extern crate filetime; extern crate tar; extern crate tempfile; #[cfg(all(unix, feature = "xattr"))] extern crate xattr; use std::fs::{self, File}; use std::io::prelude::*; use std::io::{self, Cursor}; use std::iter::repeat; use std::path::{Path, PathBuf}; use filetime::FileTime; use tar::{Archive, Builder, Entries, EntryType, Header, HeaderMode}; use tempfile::{Builder as TempBuilder, TempDir}; macro_rules! t { ($e:expr) => { match $e { Ok(v) => v, Err(e) => panic!("{} returned {}", stringify!($e), e), } }; } macro_rules! tar { ($e:expr) => { &include_bytes!(concat!("archives/", $e))[..] }; } mod header; /// test that we can concatenate the simple.tar archive and extract the same entries twice when we /// use the ignore_zeros option. #[test] fn simple_concat() { let bytes = tar!("simple.tar"); let mut archive_bytes = Vec::new(); archive_bytes.extend(bytes); let original_names: Vec = decode_names(&mut Archive::new(Cursor::new(&archive_bytes))); let expected: Vec<&str> = original_names.iter().map(|n| n.as_str()).collect(); // concat two archives (with null in-between); archive_bytes.extend(bytes); // test now that when we read the archive, it stops processing at the first zero header. let actual = decode_names(&mut Archive::new(Cursor::new(&archive_bytes))); assert_eq!(expected, actual); // extend expected by itself. let expected: Vec<&str> = { let mut o = Vec::new(); o.extend(&expected); o.extend(&expected); o }; let mut ar = Archive::new(Cursor::new(&archive_bytes)); ar.set_ignore_zeros(true); let actual = decode_names(&mut ar); assert_eq!(expected, actual); fn decode_names(ar: &mut Archive) -> Vec where R: Read, { let mut names = Vec::new(); for entry in t!(ar.entries()) { let e = t!(entry); names.push(t!(::std::str::from_utf8(&e.path_bytes())).to_string()); } names } } #[test] fn header_impls() { let mut ar = Archive::new(Cursor::new(tar!("simple.tar"))); let hn = Header::new_old(); let hnb = hn.as_bytes(); for file in t!(ar.entries()) { let file = t!(file); let h1 = file.header(); let h1b = h1.as_bytes(); let h2 = h1.clone(); let h2b = h2.as_bytes(); assert!(h1b[..] == h2b[..] && h2b[..] != hnb[..]) } } #[test] fn header_impls_missing_last_header() { let mut ar = Archive::new(Cursor::new(tar!("simple_missing_last_header.tar"))); let hn = Header::new_old(); let hnb = hn.as_bytes(); for file in t!(ar.entries()) { let file = t!(file); let h1 = file.header(); let h1b = h1.as_bytes(); let h2 = h1.clone(); let h2b = h2.as_bytes(); assert!(h1b[..] == h2b[..] && h2b[..] != hnb[..]) } } #[test] fn reading_files() { let rdr = Cursor::new(tar!("reading_files.tar")); let mut ar = Archive::new(rdr); let mut entries = t!(ar.entries()); let mut a = t!(entries.next().unwrap()); assert_eq!(&*a.header().path_bytes(), b"a"); let mut s = String::new(); t!(a.read_to_string(&mut s)); assert_eq!(s, "a\na\na\na\na\na\na\na\na\na\na\n"); let mut b = t!(entries.next().unwrap()); assert_eq!(&*b.header().path_bytes(), b"b"); s.truncate(0); t!(b.read_to_string(&mut s)); assert_eq!(s, "b\nb\nb\nb\nb\nb\nb\nb\nb\nb\nb\n"); assert!(entries.next().is_none()); } #[test] fn writing_files() { let mut ar = Builder::new(Vec::new()); let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let path = td.path().join("test"); t!(t!(File::create(&path)).write_all(b"test")); t!(ar.append_file("test2", &mut t!(File::open(&path)))); let data = t!(ar.into_inner()); let mut ar = Archive::new(Cursor::new(data)); let mut entries = t!(ar.entries()); let mut f = t!(entries.next().unwrap()); assert_eq!(&*f.header().path_bytes(), b"test2"); assert_eq!(f.header().size().unwrap(), 4); let mut s = String::new(); t!(f.read_to_string(&mut s)); assert_eq!(s, "test"); assert!(entries.next().is_none()); } #[test] fn large_filename() { let mut ar = Builder::new(Vec::new()); let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let path = td.path().join("test"); t!(t!(File::create(&path)).write_all(b"test")); let filename = repeat("abcd/").take(50).collect::(); let mut header = Header::new_ustar(); header.set_path(&filename).unwrap(); header.set_metadata(&t!(fs::metadata(&path))); header.set_cksum(); t!(ar.append(&header, &b"test"[..])); let too_long = repeat("abcd").take(200).collect::(); t!(ar.append_file(&too_long, &mut t!(File::open(&path)))); t!(ar.append_data(&mut header, &too_long, &b"test"[..])); let rd = Cursor::new(t!(ar.into_inner())); let mut ar = Archive::new(rd); let mut entries = t!(ar.entries()); // The short entry added with `append` let mut f = entries.next().unwrap().unwrap(); assert_eq!(&*f.header().path_bytes(), filename.as_bytes()); assert_eq!(f.header().size().unwrap(), 4); let mut s = String::new(); t!(f.read_to_string(&mut s)); assert_eq!(s, "test"); // The long entry added with `append_file` let mut f = entries.next().unwrap().unwrap(); assert_eq!(&*f.path_bytes(), too_long.as_bytes()); assert_eq!(f.header().size().unwrap(), 4); let mut s = String::new(); t!(f.read_to_string(&mut s)); assert_eq!(s, "test"); // The long entry added with `append_data` let mut f = entries.next().unwrap().unwrap(); assert!(f.header().path_bytes().len() < too_long.len()); assert_eq!(&*f.path_bytes(), too_long.as_bytes()); assert_eq!(f.header().size().unwrap(), 4); let mut s = String::new(); t!(f.read_to_string(&mut s)); assert_eq!(s, "test"); assert!(entries.next().is_none()); } fn reading_entries_common(mut entries: Entries) { let mut a = t!(entries.next().unwrap()); assert_eq!(&*a.header().path_bytes(), b"a"); let mut s = String::new(); t!(a.read_to_string(&mut s)); assert_eq!(s, "a\na\na\na\na\na\na\na\na\na\na\n"); s.truncate(0); t!(a.read_to_string(&mut s)); assert_eq!(s, ""); let mut b = t!(entries.next().unwrap()); assert_eq!(&*b.header().path_bytes(), b"b"); s.truncate(0); t!(b.read_to_string(&mut s)); assert_eq!(s, "b\nb\nb\nb\nb\nb\nb\nb\nb\nb\nb\n"); assert!(entries.next().is_none()); } #[test] fn reading_entries() { let rdr = Cursor::new(tar!("reading_files.tar")); let mut ar = Archive::new(rdr); reading_entries_common(t!(ar.entries())); } #[test] fn reading_entries_with_seek() { let rdr = Cursor::new(tar!("reading_files.tar")); let mut ar = Archive::new(rdr); reading_entries_common(t!(ar.entries_with_seek())); } struct LoggingReader { inner: R, read_bytes: u64, } impl LoggingReader { fn new(reader: R) -> LoggingReader { LoggingReader { inner: reader, read_bytes: 0, } } } impl Read for LoggingReader { fn read(&mut self, buf: &mut [u8]) -> io::Result { self.inner.read(buf).map(|i| { self.read_bytes += i as u64; i }) } } impl Seek for LoggingReader { fn seek(&mut self, pos: io::SeekFrom) -> io::Result { self.inner.seek(pos) } } #[test] fn skipping_entries_with_seek() { let mut reader = LoggingReader::new(Cursor::new(tar!("reading_files.tar"))); let mut ar_reader = Archive::new(&mut reader); let files: Vec<_> = t!(ar_reader.entries()) .map(|entry| entry.unwrap().path().unwrap().to_path_buf()) .collect(); let mut seekable_reader = LoggingReader::new(Cursor::new(tar!("reading_files.tar"))); let mut ar_seekable_reader = Archive::new(&mut seekable_reader); let files_seekable: Vec<_> = t!(ar_seekable_reader.entries_with_seek()) .map(|entry| entry.unwrap().path().unwrap().to_path_buf()) .collect(); assert!(files == files_seekable); assert!(seekable_reader.read_bytes < reader.read_bytes); } fn check_dirtree(td: &TempDir) { let dir_a = td.path().join("a"); let dir_b = td.path().join("a/b"); let file_c = td.path().join("a/c"); assert!(fs::metadata(&dir_a).map(|m| m.is_dir()).unwrap_or(false)); assert!(fs::metadata(&dir_b).map(|m| m.is_dir()).unwrap_or(false)); assert!(fs::metadata(&file_c).map(|m| m.is_file()).unwrap_or(false)); } #[test] fn extracting_directories() { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let rdr = Cursor::new(tar!("directory.tar")); let mut ar = Archive::new(rdr); t!(ar.unpack(td.path())); check_dirtree(&td); } #[test] fn extracting_duplicate_file_fail() { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let path_present = td.path().join("a"); t!(File::create(path_present)); let rdr = Cursor::new(tar!("reading_files.tar")); let mut ar = Archive::new(rdr); ar.set_overwrite(false); if let Err(err) = ar.unpack(td.path()) { if err.kind() == std::io::ErrorKind::AlreadyExists { // as expected with overwrite false return; } panic!("unexpected error: {:?}", err); } panic!( "unpack() should have returned an error of kind {:?}, returned Ok", std::io::ErrorKind::AlreadyExists ) } #[test] fn extracting_duplicate_file_succeed() { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let path_present = td.path().join("a"); t!(File::create(path_present)); let rdr = Cursor::new(tar!("reading_files.tar")); let mut ar = Archive::new(rdr); ar.set_overwrite(true); t!(ar.unpack(td.path())); } #[test] #[cfg(unix)] fn extracting_duplicate_link_fail() { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let path_present = td.path().join("lnk"); t!(std::os::unix::fs::symlink("file", path_present)); let rdr = Cursor::new(tar!("link.tar")); let mut ar = Archive::new(rdr); ar.set_overwrite(false); if let Err(err) = ar.unpack(td.path()) { if err.kind() == std::io::ErrorKind::AlreadyExists { // as expected with overwrite false return; } panic!("unexpected error: {:?}", err); } panic!( "unpack() should have returned an error of kind {:?}, returned Ok", std::io::ErrorKind::AlreadyExists ) } #[test] #[cfg(unix)] fn extracting_duplicate_link_succeed() { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let path_present = td.path().join("lnk"); t!(std::os::unix::fs::symlink("file", path_present)); let rdr = Cursor::new(tar!("link.tar")); let mut ar = Archive::new(rdr); ar.set_overwrite(true); t!(ar.unpack(td.path())); } #[test] #[cfg(all(unix, feature = "xattr"))] fn xattrs() { // If /tmp is a tmpfs, xattr will fail // The xattr crate's unit tests also use /var/tmp for this reason let td = t!(TempBuilder::new().prefix("tar-rs").tempdir_in("/var/tmp")); let rdr = Cursor::new(tar!("xattrs.tar")); let mut ar = Archive::new(rdr); ar.set_unpack_xattrs(true); t!(ar.unpack(td.path())); let val = xattr::get(td.path().join("a/b"), "user.pax.flags").unwrap(); assert_eq!(val.unwrap(), "epm".as_bytes()); } #[test] #[cfg(all(unix, feature = "xattr"))] fn no_xattrs() { // If /tmp is a tmpfs, xattr will fail // The xattr crate's unit tests also use /var/tmp for this reason let td = t!(TempBuilder::new().prefix("tar-rs").tempdir_in("/var/tmp")); let rdr = Cursor::new(tar!("xattrs.tar")); let mut ar = Archive::new(rdr); ar.set_unpack_xattrs(false); t!(ar.unpack(td.path())); assert_eq!( xattr::get(td.path().join("a/b"), "user.pax.flags").unwrap(), None ); } #[test] fn writing_and_extracting_directories() { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let mut ar = Builder::new(Vec::new()); let tmppath = td.path().join("tmpfile"); t!(t!(File::create(&tmppath)).write_all(b"c")); t!(ar.append_dir("a", ".")); t!(ar.append_dir("a/b", ".")); t!(ar.append_file("a/c", &mut t!(File::open(&tmppath)))); t!(ar.finish()); let rdr = Cursor::new(t!(ar.into_inner())); let mut ar = Archive::new(rdr); t!(ar.unpack(td.path())); check_dirtree(&td); } #[test] fn writing_directories_recursively() { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let base_dir = td.path().join("base"); t!(fs::create_dir(&base_dir)); t!(t!(File::create(base_dir.join("file1"))).write_all(b"file1")); let sub_dir = base_dir.join("sub"); t!(fs::create_dir(&sub_dir)); t!(t!(File::create(sub_dir.join("file2"))).write_all(b"file2")); let mut ar = Builder::new(Vec::new()); t!(ar.append_dir_all("foobar", base_dir)); let data = t!(ar.into_inner()); let mut ar = Archive::new(Cursor::new(data)); t!(ar.unpack(td.path())); let base_dir = td.path().join("foobar"); assert!(fs::metadata(&base_dir).map(|m| m.is_dir()).unwrap_or(false)); let file1_path = base_dir.join("file1"); assert!(fs::metadata(&file1_path) .map(|m| m.is_file()) .unwrap_or(false)); let sub_dir = base_dir.join("sub"); assert!(fs::metadata(&sub_dir).map(|m| m.is_dir()).unwrap_or(false)); let file2_path = sub_dir.join("file2"); assert!(fs::metadata(&file2_path) .map(|m| m.is_file()) .unwrap_or(false)); } #[test] fn append_dir_all_blank_dest() { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let base_dir = td.path().join("base"); t!(fs::create_dir(&base_dir)); t!(t!(File::create(base_dir.join("file1"))).write_all(b"file1")); let sub_dir = base_dir.join("sub"); t!(fs::create_dir(&sub_dir)); t!(t!(File::create(sub_dir.join("file2"))).write_all(b"file2")); let mut ar = Builder::new(Vec::new()); t!(ar.append_dir_all("", base_dir)); let data = t!(ar.into_inner()); let mut ar = Archive::new(Cursor::new(data)); t!(ar.unpack(td.path())); let base_dir = td.path(); assert!(fs::metadata(&base_dir).map(|m| m.is_dir()).unwrap_or(false)); let file1_path = base_dir.join("file1"); assert!(fs::metadata(&file1_path) .map(|m| m.is_file()) .unwrap_or(false)); let sub_dir = base_dir.join("sub"); assert!(fs::metadata(&sub_dir).map(|m| m.is_dir()).unwrap_or(false)); let file2_path = sub_dir.join("file2"); assert!(fs::metadata(&file2_path) .map(|m| m.is_file()) .unwrap_or(false)); } #[test] fn append_dir_all_does_not_work_on_non_directory() { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let path = td.path().join("test"); t!(t!(File::create(&path)).write_all(b"test")); let mut ar = Builder::new(Vec::new()); let result = ar.append_dir_all("test", path); assert!(result.is_err()); } #[test] fn extracting_duplicate_dirs() { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let rdr = Cursor::new(tar!("duplicate_dirs.tar")); let mut ar = Archive::new(rdr); t!(ar.unpack(td.path())); let some_dir = td.path().join("some_dir"); assert!(fs::metadata(&some_dir).map(|m| m.is_dir()).unwrap_or(false)); } #[test] fn unpack_old_style_bsd_dir() { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let mut ar = Builder::new(Vec::new()); let mut header = Header::new_old(); header.set_entry_type(EntryType::Regular); t!(header.set_path("testdir/")); header.set_size(0); header.set_cksum(); t!(ar.append(&header, &mut io::empty())); // Extracting let rdr = Cursor::new(t!(ar.into_inner())); let mut ar = Archive::new(rdr); t!(ar.unpack(td.path())); // Iterating let rdr = Cursor::new(ar.into_inner().into_inner()); let mut ar = Archive::new(rdr); assert!(t!(ar.entries()).all(|fr| fr.is_ok())); assert!(td.path().join("testdir").is_dir()); } #[test] fn handling_incorrect_file_size() { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let mut ar = Builder::new(Vec::new()); let path = td.path().join("tmpfile"); t!(File::create(&path)); let mut file = t!(File::open(&path)); let mut header = Header::new_old(); t!(header.set_path("somepath")); header.set_metadata(&t!(file.metadata())); header.set_size(2048); // past the end of file null blocks header.set_cksum(); t!(ar.append(&header, &mut file)); // Extracting let rdr = Cursor::new(t!(ar.into_inner())); let mut ar = Archive::new(rdr); assert!(ar.unpack(td.path()).is_err()); // Iterating let rdr = Cursor::new(ar.into_inner().into_inner()); let mut ar = Archive::new(rdr); assert!(t!(ar.entries()).any(|fr| fr.is_err())); } #[test] fn extracting_malicious_tarball() { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let mut evil_tar = Vec::new(); { let mut a = Builder::new(&mut evil_tar); let mut append = |path: &str| { let mut header = Header::new_gnu(); assert!(header.set_path(path).is_err(), "was ok: {:?}", path); { let h = header.as_gnu_mut().unwrap(); for (a, b) in h.name.iter_mut().zip(path.as_bytes()) { *a = *b; } } header.set_size(1); header.set_cksum(); t!(a.append(&header, io::repeat(1).take(1))); }; append("/tmp/abs_evil.txt"); // std parse `//` as UNC path, see rust-lang/rust#100833 append( #[cfg(not(windows))] "//tmp/abs_evil2.txt", #[cfg(windows)] "C://tmp/abs_evil2.txt", ); append("///tmp/abs_evil3.txt"); append("/./tmp/abs_evil4.txt"); append( #[cfg(not(windows))] "//./tmp/abs_evil5.txt", #[cfg(windows)] "C://./tmp/abs_evil5.txt", ); append("///./tmp/abs_evil6.txt"); append("/../tmp/rel_evil.txt"); append("../rel_evil2.txt"); append("./../rel_evil3.txt"); append("some/../../rel_evil4.txt"); append(""); append("././//./.."); append(".."); append("/////////.."); append("/////////"); } let mut ar = Archive::new(&evil_tar[..]); t!(ar.unpack(td.path())); assert!(fs::metadata("/tmp/abs_evil.txt").is_err()); assert!(fs::metadata("/tmp/abs_evil.txt2").is_err()); assert!(fs::metadata("/tmp/abs_evil.txt3").is_err()); assert!(fs::metadata("/tmp/abs_evil.txt4").is_err()); assert!(fs::metadata("/tmp/abs_evil.txt5").is_err()); assert!(fs::metadata("/tmp/abs_evil.txt6").is_err()); assert!(fs::metadata("/tmp/rel_evil.txt").is_err()); assert!(fs::metadata("/tmp/rel_evil.txt").is_err()); assert!(fs::metadata(td.path().join("../tmp/rel_evil.txt")).is_err()); assert!(fs::metadata(td.path().join("../rel_evil2.txt")).is_err()); assert!(fs::metadata(td.path().join("../rel_evil3.txt")).is_err()); assert!(fs::metadata(td.path().join("../rel_evil4.txt")).is_err()); // The `some` subdirectory should not be created because the only // filename that references this has '..'. assert!(fs::metadata(td.path().join("some")).is_err()); // The `tmp` subdirectory should be created and within this // subdirectory, there should be files named `abs_evil.txt` through // `abs_evil6.txt`. assert!(fs::metadata(td.path().join("tmp")) .map(|m| m.is_dir()) .unwrap_or(false)); assert!(fs::metadata(td.path().join("tmp/abs_evil.txt")) .map(|m| m.is_file()) .unwrap_or(false)); assert!(fs::metadata(td.path().join("tmp/abs_evil2.txt")) .map(|m| m.is_file()) .unwrap_or(false)); assert!(fs::metadata(td.path().join("tmp/abs_evil3.txt")) .map(|m| m.is_file()) .unwrap_or(false)); assert!(fs::metadata(td.path().join("tmp/abs_evil4.txt")) .map(|m| m.is_file()) .unwrap_or(false)); assert!(fs::metadata(td.path().join("tmp/abs_evil5.txt")) .map(|m| m.is_file()) .unwrap_or(false)); assert!(fs::metadata(td.path().join("tmp/abs_evil6.txt")) .map(|m| m.is_file()) .unwrap_or(false)); } #[test] fn octal_spaces() { let rdr = Cursor::new(tar!("spaces.tar")); let mut ar = Archive::new(rdr); let entry = ar.entries().unwrap().next().unwrap().unwrap(); assert_eq!(entry.header().mode().unwrap() & 0o777, 0o777); assert_eq!(entry.header().uid().unwrap(), 0); assert_eq!(entry.header().gid().unwrap(), 0); assert_eq!(entry.header().size().unwrap(), 2); assert_eq!(entry.header().mtime().unwrap(), 0o12440016664); assert_eq!(entry.header().cksum().unwrap(), 0o4253); } #[test] fn extracting_malformed_tar_null_blocks() { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let mut ar = Builder::new(Vec::new()); let path1 = td.path().join("tmpfile1"); let path2 = td.path().join("tmpfile2"); t!(File::create(&path1)); t!(File::create(&path2)); t!(ar.append_file("tmpfile1", &mut t!(File::open(&path1)))); let mut data = t!(ar.into_inner()); let amt = data.len(); data.truncate(amt - 512); let mut ar = Builder::new(data); t!(ar.append_file("tmpfile2", &mut t!(File::open(&path2)))); t!(ar.finish()); let data = t!(ar.into_inner()); let mut ar = Archive::new(&data[..]); assert!(ar.unpack(td.path()).is_ok()); } #[test] fn empty_filename() { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let rdr = Cursor::new(tar!("empty_filename.tar")); let mut ar = Archive::new(rdr); assert!(ar.unpack(td.path()).is_ok()); } #[test] fn file_times() { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let rdr = Cursor::new(tar!("file_times.tar")); let mut ar = Archive::new(rdr); t!(ar.unpack(td.path())); let meta = fs::metadata(td.path().join("a")).unwrap(); let mtime = FileTime::from_last_modification_time(&meta); let atime = FileTime::from_last_access_time(&meta); assert_eq!(mtime.unix_seconds(), 1000000000); assert_eq!(mtime.nanoseconds(), 0); assert_eq!(atime.unix_seconds(), 1000000000); assert_eq!(atime.nanoseconds(), 0); } #[test] fn zero_file_times() { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let mut ar = Builder::new(Vec::new()); ar.mode(HeaderMode::Deterministic); let path = td.path().join("tmpfile"); t!(File::create(&path)); t!(ar.append_path_with_name(&path, "a")); let data = t!(ar.into_inner()); let mut ar = Archive::new(&data[..]); assert!(ar.unpack(td.path()).is_ok()); let meta = fs::metadata(td.path().join("a")).unwrap(); let mtime = FileTime::from_last_modification_time(&meta); let atime = FileTime::from_last_access_time(&meta); assert!(mtime.unix_seconds() != 0); assert!(atime.unix_seconds() != 0); } #[test] fn backslash_treated_well() { // Insert a file into an archive with a backslash let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let mut ar = Builder::new(Vec::::new()); t!(ar.append_dir("foo\\bar", td.path())); let mut ar = Archive::new(Cursor::new(t!(ar.into_inner()))); let f = t!(t!(ar.entries()).next().unwrap()); if cfg!(unix) { assert_eq!(t!(f.header().path()).to_str(), Some("foo\\bar")); } else { assert_eq!(t!(f.header().path()).to_str(), Some("foo/bar")); } // Unpack an archive with a backslash in the name let mut ar = Builder::new(Vec::::new()); let mut header = Header::new_gnu(); header.set_metadata(&t!(fs::metadata(td.path()))); header.set_size(0); for (a, b) in header.as_old_mut().name.iter_mut().zip(b"foo\\bar\x00") { *a = *b; } header.set_cksum(); t!(ar.append(&header, &mut io::empty())); let data = t!(ar.into_inner()); let mut ar = Archive::new(&data[..]); let f = t!(t!(ar.entries()).next().unwrap()); assert_eq!(t!(f.header().path()).to_str(), Some("foo\\bar")); let mut ar = Archive::new(&data[..]); t!(ar.unpack(td.path())); assert!(fs::metadata(td.path().join("foo\\bar")).is_ok()); } #[test] #[cfg(unix)] fn set_mask() { use ::std::os::unix::fs::PermissionsExt; let mut ar = tar::Builder::new(Vec::new()); let mut header = tar::Header::new_gnu(); header.set_size(0); header.set_entry_type(tar::EntryType::Regular); t!(header.set_path("foo")); header.set_mode(0o777); header.set_cksum(); t!(ar.append(&header, &[][..])); let mut header = tar::Header::new_gnu(); header.set_size(0); header.set_entry_type(tar::EntryType::Regular); t!(header.set_path("bar")); header.set_mode(0o421); header.set_cksum(); t!(ar.append(&header, &[][..])); let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let bytes = t!(ar.into_inner()); let mut ar = tar::Archive::new(&bytes[..]); ar.set_mask(0o211); t!(ar.unpack(td.path())); let md = t!(fs::metadata(td.path().join("foo"))); assert_eq!(md.permissions().mode(), 0o100566); let md = t!(fs::metadata(td.path().join("bar"))); assert_eq!(md.permissions().mode(), 0o100420); } #[cfg(unix)] #[test] fn nul_bytes_in_path() { use std::ffi::OsStr; use std::os::unix::prelude::*; let nul_path = OsStr::from_bytes(b"foo\0"); let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let mut ar = Builder::new(Vec::::new()); let err = ar.append_dir(nul_path, td.path()).unwrap_err(); assert!(err.to_string().contains("contains a nul byte")); } #[test] fn links() { let mut ar = Archive::new(Cursor::new(tar!("link.tar"))); let mut entries = t!(ar.entries()); let link = t!(entries.next().unwrap()); assert_eq!( t!(link.header().link_name()).as_ref().map(|p| &**p), Some(Path::new("file")) ); let other = t!(entries.next().unwrap()); assert!(t!(other.header().link_name()).is_none()); } #[test] #[cfg(unix)] // making symlinks on windows is hard fn unpack_links() { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let mut ar = Archive::new(Cursor::new(tar!("link.tar"))); t!(ar.unpack(td.path())); let md = t!(fs::symlink_metadata(td.path().join("lnk"))); assert!(md.file_type().is_symlink()); let mtime = FileTime::from_last_modification_time(&md); assert_eq!(mtime.unix_seconds(), 1448291033); assert_eq!( &*t!(fs::read_link(td.path().join("lnk"))), Path::new("file") ); t!(File::open(td.path().join("lnk"))); } #[test] fn pax_size() { let mut ar = Archive::new(tar!("pax_size.tar")); let mut entries = t!(ar.entries()); let mut entry = t!(entries.next().unwrap()); let mut attributes = t!(entry.pax_extensions()).unwrap(); let _first = t!(attributes.next().unwrap()); let _second = t!(attributes.next().unwrap()); let _third = t!(attributes.next().unwrap()); let fourth = t!(attributes.next().unwrap()); assert!(attributes.next().is_none()); assert_eq!(fourth.key(), Ok("size")); assert_eq!(fourth.value(), Ok("4")); assert_eq!(entry.header().size().unwrap(), 0); assert_eq!(entry.size(), 4); } #[test] fn pax_simple() { let mut ar = Archive::new(tar!("pax.tar")); let mut entries = t!(ar.entries()); let mut first = t!(entries.next().unwrap()); let mut attributes = t!(first.pax_extensions()).unwrap(); let first = t!(attributes.next().unwrap()); let second = t!(attributes.next().unwrap()); let third = t!(attributes.next().unwrap()); assert!(attributes.next().is_none()); assert_eq!(first.key(), Ok("mtime")); assert_eq!(first.value(), Ok("1453146164.953123768")); assert_eq!(second.key(), Ok("atime")); assert_eq!(second.value(), Ok("1453251915.24892486")); assert_eq!(third.key(), Ok("ctime")); assert_eq!(third.value(), Ok("1453146164.953123768")); } #[test] fn pax_path() { let mut ar = Archive::new(tar!("pax2.tar")); let mut entries = t!(ar.entries()); let first = t!(entries.next().unwrap()); assert!(first.path().unwrap().ends_with("aaaaaaaaaaaaaaa")); } #[test] fn pax_linkpath() { let mut ar = Archive::new(tar!("pax2.tar")); let mut links = t!(ar.entries()).skip(3).take(2); let long_symlink = t!(links.next().unwrap()); let link_name = long_symlink.link_name().unwrap().unwrap(); assert!(link_name.to_str().unwrap().len() > 99); assert!(link_name.ends_with("bbbbbbbbbbbbbbb")); let long_hardlink = t!(links.next().unwrap()); let link_name = long_hardlink.link_name().unwrap().unwrap(); assert!(link_name.to_str().unwrap().len() > 99); assert!(link_name.ends_with("ccccccccccccccc")); } #[test] fn long_name_trailing_nul() { let mut b = Builder::new(Vec::::new()); let mut h = Header::new_gnu(); t!(h.set_path("././@LongLink")); h.set_size(4); h.set_entry_type(EntryType::new(b'L')); h.set_cksum(); t!(b.append(&h, "foo\0".as_bytes())); let mut h = Header::new_gnu(); t!(h.set_path("bar")); h.set_size(6); h.set_entry_type(EntryType::file()); h.set_cksum(); t!(b.append(&h, "foobar".as_bytes())); let contents = t!(b.into_inner()); let mut a = Archive::new(&contents[..]); let e = t!(t!(a.entries()).next().unwrap()); assert_eq!(&*e.path_bytes(), b"foo"); } #[test] fn long_linkname_trailing_nul() { let mut b = Builder::new(Vec::::new()); let mut h = Header::new_gnu(); t!(h.set_path("././@LongLink")); h.set_size(4); h.set_entry_type(EntryType::new(b'K')); h.set_cksum(); t!(b.append(&h, "foo\0".as_bytes())); let mut h = Header::new_gnu(); t!(h.set_path("bar")); h.set_size(6); h.set_entry_type(EntryType::file()); h.set_cksum(); t!(b.append(&h, "foobar".as_bytes())); let contents = t!(b.into_inner()); let mut a = Archive::new(&contents[..]); let e = t!(t!(a.entries()).next().unwrap()); assert_eq!(&*e.link_name_bytes().unwrap(), b"foo"); } #[test] fn long_linkname_gnu() { for t in [tar::EntryType::Symlink, tar::EntryType::Link] { let mut b = Builder::new(Vec::::new()); let mut h = Header::new_gnu(); h.set_entry_type(t); h.set_size(0); let path = "usr/lib/.build-id/05/159ed904e45ff5100f7acd3d3b99fa7e27e34f"; let target = "../../../../usr/lib64/qt5/plugins/wayland-graphics-integration-server/libqt-wayland-compositor-xcomposite-egl.so"; t!(b.append_link(&mut h, path, target)); let contents = t!(b.into_inner()); let mut a = Archive::new(&contents[..]); let e = &t!(t!(a.entries()).next().unwrap()); assert_eq!(e.header().entry_type(), t); assert_eq!(e.path().unwrap().to_str().unwrap(), path); assert_eq!(e.link_name().unwrap().unwrap().to_str().unwrap(), target); } } #[test] fn linkname_literal() { for t in [tar::EntryType::Symlink, tar::EntryType::Link] { let mut b = Builder::new(Vec::::new()); let mut h = Header::new_gnu(); h.set_entry_type(t); h.set_size(0); let path = "usr/lib/systemd/systemd-sysv-install"; let target = "../../..//sbin/chkconfig"; h.set_link_name_literal(target).unwrap(); t!(b.append_data(&mut h, path, std::io::empty())); let contents = t!(b.into_inner()); let mut a = Archive::new(&contents[..]); let e = &t!(t!(a.entries()).next().unwrap()); assert_eq!(e.header().entry_type(), t); assert_eq!(e.path().unwrap().to_str().unwrap(), path); assert_eq!(e.link_name().unwrap().unwrap().to_str().unwrap(), target); } } #[test] fn encoded_long_name_has_trailing_nul() { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let path = td.path().join("foo"); t!(t!(File::create(&path)).write_all(b"test")); let mut b = Builder::new(Vec::::new()); let long = repeat("abcd").take(200).collect::(); t!(b.append_file(&long, &mut t!(File::open(&path)))); let contents = t!(b.into_inner()); let mut a = Archive::new(&contents[..]); let mut e = t!(t!(a.entries()).raw(true).next().unwrap()); let mut name = Vec::new(); t!(e.read_to_end(&mut name)); assert_eq!(name[name.len() - 1], 0); let header_name = &e.header().as_gnu().unwrap().name; assert!(header_name.starts_with(b"././@LongLink\x00")); } #[test] fn reading_sparse() { let rdr = Cursor::new(tar!("sparse.tar")); let mut ar = Archive::new(rdr); let mut entries = t!(ar.entries()); let mut a = t!(entries.next().unwrap()); let mut s = String::new(); assert_eq!(&*a.header().path_bytes(), b"sparse_begin.txt"); t!(a.read_to_string(&mut s)); assert_eq!(&s[..5], "test\n"); assert!(s[5..].chars().all(|x| x == '\u{0}')); let mut a = t!(entries.next().unwrap()); let mut s = String::new(); assert_eq!(&*a.header().path_bytes(), b"sparse_end.txt"); t!(a.read_to_string(&mut s)); assert!(s[..s.len() - 9].chars().all(|x| x == '\u{0}')); assert_eq!(&s[s.len() - 9..], "test_end\n"); let mut a = t!(entries.next().unwrap()); let mut s = String::new(); assert_eq!(&*a.header().path_bytes(), b"sparse_ext.txt"); t!(a.read_to_string(&mut s)); assert!(s[..0x1000].chars().all(|x| x == '\u{0}')); assert_eq!(&s[0x1000..0x1000 + 5], "text\n"); assert!(s[0x1000 + 5..0x3000].chars().all(|x| x == '\u{0}')); assert_eq!(&s[0x3000..0x3000 + 5], "text\n"); assert!(s[0x3000 + 5..0x5000].chars().all(|x| x == '\u{0}')); assert_eq!(&s[0x5000..0x5000 + 5], "text\n"); assert!(s[0x5000 + 5..0x7000].chars().all(|x| x == '\u{0}')); assert_eq!(&s[0x7000..0x7000 + 5], "text\n"); assert!(s[0x7000 + 5..0x9000].chars().all(|x| x == '\u{0}')); assert_eq!(&s[0x9000..0x9000 + 5], "text\n"); assert!(s[0x9000 + 5..0xb000].chars().all(|x| x == '\u{0}')); assert_eq!(&s[0xb000..0xb000 + 5], "text\n"); let mut a = t!(entries.next().unwrap()); let mut s = String::new(); assert_eq!(&*a.header().path_bytes(), b"sparse.txt"); t!(a.read_to_string(&mut s)); assert!(s[..0x1000].chars().all(|x| x == '\u{0}')); assert_eq!(&s[0x1000..0x1000 + 6], "hello\n"); assert!(s[0x1000 + 6..0x2fa0].chars().all(|x| x == '\u{0}')); assert_eq!(&s[0x2fa0..0x2fa0 + 6], "world\n"); assert!(s[0x2fa0 + 6..0x4000].chars().all(|x| x == '\u{0}')); assert!(entries.next().is_none()); } #[test] fn extract_sparse() { let rdr = Cursor::new(tar!("sparse.tar")); let mut ar = Archive::new(rdr); let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); t!(ar.unpack(td.path())); let mut s = String::new(); t!(t!(File::open(td.path().join("sparse_begin.txt"))).read_to_string(&mut s)); assert_eq!(&s[..5], "test\n"); assert!(s[5..].chars().all(|x| x == '\u{0}')); s.truncate(0); t!(t!(File::open(td.path().join("sparse_end.txt"))).read_to_string(&mut s)); assert!(s[..s.len() - 9].chars().all(|x| x == '\u{0}')); assert_eq!(&s[s.len() - 9..], "test_end\n"); s.truncate(0); t!(t!(File::open(td.path().join("sparse_ext.txt"))).read_to_string(&mut s)); assert!(s[..0x1000].chars().all(|x| x == '\u{0}')); assert_eq!(&s[0x1000..0x1000 + 5], "text\n"); assert!(s[0x1000 + 5..0x3000].chars().all(|x| x == '\u{0}')); assert_eq!(&s[0x3000..0x3000 + 5], "text\n"); assert!(s[0x3000 + 5..0x5000].chars().all(|x| x == '\u{0}')); assert_eq!(&s[0x5000..0x5000 + 5], "text\n"); assert!(s[0x5000 + 5..0x7000].chars().all(|x| x == '\u{0}')); assert_eq!(&s[0x7000..0x7000 + 5], "text\n"); assert!(s[0x7000 + 5..0x9000].chars().all(|x| x == '\u{0}')); assert_eq!(&s[0x9000..0x9000 + 5], "text\n"); assert!(s[0x9000 + 5..0xb000].chars().all(|x| x == '\u{0}')); assert_eq!(&s[0xb000..0xb000 + 5], "text\n"); s.truncate(0); t!(t!(File::open(td.path().join("sparse.txt"))).read_to_string(&mut s)); assert!(s[..0x1000].chars().all(|x| x == '\u{0}')); assert_eq!(&s[0x1000..0x1000 + 6], "hello\n"); assert!(s[0x1000 + 6..0x2fa0].chars().all(|x| x == '\u{0}')); assert_eq!(&s[0x2fa0..0x2fa0 + 6], "world\n"); assert!(s[0x2fa0 + 6..0x4000].chars().all(|x| x == '\u{0}')); } #[test] fn sparse_with_trailing() { let rdr = Cursor::new(tar!("sparse-1.tar")); let mut ar = Archive::new(rdr); let mut entries = t!(ar.entries()); let mut a = t!(entries.next().unwrap()); let mut s = String::new(); t!(a.read_to_string(&mut s)); assert_eq!(0x100_00c, s.len()); assert_eq!(&s[..0xc], "0MB through\n"); assert!(s[0xc..0x100_000].chars().all(|x| x == '\u{0}')); assert_eq!(&s[0x100_000..], "1MB through\n"); } #[test] fn path_separators() { let mut ar = Builder::new(Vec::new()); let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let path = td.path().join("test"); t!(t!(File::create(&path)).write_all(b"test")); let short_path: PathBuf = repeat("abcd").take(2).collect(); let long_path: PathBuf = repeat("abcd").take(50).collect(); // Make sure UStar headers normalize to Unix path separators let mut header = Header::new_ustar(); t!(header.set_path(&short_path)); assert_eq!(t!(header.path()), short_path); assert!(!header.path_bytes().contains(&b'\\')); t!(header.set_path(&long_path)); assert_eq!(t!(header.path()), long_path); assert!(!header.path_bytes().contains(&b'\\')); // Make sure GNU headers normalize to Unix path separators, // including the `@LongLink` fallback used by `append_file`. t!(ar.append_file(&short_path, &mut t!(File::open(&path)))); t!(ar.append_file(&long_path, &mut t!(File::open(&path)))); let rd = Cursor::new(t!(ar.into_inner())); let mut ar = Archive::new(rd); let mut entries = t!(ar.entries()); let entry = t!(entries.next().unwrap()); assert_eq!(t!(entry.path()), short_path); assert!(!entry.path_bytes().contains(&b'\\')); let entry = t!(entries.next().unwrap()); assert_eq!(t!(entry.path()), long_path); assert!(!entry.path_bytes().contains(&b'\\')); assert!(entries.next().is_none()); } #[test] #[cfg(unix)] fn append_path_symlink() { use std::borrow::Cow; use std::env; use std::os::unix::fs::symlink; let mut ar = Builder::new(Vec::new()); ar.follow_symlinks(false); let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let long_linkname = repeat("abcd").take(30).collect::(); let long_pathname = repeat("dcba").take(30).collect::(); t!(env::set_current_dir(td.path())); // "short" path name / short link name t!(symlink("testdest", "test")); t!(ar.append_path("test")); // short path name / long link name t!(symlink(&long_linkname, "test2")); t!(ar.append_path("test2")); // long path name / long link name t!(symlink(&long_linkname, &long_pathname)); t!(ar.append_path(&long_pathname)); let rd = Cursor::new(t!(ar.into_inner())); let mut ar = Archive::new(rd); let mut entries = t!(ar.entries()); let entry = t!(entries.next().unwrap()); assert_eq!(t!(entry.path()), Path::new("test")); assert_eq!( t!(entry.link_name()), Some(Cow::from(Path::new("testdest"))) ); assert_eq!(t!(entry.header().size()), 0); let entry = t!(entries.next().unwrap()); assert_eq!(t!(entry.path()), Path::new("test2")); assert_eq!( t!(entry.link_name()), Some(Cow::from(Path::new(&long_linkname))) ); assert_eq!(t!(entry.header().size()), 0); let entry = t!(entries.next().unwrap()); assert_eq!(t!(entry.path()), Path::new(&long_pathname)); assert_eq!( t!(entry.link_name()), Some(Cow::from(Path::new(&long_linkname))) ); assert_eq!(t!(entry.header().size()), 0); assert!(entries.next().is_none()); } #[test] fn name_with_slash_doesnt_fool_long_link_and_bsd_compat() { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let mut ar = Builder::new(Vec::new()); let mut h = Header::new_gnu(); t!(h.set_path("././@LongLink")); h.set_size(4); h.set_entry_type(EntryType::new(b'L')); h.set_cksum(); t!(ar.append(&h, "foo\0".as_bytes())); let mut header = Header::new_gnu(); header.set_entry_type(EntryType::Regular); t!(header.set_path("testdir/")); header.set_size(0); header.set_cksum(); t!(ar.append(&header, &mut io::empty())); // Extracting let rdr = Cursor::new(t!(ar.into_inner())); let mut ar = Archive::new(rdr); t!(ar.unpack(td.path())); // Iterating let rdr = Cursor::new(ar.into_inner().into_inner()); let mut ar = Archive::new(rdr); assert!(t!(ar.entries()).all(|fr| fr.is_ok())); assert!(td.path().join("foo").is_file()); } #[test] fn insert_local_file_different_name() { let mut ar = Builder::new(Vec::new()); let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let path = td.path().join("directory"); t!(fs::create_dir(&path)); ar.append_path_with_name(&path, "archive/dir").unwrap(); let path = td.path().join("file"); t!(t!(File::create(&path)).write_all(b"test")); ar.append_path_with_name(&path, "archive/dir/f").unwrap(); let rd = Cursor::new(t!(ar.into_inner())); let mut ar = Archive::new(rd); let mut entries = t!(ar.entries()); let entry = t!(entries.next().unwrap()); assert_eq!(t!(entry.path()), Path::new("archive/dir")); let entry = t!(entries.next().unwrap()); assert_eq!(t!(entry.path()), Path::new("archive/dir/f")); assert!(entries.next().is_none()); } #[test] #[cfg(unix)] fn tar_directory_containing_symlink_to_directory() { use std::os::unix::fs::symlink; let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let dummy_src = t!(TempBuilder::new().prefix("dummy_src").tempdir()); let dummy_dst = td.path().join("dummy_dst"); let mut ar = Builder::new(Vec::new()); t!(symlink(dummy_src.path().display().to_string(), &dummy_dst)); assert!(dummy_dst.read_link().is_ok()); assert!(dummy_dst.read_link().unwrap().is_dir()); ar.append_dir_all("symlinks", td.path()).unwrap(); ar.finish().unwrap(); } #[test] fn long_path() { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let rdr = Cursor::new(tar!("7z_long_path.tar")); let mut ar = Archive::new(rdr); assert!(ar.unpack(td.path()).is_ok()); } #[test] fn unpack_path_larger_than_windows_max_path() { let dir_name = "iamaprettylongnameandtobepreciseiam91characterslongwhichsomethinkisreallylongandothersdonot"; // 183 character directory name let really_long_path = format!("{}{}", dir_name, dir_name); let td = t!(TempBuilder::new().prefix(&really_long_path).tempdir()); // directory in 7z_long_path.tar is over 100 chars let rdr = Cursor::new(tar!("7z_long_path.tar")); let mut ar = Archive::new(rdr); // should unpack path greater than windows MAX_PATH length of 260 characters assert!(ar.unpack(td.path()).is_ok()); } #[test] fn append_long_multibyte() { let mut x = tar::Builder::new(Vec::new()); let mut name = String::new(); let data: &[u8] = &[]; for _ in 0..512 { name.push('a'); name.push('𑢮'); x.append_data(&mut Header::new_gnu(), &name, data).unwrap(); name.pop(); } } #[test] fn read_only_directory_containing_files() { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let mut b = Builder::new(Vec::::new()); let mut h = Header::new_gnu(); t!(h.set_path("dir/")); h.set_size(0); h.set_entry_type(EntryType::dir()); h.set_mode(0o444); h.set_cksum(); t!(b.append(&h, "".as_bytes())); let mut h = Header::new_gnu(); t!(h.set_path("dir/file")); h.set_size(2); h.set_entry_type(EntryType::file()); h.set_cksum(); t!(b.append(&h, "hi".as_bytes())); let contents = t!(b.into_inner()); let mut ar = Archive::new(&contents[..]); assert!(ar.unpack(td.path()).is_ok()); } // This test was marked linux only due to macOS CI can't handle `set_current_dir` correctly #[test] #[cfg(target_os = "linux")] fn tar_directory_containing_special_files() { use std::env; use std::ffi::CString; let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let fifo = td.path().join("fifo"); unsafe { let fifo_path = t!(CString::new(fifo.to_str().unwrap())); let ret = libc::mknod(fifo_path.as_ptr(), libc::S_IFIFO | 0o644, 0); if ret != 0 { libc::perror(fifo_path.as_ptr()); panic!("Failed to create a FIFO file"); } } t!(env::set_current_dir(td.path())); let mut ar = Builder::new(Vec::new()); // append_path has a different logic for processing files, so we need to test it as well t!(ar.append_path("fifo")); t!(ar.append_dir_all("special", td.path())); // unfortunately, block device file cannot be created by non-root users // as a substitute, just test the file that exists on most Unix systems t!(env::set_current_dir("/dev/")); t!(ar.append_path("loop0")); // CI systems seem to have issues with creating a chr device t!(ar.append_path("null")); t!(ar.finish()); } #[test] fn header_size_overflow() { // maximal file size doesn't overflow anything let mut ar = Builder::new(Vec::new()); let mut header = Header::new_gnu(); header.set_size(u64::MAX); header.set_cksum(); ar.append(&mut header, "x".as_bytes()).unwrap(); let result = t!(ar.into_inner()); let mut ar = Archive::new(&result[..]); let mut e = ar.entries().unwrap(); let err = e.next().unwrap().err().unwrap(); assert!( err.to_string().contains("size overflow"), "bad error: {}", err ); // back-to-back entries that would overflow also don't panic let mut ar = Builder::new(Vec::new()); let mut header = Header::new_gnu(); header.set_size(1_000); header.set_cksum(); ar.append(&mut header, &[0u8; 1_000][..]).unwrap(); let mut header = Header::new_gnu(); header.set_size(u64::MAX - 513); header.set_cksum(); ar.append(&mut header, "x".as_bytes()).unwrap(); let result = t!(ar.into_inner()); let mut ar = Archive::new(&result[..]); let mut e = ar.entries().unwrap(); e.next().unwrap().unwrap(); let err = e.next().unwrap().err().unwrap(); assert!( err.to_string().contains("size overflow"), "bad error: {}", err ); } #[test] #[cfg(unix)] fn ownership_preserving() { use std::os::unix::prelude::*; let mut rdr = Vec::new(); let mut ar = Builder::new(&mut rdr); let data: &[u8] = &[]; let mut header = Header::new_gnu(); // file 1 with uid = 580800000, gid = 580800000 header.set_gid(580800000); header.set_uid(580800000); t!(header.set_path("iamuid580800000")); header.set_size(0); header.set_cksum(); t!(ar.append(&header, data)); // file 2 with uid = 580800001, gid = 580800000 header.set_uid(580800001); t!(header.set_path("iamuid580800001")); header.set_cksum(); t!(ar.append(&header, data)); // file 3 with uid = 580800002, gid = 580800002 header.set_gid(580800002); header.set_uid(580800002); t!(header.set_path("iamuid580800002")); header.set_cksum(); t!(ar.append(&header, data)); t!(ar.finish()); let rdr = Cursor::new(t!(ar.into_inner())); let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let mut ar = Archive::new(rdr); ar.set_preserve_ownerships(true); if unsafe { libc::getuid() } == 0 { assert!(ar.unpack(td.path()).is_ok()); // validate against premade files // iamuid580800001 has this ownership: 580800001:580800000 let meta = std::fs::metadata(td.path().join("iamuid580800000")).unwrap(); assert_eq!(meta.uid(), 580800000); assert_eq!(meta.gid(), 580800000); let meta = std::fs::metadata(td.path().join("iamuid580800001")).unwrap(); assert_eq!(meta.uid(), 580800001); assert_eq!(meta.gid(), 580800000); let meta = std::fs::metadata(td.path().join("iamuid580800002")).unwrap(); assert_eq!(meta.uid(), 580800002); assert_eq!(meta.gid(), 580800002); } else { // it's not possible to unpack tar while preserving ownership // without root permissions assert!(ar.unpack(td.path()).is_err()); } } #[test] #[cfg(unix)] fn pax_and_gnu_uid_gid() { let tarlist = [tar!("biguid_gnu.tar"), tar!("biguid_pax.tar")]; for file in &tarlist { let td = t!(TempBuilder::new().prefix("tar-rs").tempdir()); let rdr = Cursor::new(file); let mut ar = Archive::new(rdr); ar.set_preserve_ownerships(true); if unsafe { libc::getuid() } == 0 { t!(ar.unpack(td.path())); let meta = fs::metadata(td.path().join("test.txt")).unwrap(); let uid = std::os::unix::prelude::MetadataExt::uid(&meta); let gid = std::os::unix::prelude::MetadataExt::gid(&meta); // 4294967294 = u32::MAX - 1 assert_eq!(uid, 4294967294); assert_eq!(gid, 4294967294); } else { // it's not possible to unpack tar while preserving ownership // without root permissions assert!(ar.unpack(td.path()).is_err()); } } }