src = non_utf8_name("src"); std::fs::File::create(at.plus(&src)).unwrap(); ucmd.args(&[src, "dest".into()]) .succeeds() .no_stderr() .no_stdout(); assert!(at.file_exists("dest")); } #[cfg(target_os = "linux")] #[test] fn test_non_utf8_dest() { let (at, mut ucmd) = at_and_ucmd!(); let dest = non_utf8_name("dest"); ucmd.args(&[TEST_HELLO_WORLD_SOURCE.as_ref(), &*dest]) .succeeds() .no_stderr() .no_stdout(); assert!(at.file_exists(dest)); } #[cfg(target_os = "linux")] #[test] fn test_non_utf8_target() { let (at, mut ucmd) = at_and_ucmd!(); let dest = non_utf8_name("dest"); at.mkdir(&dest); ucmd.args(&["-t".as_ref(), &*dest, TEST_HELLO_WORLD_SOURCE.as_ref()]) .succeeds() .no_stderr() .no_stdout(); let mut copied_file = PathBuf::from(dest); copied_file.push(TEST_HELLO_WORLD_SOURCE); assert!(at.file_exists(copied_file)); } #[test] #[cfg(not(windows))] fn test_cp_archive_on_directory_ending_dot() { let (at, mut ucmd) = at_and_ucmd!(); at.mkdir("dir1"); at.mkdir("dir2"); at.touch("dir1/file"); ucmd.args(&["-a", "dir1/.", "dir2"]).succeeds(); assert!(at.file_exists("dir2/file")); } #[test] #[cfg(any(target_os = "linux", target_os = "windows", target_os = "macos"))] fn test_cp_debug_default() { #[cfg(target_os = "macos")] let expected = "copy offload: unknown, reflink: unsupported, sparse detection: unsupported"; #[cfg(target_os = "linux")] let expected = "copy offload: unknown, reflink: unsupported, sparse detection: no"; #[cfg(windows)] let expected = "copy offload: unsupported, reflink: unsupported, sparse detection: unsupported"; let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.touch("a"); ts.ucmd() .arg("--debug") .arg("a") .arg("b") .succeeds() .stdout_contains(expected); } #[test] #[cfg(any(target_os = "linux", target_os = "windows", target_os = "macos"))] fn test_cp_debug_multiple_default() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; let dir = "dir"; at.touch("a"); at.touch("b"); at.mkdir(dir); let result = ts .ucmd() .arg("--debug") .arg("a") .arg("b") .arg(dir) .succeeds(); #[cfg(target_os = "macos")] let expected = "copy offload: unknown, reflink: unsupported, sparse detection: unsupported"; #[cfg(target_os = "linux")] let expected = "copy offload: unknown, reflink: unsupported, sparse detection: no"; #[cfg(windows)] let expected = "copy offload: unsupported, reflink: unsupported, sparse detection: unsupported"; // two files, two occurrences assert_eq!(result.stdout_str().matches(expected).count(), 2); } #[test] #[cfg(target_os = "linux")] fn test_cp_debug_sparse_reflink() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.touch("a"); ts.ucmd() .arg("--debug") .arg("--sparse=always") .arg("--reflink=never") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: avoided, reflink: no, sparse detection: zeros"); } #[test] fn test_cp_debug_no_update() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.touch("a"); at.touch("b"); ts.ucmd() .arg("--debug") .arg("--update=none") .arg("a") .arg("b") .succeeds() .stdout_contains("skipped 'b'"); } #[test] #[cfg(target_os = "linux")] fn test_cp_debug_sparse_always() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.touch("a"); ts.ucmd() .arg("--debug") .arg("--sparse=always") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: avoided, reflink: unsupported, sparse detection: zeros"); } #[test] #[cfg(target_os = "linux")] fn test_cp_debug_sparse_never() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.touch("a"); ts.ucmd() .arg("--debug") .arg("--sparse=never") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: avoided, reflink: no, sparse detection: no"); } #[test] fn test_cp_debug_sparse_auto() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.touch("a"); #[cfg(not(any(target_os = "linux", target_os = "macos")))] ts.ucmd() .arg("--debug") .arg("--sparse=auto") .arg("a") .arg("b") .succeeds(); #[cfg(any(target_os = "linux", target_os = "macos"))] { #[cfg(target_os = "macos")] let expected = "copy offload: unknown, reflink: unsupported, sparse detection: unsupported"; #[cfg(target_os = "linux")] let expected = "copy offload: unknown, reflink: unsupported, sparse detection: no"; ts.ucmd() .arg("--debug") .arg("--sparse=auto") .arg("a") .arg("b") .succeeds() .stdout_contains(expected); } } #[test] #[cfg(any(target_os = "linux", target_os = "macos"))] fn test_cp_debug_reflink_auto() { #[cfg(target_os = "macos")] let expected = "copy offload: unknown, reflink: unsupported, sparse detection: unsupported"; #[cfg(target_os = "linux")] let expected = "copy offload: unknown, reflink: unsupported, sparse detection: no"; let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.touch("a"); ts.ucmd() .arg("--debug") .arg("--reflink=auto") .arg("a") .arg("b") .succeeds() .stdout_contains(expected); } #[test] #[cfg(target_os = "linux")] fn test_cp_debug_sparse_always_reflink_auto() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.touch("a"); ts.ucmd() .arg("--debug") .arg("--sparse=always") .arg("--reflink=auto") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: avoided, reflink: unsupported, sparse detection: zeros"); } #[test] fn test_cp_only_source_no_target() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.touch("a"); ts.ucmd() .arg("a") .fails() .stderr_contains("missing destination file operand after \"a\""); } #[test] fn test_cp_dest_no_permissions() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.touch("valid.txt"); at.touch("invalid_perms.txt"); at.set_readonly("invalid_perms.txt"); ts.ucmd() .args(&["valid.txt", "invalid_perms.txt"]) .fails() .stderr_contains("invalid_perms.txt") .stderr_contains("denied"); } #[test] #[cfg(all(unix, not(target_os = "freebsd")))] fn test_cp_attributes_only() { let (at, mut ucmd) = at_and_ucmd!(); let a = "file_a"; let b = "file_b"; let mode_a = 0o0500; let mode_b = 0o0777; at.write(a, "a"); at.write(b, "b"); at.set_mode(a, mode_a); at.set_mode(b, mode_b); let mode_a = at.metadata(a).mode(); let mode_b = at.metadata(b).mode(); // --attributes-only doesn't do anything without other attribute preservation flags ucmd.arg("--attributes-only") .arg(a) .arg(b) .succeeds() .no_output(); assert_eq!("a", at.read(a)); assert_eq!("b", at.read(b)); assert_eq!(mode_a, at.metadata(a).mode()); assert_eq!(mode_b, at.metadata(b).mode()); } #[test] fn test_cp_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()); ts.ucmd() .arg("--backup=numbered") .arg("a/f") .arg("b/f") .arg("c") .succeeds(); assert!(at.plus("c").join("f").exists()); assert!(at.plus("c").join("f.~1~").exists()); } #[test] fn test_cp_path_ends_with_terminator() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.mkdir("a"); ts.ucmd().arg("-r").arg("-T").arg("a").arg("e/").succeeds(); } #[test] fn test_cp_no_such() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.touch("b"); ts.ucmd() .arg("b") .arg("no-such/") .fails() .stderr_is("cp: 'no-such/' is not a directory\n"); } #[cfg(all( unix, not(any(target_os = "android", target_os = "macos", target_os = "openbsd")) ))] #[test] fn test_acl_preserve() { use std::process::Command; let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let path1 = "a"; let path2 = "b"; let file = "a/file"; let file_target = "b/file"; at.mkdir(path1); at.mkdir(path2); at.touch(file); let path = at.plus_as_string(file); // calling the command directly. xattr requires some dev packages to be installed // and it adds a complex dependency just for a test match Command::new("setfacl") .args(["-m", "group::rwx", path1]) .status() .map(|status| status.code()) { Ok(Some(0)) => {} Ok(_) => { println!("test skipped: setfacl failed"); return; } Err(e) => { println!("test skipped: setfacl failed with {}", e); return; } } scene.ucmd().args(&["-p", &path, path2]).succeeds(); assert!(compare_xattrs(&file, &file_target)); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_debug_reflink_never_with_hole() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.write("a", "hello"); let f = std::fs::OpenOptions::new() .write(true) .open(at.plus("a")) .unwrap(); f.set_len(10000).unwrap(); ts.ucmd() .arg("--debug") .arg("--reflink=never") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: avoided, reflink: no, sparse detection: SEEK_HOLE"); let src_file_metadata = std::fs::metadata(at.plus("a")).unwrap(); let dst_file_metadata = std::fs::metadata(at.plus("b")).unwrap(); assert_eq!(src_file_metadata.blocks(), dst_file_metadata.blocks()); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_debug_reflink_never_empty_file_with_hole() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.touch("a"); let f = std::fs::OpenOptions::new() .write(true) .open(at.plus("a")) .unwrap(); f.set_len(10000).unwrap(); ts.ucmd() .arg("--debug") .arg("--reflink=never") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: unknown, reflink: no, sparse detection: SEEK_HOLE"); let src_file_metadata = std::fs::metadata(at.plus("a")).unwrap(); let dst_file_metadata = std::fs::metadata(at.plus("b")).unwrap(); assert_eq!(src_file_metadata.blocks(), dst_file_metadata.blocks()); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_debug_default_with_hole() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.touch("a"); let f = std::fs::OpenOptions::new() .write(true) .open(at.plus("a")) .unwrap(); f.set_len(10000).unwrap(); at.append_bytes("a", "hello".as_bytes()); ts.ucmd() .arg("--debug") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: yes, reflink: unsupported, sparse detection: SEEK_HOLE"); let src_file_metadata = std::fs::metadata(at.plus("a")).unwrap(); let dst_file_metadata = std::fs::metadata(at.plus("b")).unwrap(); assert_eq!(src_file_metadata.blocks(), dst_file_metadata.blocks()); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_debug_default_less_than_512_bytes() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.write_bytes("a", "hello".as_bytes()); let f = std::fs::OpenOptions::new() .write(true) .open(at.plus("a")) .unwrap(); f.set_len(400).unwrap(); ts.ucmd() .arg("--debug") .arg("--reflink=auto") .arg("--sparse=auto") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: yes, reflink: unsupported, sparse detection: no"); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_debug_default_without_hole() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.write_bytes("a", "hello".as_bytes()); let filler_bytes = [0_u8; 10000]; at.append_bytes("a", &filler_bytes); ts.ucmd() .arg("--debug") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: yes, reflink: unsupported, sparse detection: no"); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_debug_default_empty_file_with_hole() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.touch("a"); let f = std::fs::OpenOptions::new() .write(true) .open(at.plus("a")) .unwrap(); f.set_len(10000).unwrap(); ts.ucmd() .arg("--debug") .arg("a") .arg("b") .succeeds() .stdout_contains( "copy offload: unknown, reflink: unsupported, sparse detection: SEEK_HOLE", ); let src_file_metadata = std::fs::metadata(at.plus("a")).unwrap(); let dst_file_metadata = std::fs::metadata(at.plus("b")).unwrap(); assert_eq!(src_file_metadata.blocks(), dst_file_metadata.blocks()); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_debug_reflink_never_sparse_always_with_hole() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.write("a", "hello"); let f = std::fs::OpenOptions::new() .write(true) .open(at.plus("a")) .unwrap(); f.set_len(10000).unwrap(); ts.ucmd() .arg("--debug") .arg("--reflink=never") .arg("--sparse=always") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: avoided, reflink: no, sparse detection: SEEK_HOLE + zeros"); let src_file_metadata = std::fs::metadata(at.plus("a")).unwrap(); let dst_file_metadata = std::fs::metadata(at.plus("b")).unwrap(); assert_eq!(src_file_metadata.blocks(), dst_file_metadata.blocks()); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_debug_reflink_never_sparse_always_without_hole() { let ts = TestScenario::new(util_name!()); let empty_bytes = [0_u8; 10000]; let at = &ts.fixtures; at.write("a", "hello"); at.append_bytes("a", &empty_bytes); ts.ucmd() .arg("--debug") .arg("--reflink=never") .arg("--sparse=always") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: avoided, reflink: no, sparse detection: zeros"); let dst_file_metadata = std::fs::metadata(at.plus("b")).unwrap(); assert_eq!( dst_file_metadata.blocks(), dst_file_metadata.blksize() / 512 ); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_debug_reflink_never_sparse_always_empty_file_with_hole() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.touch("a"); let f = std::fs::OpenOptions::new() .write(true) .open(at.plus("a")) .unwrap(); f.set_len(10000).unwrap(); ts.ucmd() .arg("--debug") .arg("--reflink=never") .arg("--sparse=always") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: unknown, reflink: no, sparse detection: SEEK_HOLE"); } #[test] #[cfg(target_os = "linux")] fn test_cp_default_virtual_file() { // This file has existed at least since 2008, so we assume that it is present on "all" Linux kernels. // https://www.kernel.org/doc/Documentation/ABI/testing/sysfs-profiling use std::os::unix::prelude::MetadataExt; let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; ts.ucmd().arg("/sys/kernel/profiling").arg("b").succeeds(); let dest_size = std::fs::metadata(at.plus("b")) .expect("Metadata of copied file cannot be read") .size(); assert!(dest_size > 0); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_debug_reflink_auto_sparse_always_non_sparse_file_with_long_zero_sequence() { let ts = TestScenario::new(util_name!()); let buf: Vec = vec![0; 4096 * 4]; let at = &ts.fixtures; at.touch("a"); at.append_bytes("a", &buf); at.append_bytes("a", "hello".as_bytes()); ts.ucmd() .arg("--debug") .arg("--sparse=always") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: avoided, reflink: unsupported, sparse detection: zeros"); let dst_file_metadata = std::fs::metadata(at.plus("b")).unwrap(); assert_eq!( dst_file_metadata.blocks(), dst_file_metadata.blksize() / 512 ); } #[test] #[cfg(target_os = "linux")] fn test_cp_debug_sparse_never_empty_sparse_file() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.touch("a"); ts.ucmd() .arg("--debug") .arg("--sparse=never") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: avoided, reflink: no, sparse detection: no"); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_debug_reflink_never_sparse_always_non_sparse_file_with_long_zero_sequence() { let ts = TestScenario::new(util_name!()); let buf: Vec = vec![0; 4096 * 4]; let at = &ts.fixtures; at.touch("a"); at.append_bytes("a", &buf); at.append_bytes("a", "hello".as_bytes()); ts.ucmd() .arg("--debug") .arg("--reflink=never") .arg("--sparse=always") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: avoided, reflink: no, sparse detection: zeros"); let dst_file_metadata = std::fs::metadata(at.plus("b")).unwrap(); assert_eq!( dst_file_metadata.blocks(), dst_file_metadata.blksize() / 512 ); } #[test] #[cfg(target_os = "linux")] fn test_cp_debug_sparse_always_sparse_virtual_file() { // This file has existed at least since 2008, so we assume that it is present on "all" Linux kernels. // https://www.kernel.org/doc/Documentation/ABI/testing/sysfs-profiling let ts = TestScenario::new(util_name!()); ts.ucmd() .arg("--debug") .arg("--sparse=always") .arg("/sys/kernel/profiling") .arg("b") .succeeds() .stdout_contains( "copy offload: avoided, reflink: unsupported, sparse detection: SEEK_HOLE + zeros", ); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_debug_reflink_never_less_than_512_bytes() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.write_bytes("a", "hello".as_bytes()); let f = std::fs::OpenOptions::new() .write(true) .open(at.plus("a")) .unwrap(); f.set_len(400).unwrap(); ts.ucmd() .arg("--debug") .arg("--reflink=never") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: avoided, reflink: no, sparse detection: no"); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_debug_reflink_never_sparse_never_empty_file_with_hole() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.touch("a"); let f = std::fs::OpenOptions::new() .write(true) .open(at.plus("a")) .unwrap(); f.set_len(10000).unwrap(); ts.ucmd() .arg("--debug") .arg("--reflink=never") .arg("--sparse=never") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: unknown, reflink: no, sparse detection: SEEK_HOLE"); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_debug_reflink_never_file_with_hole() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.touch("a"); let f = std::fs::OpenOptions::new() .write(true) .open(at.plus("a")) .unwrap(); f.set_len(10000).unwrap(); at.append_bytes("a", "hello".as_bytes()); ts.ucmd() .arg("--debug") .arg("--reflink=never") .arg("--sparse=never") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: avoided, reflink: no, sparse detection: SEEK_HOLE"); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_debug_sparse_never_less_than_512_bytes() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.write_bytes("a", "hello".as_bytes()); let f = std::fs::OpenOptions::new() .write(true) .open(at.plus("a")) .unwrap(); f.set_len(400).unwrap(); ts.ucmd() .arg("--debug") .arg("--reflink=auto") .arg("--sparse=never") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: avoided, reflink: no, sparse detection: no"); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_debug_sparse_never_without_hole() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.write_bytes("a", "hello".as_bytes()); let filler_bytes = [0_u8; 10000]; at.append_bytes("a", &filler_bytes); ts.ucmd() .arg("--reflink=auto") .arg("--sparse=never") .arg("--debug") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: avoided, reflink: no, sparse detection: no"); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_debug_sparse_never_empty_file_with_hole() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.touch("a"); let f = std::fs::OpenOptions::new() .write(true) .open(at.plus("a")) .unwrap(); f.set_len(10000).unwrap(); ts.ucmd() .arg("--debug") .arg("--reflink=auto") .arg("--sparse=never") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: unknown, reflink: no, sparse detection: SEEK_HOLE"); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_debug_sparse_never_file_with_hole() { let ts = TestScenario::new(util_name!()); let at = &ts.fixtures; at.touch("a"); let f = std::fs::OpenOptions::new() .write(true) .open(at.plus("a")) .unwrap(); f.set_len(10000).unwrap(); at.append_bytes("a", "hello".as_bytes()); ts.ucmd() .arg("--debug") .arg("--reflink=auto") .arg("--sparse=never") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: avoided, reflink: no, sparse detection: SEEK_HOLE"); } #[test] #[cfg(target_os = "linux")] fn test_cp_debug_default_sparse_virtual_file() { // This file has existed at least since 2008, so we assume that it is present on "all" Linux kernels. // https://www.kernel.org/doc/Documentation/ABI/testing/sysfs-profiling let ts = TestScenario::new(util_name!()); ts.ucmd() .arg("--debug") .arg("/sys/kernel/profiling") .arg("b") .succeeds() .stdout_contains( "copy offload: unsupported, reflink: unsupported, sparse detection: SEEK_HOLE", ); } #[test] #[cfg(target_os = "linux")] fn test_cp_debug_sparse_never_zero_sized_virtual_file() { let ts = TestScenario::new(util_name!()); ts.ucmd() .arg("--debug") .arg("--sparse=never") .arg("/proc/version") .arg("b") .succeeds() .stdout_contains("copy offload: avoided, reflink: no, sparse detection: no"); } #[test] #[cfg(target_os = "linux")] fn test_cp_debug_default_zero_sized_virtual_file() { let ts = TestScenario::new(util_name!()); ts.ucmd() .arg("--debug") .arg("/proc/version") .arg("b") .succeeds() .stdout_contains("copy offload: unsupported, reflink: unsupported, sparse detection: no"); } #[test] #[cfg(any(target_os = "linux", target_os = "android"))] fn test_cp_debug_reflink_never_without_hole() { let ts = TestScenario::new(util_name!()); let filler_bytes = [0_u8; 1000]; let at = &ts.fixtures; at.write("a", "hello"); at.append_bytes("a", &filler_bytes); ts.ucmd() .arg("--debug") .arg("--reflink=never") .arg("a") .arg("b") .succeeds() .stdout_contains("copy offload: avoided, reflink: no, sparse detection: no"); } #[test] fn test_cp_force_remove_destination_attributes_only_with_symlink() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.write("file1", "1"); at.write("file2", "2"); at.symlink_file("file1", "sym1"); scene .ucmd() .args(&[ "-a", "--remove-destination", "--attributes-only", "sym1", "file2", ]) .succeeds(); assert!( at.symlink_exists("file2"), "file2 is not a symbolic link as expected" ); assert_eq!( at.read("file1"), at.read("file2"), "Contents of file1 and file2 do not match" ); } #[test] fn test_cp_no_dereference_attributes_only_with_symlink() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.write("file1", "1"); at.write("file2", "2"); at.write("file2.exp", "2"); at.symlink_file("file1", "sym1"); let result = scene .ucmd() .args(&["--no-dereference", "--attributes-only", "sym1", "file2"]) .fails(); assert_eq!(result.code(), 1, "cp command did not fail"); assert_eq!( at.read("file2"), at.read("file2.exp"), "file2 content does not match expected" ); } #[cfg(all(unix, not(target_os = "android")))] #[cfg(test)] /// contains the test for cp when the source and destination points to the same file mod same_file { use crate::common::util::TestScenario; const FILE_NAME: &str = "foo"; const SYMLINK_NAME: &str = "symlink"; const CONTENTS: &str = "abcd"; // the following tests tries to copy a file to the symlink of the same file with // various options #[test] fn test_same_file_from_file_to_symlink() { for option in ["-d", "-f", "-df"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); scene .ucmd() .args(&[option, FILE_NAME, SYMLINK_NAME]) .fails() .stderr_contains("'foo' and 'symlink' are the same file"); assert!(at.symlink_exists(SYMLINK_NAME)); assert_eq!(FILE_NAME, at.resolve_link(SYMLINK_NAME)); assert!(at.file_exists(FILE_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } #[test] fn test_same_file_from_file_to_symlink_with_rem_option() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); scene .ucmd() .args(&["--rem", FILE_NAME, SYMLINK_NAME]) .succeeds(); assert!(at.file_exists(SYMLINK_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); assert!(at.file_exists(FILE_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } #[test] fn test_same_file_from_file_to_symlink_with_backup_option() { for option in ["-b", "-bd", "-bf", "-bdf"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let backup = "symlink~"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); scene .ucmd() .args(&[option, FILE_NAME, SYMLINK_NAME]) .succeeds(); assert!(at.symlink_exists(backup)); assert_eq!(FILE_NAME, at.resolve_link(backup)); assert!(at.file_exists(SYMLINK_NAME)); assert_eq!(at.read(SYMLINK_NAME), CONTENTS,); assert!(at.file_exists(FILE_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } #[test] fn test_same_file_from_file_to_symlink_with_link_option() { for option in ["-l", "-dl"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); scene .ucmd() .args(&[option, FILE_NAME, SYMLINK_NAME]) .fails() .stderr_contains("cp: cannot create hard link 'symlink' to 'foo'"); assert!(at.symlink_exists(SYMLINK_NAME)); assert_eq!(FILE_NAME, at.resolve_link(SYMLINK_NAME)); assert!(at.file_exists(FILE_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } #[test] fn test_same_file_from_file_to_symlink_with_options_link_and_force() { for option in ["-fl", "-dfl"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); scene .ucmd() .args(&[option, FILE_NAME, SYMLINK_NAME]) .succeeds(); assert!(at.file_exists(FILE_NAME)); assert!(at.file_exists(SYMLINK_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } #[test] fn test_same_file_from_file_to_symlink_with_options_backup_and_link() { for option in ["-bl", "-bdl", "-bfl", "-bdfl"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let backup = "symlink~"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); scene .ucmd() .args(&[option, FILE_NAME, SYMLINK_NAME]) .succeeds(); assert!(at.file_exists(FILE_NAME)); assert!(at.file_exists(SYMLINK_NAME)); assert!(at.symlink_exists(backup)); assert_eq!(FILE_NAME, at.resolve_link(backup)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } #[test] fn test_same_file_from_file_to_symlink_with_options_symlink() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); scene .ucmd() .args(&["-s", FILE_NAME, SYMLINK_NAME]) .fails() .stderr_contains("cp: cannot create symlink 'symlink' to 'foo'"); assert!(at.file_exists(FILE_NAME)); assert!(at.symlink_exists(SYMLINK_NAME)); assert_eq!(FILE_NAME, at.resolve_link(SYMLINK_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } #[test] fn test_same_file_from_file_to_symlink_with_options_symlink_and_force() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); scene .ucmd() .args(&["-sf", FILE_NAME, SYMLINK_NAME]) .succeeds(); assert!(at.file_exists(FILE_NAME)); assert!(at.symlink_exists(SYMLINK_NAME)); assert_eq!(FILE_NAME, at.resolve_link(SYMLINK_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } // the following tests tries to copy a symlink to the file that symlink points to with // various options #[test] fn test_same_file_from_symlink_to_file() { for option in ["-d", "-f", "-df", "--rem"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); scene .ucmd() .args(&[option, SYMLINK_NAME, FILE_NAME]) .fails() .stderr_contains("'symlink' and 'foo' are the same file"); assert!(at.file_exists(FILE_NAME)); assert!(at.symlink_exists(SYMLINK_NAME)); assert_eq!(FILE_NAME, at.resolve_link(SYMLINK_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } #[test] fn test_same_file_from_symlink_to_file_with_option_backup() { for option in ["-b", "-bf"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); scene .ucmd() .args(&[option, SYMLINK_NAME, FILE_NAME]) .fails() .stderr_contains("'symlink' and 'foo' are the same file"); assert!(at.file_exists(FILE_NAME)); assert!(at.symlink_exists(SYMLINK_NAME)); assert_eq!(FILE_NAME, at.resolve_link(SYMLINK_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } #[test] fn test_same_file_from_symlink_to_file_with_option_backup_without_deref() { for option in ["-bd", "-bdf"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let backup = "foo~"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); scene .ucmd() .args(&[option, SYMLINK_NAME, FILE_NAME]) .succeeds(); assert!(at.file_exists(backup)); assert!(at.symlink_exists(FILE_NAME)); // this doesn't makes sense but this is how gnu does it assert_eq!(FILE_NAME, at.resolve_link(FILE_NAME)); assert_eq!(FILE_NAME, at.resolve_link(SYMLINK_NAME)); assert_eq!(at.read(backup), CONTENTS,); } } #[test] fn test_same_file_from_symlink_to_file_with_options_link() { for option in ["-l", "-dl", "-fl", "-bl", "-bfl"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); scene .ucmd() .args(&[option, SYMLINK_NAME, FILE_NAME]) .succeeds(); assert!(at.file_exists(FILE_NAME)); assert!(at.symlink_exists(SYMLINK_NAME)); assert_eq!(FILE_NAME, at.resolve_link(SYMLINK_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } #[test] fn test_same_file_from_symlink_to_file_with_option_symlink() { for option in ["-s", "-sf"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); scene .ucmd() .args(&[option, SYMLINK_NAME, FILE_NAME]) .fails() .stderr_contains("'symlink' and 'foo' are the same file"); assert!(at.file_exists(FILE_NAME)); assert!(at.symlink_exists(SYMLINK_NAME)); assert_eq!(FILE_NAME, at.resolve_link(SYMLINK_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } // the following tests tries to copy a file to the same file with various options #[test] fn test_same_file_from_file_to_file() { for option in ["-d", "-f", "-df", "--rem"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.write(FILE_NAME, CONTENTS); scene .ucmd() .args(&[option, FILE_NAME, FILE_NAME]) .fails() .stderr_contains("'foo' and 'foo' are the same file"); assert!(at.file_exists(FILE_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } #[test] fn test_same_file_from_file_to_file_with_backup() { for option in ["-b", "-bd"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.write(FILE_NAME, CONTENTS); scene .ucmd() .args(&[option, FILE_NAME, FILE_NAME]) .fails() .stderr_contains("'foo' and 'foo' are the same file"); assert!(at.file_exists(FILE_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } #[test] fn test_same_file_from_file_to_file_with_options_backup_and_no_deref() { for option in ["-bf", "-bdf"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let backup = "foo~"; at.write(FILE_NAME, CONTENTS); scene .ucmd() .args(&[option, FILE_NAME, FILE_NAME]) .succeeds(); assert!(at.file_exists(FILE_NAME)); assert!(at.file_exists(backup)); assert_eq!(at.read(FILE_NAME), CONTENTS,); assert_eq!(at.read(backup), CONTENTS,); } } #[test] fn test_same_file_from_file_to_file_with_options_link() { for option in ["-l", "-dl", "-fl", "-dfl", "-bl", "-bdl"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let backup = "foo~"; at.write(FILE_NAME, CONTENTS); scene .ucmd() .args(&[option, FILE_NAME, FILE_NAME]) .succeeds(); assert!(at.file_exists(FILE_NAME)); assert!(!at.file_exists(backup)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } #[test] fn test_same_file_from_file_to_file_with_options_link_and_backup_and_force() { for option in ["-bfl", "-bdfl"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let backup = "foo~"; at.write(FILE_NAME, CONTENTS); scene .ucmd() .args(&[option, FILE_NAME, FILE_NAME]) .succeeds(); assert!(at.file_exists(FILE_NAME)); assert!(at.file_exists(backup)); assert_eq!(at.read(FILE_NAME), CONTENTS,); assert_eq!(at.read(backup), CONTENTS,); } } #[test] fn test_same_file_from_file_to_file_with_options_symlink() { for option in ["-s", "-sf"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.write(FILE_NAME, CONTENTS); scene .ucmd() .args(&[option, FILE_NAME, FILE_NAME]) .fails() .stderr_contains("'foo' and 'foo' are the same file"); assert!(at.file_exists(FILE_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } // the following tests tries to copy a symlink that points to a file to a symlink // that points to the same file with various options #[test] fn test_same_file_from_symlink_to_symlink_with_option_no_deref() { for option in ["-d", "-df"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let symlink1 = "sl1"; let symlink2 = "sl2"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, symlink1); at.symlink_file(FILE_NAME, symlink2); scene.ucmd().args(&[option, symlink1, symlink2]).succeeds(); assert!(at.file_exists(FILE_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); assert_eq!(FILE_NAME, at.resolve_link(symlink1)); assert_eq!(FILE_NAME, at.resolve_link(symlink2)); } } #[test] fn test_same_file_from_symlink_to_symlink_with_option_force() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let symlink1 = "sl1"; let symlink2 = "sl2"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, symlink1); at.symlink_file(FILE_NAME, symlink2); scene .ucmd() .args(&["-f", symlink1, symlink2]) .fails() .stderr_contains("'sl1' and 'sl2' are the same file"); assert!(at.file_exists(FILE_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); assert_eq!(FILE_NAME, at.resolve_link(symlink1)); assert_eq!(FILE_NAME, at.resolve_link(symlink2)); } #[test] fn test_same_file_from_symlink_to_symlink_with_option_rem() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let symlink1 = "sl1"; let symlink2 = "sl2"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, symlink1); at.symlink_file(FILE_NAME, symlink2); scene.ucmd().args(&["--rem", symlink1, symlink2]).succeeds(); assert!(at.file_exists(FILE_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); assert_eq!(FILE_NAME, at.resolve_link(symlink1)); assert!(at.file_exists(symlink2)); assert_eq!(at.read(symlink2), CONTENTS,); } #[test] fn test_same_file_from_symlink_to_symlink_with_option_backup() { for option in ["-b", "-bf"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let symlink1 = "sl1"; let symlink2 = "sl2"; let backup = "sl2~"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, symlink1); at.symlink_file(FILE_NAME, symlink2); scene.ucmd().args(&[option, symlink1, symlink2]).succeeds(); assert!(at.file_exists(FILE_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); assert_eq!(FILE_NAME, at.resolve_link(symlink1)); assert!(at.file_exists(symlink2)); assert_eq!(at.read(symlink2), CONTENTS,); assert_eq!(FILE_NAME, at.resolve_link(backup)); } } #[test] fn test_same_file_from_symlink_to_symlink_with_option_backup_and_no_deref() { for option in ["-bd", "-bdf"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let symlink1 = "sl1"; let symlink2 = "sl2"; let backup = "sl2~"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, symlink1); at.symlink_file(FILE_NAME, symlink2); scene.ucmd().args(&[option, symlink1, symlink2]).succeeds(); assert!(at.file_exists(FILE_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); assert_eq!(FILE_NAME, at.resolve_link(symlink1)); assert_eq!(FILE_NAME, at.resolve_link(symlink2)); assert_eq!(FILE_NAME, at.resolve_link(backup)); } } #[test] fn test_same_file_from_symlink_to_symlink_with_option_link() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let symlink1 = "sl1"; let symlink2 = "sl2"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, symlink1); at.symlink_file(FILE_NAME, symlink2); scene .ucmd() .args(&["-l", symlink1, symlink2]) .fails() .stderr_contains("cannot create hard link 'sl2' to 'sl1'"); assert!(at.file_exists(FILE_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); assert_eq!(FILE_NAME, at.resolve_link(symlink1)); assert_eq!(FILE_NAME, at.resolve_link(symlink2)); } #[test] fn test_same_file_from_symlink_to_symlink_with_option_force_link() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let symlink1 = "sl1"; let symlink2 = "sl2"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, symlink1); at.symlink_file(FILE_NAME, symlink2); scene.ucmd().args(&["-fl", symlink1, symlink2]).succeeds(); assert!(at.file_exists(FILE_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); assert_eq!(FILE_NAME, at.resolve_link(symlink1)); assert!(at.file_exists(symlink2)); assert_eq!(at.read(symlink2), CONTENTS,); } #[test] fn test_same_file_from_symlink_to_symlink_with_option_backup_and_link() { for option in ["-bl", "-bfl"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let symlink1 = "sl1"; let symlink2 = "sl2"; let backup = "sl2~"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, symlink1); at.symlink_file(FILE_NAME, symlink2); scene.ucmd().args(&[option, symlink1, symlink2]).succeeds(); assert!(at.file_exists(FILE_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); assert_eq!(FILE_NAME, at.resolve_link(symlink1)); assert!(at.file_exists(symlink2)); assert_eq!(at.read(symlink2), CONTENTS,); assert_eq!(FILE_NAME, at.resolve_link(backup)); } } #[test] fn test_same_file_from_symlink_to_symlink_with_option_symlink() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let symlink1 = "sl1"; let symlink2 = "sl2"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, symlink1); at.symlink_file(FILE_NAME, symlink2); scene .ucmd() .args(&["-s", symlink1, symlink2]) .fails() .stderr_contains("cannot create symlink 'sl2' to 'sl1'"); assert!(at.file_exists(FILE_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); assert_eq!(FILE_NAME, at.resolve_link(symlink1)); assert_eq!(FILE_NAME, at.resolve_link(symlink2)); } #[test] fn test_same_file_from_symlink_to_symlink_with_option_symlink_and_force() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let symlink1 = "sl1"; let symlink2 = "sl2"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, symlink1); at.symlink_file(FILE_NAME, symlink2); scene.ucmd().args(&["-sf", symlink1, symlink2]).succeeds(); assert!(at.file_exists(FILE_NAME)); assert_eq!(at.read(FILE_NAME), CONTENTS,); assert_eq!(FILE_NAME, at.resolve_link(symlink1)); assert_eq!(symlink1, at.resolve_link(symlink2)); } // the following tests tries to copy file to a hardlink of the same file with // various options #[test] fn test_same_file_from_file_to_hardlink() { for option in ["-d", "-f", "-df"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let hardlink = "hardlink"; at.write(FILE_NAME, CONTENTS); at.hard_link(FILE_NAME, hardlink); scene .ucmd() .args(&[option, FILE_NAME, hardlink]) .fails() .stderr_contains("'foo' and 'hardlink' are the same file"); assert!(at.file_exists(FILE_NAME)); assert!(at.file_exists(hardlink)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } #[test] fn test_same_file_from_file_to_hardlink_with_option_rem() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let hardlink = "hardlink"; at.write(FILE_NAME, CONTENTS); at.hard_link(FILE_NAME, hardlink); scene .ucmd() .args(&["--rem", FILE_NAME, hardlink]) .succeeds(); assert!(at.file_exists(FILE_NAME)); assert!(at.file_exists(hardlink)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } #[test] fn test_same_file_from_file_to_hardlink_with_option_backup() { for option in ["-b", "-bd", "-bf", "-bdf"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let hardlink = "hardlink"; let backup = "hardlink~"; at.write(FILE_NAME, CONTENTS); at.hard_link(FILE_NAME, hardlink); scene.ucmd().args(&[option, FILE_NAME, hardlink]).succeeds(); assert!(at.file_exists(FILE_NAME)); assert!(at.file_exists(hardlink)); assert!(at.file_exists(backup)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } #[test] fn test_same_file_from_file_to_hardlink_with_option_link() { for option in ["-l", "-dl", "-fl", "-dfl", "-bl", "-bdl", "-bfl", "-bdfl"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let hardlink = "hardlink"; at.write(FILE_NAME, CONTENTS); at.hard_link(FILE_NAME, hardlink); scene.ucmd().args(&[option, FILE_NAME, hardlink]).succeeds(); assert!(at.file_exists(FILE_NAME)); assert!(at.file_exists(hardlink)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } #[test] fn test_same_file_from_file_to_hardlink_with_option_symlink() { for option in ["-s", "-sf"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let hardlink = "hardlink"; at.write(FILE_NAME, CONTENTS); at.hard_link(FILE_NAME, hardlink); scene .ucmd() .args(&[option, FILE_NAME, hardlink]) .fails() .stderr_contains("'foo' and 'hardlink' are the same file"); assert!(at.file_exists(FILE_NAME)); assert!(at.file_exists(hardlink)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } // the following tests tries to copy symlink to a hardlink of the same symlink with // various options #[test] fn test_same_file_from_hard_link_of_symlink_to_symlink() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let hardlink_to_symlink = "hlsl"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); at.hard_link(SYMLINK_NAME, hardlink_to_symlink); scene .ucmd() .args(&[hardlink_to_symlink, SYMLINK_NAME]) .fails() .stderr_contains("cp: 'hlsl' and 'symlink' are the same file"); assert!(at.file_exists(FILE_NAME)); assert!(at.symlink_exists(SYMLINK_NAME)); assert!(at.symlink_exists(hardlink_to_symlink)); assert_eq!(FILE_NAME, at.resolve_link(SYMLINK_NAME)); assert_eq!(FILE_NAME, at.resolve_link(hardlink_to_symlink)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } #[test] fn test_same_file_from_hard_link_of_symlink_to_symlink_with_option_force() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let hardlink_to_symlink = "hlsl"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); at.hard_link(SYMLINK_NAME, hardlink_to_symlink); scene .ucmd() .args(&["-f", hardlink_to_symlink, SYMLINK_NAME]) .fails() .stderr_contains("cp: 'hlsl' and 'symlink' are the same file"); assert!(at.file_exists(FILE_NAME)); assert!(at.symlink_exists(SYMLINK_NAME)); assert!(at.symlink_exists(hardlink_to_symlink)); assert_eq!(FILE_NAME, at.resolve_link(SYMLINK_NAME)); assert_eq!(FILE_NAME, at.resolve_link(hardlink_to_symlink)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } #[test] fn test_same_file_from_hard_link_of_symlink_to_symlink_with_option_no_deref() { for option in ["-d", "-df"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let hardlink_to_symlink = "hlsl"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); at.hard_link(SYMLINK_NAME, hardlink_to_symlink); scene .ucmd() .args(&[option, hardlink_to_symlink, SYMLINK_NAME]) .succeeds(); assert!(at.file_exists(FILE_NAME)); assert!(at.symlink_exists(SYMLINK_NAME)); assert!(at.symlink_exists(hardlink_to_symlink)); assert_eq!(FILE_NAME, at.resolve_link(SYMLINK_NAME)); assert_eq!(FILE_NAME, at.resolve_link(hardlink_to_symlink)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } #[test] fn test_same_file_from_hard_link_of_symlink_to_symlink_with_option_rem() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let hardlink_to_symlink = "hlsl"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); at.hard_link(SYMLINK_NAME, hardlink_to_symlink); scene .ucmd() .args(&["--rem", hardlink_to_symlink, SYMLINK_NAME]) .succeeds(); assert!(at.file_exists(FILE_NAME)); assert!(at.file_exists(SYMLINK_NAME)); assert!(!at.symlink_exists(SYMLINK_NAME)); assert!(at.symlink_exists(hardlink_to_symlink)); assert_eq!(FILE_NAME, at.resolve_link(hardlink_to_symlink)); assert_eq!(at.read(FILE_NAME), CONTENTS,); assert_eq!(at.read(SYMLINK_NAME), CONTENTS,); } #[test] fn test_same_file_from_hard_link_of_symlink_to_symlink_with_option_backup() { for option in ["-b", "-bf"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let backup = "symlink~"; let hardlink_to_symlink = "hlsl"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); at.hard_link(SYMLINK_NAME, hardlink_to_symlink); scene .ucmd() .args(&[option, hardlink_to_symlink, SYMLINK_NAME]) .succeeds(); assert!(at.file_exists(FILE_NAME)); assert!(at.file_exists(SYMLINK_NAME)); assert!(!at.symlink_exists(SYMLINK_NAME)); assert!(at.symlink_exists(hardlink_to_symlink)); assert_eq!(FILE_NAME, at.resolve_link(hardlink_to_symlink)); assert!(at.symlink_exists(backup)); assert_eq!(FILE_NAME, at.resolve_link(backup)); assert_eq!(at.read(FILE_NAME), CONTENTS,); assert_eq!(at.read(SYMLINK_NAME), CONTENTS,); } } #[test] fn test_same_file_from_hard_link_of_symlink_to_symlink_with_option_backup_and_no_deref() { for option in ["-bd", "-bdf"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let backup = "symlink~"; let hardlink_to_symlink = "hlsl"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); at.hard_link(SYMLINK_NAME, hardlink_to_symlink); scene .ucmd() .args(&[option, hardlink_to_symlink, SYMLINK_NAME]) .succeeds(); assert!(at.file_exists(FILE_NAME)); assert!(at.symlink_exists(SYMLINK_NAME)); assert_eq!(FILE_NAME, at.resolve_link(SYMLINK_NAME)); assert!(at.symlink_exists(hardlink_to_symlink)); assert_eq!(FILE_NAME, at.resolve_link(hardlink_to_symlink)); assert!(at.symlink_exists(backup)); assert_eq!(FILE_NAME, at.resolve_link(backup)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } #[test] fn test_same_file_from_hard_link_of_symlink_to_symlink_with_option_link() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let hardlink_to_symlink = "hlsl"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); at.hard_link(SYMLINK_NAME, hardlink_to_symlink); scene .ucmd() .args(&["-l", hardlink_to_symlink, SYMLINK_NAME]) .fails() .stderr_contains("cannot create hard link 'symlink' to 'hlsl'"); assert!(at.file_exists(FILE_NAME)); assert!(at.symlink_exists(SYMLINK_NAME)); assert!(at.symlink_exists(hardlink_to_symlink)); assert_eq!(FILE_NAME, at.resolve_link(SYMLINK_NAME)); assert_eq!(FILE_NAME, at.resolve_link(hardlink_to_symlink)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } #[test] fn test_same_file_from_hard_link_of_symlink_to_symlink_with_option_link_and_no_deref() { for option in ["-dl", "-dfl"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let hardlink_to_symlink = "hlsl"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); at.hard_link(SYMLINK_NAME, hardlink_to_symlink); scene .ucmd() .args(&[option, hardlink_to_symlink, SYMLINK_NAME]) .succeeds(); assert!(at.file_exists(FILE_NAME)); assert!(at.symlink_exists(SYMLINK_NAME)); assert!(at.symlink_exists(hardlink_to_symlink)); assert_eq!(FILE_NAME, at.resolve_link(SYMLINK_NAME)); assert_eq!(FILE_NAME, at.resolve_link(hardlink_to_symlink)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } #[test] fn test_same_file_from_hard_link_of_symlink_to_symlink_with_option_link_and_force() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let hardlink_to_symlink = "hlsl"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); at.hard_link(SYMLINK_NAME, hardlink_to_symlink); scene .ucmd() .args(&["-fl", hardlink_to_symlink, SYMLINK_NAME]) .succeeds(); assert!(at.file_exists(FILE_NAME)); assert!(at.file_exists(SYMLINK_NAME)); assert!(!at.symlink_exists(SYMLINK_NAME)); assert!(at.symlink_exists(hardlink_to_symlink)); assert_eq!(FILE_NAME, at.resolve_link(hardlink_to_symlink)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } #[test] fn test_same_file_from_hard_link_of_symlink_to_symlink_with_option_link_and_backup() { for option in ["-bl", "-bfl"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let backup = "symlink~"; let hardlink_to_symlink = "hlsl"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); at.hard_link(SYMLINK_NAME, hardlink_to_symlink); scene .ucmd() .args(&[option, hardlink_to_symlink, SYMLINK_NAME]) .succeeds(); assert!(at.file_exists(FILE_NAME)); assert!(at.file_exists(SYMLINK_NAME)); assert!(!at.symlink_exists(SYMLINK_NAME)); assert!(at.symlink_exists(hardlink_to_symlink)); assert_eq!(FILE_NAME, at.resolve_link(hardlink_to_symlink)); assert!(at.symlink_exists(backup)); assert_eq!(FILE_NAME, at.resolve_link(backup)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } #[test] fn test_same_file_from_hard_link_of_symlink_to_symlink_with_options_backup_link_no_deref() { for option in ["-bdl", "-bdfl"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let hardlink_to_symlink = "hlsl"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); at.hard_link(SYMLINK_NAME, hardlink_to_symlink); scene .ucmd() .args(&[option, hardlink_to_symlink, SYMLINK_NAME]) .succeeds(); assert!(at.file_exists(FILE_NAME)); assert!(at.symlink_exists(SYMLINK_NAME)); assert!(at.symlink_exists(hardlink_to_symlink)); assert_eq!(FILE_NAME, at.resolve_link(SYMLINK_NAME)); assert_eq!(FILE_NAME, at.resolve_link(hardlink_to_symlink)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } #[test] fn test_same_file_from_hard_link_of_symlink_to_symlink_with_option_symlink() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let hardlink_to_symlink = "hlsl"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); at.hard_link(SYMLINK_NAME, hardlink_to_symlink); scene .ucmd() .args(&["-s", hardlink_to_symlink, SYMLINK_NAME]) .fails() .stderr_contains("cannot create symlink 'symlink' to 'hlsl'"); assert!(at.file_exists(FILE_NAME)); assert!(at.symlink_exists(SYMLINK_NAME)); assert!(at.symlink_exists(hardlink_to_symlink)); assert_eq!(FILE_NAME, at.resolve_link(SYMLINK_NAME)); assert_eq!(FILE_NAME, at.resolve_link(hardlink_to_symlink)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } #[test] fn test_same_file_from_hard_link_of_symlink_to_symlink_with_option_symlink_and_force() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; let hardlink_to_symlink = "hlsl"; at.write(FILE_NAME, CONTENTS); at.symlink_file(FILE_NAME, SYMLINK_NAME); at.hard_link(SYMLINK_NAME, hardlink_to_symlink); scene .ucmd() .args(&["-sf", hardlink_to_symlink, SYMLINK_NAME]) .succeeds(); assert!(at.file_exists(FILE_NAME)); assert!(at.symlink_exists(SYMLINK_NAME)); assert!(at.symlink_exists(hardlink_to_symlink)); assert_eq!(hardlink_to_symlink, at.resolve_link(SYMLINK_NAME)); assert_eq!(FILE_NAME, at.resolve_link(hardlink_to_symlink)); assert_eq!(at.read(FILE_NAME), CONTENTS,); } } // the following tests are for how the cp should behave when the source is a symlink // and link option is given #[cfg(all(unix, not(target_os = "android")))] mod link_deref { use crate::common::util::{AtPath, TestScenario}; use std::os::unix::fs::MetadataExt; const FILE: &str = "file"; const FILE_LINK: &str = "file_link"; const DIR: &str = "dir"; const DIR_LINK: &str = "dir_link"; const DANG_LINK: &str = "dang_link"; const DST: &str = "dst"; fn setup_link_deref_tests(source: &str, at: &AtPath) { match source { FILE_LINK => { at.touch(FILE); at.symlink_file(FILE, FILE_LINK); } DIR_LINK => { at.mkdir(DIR); at.symlink_dir(DIR, DIR_LINK); } DANG_LINK => at.symlink_file("nowhere", DANG_LINK), _ => {} } } // cp --link shouldn't deref source if -P is given #[test] fn test_cp_symlink_as_source_with_link_and_no_deref() { for src in [FILE_LINK, DIR_LINK, DANG_LINK] { for r in [false, true] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; setup_link_deref_tests(src, at); let mut args = vec!["--link", "-P", src, DST]; if r { args.push("-R"); }; scene.ucmd().args(&args).succeeds().no_stderr(); at.is_symlink(DST); let src_ino = at.symlink_metadata(src).ino(); let dest_ino = at.symlink_metadata(DST).ino(); assert_eq!(src_ino, dest_ino); } } } // Dereferencing should fail for dangling symlink. #[test] fn test_cp_dang_link_as_source_with_link() { for option in ["", "-L", "-H"] { for r in [false, true] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; setup_link_deref_tests(DANG_LINK, at); let mut args = vec!["--link", DANG_LINK, DST]; if r { args.push("-R"); }; if !option.is_empty() { args.push(option); } scene .ucmd() .args(&args) .fails() .stderr_contains("No such file or directory"); } } } // Dereferencing should fail for the 'dir_link' without -R. #[test] fn test_cp_dir_link_as_source_with_link() { for option in ["", "-L", "-H"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; setup_link_deref_tests(DIR_LINK, at); let mut args = vec!["--link", DIR_LINK, DST]; if !option.is_empty() { args.push(option); } scene .ucmd() .args(&args) .fails() .stderr_contains("cp: -r not specified; omitting directory"); } } // cp --link -R 'dir_link' should create a new directory. #[test] fn test_cp_dir_link_as_source_with_link_and_r() { for option in ["", "-L", "-H"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; setup_link_deref_tests(DIR_LINK, at); let mut args = vec!["--link", "-R", DIR_LINK, DST]; if !option.is_empty() { args.push(option); } scene.ucmd().args(&args).succeeds(); at.dir_exists(DST); } } //cp --link 'file_link' should create a hard link to the target. #[test] fn test_cp_file_link_as_source_with_link() { for option in ["", "-L", "-H"] { for r in [false, true] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; setup_link_deref_tests(FILE_LINK, at); let mut args = vec!["--link", "-R", FILE_LINK, DST]; if !option.is_empty() { args.push(option); } if r { args.push("-R"); } scene.ucmd().args(&args).succeeds(); at.file_exists(DST); let src_ino = at.symlink_metadata(FILE).ino(); let dest_ino = at.symlink_metadata(DST).ino(); assert_eq!(src_ino, dest_ino); } } } } // The cp command might create directories with excessively permissive permissions temporarily, // which could be problematic if we aim to preserve ownership or mode. For example, when // copying a directory, the destination directory could temporarily be setgid on some filesystems. // This temporary setgid status could grant access to other users who share the same group // ownership as the newly created directory.To mitigate this issue, when creating a directory we // disable these excessive permissions. #[test] #[cfg(unix)] #[cfg(not(target_os = "openbsd"))] fn test_dir_perm_race_with_preserve_mode_and_ownership() { const SRC_DIR: &str = "src"; const DEST_DIR: &str = "dest"; const FIFO: &str = "src/fifo"; for attr in ["mode", "ownership"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.mkdir(SRC_DIR); at.mkdir(DEST_DIR); at.set_mode(SRC_DIR, 0o775); at.set_mode(DEST_DIR, 0o2775); at.mkfifo(FIFO); let child = scene .ucmd() .args(&[ format!("--preserve={}", attr).as_str(), "-R", "--copy-contents", "--parents", SRC_DIR, DEST_DIR, ]) // make sure permissions weren't disabled because of umask. .umask(0) .run_no_wait(); // while cp wait for fifo we could check the dirs created by cp let timeout = Duration::from_secs(10); let start_time = std::time::Instant::now(); // wait for cp to create dirs loop { assert!( start_time.elapsed() < timeout, "timed out: cp took too long to create destination directory" ); if at.dir_exists(&format!("{}/{}", DEST_DIR, SRC_DIR)) { break; } std::thread::sleep(Duration::from_millis(100)); } let mode = at.metadata(&format!("{}/{}", DEST_DIR, SRC_DIR)).mode(); #[allow(clippy::unnecessary_cast, clippy::cast_lossless)] let mask = if attr == "mode" { libc::S_IWGRP | libc::S_IWOTH } else { libc::S_IRWXG | libc::S_IRWXO } as u32; assert_eq!( (mode & mask), 0, "unwanted permissions are present - {}", attr ); at.write(FIFO, "done"); child.wait().unwrap().succeeded(); } } #[test] // when -d and -a are overridden with --preserve or --no-preserve make sure that it only // overrides attributes not other flags like -r or --no_deref implied in -a and -d. fn test_preserve_attrs_overriding_1() { const FILE: &str = "file"; const SYMLINK: &str = "symlink"; const DEST: &str = "dest"; for f in ["-d", "-a"] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.make_file(FILE); at.symlink_file(FILE, SYMLINK); scene .ucmd() .args(&[f, "--no-preserve=all", SYMLINK, DEST]) .succeeds(); at.symlink_exists(DEST); } } #[test] #[cfg(all(unix, not(target_os = "android")))] fn test_preserve_attrs_overriding_2() { const FILE1: &str = "file1"; const FILE2: &str = "file2"; const FOLDER: &str = "folder"; const DEST: &str = "dest"; for mut args in [ // All of the following to args should tell cp to preserve mode and // timestamp, but not the link. vec!["-r", "--preserve=mode,link,timestamp", "--no-preserve=link"], vec![ "-r", "--preserve=mode", "--preserve=link", "--preserve=timestamp", "--no-preserve=link", ], vec![ "-r", "--preserve=mode,link", "--no-preserve=link", "--preserve=timestamp", ], vec!["-a", "--no-preserve=link"], vec!["-r", "--preserve", "--no-preserve=link"], ] { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.mkdir(FOLDER); at.make_file(&format!("{}/{}", FOLDER, FILE1)); at.set_mode(&format!("{}/{}", FOLDER, FILE1), 0o775); at.hard_link( &format!("{}/{}", FOLDER, FILE1), &format!("{}/{}", FOLDER, FILE2), ); args.append(&mut vec![FOLDER, DEST]); let src_file1_metadata = at.metadata(&format!("{}/{}", FOLDER, FILE1)); scene.ucmd().args(&args).succeeds(); at.dir_exists(DEST); let dest_file1_metadata = at.metadata(&format!("{}/{}", DEST, FILE1)); let dest_file2_metadata = at.metadata(&format!("{}/{}", DEST, FILE2)); assert_eq!( src_file1_metadata.modified().unwrap(), dest_file1_metadata.modified().unwrap() ); assert_eq!(src_file1_metadata.mode(), dest_file1_metadata.mode()); assert_ne!(dest_file1_metadata.ino(), dest_file2_metadata.ino()); } } /// Test the behavior of preserving permissions when copying through a symlink #[test] #[cfg(unix)] fn test_cp_symlink_permissions() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.touch("a"); at.set_mode("a", 0o700); at.symlink_file("a", "symlink"); at.mkdir("dest"); scene .ucmd() .args(&["--preserve", "symlink", "dest"]) .succeeds(); let dest_dir_metadata = at.metadata("dest/symlink"); let src_dir_metadata = at.metadata("a"); assert_eq!( src_dir_metadata.permissions().mode(), dest_dir_metadata.permissions().mode() ); } /// Test the behavior of preserving permissions of parents when copying through a symlink #[test] #[cfg(unix)] fn test_cp_parents_symlink_permissions_file() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.mkdir("a"); at.touch("a/file"); at.set_mode("a", 0o700); at.symlink_dir("a", "symlink"); at.mkdir("dest"); scene .ucmd() .args(&["--parents", "-a", "symlink/file", "dest"]) .succeeds(); let dest_dir_metadata = at.metadata("dest/symlink"); let src_dir_metadata = at.metadata("a"); assert_eq!( src_dir_metadata.permissions().mode(), dest_dir_metadata.permissions().mode() ); } /// Test the behavior of preserving permissions of parents when copying through /// a symlink when source is a dir. #[test] #[cfg(unix)] fn test_cp_parents_symlink_permissions_dir() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.mkdir_all("a/b"); at.set_mode("a", 0o755); // Set mode for the actual directory at.symlink_dir("a", "symlink"); at.mkdir("dest"); scene .ucmd() .args(&["--parents", "-a", "symlink/b", "dest"]) .succeeds(); let dest_dir_metadata = at.metadata("dest/symlink"); let src_dir_metadata = at.metadata("a"); assert_eq!( src_dir_metadata.permissions().mode(), dest_dir_metadata.permissions().mode() ); } /// Test the behavior of copying a file to a destination with parents using absolute paths. #[cfg(unix)] #[test] fn test_cp_parents_absolute_path() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; at.mkdir_all("a/b"); at.touch("a/b/f"); at.mkdir("dest"); let src = format!("{}/a/b/f", at.root_dir_resolved()); scene .ucmd() .args(&["--parents", src.as_str(), "dest"]) .succeeds(); let res = format!("dest{}/a/b/f", at.root_dir_resolved()); at.file_exists(res); }