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"""Tests for certbot.compat.filesystem"""
import contextlib
import errno
import unittest
import mock
try:
# pylint: disable=import-error
import win32api
import win32security
import ntsecuritycon
# pylint: enable=import-error
POSIX_MODE = False
except ImportError:
POSIX_MODE = True
import certbot.tests.util as test_util
from certbot import lock
from certbot import util
from certbot.compat import os
from certbot.compat import filesystem
from certbot.tests.util import TempDirTestCase
EVERYBODY_SID = 'S-1-1-0'
SYSTEM_SID = 'S-1-5-18'
ADMINS_SID = 'S-1-5-32-544'
@unittest.skipIf(POSIX_MODE, reason='Tests specific to Windows security')
class WindowsChmodTests(TempDirTestCase):
"""Unit tests for Windows chmod function in filesystem module"""
def setUp(self):
super(WindowsChmodTests, self).setUp()
self.probe_path = _create_probe(self.tempdir)
def test_symlink_resolution(self):
link_path = os.path.join(self.tempdir, 'link')
os.symlink(self.probe_path, link_path)
ref_dacl_probe = _get_security_dacl(self.probe_path).GetSecurityDescriptorDacl()
ref_dacl_link = _get_security_dacl(link_path).GetSecurityDescriptorDacl()
filesystem.chmod(link_path, 0o700)
# Assert the real file is impacted, not the link.
cur_dacl_probe = _get_security_dacl(self.probe_path).GetSecurityDescriptorDacl()
cur_dacl_link = _get_security_dacl(link_path).GetSecurityDescriptorDacl()
self.assertFalse(filesystem._compare_dacls(ref_dacl_probe, cur_dacl_probe)) # pylint: disable=protected-access
self.assertTrue(filesystem._compare_dacls(ref_dacl_link, cur_dacl_link)) # pylint: disable=protected-access
def test_world_permission(self):
everybody = win32security.ConvertStringSidToSid(EVERYBODY_SID)
filesystem.chmod(self.probe_path, 0o700)
dacl = _get_security_dacl(self.probe_path).GetSecurityDescriptorDacl()
self.assertFalse([dacl.GetAce(index) for index in range(0, dacl.GetAceCount())
if dacl.GetAce(index)[2] == everybody])
filesystem.chmod(self.probe_path, 0o704)
dacl = _get_security_dacl(self.probe_path).GetSecurityDescriptorDacl()
self.assertTrue([dacl.GetAce(index) for index in range(0, dacl.GetAceCount())
if dacl.GetAce(index)[2] == everybody])
def test_group_permissions_noop(self):
filesystem.chmod(self.probe_path, 0o700)
ref_dacl_probe = _get_security_dacl(self.probe_path).GetSecurityDescriptorDacl()
filesystem.chmod(self.probe_path, 0o740)
cur_dacl_probe = _get_security_dacl(self.probe_path).GetSecurityDescriptorDacl()
self.assertTrue(filesystem._compare_dacls(ref_dacl_probe, cur_dacl_probe)) # pylint: disable=protected-access
def test_admin_permissions(self):
system = win32security.ConvertStringSidToSid(SYSTEM_SID)
admins = win32security.ConvertStringSidToSid(ADMINS_SID)
filesystem.chmod(self.probe_path, 0o400)
dacl = _get_security_dacl(self.probe_path).GetSecurityDescriptorDacl()
system_aces = [dacl.GetAce(index) for index in range(0, dacl.GetAceCount())
if dacl.GetAce(index)[2] == system]
admin_aces = [dacl.GetAce(index) for index in range(0, dacl.GetAceCount())
if dacl.GetAce(index)[2] == admins]
self.assertEqual(len(system_aces), 1)
self.assertEqual(len(admin_aces), 1)
self.assertEqual(system_aces[0][1], ntsecuritycon.FILE_ALL_ACCESS)
self.assertEqual(admin_aces[0][1], ntsecuritycon.FILE_ALL_ACCESS)
def test_read_flag(self):
self._test_flag(4, ntsecuritycon.FILE_GENERIC_READ)
def test_execute_flag(self):
self._test_flag(1, ntsecuritycon.FILE_GENERIC_EXECUTE)
def test_write_flag(self):
self._test_flag(2, (ntsecuritycon.FILE_ALL_ACCESS
^ ntsecuritycon.FILE_GENERIC_READ
^ ntsecuritycon.FILE_GENERIC_EXECUTE))
def test_full_flag(self):
self._test_flag(7, ntsecuritycon.FILE_ALL_ACCESS)
def _test_flag(self, everyone_mode, windows_flag):
# Note that flag is tested against `everyone`, not `user`, because practically these unit
# tests are executed with admin privilege, so current user is effectively the admins group,
# and so will always have all rights.
filesystem.chmod(self.probe_path, 0o700 | everyone_mode)
dacl = _get_security_dacl(self.probe_path).GetSecurityDescriptorDacl()
everybody = win32security.ConvertStringSidToSid(EVERYBODY_SID)
acls_everybody = [dacl.GetAce(index) for index in range(0, dacl.GetAceCount())
if dacl.GetAce(index)[2] == everybody]
self.assertEqual(len(acls_everybody), 1)
acls_everybody = acls_everybody[0]
self.assertEqual(acls_everybody[1], windows_flag)
def test_user_admin_dacl_consistency(self):
# Set ownership of target to authenticated user
authenticated_user, _, _ = win32security.LookupAccountName("", win32api.GetUserName())
security_owner = _get_security_owner(self.probe_path)
_set_owner(self.probe_path, security_owner, authenticated_user)
filesystem.chmod(self.probe_path, 0o700)
security_dacl = _get_security_dacl(self.probe_path)
# We expect three ACE: one for admins, one for system, and one for the user
self.assertEqual(security_dacl.GetSecurityDescriptorDacl().GetAceCount(), 3)
# Set ownership of target to Administrators user group
admin_user = win32security.ConvertStringSidToSid(ADMINS_SID)
security_owner = _get_security_owner(self.probe_path)
_set_owner(self.probe_path, security_owner, admin_user)
filesystem.chmod(self.probe_path, 0o700)
security_dacl = _get_security_dacl(self.probe_path)
# We expect only two ACE: one for admins, one for system,
# since the user is also the admins group
self.assertEqual(security_dacl.GetSecurityDescriptorDacl().GetAceCount(), 2)
class ComputePrivateKeyModeTest(TempDirTestCase):
def setUp(self):
super(ComputePrivateKeyModeTest, self).setUp()
self.probe_path = _create_probe(self.tempdir)
def test_compute_private_key_mode(self):
filesystem.chmod(self.probe_path, 0o777)
new_mode = filesystem.compute_private_key_mode(self.probe_path, 0o600)
if POSIX_MODE:
# On Linux RWX permissions for group and R permission for world
# are persisted from the existing moe
self.assertEqual(new_mode, 0o674)
else:
# On Windows no permission is persisted
self.assertEqual(new_mode, 0o600)
@unittest.skipIf(POSIX_MODE, reason='Tests specific to Windows security')
class WindowsOpenTest(TempDirTestCase):
def test_new_file_correct_permissions(self):
path = os.path.join(self.tempdir, 'file')
desc = filesystem.open(path, os.O_CREAT | os.O_EXCL | os.O_RDWR, 0o700)
os.close(desc)
dacl = _get_security_dacl(path).GetSecurityDescriptorDacl()
everybody = win32security.ConvertStringSidToSid(EVERYBODY_SID)
self.assertFalse([dacl.GetAce(index) for index in range(0, dacl.GetAceCount())
if dacl.GetAce(index)[2] == everybody])
def test_existing_file_correct_permissions(self):
path = os.path.join(self.tempdir, 'file')
open(path, 'w').close()
desc = filesystem.open(path, os.O_EXCL | os.O_RDWR, 0o700)
os.close(desc)
dacl = _get_security_dacl(path).GetSecurityDescriptorDacl()
everybody = win32security.ConvertStringSidToSid(EVERYBODY_SID)
self.assertFalse([dacl.GetAce(index) for index in range(0, dacl.GetAceCount())
if dacl.GetAce(index)[2] == everybody])
def test_create_file_on_open(self):
# os.O_CREAT | os.O_EXCL + file not exists = OK
self._test_one_creation(1, file_exist=False, flags=(os.O_CREAT | os.O_EXCL))
# os.O_CREAT | os.O_EXCL + file exists = EEXIST OS exception
with self.assertRaises(OSError) as raised:
self._test_one_creation(2, file_exist=True, flags=(os.O_CREAT | os.O_EXCL))
self.assertEqual(raised.exception.errno, errno.EEXIST)
# os.O_CREAT + file not exists = OK
self._test_one_creation(3, file_exist=False, flags=os.O_CREAT)
# os.O_CREAT + file exists = OK
self._test_one_creation(4, file_exist=True, flags=os.O_CREAT)
# os.O_CREAT + file exists (locked) = EACCES OS exception
path = os.path.join(self.tempdir, '5')
open(path, 'w').close()
filelock = lock.LockFile(path)
try:
with self.assertRaises(OSError) as raised:
self._test_one_creation(5, file_exist=True, flags=os.O_CREAT)
self.assertEqual(raised.exception.errno, errno.EACCES)
finally:
filelock.release()
# os.O_CREAT not set + file not exists = OS exception
with self.assertRaises(OSError):
self._test_one_creation(6, file_exist=False, flags=os.O_RDONLY)
def _test_one_creation(self, num, file_exist, flags):
one_file = os.path.join(self.tempdir, str(num))
if file_exist and not os.path.exists(one_file):
with open(one_file, 'w'):
pass
handler = None
try:
handler = filesystem.open(one_file, flags)
finally:
if handler:
os.close(handler)
@unittest.skipIf(POSIX_MODE, reason='Test specific to Windows security')
class WindowsMkdirTests(test_util.TempDirTestCase):
"""Unit tests for Windows mkdir + makedirs functions in filesystem module"""
def test_mkdir_correct_permissions(self):
path = os.path.join(self.tempdir, 'dir')
filesystem.mkdir(path, 0o700)
everybody = win32security.ConvertStringSidToSid(EVERYBODY_SID)
dacl = _get_security_dacl(path).GetSecurityDescriptorDacl()
self.assertFalse([dacl.GetAce(index) for index in range(0, dacl.GetAceCount())
if dacl.GetAce(index)[2] == everybody])
def test_makedirs_correct_permissions(self):
path = os.path.join(self.tempdir, 'dir')
subpath = os.path.join(path, 'subpath')
filesystem.makedirs(subpath, 0o700)
everybody = win32security.ConvertStringSidToSid(EVERYBODY_SID)
dacl = _get_security_dacl(subpath).GetSecurityDescriptorDacl()
self.assertFalse([dacl.GetAce(index) for index in range(0, dacl.GetAceCount())
if dacl.GetAce(index)[2] == everybody])
def test_makedirs_switch_os_mkdir(self):
path = os.path.join(self.tempdir, 'dir')
import os as std_os # pylint: disable=os-module-forbidden
original_mkdir = std_os.mkdir
filesystem.makedirs(path)
self.assertEqual(original_mkdir, std_os.mkdir)
try:
filesystem.makedirs(path) # Will fail because path already exists
except OSError:
pass
self.assertEqual(original_mkdir, std_os.mkdir)
class OwnershipTest(test_util.TempDirTestCase):
"""Tests about copy_ownership_and_apply_mode and has_same_ownership"""
def setUp(self):
super(OwnershipTest, self).setUp()
self.probe_path = _create_probe(self.tempdir)
@unittest.skipIf(POSIX_MODE, reason='Test specific to Windows security')
def test_copy_ownership_windows(self):
system = win32security.ConvertStringSidToSid(SYSTEM_SID)
security = win32security.SECURITY_ATTRIBUTES().SECURITY_DESCRIPTOR
security.SetSecurityDescriptorOwner(system, False)
with mock.patch('win32security.GetFileSecurity') as mock_get:
with mock.patch('win32security.SetFileSecurity') as mock_set:
mock_get.return_value = security
filesystem.copy_ownership_and_apply_mode(
'dummy', self.probe_path, 0o700, copy_user=True, copy_group=False)
self.assertEqual(mock_set.call_count, 2)
first_call = mock_set.call_args_list[0]
security = first_call[0][2]
self.assertEqual(system, security.GetSecurityDescriptorOwner())
second_call = mock_set.call_args_list[1]
security = second_call[0][2]
dacl = security.GetSecurityDescriptorDacl()
everybody = win32security.ConvertStringSidToSid(EVERYBODY_SID)
self.assertTrue(dacl.GetAceCount())
self.assertFalse([dacl.GetAce(index) for index in range(0, dacl.GetAceCount())
if dacl.GetAce(index)[2] == everybody])
@unittest.skipUnless(POSIX_MODE, reason='Test specific to Linux security')
def test_copy_ownership_linux(self):
with mock.patch('os.chown') as mock_chown:
with mock.patch('os.chmod') as mock_chmod:
with mock.patch('os.stat') as mock_stat:
mock_stat.return_value.st_uid = 50
mock_stat.return_value.st_gid = 51
filesystem.copy_ownership_and_apply_mode(
'dummy', self.probe_path, 0o700, copy_user=True, copy_group=True)
mock_chown.assert_called_once_with(self.probe_path, 50, 51)
mock_chmod.assert_called_once_with(self.probe_path, 0o700)
def test_has_same_ownership(self):
path1 = os.path.join(self.tempdir, 'test1')
path2 = os.path.join(self.tempdir, 'test2')
util.safe_open(path1, 'w').close()
util.safe_open(path2, 'w').close()
self.assertTrue(filesystem.has_same_ownership(path1, path2))
class CheckPermissionsTest(test_util.TempDirTestCase):
"""Tests relative to functions that check modes."""
def setUp(self):
super(CheckPermissionsTest, self).setUp()
self.probe_path = _create_probe(self.tempdir)
def test_check_mode(self):
self.assertTrue(filesystem.check_mode(self.probe_path, 0o744))
filesystem.chmod(self.probe_path, 0o700)
self.assertFalse(filesystem.check_mode(self.probe_path, 0o744))
@unittest.skipIf(POSIX_MODE, reason='Test specific to Windows security')
def test_check_owner_windows(self):
self.assertTrue(filesystem.check_owner(self.probe_path))
system = win32security.ConvertStringSidToSid(SYSTEM_SID)
security = win32security.SECURITY_ATTRIBUTES().SECURITY_DESCRIPTOR
security.SetSecurityDescriptorOwner(system, False)
with mock.patch('win32security.GetFileSecurity') as mock_get:
mock_get.return_value = security
self.assertFalse(filesystem.check_owner(self.probe_path))
@unittest.skipUnless(POSIX_MODE, reason='Test specific to Linux security')
def test_check_owner_linux(self):
self.assertTrue(filesystem.check_owner(self.probe_path))
import os as std_os # pylint: disable=os-module-forbidden
uid = std_os.getuid()
with mock.patch('os.getuid') as mock_uid:
mock_uid.return_value = uid + 1
self.assertFalse(filesystem.check_owner(self.probe_path))
def test_check_permissions(self):
self.assertTrue(filesystem.check_permissions(self.probe_path, 0o744))
with mock.patch('certbot.compat.filesystem.check_mode') as mock_mode:
mock_mode.return_value = False
self.assertFalse(filesystem.check_permissions(self.probe_path, 0o744))
with mock.patch('certbot.compat.filesystem.check_owner') as mock_owner:
mock_owner.return_value = False
self.assertFalse(filesystem.check_permissions(self.probe_path, 0o744))
def test_check_min_permissions(self):
filesystem.chmod(self.probe_path, 0o744)
self.assertTrue(filesystem.has_min_permissions(self.probe_path, 0o744))
filesystem.chmod(self.probe_path, 0o700)
self.assertFalse(filesystem.has_min_permissions(self.probe_path, 0o744))
filesystem.chmod(self.probe_path, 0o741)
self.assertFalse(filesystem.has_min_permissions(self.probe_path, 0o744))
def test_is_world_reachable(self):
filesystem.chmod(self.probe_path, 0o744)
self.assertTrue(filesystem.has_world_permissions(self.probe_path))
filesystem.chmod(self.probe_path, 0o700)
self.assertFalse(filesystem.has_world_permissions(self.probe_path))
class OsReplaceTest(test_util.TempDirTestCase):
"""Test to ensure consistent behavior of rename method"""
def test_os_replace_to_existing_file(self):
"""Ensure that replace will effectively rename src into dst for all platforms."""
src = os.path.join(self.tempdir, 'src')
dst = os.path.join(self.tempdir, 'dst')
open(src, 'w').close()
open(dst, 'w').close()
# On Windows, a direct call to os.rename would fail because dst already exists.
filesystem.replace(src, dst)
self.assertFalse(os.path.exists(src))
self.assertTrue(os.path.exists(dst))
class RealpathTest(test_util.TempDirTestCase):
"""Tests for realpath method"""
def setUp(self):
super(RealpathTest, self).setUp()
self.probe_path = _create_probe(self.tempdir)
def test_symlink_resolution(self):
# Remove any symlinks already in probe_path
self.probe_path = filesystem.realpath(self.probe_path)
# Absolute resolution
link_path = os.path.join(self.tempdir, 'link_abs')
os.symlink(self.probe_path, link_path)
self.assertEqual(self.probe_path, filesystem.realpath(self.probe_path))
self.assertEqual(self.probe_path, filesystem.realpath(link_path))
# Relative resolution
curdir = os.getcwd()
link_path = os.path.join(self.tempdir, 'link_rel')
probe_name = os.path.basename(self.probe_path)
try:
os.chdir(os.path.dirname(self.probe_path))
os.symlink(probe_name, link_path)
self.assertEqual(self.probe_path, filesystem.realpath(probe_name))
self.assertEqual(self.probe_path, filesystem.realpath(link_path))
finally:
os.chdir(curdir)
def test_symlink_loop_mitigation(self):
link1_path = os.path.join(self.tempdir, 'link1')
link2_path = os.path.join(self.tempdir, 'link2')
link3_path = os.path.join(self.tempdir, 'link3')
os.symlink(link1_path, link2_path)
os.symlink(link2_path, link3_path)
os.symlink(link3_path, link1_path)
with self.assertRaises(RuntimeError) as error:
filesystem.realpath(link1_path)
self.assertTrue('link1 is a loop!' in str(error.exception))
class IsExecutableTest(test_util.TempDirTestCase):
"""Tests for is_executable method"""
def test_not_executable(self):
file_path = os.path.join(self.tempdir, "foo")
# On Windows a file created within Certbot will always have all permissions to the
# Administrators group set. Since the unit tests are typically executed under elevated
# privileges, it means that current user will always have effective execute rights on the
# hook script, and so the test will fail. To prevent that and represent a file created
# outside Certbot as typically a hook file is, we mock the _generate_dacl function in
# certbot.compat.filesystem to give rights only to the current user. This implies removing
# all ACEs except the first one from the DACL created by original _generate_dacl function.
from certbot.compat.filesystem import _generate_dacl
def _execute_mock(user_sid, mode):
dacl = _generate_dacl(user_sid, mode)
for _ in range(1, dacl.GetAceCount()):
dacl.DeleteAce(1) # DeleteAce dynamically updates the internal index mapping.
return dacl
# create a non-executable file
with mock.patch("certbot.compat.filesystem._generate_dacl", side_effect=_execute_mock):
os.close(filesystem.open(file_path, os.O_CREAT | os.O_WRONLY, 0o666))
self.assertFalse(filesystem.is_executable(file_path))
@mock.patch("certbot.compat.filesystem.os.path.isfile")
@mock.patch("certbot.compat.filesystem.os.access")
def test_full_path(self, mock_access, mock_isfile):
with _fix_windows_runtime():
mock_access.return_value = True
mock_isfile.return_value = True
self.assertTrue(filesystem.is_executable("/path/to/exe"))
@mock.patch("certbot.compat.filesystem.os.path.isfile")
@mock.patch("certbot.compat.filesystem.os.access")
def test_rel_path(self, mock_access, mock_isfile):
with _fix_windows_runtime():
mock_access.return_value = True
mock_isfile.return_value = True
self.assertTrue(filesystem.is_executable("exe"))
@mock.patch("certbot.compat.filesystem.os.path.isfile")
@mock.patch("certbot.compat.filesystem.os.access")
def test_not_found(self, mock_access, mock_isfile):
with _fix_windows_runtime():
mock_access.return_value = True
mock_isfile.return_value = False
self.assertFalse(filesystem.is_executable("exe"))
@contextlib.contextmanager
def _fix_windows_runtime():
if os.name != 'nt':
yield
else:
with mock.patch('win32security.GetFileSecurity') as mock_get:
dacl_mock = mock_get.return_value.GetSecurityDescriptorDacl
mode_mock = dacl_mock.return_value.GetEffectiveRightsFromAcl
mode_mock.return_value = ntsecuritycon.FILE_GENERIC_EXECUTE
yield
def _get_security_dacl(target):
return win32security.GetFileSecurity(target, win32security.DACL_SECURITY_INFORMATION)
def _get_security_owner(target):
return win32security.GetFileSecurity(target, win32security.OWNER_SECURITY_INFORMATION)
def _set_owner(target, security_owner, user):
security_owner.SetSecurityDescriptorOwner(user, False)
win32security.SetFileSecurity(
target, win32security.OWNER_SECURITY_INFORMATION, security_owner)
def _create_probe(tempdir):
filesystem.chmod(tempdir, 0o744)
probe_path = os.path.join(tempdir, 'probe')
util.safe_open(probe_path, 'w', chmod=0o744).close()
return probe_path
if __name__ == "__main__":
unittest.main() # pragma: no cover
Private