cpython/Lib/test/test_tarfile.py

1280 lines
42 KiB
Python

import sys
import os
import io
import shutil
import tempfile
import io
from hashlib import md5
import errno
import unittest
import tarfile
from test import support
# Check for our compression modules.
try:
import gzip
gzip.GzipFile
except (ImportError, AttributeError):
gzip = None
try:
import bz2
except ImportError:
bz2 = None
def md5sum(data):
return md5(data).hexdigest()
TEMPDIR = os.path.abspath(support.TESTFN)
tarname = support.findfile("testtar.tar")
gzipname = os.path.join(TEMPDIR, "testtar.tar.gz")
bz2name = os.path.join(TEMPDIR, "testtar.tar.bz2")
tmpname = os.path.join(TEMPDIR, "tmp.tar")
md5_regtype = "65f477c818ad9e15f7feab0c6d37742f"
md5_sparse = "a54fbc4ca4f4399a90e1b27164012fc6"
class ReadTest(unittest.TestCase):
tarname = tarname
mode = "r:"
def setUp(self):
self.tar = tarfile.open(self.tarname, mode=self.mode, encoding="iso8859-1")
def tearDown(self):
self.tar.close()
class UstarReadTest(ReadTest):
def test_fileobj_regular_file(self):
tarinfo = self.tar.getmember("ustar/regtype")
fobj = self.tar.extractfile(tarinfo)
data = fobj.read()
self.assertTrue((len(data), md5sum(data)) == (tarinfo.size, md5_regtype),
"regular file extraction failed")
def test_fileobj_readlines(self):
self.tar.extract("ustar/regtype", TEMPDIR)
tarinfo = self.tar.getmember("ustar/regtype")
fobj1 = open(os.path.join(TEMPDIR, "ustar/regtype"), "r")
fobj2 = io.TextIOWrapper(self.tar.extractfile(tarinfo))
lines1 = fobj1.readlines()
lines2 = fobj2.readlines()
self.assertTrue(lines1 == lines2,
"fileobj.readlines() failed")
self.assertTrue(len(lines2) == 114,
"fileobj.readlines() failed")
self.assertTrue(lines2[83] == \
"I will gladly admit that Python is not the fastest running scripting language.\n",
"fileobj.readlines() failed")
def test_fileobj_iter(self):
self.tar.extract("ustar/regtype", TEMPDIR)
tarinfo = self.tar.getmember("ustar/regtype")
fobj1 = open(os.path.join(TEMPDIR, "ustar/regtype"), "rU")
fobj2 = self.tar.extractfile(tarinfo)
lines1 = fobj1.readlines()
lines2 = list(io.TextIOWrapper(fobj2))
self.assertTrue(lines1 == lines2,
"fileobj.__iter__() failed")
def test_fileobj_seek(self):
self.tar.extract("ustar/regtype", TEMPDIR)
fobj = open(os.path.join(TEMPDIR, "ustar/regtype"), "rb")
data = fobj.read()
fobj.close()
tarinfo = self.tar.getmember("ustar/regtype")
fobj = self.tar.extractfile(tarinfo)
text = fobj.read()
fobj.seek(0)
self.assertEqual(0, fobj.tell(),
"seek() to file's start failed")
fobj.seek(2048, 0)
self.assertEqual(2048, fobj.tell(),
"seek() to absolute position failed")
fobj.seek(-1024, 1)
self.assertEqual(1024, fobj.tell(),
"seek() to negative relative position failed")
fobj.seek(1024, 1)
self.assertEqual(2048, fobj.tell(),
"seek() to positive relative position failed")
s = fobj.read(10)
self.assertTrue(s == data[2048:2058],
"read() after seek failed")
fobj.seek(0, 2)
self.assertEqual(tarinfo.size, fobj.tell(),
"seek() to file's end failed")
self.assertTrue(fobj.read() == b"",
"read() at file's end did not return empty string")
fobj.seek(-tarinfo.size, 2)
self.assertEqual(0, fobj.tell(),
"relative seek() to file's end failed")
fobj.seek(512)
s1 = fobj.readlines()
fobj.seek(512)
s2 = fobj.readlines()
self.assertTrue(s1 == s2,
"readlines() after seek failed")
fobj.seek(0)
self.assertEqual(len(fobj.readline()), fobj.tell(),
"tell() after readline() failed")
fobj.seek(512)
self.assertTrue(len(fobj.readline()) + 512 == fobj.tell(),
"tell() after seek() and readline() failed")
fobj.seek(0)
line = fobj.readline()
self.assertEqual(fobj.read(), data[len(line):],
"read() after readline() failed")
fobj.close()
class MiscReadTest(ReadTest):
def test_no_name_argument(self):
fobj = open(self.tarname, "rb")
tar = tarfile.open(fileobj=fobj, mode=self.mode)
self.assertEqual(tar.name, os.path.abspath(fobj.name))
def test_no_name_attribute(self):
data = open(self.tarname, "rb").read()
fobj = io.BytesIO(data)
self.assertRaises(AttributeError, getattr, fobj, "name")
tar = tarfile.open(fileobj=fobj, mode=self.mode)
self.assertEqual(tar.name, None)
def test_empty_name_attribute(self):
data = open(self.tarname, "rb").read()
fobj = io.BytesIO(data)
fobj.name = ""
tar = tarfile.open(fileobj=fobj, mode=self.mode)
self.assertEqual(tar.name, None)
def test_fileobj_with_offset(self):
# Skip the first member and store values from the second member
# of the testtar.
tar = tarfile.open(self.tarname, mode=self.mode)
tar.next()
t = tar.next()
name = t.name
offset = t.offset
data = tar.extractfile(t).read()
tar.close()
# Open the testtar and seek to the offset of the second member.
if self.mode.endswith(":gz"):
_open = gzip.GzipFile
elif self.mode.endswith(":bz2"):
_open = bz2.BZ2File
else:
_open = open
fobj = _open(self.tarname, "rb")
fobj.seek(offset)
# Test if the tarfile starts with the second member.
tar = tar.open(self.tarname, mode="r:", fileobj=fobj)
t = tar.next()
self.assertEqual(t.name, name)
# Read to the end of fileobj and test if seeking back to the
# beginning works.
tar.getmembers()
self.assertEqual(tar.extractfile(t).read(), data,
"seek back did not work")
tar.close()
def test_fail_comp(self):
# For Gzip and Bz2 Tests: fail with a ReadError on an uncompressed file.
if self.mode == "r:":
return
self.assertRaises(tarfile.ReadError, tarfile.open, tarname, self.mode)
fobj = open(tarname, "rb")
self.assertRaises(tarfile.ReadError, tarfile.open, fileobj=fobj, mode=self.mode)
def test_v7_dirtype(self):
# Test old style dirtype member (bug #1336623):
# Old V7 tars create directory members using an AREGTYPE
# header with a "/" appended to the filename field.
tarinfo = self.tar.getmember("misc/dirtype-old-v7")
self.assertTrue(tarinfo.type == tarfile.DIRTYPE,
"v7 dirtype failed")
def test_xstar_type(self):
# The xstar format stores extra atime and ctime fields inside the
# space reserved for the prefix field. The prefix field must be
# ignored in this case, otherwise it will mess up the name.
try:
self.tar.getmember("misc/regtype-xstar")
except KeyError:
self.fail("failed to find misc/regtype-xstar (mangled prefix?)")
def test_check_members(self):
for tarinfo in self.tar:
self.assertTrue(int(tarinfo.mtime) == 0o7606136617,
"wrong mtime for %s" % tarinfo.name)
if not tarinfo.name.startswith("ustar/"):
continue
self.assertTrue(tarinfo.uname == "tarfile",
"wrong uname for %s" % tarinfo.name)
def test_find_members(self):
self.assertTrue(self.tar.getmembers()[-1].name == "misc/eof",
"could not find all members")
def test_extract_hardlink(self):
# Test hardlink extraction (e.g. bug #857297).
tar = tarfile.open(tarname, errorlevel=1, encoding="iso8859-1")
tar.extract("ustar/regtype", TEMPDIR)
try:
tar.extract("ustar/lnktype", TEMPDIR)
except EnvironmentError as e:
if e.errno == errno.ENOENT:
self.fail("hardlink not extracted properly")
data = open(os.path.join(TEMPDIR, "ustar/lnktype"), "rb").read()
self.assertEqual(md5sum(data), md5_regtype)
try:
tar.extract("ustar/symtype", TEMPDIR)
except EnvironmentError as e:
if e.errno == errno.ENOENT:
self.fail("symlink not extracted properly")
data = open(os.path.join(TEMPDIR, "ustar/symtype"), "rb").read()
self.assertEqual(md5sum(data), md5_regtype)
def test_extractall(self):
# Test if extractall() correctly restores directory permissions
# and times (see issue1735).
tar = tarfile.open(tarname, encoding="iso8859-1")
directories = [t for t in tar if t.isdir()]
tar.extractall(TEMPDIR, directories)
for tarinfo in directories:
path = os.path.join(TEMPDIR, tarinfo.name)
if sys.platform != "win32":
# Win32 has no support for fine grained permissions.
self.assertEqual(tarinfo.mode & 0o777, os.stat(path).st_mode & 0o777)
self.assertEqual(tarinfo.mtime, os.path.getmtime(path))
tar.close()
def test_init_close_fobj(self):
# Issue #7341: Close the internal file object in the TarFile
# constructor in case of an error. For the test we rely on
# the fact that opening an invalid file raises a ReadError.
invalid = os.path.join(TEMPDIR, "invalid")
open(invalid, "wb").write(b"foo")
try:
tar = object.__new__(tarfile.TarFile)
try:
tar.__init__(invalid)
except tarfile.ReadError:
self.assertTrue(tar.fileobj.closed)
else:
self.fail("ReadError not raised")
finally:
os.remove(invalid)
class StreamReadTest(ReadTest):
mode="r|"
def test_fileobj_regular_file(self):
tarinfo = self.tar.next() # get "regtype" (can't use getmember)
fobj = self.tar.extractfile(tarinfo)
data = fobj.read()
self.assertTrue((len(data), md5sum(data)) == (tarinfo.size, md5_regtype),
"regular file extraction failed")
def test_provoke_stream_error(self):
tarinfos = self.tar.getmembers()
f = self.tar.extractfile(tarinfos[0]) # read the first member
self.assertRaises(tarfile.StreamError, f.read)
def test_compare_members(self):
tar1 = tarfile.open(tarname, encoding="iso8859-1")
tar2 = self.tar
while True:
t1 = tar1.next()
t2 = tar2.next()
if t1 is None:
break
self.assertTrue(t2 is not None, "stream.next() failed.")
if t2.islnk() or t2.issym():
self.assertRaises(tarfile.StreamError, tar2.extractfile, t2)
continue
v1 = tar1.extractfile(t1)
v2 = tar2.extractfile(t2)
if v1 is None:
continue
self.assertTrue(v2 is not None, "stream.extractfile() failed")
self.assertEqual(v1.read(), v2.read(), "stream extraction failed")
tar1.close()
class DetectReadTest(unittest.TestCase):
def _testfunc_file(self, name, mode):
try:
tarfile.open(name, mode)
except tarfile.ReadError as e:
self.fail()
def _testfunc_fileobj(self, name, mode):
try:
tarfile.open(name, mode, fileobj=open(name, "rb"))
except tarfile.ReadError as e:
self.fail()
def _test_modes(self, testfunc):
testfunc(tarname, "r")
testfunc(tarname, "r:")
testfunc(tarname, "r:*")
testfunc(tarname, "r|")
testfunc(tarname, "r|*")
if gzip:
self.assertRaises(tarfile.ReadError, tarfile.open, tarname, mode="r:gz")
self.assertRaises(tarfile.ReadError, tarfile.open, tarname, mode="r|gz")
self.assertRaises(tarfile.ReadError, tarfile.open, gzipname, mode="r:")
self.assertRaises(tarfile.ReadError, tarfile.open, gzipname, mode="r|")
testfunc(gzipname, "r")
testfunc(gzipname, "r:*")
testfunc(gzipname, "r:gz")
testfunc(gzipname, "r|*")
testfunc(gzipname, "r|gz")
if bz2:
self.assertRaises(tarfile.ReadError, tarfile.open, tarname, mode="r:bz2")
self.assertRaises(tarfile.ReadError, tarfile.open, tarname, mode="r|bz2")
self.assertRaises(tarfile.ReadError, tarfile.open, bz2name, mode="r:")
self.assertRaises(tarfile.ReadError, tarfile.open, bz2name, mode="r|")
testfunc(bz2name, "r")
testfunc(bz2name, "r:*")
testfunc(bz2name, "r:bz2")
testfunc(bz2name, "r|*")
testfunc(bz2name, "r|bz2")
def test_detect_file(self):
self._test_modes(self._testfunc_file)
def test_detect_fileobj(self):
self._test_modes(self._testfunc_fileobj)
class MemberReadTest(ReadTest):
def _test_member(self, tarinfo, chksum=None, **kwargs):
if chksum is not None:
self.assertTrue(md5sum(self.tar.extractfile(tarinfo).read()) == chksum,
"wrong md5sum for %s" % tarinfo.name)
kwargs["mtime"] = 0o7606136617
kwargs["uid"] = 1000
kwargs["gid"] = 100
if "old-v7" not in tarinfo.name:
# V7 tar can't handle alphabetic owners.
kwargs["uname"] = "tarfile"
kwargs["gname"] = "tarfile"
for k, v in kwargs.items():
self.assertTrue(getattr(tarinfo, k) == v,
"wrong value in %s field of %s" % (k, tarinfo.name))
def test_find_regtype(self):
tarinfo = self.tar.getmember("ustar/regtype")
self._test_member(tarinfo, size=7011, chksum=md5_regtype)
def test_find_conttype(self):
tarinfo = self.tar.getmember("ustar/conttype")
self._test_member(tarinfo, size=7011, chksum=md5_regtype)
def test_find_dirtype(self):
tarinfo = self.tar.getmember("ustar/dirtype")
self._test_member(tarinfo, size=0)
def test_find_dirtype_with_size(self):
tarinfo = self.tar.getmember("ustar/dirtype-with-size")
self._test_member(tarinfo, size=255)
def test_find_lnktype(self):
tarinfo = self.tar.getmember("ustar/lnktype")
self._test_member(tarinfo, size=0, linkname="ustar/regtype")
def test_find_symtype(self):
tarinfo = self.tar.getmember("ustar/symtype")
self._test_member(tarinfo, size=0, linkname="regtype")
def test_find_blktype(self):
tarinfo = self.tar.getmember("ustar/blktype")
self._test_member(tarinfo, size=0, devmajor=3, devminor=0)
def test_find_chrtype(self):
tarinfo = self.tar.getmember("ustar/chrtype")
self._test_member(tarinfo, size=0, devmajor=1, devminor=3)
def test_find_fifotype(self):
tarinfo = self.tar.getmember("ustar/fifotype")
self._test_member(tarinfo, size=0)
def test_find_sparse(self):
tarinfo = self.tar.getmember("ustar/sparse")
self._test_member(tarinfo, size=86016, chksum=md5_sparse)
def test_find_umlauts(self):
tarinfo = self.tar.getmember("ustar/umlauts-\xc4\xd6\xdc\xe4\xf6\xfc\xdf")
self._test_member(tarinfo, size=7011, chksum=md5_regtype)
def test_find_ustar_longname(self):
name = "ustar/" + "12345/" * 39 + "1234567/longname"
self.assertTrue(name in self.tar.getnames())
def test_find_regtype_oldv7(self):
tarinfo = self.tar.getmember("misc/regtype-old-v7")
self._test_member(tarinfo, size=7011, chksum=md5_regtype)
def test_find_pax_umlauts(self):
self.tar = tarfile.open(self.tarname, mode=self.mode, encoding="iso8859-1")
tarinfo = self.tar.getmember("pax/umlauts-\xc4\xd6\xdc\xe4\xf6\xfc\xdf")
self._test_member(tarinfo, size=7011, chksum=md5_regtype)
class LongnameTest(ReadTest):
def test_read_longname(self):
# Test reading of longname (bug #1471427).
longname = self.subdir + "/" + "123/" * 125 + "longname"
try:
tarinfo = self.tar.getmember(longname)
except KeyError:
self.fail("longname not found")
self.assertTrue(tarinfo.type != tarfile.DIRTYPE, "read longname as dirtype")
def test_read_longlink(self):
longname = self.subdir + "/" + "123/" * 125 + "longname"
longlink = self.subdir + "/" + "123/" * 125 + "longlink"
try:
tarinfo = self.tar.getmember(longlink)
except KeyError:
self.fail("longlink not found")
self.assertTrue(tarinfo.linkname == longname, "linkname wrong")
def test_truncated_longname(self):
longname = self.subdir + "/" + "123/" * 125 + "longname"
tarinfo = self.tar.getmember(longname)
offset = tarinfo.offset
self.tar.fileobj.seek(offset)
fobj = io.BytesIO(self.tar.fileobj.read(3 * 512))
self.assertRaises(tarfile.ReadError, tarfile.open, name="foo.tar", fileobj=fobj)
def test_header_offset(self):
# Test if the start offset of the TarInfo object includes
# the preceding extended header.
longname = self.subdir + "/" + "123/" * 125 + "longname"
offset = self.tar.getmember(longname).offset
fobj = open(tarname, "rb")
fobj.seek(offset)
tarinfo = tarfile.TarInfo.frombuf(fobj.read(512), "iso8859-1", "strict")
self.assertEqual(tarinfo.type, self.longnametype)
class GNUReadTest(LongnameTest):
subdir = "gnu"
longnametype = tarfile.GNUTYPE_LONGNAME
def test_sparse_file(self):
tarinfo1 = self.tar.getmember("ustar/sparse")
fobj1 = self.tar.extractfile(tarinfo1)
tarinfo2 = self.tar.getmember("gnu/sparse")
fobj2 = self.tar.extractfile(tarinfo2)
self.assertEqual(fobj1.read(), fobj2.read(),
"sparse file extraction failed")
class PaxReadTest(LongnameTest):
subdir = "pax"
longnametype = tarfile.XHDTYPE
def test_pax_global_headers(self):
tar = tarfile.open(tarname, encoding="iso8859-1")
tarinfo = tar.getmember("pax/regtype1")
self.assertEqual(tarinfo.uname, "foo")
self.assertEqual(tarinfo.gname, "bar")
self.assertEqual(tarinfo.pax_headers.get("VENDOR.umlauts"), "\xc4\xd6\xdc\xe4\xf6\xfc\xdf")
tarinfo = tar.getmember("pax/regtype2")
self.assertEqual(tarinfo.uname, "")
self.assertEqual(tarinfo.gname, "bar")
self.assertEqual(tarinfo.pax_headers.get("VENDOR.umlauts"), "\xc4\xd6\xdc\xe4\xf6\xfc\xdf")
tarinfo = tar.getmember("pax/regtype3")
self.assertEqual(tarinfo.uname, "tarfile")
self.assertEqual(tarinfo.gname, "tarfile")
self.assertEqual(tarinfo.pax_headers.get("VENDOR.umlauts"), "\xc4\xd6\xdc\xe4\xf6\xfc\xdf")
def test_pax_number_fields(self):
# All following number fields are read from the pax header.
tar = tarfile.open(tarname, encoding="iso8859-1")
tarinfo = tar.getmember("pax/regtype4")
self.assertEqual(tarinfo.size, 7011)
self.assertEqual(tarinfo.uid, 123)
self.assertEqual(tarinfo.gid, 123)
self.assertEqual(tarinfo.mtime, 1041808783.0)
self.assertEqual(type(tarinfo.mtime), float)
self.assertEqual(float(tarinfo.pax_headers["atime"]), 1041808783.0)
self.assertEqual(float(tarinfo.pax_headers["ctime"]), 1041808783.0)
class WriteTestBase(unittest.TestCase):
# Put all write tests in here that are supposed to be tested
# in all possible mode combinations.
def test_fileobj_no_close(self):
fobj = io.BytesIO()
tar = tarfile.open(fileobj=fobj, mode=self.mode)
tar.addfile(tarfile.TarInfo("foo"))
tar.close()
self.assertTrue(fobj.closed is False, "external fileobjs must never closed")
class WriteTest(WriteTestBase):
mode = "w:"
def test_100_char_name(self):
# The name field in a tar header stores strings of at most 100 chars.
# If a string is shorter than 100 chars it has to be padded with '\0',
# which implies that a string of exactly 100 chars is stored without
# a trailing '\0'.
name = "0123456789" * 10
tar = tarfile.open(tmpname, self.mode)
t = tarfile.TarInfo(name)
tar.addfile(t)
tar.close()
tar = tarfile.open(tmpname)
self.assertTrue(tar.getnames()[0] == name,
"failed to store 100 char filename")
tar.close()
def test_tar_size(self):
# Test for bug #1013882.
tar = tarfile.open(tmpname, self.mode)
path = os.path.join(TEMPDIR, "file")
fobj = open(path, "wb")
fobj.write(b"aaa")
fobj.close()
tar.add(path)
tar.close()
self.assertTrue(os.path.getsize(tmpname) > 0,
"tarfile is empty")
# The test_*_size tests test for bug #1167128.
def test_file_size(self):
tar = tarfile.open(tmpname, self.mode)
path = os.path.join(TEMPDIR, "file")
fobj = open(path, "wb")
fobj.close()
tarinfo = tar.gettarinfo(path)
self.assertEqual(tarinfo.size, 0)
fobj = open(path, "wb")
fobj.write(b"aaa")
fobj.close()
tarinfo = tar.gettarinfo(path)
self.assertEqual(tarinfo.size, 3)
tar.close()
def test_directory_size(self):
path = os.path.join(TEMPDIR, "directory")
os.mkdir(path)
try:
tar = tarfile.open(tmpname, self.mode)
tarinfo = tar.gettarinfo(path)
self.assertEqual(tarinfo.size, 0)
finally:
os.rmdir(path)
def test_link_size(self):
if hasattr(os, "link"):
link = os.path.join(TEMPDIR, "link")
target = os.path.join(TEMPDIR, "link_target")
fobj = open(target, "wb")
fobj.write(b"aaa")
fobj.close()
os.link(target, link)
try:
tar = tarfile.open(tmpname, self.mode)
# Record the link target in the inodes list.
tar.gettarinfo(target)
tarinfo = tar.gettarinfo(link)
self.assertEqual(tarinfo.size, 0)
finally:
os.remove(target)
os.remove(link)
def test_symlink_size(self):
if hasattr(os, "symlink"):
path = os.path.join(TEMPDIR, "symlink")
os.symlink("link_target", path)
try:
tar = tarfile.open(tmpname, self.mode)
tarinfo = tar.gettarinfo(path)
self.assertEqual(tarinfo.size, 0)
finally:
os.remove(path)
def test_add_self(self):
# Test for #1257255.
dstname = os.path.abspath(tmpname)
tar = tarfile.open(tmpname, self.mode)
self.assertTrue(tar.name == dstname, "archive name must be absolute")
tar.add(dstname)
self.assertTrue(tar.getnames() == [], "added the archive to itself")
cwd = os.getcwd()
os.chdir(TEMPDIR)
tar.add(dstname)
os.chdir(cwd)
self.assertTrue(tar.getnames() == [], "added the archive to itself")
def test_exclude(self):
tempdir = os.path.join(TEMPDIR, "exclude")
os.mkdir(tempdir)
try:
for name in ("foo", "bar", "baz"):
name = os.path.join(tempdir, name)
open(name, "wb").close()
def exclude(name):
return os.path.isfile(name)
tar = tarfile.open(tmpname, self.mode, encoding="iso8859-1")
tar.add(tempdir, arcname="empty_dir", exclude=exclude)
tar.close()
tar = tarfile.open(tmpname, "r")
self.assertEqual(len(tar.getmembers()), 1)
self.assertEqual(tar.getnames()[0], "empty_dir")
finally:
shutil.rmtree(tempdir)
@unittest.skipUnless(hasattr(os,'symlink'), "needs os.symlink")
def test_extractall_symlinks(self):
# Test if extractall works properly when tarfile contains symlinks
tempdir = os.path.join(TEMPDIR, "testsymlinks")
temparchive = os.path.join(TEMPDIR, "testsymlinks.tar")
os.mkdir(tempdir)
try:
source_file = os.path.join(tempdir,'source')
target_file = os.path.join(tempdir,'symlink')
with open(source_file,'w') as f:
f.write('something\n')
os.symlink(source_file, target_file)
tar = tarfile.open(temparchive,'w')
tar.add(source_file)
tar.add(target_file)
tar.close()
# Let's extract it to the location which contains the symlink
tar = tarfile.open(temparchive,'r')
# this should not raise OSError: [Errno 17] File exists
try:
tar.extractall(path=tempdir)
except OSError:
self.fail("extractall failed with symlinked files")
finally:
tar.close()
finally:
os.unlink(temparchive)
shutil.rmtree(tempdir)
class StreamWriteTest(WriteTestBase):
mode = "w|"
def test_stream_padding(self):
# Test for bug #1543303.
tar = tarfile.open(tmpname, self.mode)
tar.close()
if self.mode.endswith("gz"):
fobj = gzip.GzipFile(tmpname)
data = fobj.read()
fobj.close()
elif self.mode.endswith("bz2"):
dec = bz2.BZ2Decompressor()
data = open(tmpname, "rb").read()
data = dec.decompress(data)
self.assertTrue(len(dec.unused_data) == 0,
"found trailing data")
else:
fobj = open(tmpname, "rb")
data = fobj.read()
fobj.close()
self.assertTrue(data.count(b"\0") == tarfile.RECORDSIZE,
"incorrect zero padding")
def test_file_mode(self):
# Test for issue #8464: Create files with correct
# permissions.
if sys.platform == "win32" or not hasattr(os, "umask"):
return
if os.path.exists(tmpname):
os.remove(tmpname)
original_umask = os.umask(0o022)
try:
tar = tarfile.open(tmpname, self.mode)
tar.close()
mode = os.stat(tmpname).st_mode & 0o777
self.assertEqual(mode, 0o644, "wrong file permissions")
finally:
os.umask(original_umask)
class GNUWriteTest(unittest.TestCase):
# This testcase checks for correct creation of GNU Longname
# and Longlink extended headers (cp. bug #812325).
def _length(self, s):
blocks, remainder = divmod(len(s) + 1, 512)
if remainder:
blocks += 1
return blocks * 512
def _calc_size(self, name, link=None):
# Initial tar header
count = 512
if len(name) > tarfile.LENGTH_NAME:
# GNU longname extended header + longname
count += 512
count += self._length(name)
if link is not None and len(link) > tarfile.LENGTH_LINK:
# GNU longlink extended header + longlink
count += 512
count += self._length(link)
return count
def _test(self, name, link=None):
tarinfo = tarfile.TarInfo(name)
if link:
tarinfo.linkname = link
tarinfo.type = tarfile.LNKTYPE
tar = tarfile.open(tmpname, "w")
tar.format = tarfile.GNU_FORMAT
tar.addfile(tarinfo)
v1 = self._calc_size(name, link)
v2 = tar.offset
self.assertTrue(v1 == v2, "GNU longname/longlink creation failed")
tar.close()
tar = tarfile.open(tmpname)
member = tar.next()
self.assertFalse(member is None, "unable to read longname member")
self.assertTrue(tarinfo.name == member.name and \
tarinfo.linkname == member.linkname, \
"unable to read longname member")
def test_longname_1023(self):
self._test(("longnam/" * 127) + "longnam")
def test_longname_1024(self):
self._test(("longnam/" * 127) + "longname")
def test_longname_1025(self):
self._test(("longnam/" * 127) + "longname_")
def test_longlink_1023(self):
self._test("name", ("longlnk/" * 127) + "longlnk")
def test_longlink_1024(self):
self._test("name", ("longlnk/" * 127) + "longlink")
def test_longlink_1025(self):
self._test("name", ("longlnk/" * 127) + "longlink_")
def test_longnamelink_1023(self):
self._test(("longnam/" * 127) + "longnam",
("longlnk/" * 127) + "longlnk")
def test_longnamelink_1024(self):
self._test(("longnam/" * 127) + "longname",
("longlnk/" * 127) + "longlink")
def test_longnamelink_1025(self):
self._test(("longnam/" * 127) + "longname_",
("longlnk/" * 127) + "longlink_")
class HardlinkTest(unittest.TestCase):
# Test the creation of LNKTYPE (hardlink) members in an archive.
def setUp(self):
self.foo = os.path.join(TEMPDIR, "foo")
self.bar = os.path.join(TEMPDIR, "bar")
fobj = open(self.foo, "wb")
fobj.write(b"foo")
fobj.close()
os.link(self.foo, self.bar)
self.tar = tarfile.open(tmpname, "w")
self.tar.add(self.foo)
def tearDown(self):
self.tar.close()
os.remove(self.foo)
os.remove(self.bar)
def test_add_twice(self):
# The same name will be added as a REGTYPE every
# time regardless of st_nlink.
tarinfo = self.tar.gettarinfo(self.foo)
self.assertTrue(tarinfo.type == tarfile.REGTYPE,
"add file as regular failed")
def test_add_hardlink(self):
tarinfo = self.tar.gettarinfo(self.bar)
self.assertTrue(tarinfo.type == tarfile.LNKTYPE,
"add file as hardlink failed")
def test_dereference_hardlink(self):
self.tar.dereference = True
tarinfo = self.tar.gettarinfo(self.bar)
self.assertTrue(tarinfo.type == tarfile.REGTYPE,
"dereferencing hardlink failed")
class PaxWriteTest(GNUWriteTest):
def _test(self, name, link=None):
# See GNUWriteTest.
tarinfo = tarfile.TarInfo(name)
if link:
tarinfo.linkname = link
tarinfo.type = tarfile.LNKTYPE
tar = tarfile.open(tmpname, "w", format=tarfile.PAX_FORMAT)
tar.addfile(tarinfo)
tar.close()
tar = tarfile.open(tmpname)
if link:
l = tar.getmembers()[0].linkname
self.assertTrue(link == l, "PAX longlink creation failed")
else:
n = tar.getmembers()[0].name
self.assertTrue(name == n, "PAX longname creation failed")
def test_pax_global_header(self):
pax_headers = {
"foo": "bar",
"uid": "0",
"mtime": "1.23",
"test": "\xe4\xf6\xfc",
"\xe4\xf6\xfc": "test"}
tar = tarfile.open(tmpname, "w", format=tarfile.PAX_FORMAT, \
pax_headers=pax_headers)
tar.addfile(tarfile.TarInfo("test"))
tar.close()
# Test if the global header was written correctly.
tar = tarfile.open(tmpname, encoding="iso8859-1")
self.assertEqual(tar.pax_headers, pax_headers)
self.assertEqual(tar.getmembers()[0].pax_headers, pax_headers)
# Test if all the fields are strings.
for key, val in tar.pax_headers.items():
self.assertTrue(type(key) is not bytes)
self.assertTrue(type(val) is not bytes)
if key in tarfile.PAX_NUMBER_FIELDS:
try:
tarfile.PAX_NUMBER_FIELDS[key](val)
except (TypeError, ValueError):
self.fail("unable to convert pax header field")
def test_pax_extended_header(self):
# The fields from the pax header have priority over the
# TarInfo.
pax_headers = {"path": "foo", "uid": "123"}
tar = tarfile.open(tmpname, "w", format=tarfile.PAX_FORMAT, encoding="iso8859-1")
t = tarfile.TarInfo()
t.name = "\xe4\xf6\xfc" # non-ASCII
t.uid = 8**8 # too large
t.pax_headers = pax_headers
tar.addfile(t)
tar.close()
tar = tarfile.open(tmpname, encoding="iso8859-1")
t = tar.getmembers()[0]
self.assertEqual(t.pax_headers, pax_headers)
self.assertEqual(t.name, "foo")
self.assertEqual(t.uid, 123)
class UstarUnicodeTest(unittest.TestCase):
format = tarfile.USTAR_FORMAT
def test_iso8859_1_filename(self):
self._test_unicode_filename("iso8859-1")
def test_utf7_filename(self):
self._test_unicode_filename("utf7")
def test_utf8_filename(self):
self._test_unicode_filename("utf8")
def _test_unicode_filename(self, encoding):
tar = tarfile.open(tmpname, "w", format=self.format, encoding=encoding, errors="strict")
name = "\xe4\xf6\xfc"
tar.addfile(tarfile.TarInfo(name))
tar.close()
tar = tarfile.open(tmpname, encoding=encoding)
self.assertEqual(tar.getmembers()[0].name, name)
tar.close()
def test_unicode_filename_error(self):
if self.format == tarfile.PAX_FORMAT:
# PAX_FORMAT ignores encoding in write mode.
return
tar = tarfile.open(tmpname, "w", format=self.format, encoding="ascii", errors="strict")
tarinfo = tarfile.TarInfo()
tarinfo.name = "\xe4\xf6\xfc"
self.assertRaises(UnicodeError, tar.addfile, tarinfo)
tarinfo.name = "foo"
tarinfo.uname = "\xe4\xf6\xfc"
self.assertRaises(UnicodeError, tar.addfile, tarinfo)
def test_unicode_argument(self):
tar = tarfile.open(tarname, "r", encoding="iso8859-1", errors="strict")
for t in tar:
self.assertTrue(type(t.name) is str)
self.assertTrue(type(t.linkname) is str)
self.assertTrue(type(t.uname) is str)
self.assertTrue(type(t.gname) is str)
tar.close()
def test_uname_unicode(self):
t = tarfile.TarInfo("foo")
t.uname = "\xe4\xf6\xfc"
t.gname = "\xe4\xf6\xfc"
tar = tarfile.open(tmpname, mode="w", format=self.format, encoding="iso8859-1")
tar.addfile(t)
tar.close()
tar = tarfile.open(tmpname, encoding="iso8859-1")
t = tar.getmember("foo")
self.assertEqual(t.uname, "\xe4\xf6\xfc")
self.assertEqual(t.gname, "\xe4\xf6\xfc")
if self.format != tarfile.PAX_FORMAT:
tar = tarfile.open(tmpname, encoding="ascii")
t = tar.getmember("foo")
self.assertEqual(t.uname, "\ufffd\ufffd\ufffd")
self.assertEqual(t.gname, "\ufffd\ufffd\ufffd")
class GNUUnicodeTest(UstarUnicodeTest):
format = tarfile.GNU_FORMAT
class PAXUnicodeTest(UstarUnicodeTest):
format = tarfile.PAX_FORMAT
class AppendTest(unittest.TestCase):
# Test append mode (cp. patch #1652681).
def setUp(self):
self.tarname = tmpname
if os.path.exists(self.tarname):
os.remove(self.tarname)
def _add_testfile(self, fileobj=None):
tar = tarfile.open(self.tarname, "a", fileobj=fileobj)
tar.addfile(tarfile.TarInfo("bar"))
tar.close()
def _create_testtar(self, mode="w:"):
src = tarfile.open(tarname, encoding="iso8859-1")
t = src.getmember("ustar/regtype")
t.name = "foo"
f = src.extractfile(t)
tar = tarfile.open(self.tarname, mode)
tar.addfile(t, f)
tar.close()
def _test(self, names=["bar"], fileobj=None):
tar = tarfile.open(self.tarname, fileobj=fileobj)
self.assertEqual(tar.getnames(), names)
def test_non_existing(self):
self._add_testfile()
self._test()
def test_empty(self):
open(self.tarname, "w").close()
self._add_testfile()
self._test()
def test_empty_fileobj(self):
fobj = io.BytesIO()
self._add_testfile(fobj)
fobj.seek(0)
self._test(fileobj=fobj)
def test_fileobj(self):
self._create_testtar()
data = open(self.tarname, "rb").read()
fobj = io.BytesIO(data)
self._add_testfile(fobj)
fobj.seek(0)
self._test(names=["foo", "bar"], fileobj=fobj)
def test_existing(self):
self._create_testtar()
self._add_testfile()
self._test(names=["foo", "bar"])
def test_append_gz(self):
if gzip is None:
return
self._create_testtar("w:gz")
self.assertRaises(tarfile.ReadError, tarfile.open, tmpname, "a")
def test_append_bz2(self):
if bz2 is None:
return
self._create_testtar("w:bz2")
self.assertRaises(tarfile.ReadError, tarfile.open, tmpname, "a")
class LimitsTest(unittest.TestCase):
def test_ustar_limits(self):
# 100 char name
tarinfo = tarfile.TarInfo("0123456789" * 10)
tarinfo.tobuf(tarfile.USTAR_FORMAT)
# 101 char name that cannot be stored
tarinfo = tarfile.TarInfo("0123456789" * 10 + "0")
self.assertRaises(ValueError, tarinfo.tobuf, tarfile.USTAR_FORMAT)
# 256 char name with a slash at pos 156
tarinfo = tarfile.TarInfo("123/" * 62 + "longname")
tarinfo.tobuf(tarfile.USTAR_FORMAT)
# 256 char name that cannot be stored
tarinfo = tarfile.TarInfo("1234567/" * 31 + "longname")
self.assertRaises(ValueError, tarinfo.tobuf, tarfile.USTAR_FORMAT)
# 512 char name
tarinfo = tarfile.TarInfo("123/" * 126 + "longname")
self.assertRaises(ValueError, tarinfo.tobuf, tarfile.USTAR_FORMAT)
# 512 char linkname
tarinfo = tarfile.TarInfo("longlink")
tarinfo.linkname = "123/" * 126 + "longname"
self.assertRaises(ValueError, tarinfo.tobuf, tarfile.USTAR_FORMAT)
# uid > 8 digits
tarinfo = tarfile.TarInfo("name")
tarinfo.uid = 0o10000000
self.assertRaises(ValueError, tarinfo.tobuf, tarfile.USTAR_FORMAT)
def test_gnu_limits(self):
tarinfo = tarfile.TarInfo("123/" * 126 + "longname")
tarinfo.tobuf(tarfile.GNU_FORMAT)
tarinfo = tarfile.TarInfo("longlink")
tarinfo.linkname = "123/" * 126 + "longname"
tarinfo.tobuf(tarfile.GNU_FORMAT)
# uid >= 256 ** 7
tarinfo = tarfile.TarInfo("name")
tarinfo.uid = 0o4000000000000000000
self.assertRaises(ValueError, tarinfo.tobuf, tarfile.GNU_FORMAT)
def test_pax_limits(self):
tarinfo = tarfile.TarInfo("123/" * 126 + "longname")
tarinfo.tobuf(tarfile.PAX_FORMAT)
tarinfo = tarfile.TarInfo("longlink")
tarinfo.linkname = "123/" * 126 + "longname"
tarinfo.tobuf(tarfile.PAX_FORMAT)
tarinfo = tarfile.TarInfo("name")
tarinfo.uid = 0o4000000000000000000
tarinfo.tobuf(tarfile.PAX_FORMAT)
class MiscTest(unittest.TestCase):
def test_char_fields(self):
self.assertEqual(tarfile.stn("foo", 8, "ascii", "strict"), b"foo\0\0\0\0\0")
self.assertEqual(tarfile.stn("foobar", 3, "ascii", "strict"), b"foo")
self.assertEqual(tarfile.nts(b"foo\0\0\0\0\0", "ascii", "strict"), "foo")
self.assertEqual(tarfile.nts(b"foo\0bar\0", "ascii", "strict"), "foo")
def test_number_fields(self):
self.assertEqual(tarfile.itn(1), b"0000001\x00")
self.assertEqual(tarfile.itn(0xffffffff), b"\x80\x00\x00\x00\xff\xff\xff\xff")
class GzipMiscReadTest(MiscReadTest):
tarname = gzipname
mode = "r:gz"
class GzipUstarReadTest(UstarReadTest):
tarname = gzipname
mode = "r:gz"
class GzipStreamReadTest(StreamReadTest):
tarname = gzipname
mode = "r|gz"
class GzipWriteTest(WriteTest):
mode = "w:gz"
class GzipStreamWriteTest(StreamWriteTest):
mode = "w|gz"
class Bz2MiscReadTest(MiscReadTest):
tarname = bz2name
mode = "r:bz2"
class Bz2UstarReadTest(UstarReadTest):
tarname = bz2name
mode = "r:bz2"
class Bz2StreamReadTest(StreamReadTest):
tarname = bz2name
mode = "r|bz2"
class Bz2WriteTest(WriteTest):
mode = "w:bz2"
class Bz2StreamWriteTest(StreamWriteTest):
mode = "w|bz2"
class Bz2PartialReadTest(unittest.TestCase):
# Issue5068: The _BZ2Proxy.read() method loops forever
# on an empty or partial bzipped file.
def _test_partial_input(self, mode):
class MyBytesIO(io.BytesIO):
hit_eof = False
def read(self, n):
if self.hit_eof:
raise AssertionError("infinite loop detected in tarfile.open()")
self.hit_eof = self.tell() == len(self.getvalue())
return super(MyBytesIO, self).read(n)
data = bz2.compress(tarfile.TarInfo("foo").tobuf())
for x in range(len(data) + 1):
tarfile.open(fileobj=MyBytesIO(data[:x]), mode=mode)
def test_partial_input(self):
self._test_partial_input("r")
def test_partial_input_bz2(self):
self._test_partial_input("r:bz2")
def test_main():
os.makedirs(TEMPDIR)
tests = [
UstarReadTest,
MiscReadTest,
StreamReadTest,
DetectReadTest,
MemberReadTest,
GNUReadTest,
PaxReadTest,
WriteTest,
StreamWriteTest,
GNUWriteTest,
PaxWriteTest,
UstarUnicodeTest,
GNUUnicodeTest,
PAXUnicodeTest,
AppendTest,
LimitsTest,
MiscTest,
]
if hasattr(os, "link"):
tests.append(HardlinkTest)
fobj = open(tarname, "rb")
data = fobj.read()
fobj.close()
if gzip:
# Create testtar.tar.gz and add gzip-specific tests.
tar = gzip.open(gzipname, "wb")
tar.write(data)
tar.close()
tests += [
GzipMiscReadTest,
GzipUstarReadTest,
GzipStreamReadTest,
GzipWriteTest,
GzipStreamWriteTest,
]
if bz2:
# Create testtar.tar.bz2 and add bz2-specific tests.
tar = bz2.BZ2File(bz2name, "wb")
tar.write(data)
tar.close()
tests += [
Bz2MiscReadTest,
Bz2UstarReadTest,
Bz2StreamReadTest,
Bz2WriteTest,
Bz2StreamWriteTest,
Bz2PartialReadTest,
]
try:
support.run_unittest(*tests)
finally:
if os.path.exists(TEMPDIR):
shutil.rmtree(TEMPDIR)
if __name__ == "__main__":
test_main()