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android / platform / external / python / pyfakefs / 2ae7616 / . / pyfakefs / tests / fake_os_test.py
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# -*- coding: utf-8 -*-
#
# Copyright 2009 Google Inc. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Unit tests for fake_filesystem.FakeOpen."""
import errno
import os
import stat
import sys
import time
import unittest
from pyfakefs.helpers import IS_PY2, IN_DOCKER
from pyfakefs import fake_filesystem
from pyfakefs.fake_filesystem import FakeFileOpen, is_root
from pyfakefs.extra_packages import (
use_scandir, use_scandir_package, use_builtin_scandir
)
from pyfakefs.tests.test_utils import DummyTime, TestCase, RealFsTestCase
class FakeOsModuleTestBase(RealFsTestCase):
def createTestFile(self, path):
self.create_file(path)
self.assertTrue(self.os.path.exists(path))
st = self.os.stat(path)
self.assertEqual(0o666, stat.S_IMODE(st.st_mode))
self.assertTrue(st.st_mode & stat.S_IFREG)
self.assertFalse(st.st_mode & stat.S_IFDIR)
def createTestDirectory(self, path):
self.create_dir(path)
self.assertTrue(self.os.path.exists(path))
st = self.os.stat(path)
self.assertEqual(0o777, stat.S_IMODE(st.st_mode))
self.assertFalse(st.st_mode & stat.S_IFREG)
self.assertTrue(st.st_mode & stat.S_IFDIR)
class FakeOsModuleTest(FakeOsModuleTestBase):
def setUp(self):
super(FakeOsModuleTest, self).setUp()
self.rwx = self.os.R_OK | self.os.W_OK | self.os.X_OK
self.rw = self.os.R_OK | self.os.W_OK
def test_chdir(self):
"""chdir should work on a directory."""
directory = self.make_path('foo')
self.create_dir(directory)
self.os.chdir(directory)
def test_chdir_fails_non_exist(self):
"""chdir should raise OSError if the target does not exist."""
directory = self.make_path('no', 'such', 'directory')
self.assert_raises_os_error(errno.ENOENT, self.os.chdir, directory)
def test_chdir_fails_non_directory(self):
"""chdir should raise OSError if the target is not a directory."""
filename = self.make_path('foo', 'bar')
self.create_file(filename)
self.assert_raises_os_error(self.not_dir_error(),
self.os.chdir, filename)
def test_consecutive_chdir(self):
"""Consecutive relative chdir calls should work."""
dir1 = self.make_path('foo')
dir2 = 'bar'
full_dirname = self.os.path.join(dir1, dir2)
self.create_dir(full_dirname)
self.os.chdir(dir1)
self.os.chdir(dir2)
# use real path to handle symlink /var to /private/var in MacOs
self.assertEqual(os.path.realpath(self.os.getcwd()),
os.path.realpath(full_dirname))
def test_backwards_chdir(self):
"""chdir into '..' should behave appropriately."""
# skipping real fs test - can't test root dir
self.skip_real_fs()
rootdir = self.os.getcwd()
dirname = 'foo'
abs_dirname = self.os.path.abspath(dirname)
self.filesystem.create_dir(dirname)
self.os.chdir(dirname)
self.assertEqual(abs_dirname, self.os.getcwd())
self.os.chdir('..')
self.assertEqual(rootdir, self.os.getcwd())
self.os.chdir(self.os.path.join(dirname, '..'))
self.assertEqual(rootdir, self.os.getcwd())
def test_get_cwd(self):
# skipping real fs test - can't test root dir
self.skip_real_fs()
dirname = self.make_path('foo', 'bar')
self.create_dir(dirname)
self.assertEqual(self.os.getcwd(), self.os.path.sep)
self.os.chdir(dirname)
self.assertEqual(self.os.getcwd(), dirname)
def test_listdir(self):
self.assert_raises_os_error(
errno.ENOENT, self.os.listdir, 'non_existing/fake_dir')
directory = self.make_path('xyzzy', 'plugh')
files = ['foo', 'bar', 'baz']
for f in files:
self.create_file(self.os.path.join(directory, f))
files.sort()
self.assertEqual(files, sorted(self.os.listdir(directory)))
@unittest.skipIf(sys.version_info < (3, 3),
'file descriptor as path new in Python 3.3')
def test_listdir_uses_open_fd_as_path(self):
self.check_posix_only()
if os.listdir not in os.supports_fd:
self.skip_real_fs()
self.assert_raises_os_error(errno.EBADF, self.os.listdir, 500)
dir_path = self.make_path('xyzzy', 'plugh')
files = ['foo', 'bar', 'baz']
for f in files:
self.create_file(self.os.path.join(dir_path, f))
files.sort()
path_des = self.os.open(dir_path, os.O_RDONLY)
self.assertEqual(files, sorted(self.os.listdir(path_des)))
def test_listdir_returns_list(self):
directory_root = self.make_path('xyzzy')
self.os.mkdir(directory_root)
directory = self.os.path.join(directory_root, 'bug')
self.os.mkdir(directory)
self.create_file(self.make_path(directory, 'foo'))
self.assertEqual(['foo'], self.os.listdir(directory))
def test_listdir_on_symlink(self):
self.skip_if_symlink_not_supported()
directory = self.make_path('xyzzy')
files = ['foo', 'bar', 'baz']
for f in files:
self.create_file(self.make_path(directory, f))
self.create_symlink(self.make_path('symlink'), self.make_path('xyzzy'))
files.sort()
self.assertEqual(files,
sorted(self.os.listdir(self.make_path('symlink'))))
def test_listdir_error(self):
file_path = self.make_path('foo', 'bar', 'baz')
self.create_file(file_path)
self.assert_raises_os_error(self.not_dir_error(),
self.os.listdir, file_path)
def test_exists_current_dir(self):
self.assertTrue(self.os.path.exists('.'))
def test_listdir_current(self):
files = ['foo', 'bar', 'baz']
for f in files:
self.create_file(self.make_path(f))
files.sort()
self.assertEqual(files, sorted(self.os.listdir(self.base_path)))
def test_fdopen(self):
# under Windows and Python2, hangs in closing file
self.skip_real_fs_failure(skip_posix=False, skip_python3=False)
file_path1 = self.make_path('some_file1')
self.create_file(file_path1, contents='contents here1')
with self.open(file_path1, 'r') as fake_file1:
fileno = fake_file1.fileno()
fake_file2 = self.os.fdopen(fileno)
self.assertNotEqual(fake_file2, fake_file1)
self.assertRaises(TypeError, self.os.fdopen, None)
self.assertRaises(TypeError, self.os.fdopen, 'a string')
def test_out_of_range_fdopen(self):
# test some file descriptor that is clearly out of range
self.assert_raises_os_error(errno.EBADF, self.os.fdopen, 100)
def test_closed_file_descriptor(self):
# under Windows and Python2, hangs in tearDown
self.skip_real_fs_failure(skip_posix=False, skip_python3=False)
first_path = self.make_path('some_file1')
second_path = self.make_path('some_file2')
third_path = self.make_path('some_file3')
self.create_file(first_path, contents='contents here1')
self.create_file(second_path, contents='contents here2')
self.create_file(third_path, contents='contents here3')
fake_file1 = self.open(first_path, 'r')
fake_file2 = self.open(second_path, 'r')
fake_file3 = self.open(third_path, 'r')
fileno1 = fake_file1.fileno()
fileno2 = fake_file2.fileno()
fileno3 = fake_file3.fileno()
self.os.close(fileno2)
self.assert_raises_os_error(errno.EBADF, self.os.close, fileno2)
self.assertEqual(fileno1, fake_file1.fileno())
self.assertEqual(fileno3, fake_file3.fileno())
with self.os.fdopen(fileno1) as f:
self.assertFalse(f is fake_file1)
with self.os.fdopen(fileno3) as f:
self.assertFalse(f is fake_file3)
self.assert_raises_os_error(errno.EBADF, self.os.fdopen, fileno2)
def test_fdopen_mode(self):
self.skip_real_fs()
file_path1 = self.make_path('some_file1')
self.create_file(file_path1, contents='contents here1')
self.os.chmod(file_path1, (stat.S_IFREG | 0o666) ^ stat.S_IWRITE)
fake_file1 = self.open(file_path1, 'r')
fileno1 = fake_file1.fileno()
self.os.fdopen(fileno1)
self.os.fdopen(fileno1, 'r')
if not is_root():
exception = OSError if self.is_python2 else IOError
self.assertRaises(exception, self.os.fdopen, fileno1, 'w')
else:
self.os.fdopen(fileno1, 'w')
self.os.close(fileno1)
def test_fstat(self):
directory = self.make_path('xyzzy')
file_path = self.os.path.join(directory, 'plugh')
self.create_file(file_path, contents='ABCDE')
with self.open(file_path) as file_obj:
fileno = file_obj.fileno()
self.assertTrue(stat.S_IFREG & self.os.fstat(fileno)[stat.ST_MODE])
self.assertTrue(stat.S_IFREG & self.os.fstat(fileno).st_mode)
self.assertEqual(5, self.os.fstat(fileno)[stat.ST_SIZE])
def test_stat(self):
directory = self.make_path('xyzzy')
file_path = self.os.path.join(directory, 'plugh')
self.create_file(file_path, contents='ABCDE')
self.assertTrue(stat.S_IFDIR & self.os.stat(directory)[stat.ST_MODE])
self.assertTrue(stat.S_IFREG & self.os.stat(file_path)[stat.ST_MODE])
self.assertTrue(stat.S_IFREG & self.os.stat(file_path).st_mode)
self.assertEqual(5, self.os.stat(file_path)[stat.ST_SIZE])
@unittest.skipIf(sys.version_info < (3, 3),
'file descriptor as path new in Python 3.3')
def test_stat_uses_open_fd_as_path(self):
self.skip_real_fs()
self.assert_raises_os_error(errno.EBADF, self.os.stat, 5)
file_path = self.make_path('foo', 'bar')
self.create_file(file_path)
with self.open(file_path) as f:
self.assertTrue(
stat.S_IFREG & self.os.stat(f.filedes)[stat.ST_MODE])
@unittest.skipIf(sys.version_info < (3, 3),
'follow_symlinks new in Python 3.3')
def test_stat_no_follow_symlinks_posix(self):
"""Test that stat with follow_symlinks=False behaves like lstat."""
self.check_posix_only()
directory = self.make_path('xyzzy')
base_name = 'plugh'
file_contents = 'frobozz'
# Just make sure we didn't accidentally make our test data meaningless.
self.assertNotEqual(len(base_name), len(file_contents))
file_path = self.os.path.join(directory, base_name)
link_path = self.os.path.join(directory, 'link')
self.create_file(file_path, contents=file_contents)
self.create_symlink(link_path, base_name)
self.assertEqual(len(file_contents),
self.os.stat(file_path, follow_symlinks=False)[
stat.ST_SIZE])
self.assertEqual(len(base_name),
self.os.stat(link_path, follow_symlinks=False)[
stat.ST_SIZE])
@unittest.skipIf(sys.version_info < (3, 3),
'follow_symlinks new in Python 3.3')
def test_stat_no_follow_symlinks_windows(self):
"""Test that stat with follow_symlinks=False behaves like lstat."""
self.check_windows_only()
self.skip_if_symlink_not_supported()
directory = self.make_path('xyzzy')
base_name = 'plugh'
file_contents = 'frobozz'
# Just make sure we didn't accidentally make our test data meaningless.
self.assertNotEqual(len(base_name), len(file_contents))
file_path = self.os.path.join(directory, base_name)
link_path = self.os.path.join(directory, 'link')
self.create_file(file_path, contents=file_contents)
self.create_symlink(link_path, base_name)
self.assertEqual(len(file_contents),
self.os.stat(file_path, follow_symlinks=False)[
stat.ST_SIZE])
self.assertEqual(0,
self.os.stat(link_path, follow_symlinks=False)[
stat.ST_SIZE])
def test_lstat_size_posix(self):
self.check_posix_only()
directory = self.make_path('xyzzy')
base_name = 'plugh'
file_contents = 'frobozz'
# Just make sure we didn't accidentally make our test data meaningless.
self.assertNotEqual(len(base_name), len(file_contents))
file_path = self.os.path.join(directory, base_name)
link_path = self.os.path.join(directory, 'link')
self.create_file(file_path, contents=file_contents)
self.create_symlink(link_path, base_name)
self.assertEqual(len(file_contents),
self.os.lstat(file_path)[stat.ST_SIZE])
self.assertEqual(len(base_name),
self.os.lstat(link_path)[stat.ST_SIZE])
def test_lstat_size_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
directory = self.make_path('xyzzy')
base_name = 'plugh'
file_contents = 'frobozz'
# Just make sure we didn't accidentally make our test data meaningless.
self.assertNotEqual(len(base_name), len(file_contents))
file_path = self.os.path.join(directory, base_name)
link_path = self.os.path.join(directory, 'link')
self.create_file(file_path, contents=file_contents)
self.create_symlink(link_path, base_name)
self.assertEqual(len(file_contents),
self.os.lstat(file_path)[stat.ST_SIZE])
self.assertEqual(0,
self.os.lstat(link_path)[stat.ST_SIZE])
def test_lstat_trailing_sep(self):
# regression test for #342
stat = self.os.lstat(self.base_path)
self.assertEqual(stat,
self.os.lstat(self.base_path + self.path_separator()))
self.assertEqual(stat, self.os.lstat(
self.base_path + self.path_separator() + self.path_separator()))
def test_exists_with_trailing_sep(self):
# regression test for #364
file_path = self.make_path('alpha')
self.create_file(file_path)
self.assertFalse(self.os.path.exists(file_path + self.os.sep))
def test_mkdir_with_trailing_sep(self):
# regression test for #367
dir_path = self.make_path('foo')
self.os.mkdir(dir_path + self.os.sep + self.os.sep)
self.assertTrue(self.os.path.exists(dir_path))
def test_readlink_ending_with_sep_posix(self):
# regression test for #359
self.check_posix_only()
link_path = self.make_path('foo')
self.os.symlink(self.base_path, link_path)
self.assert_raises_os_error(errno.EINVAL,
self.os.readlink, link_path + self.os.sep)
def test_lstat_symlink_with_trailing_sep_linux(self):
# regression test for #366
self.check_linux_only()
self.skip_if_symlink_not_supported()
link_path = self.make_path('foo')
self.os.symlink(self.base_path, link_path)
# used to raise
self.assertTrue(self.os.lstat(link_path + self.os.sep).st_mode)
def test_lstat_symlink_with_trailing_sep_macos(self):
# regression test for #366
self.check_macos_only()
self.skip_if_symlink_not_supported()
link_path = self.make_path('foo')
self.os.symlink(self.base_path, link_path)
# used to raise
self.assertTrue(self.os.lstat(link_path + self.os.sep).st_mode)
def test_readlink_ending_with_sep_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
link_path = self.make_path('foo')
self.os.symlink(self.base_path, link_path)
self.assertEqual(self.base_path,
self.os.readlink(link_path + self.os.sep))
def test_islink_with_trailing_sep_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
link_path = self.make_path('foo')
self.os.symlink(self.base_path, link_path)
self.assertTrue(self.os.path.islink(link_path + self.os.path.sep))
def test_islink_with_trailing_sep_linux(self):
self.check_linux_only()
link_path = self.make_path('foo')
self.os.symlink(self.base_path, link_path)
self.assertFalse(self.os.path.islink(link_path + self.os.sep))
def test_islink_with_trailing_sep_macos(self):
self.check_macos_only()
link_path = self.make_path('foo')
self.os.symlink(self.base_path, link_path)
self.assertFalse(self.os.path.islink(link_path + self.os.sep))
def check_getsize_raises_with_trailing_separator(self, error_nr):
file_path = self.make_path('bar')
self.create_file(file_path)
self.assert_raises_os_error(error_nr, self.os.path.getsize,
file_path + self.os.sep)
def test_getsize_raises_with_trailing_separator_posix(self):
self.check_posix_only()
self.check_getsize_raises_with_trailing_separator(errno.ENOTDIR)
def test_getsize_raises_with_trailing_separator_windows(self):
self.check_windows_only()
self.check_getsize_raises_with_trailing_separator(errno.EINVAL)
def check_remove_link_ending_with_sep(self, error_nr):
# regression test for #360
link_path = self.make_path('foo')
self.os.symlink(self.base_path, link_path)
self.assert_raises_os_error(error_nr,
self.os.remove, link_path + self.os.sep)
def test_remove_link_ending_with_sep_linux(self):
self.check_linux_only()
self.check_remove_link_ending_with_sep(errno.ENOTDIR)
def test_remove_link_ending_with_sep_macos(self):
self.check_macos_only()
self.check_remove_link_ending_with_sep(errno.EPERM)
def test_remove_link_ending_with_sep_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
self.check_remove_link_ending_with_sep(errno.EACCES)
@unittest.skipIf(sys.version_info < (3, 3),
'file descriptor as path new in Python 3.3')
def test_lstat_uses_open_fd_as_path(self):
self.skip_if_symlink_not_supported()
if os.lstat not in os.supports_fd:
self.skip_real_fs()
self.assert_raises_os_error(errno.EBADF, self.os.lstat, 5)
file_path = self.make_path('foo', 'bar')
link_path = self.make_path('foo', 'link')
file_contents = b'contents'
self.create_file(file_path, contents=file_contents)
self.create_symlink(link_path, file_path)
with self.open(file_path) as f:
self.assertEqual(len(file_contents),
self.os.lstat(f.filedes)[stat.ST_SIZE])
def test_stat_non_existent_file(self):
# set up
file_path = self.make_path('non', 'existent', 'file')
self.assertFalse(self.os.path.exists(file_path))
# actual tests
try:
# Use try-catch to check exception attributes.
self.os.stat(file_path)
self.fail('Exception is expected.') # COV_NF_LINE
except OSError as os_error:
self.assertEqual(errno.ENOENT, os_error.errno)
self.assertEqual(file_path, os_error.filename)
def check_open_raises_with_trailing_separator(self, error_nr):
file_path = self.make_path('bar') + self.os.sep
self.assert_raises_os_error(error_nr, self.os.open,
file_path,
os.O_CREAT | os.O_WRONLY | os.O_TRUNC)
def test_open_raises_with_trailing_separator_linux(self):
self.check_linux_only()
self.check_open_raises_with_trailing_separator(errno.EISDIR)
def test_open_raises_with_trailing_separator_macos(self):
self.check_macos_only()
self.check_open_raises_with_trailing_separator(errno.ENOENT)
def test_open_raises_with_trailing_separator_windows(self):
self.check_windows_only()
self.check_open_raises_with_trailing_separator(errno.EINVAL)
def test_lexists_with_trailing_separator_linux_windows(self):
self.check_linux_and_windows()
self.skip_if_symlink_not_supported()
file_path = self.make_path('foo')
self.os.symlink(file_path, file_path)
self.assertFalse(self.os.path.lexists(file_path + self.os.sep))
def test_lexists_with_trailing_separator_macos(self):
# regression test for #373
self.check_macos_only()
file_path = self.make_path('foo')
self.os.symlink(file_path, file_path)
self.assertTrue(self.os.path.lexists(file_path + self.os.sep))
def test_islink_with_trailing_separator_linux_windows(self):
self.check_linux_and_windows()
self.skip_if_symlink_not_supported()
file_path = self.make_path('foo')
self.os.symlink(file_path, file_path)
self.assertFalse(self.os.path.islink(file_path + self.os.sep))
def test_islink_with_trailing_separator_macos(self):
# regression test for #373
self.check_macos_only()
file_path = self.make_path('foo')
self.os.symlink(file_path, file_path)
self.assertTrue(self.os.path.islink(file_path + self.os.sep))
def test_isfile_with_trailing_separator_linux_windows(self):
self.check_linux_and_windows()
file_path = self.make_path('foo')
self.create_file(file_path)
self.assertFalse(self.os.path.isfile(file_path + self.os.sep))
def test_isfile_with_trailing_separator_macos(self):
# regression test for #374
self.check_macos_only()
file_path = self.make_path('foo')
self.create_file(file_path)
self.assertFalse(self.os.path.isfile(file_path + self.os.sep))
def check_stat_with_trailing_separator(self, error_nr):
# regression test for #376
file_path = self.make_path('foo')
self.create_file(file_path)
self.assert_raises_os_error(error_nr, self.os.stat,
file_path + self.os.sep)
def test_stat_with_trailing_separator_posix(self):
self.check_posix_only()
self.check_stat_with_trailing_separator(errno.ENOTDIR)
def test_stat_with_trailing_separator_windows(self):
self.check_windows_only()
self.check_stat_with_trailing_separator(errno.EINVAL)
def check_remove_with_trailing_separator(self, error_nr):
# regression test for #377
file_path = self.make_path('foo')
self.create_file(file_path)
self.assert_raises_os_error(error_nr, self.os.remove,
file_path + self.os.sep)
def test_remove_with_trailing_separator_posix(self):
self.check_posix_only()
self.check_remove_with_trailing_separator(errno.ENOTDIR)
def test_remove_with_trailing_separator_windows(self):
self.check_windows_only()
self.check_remove_with_trailing_separator(errno.EINVAL)
def test_readlink(self):
self.skip_if_symlink_not_supported()
link_path = self.make_path('foo', 'bar', 'baz')
target = self.make_path('tarJAY')
self.create_symlink(link_path, target)
self.assertEqual(self.os.readlink(link_path), target)
def check_readlink_raises_if_path_is_not_a_link(self):
file_path = self.make_path('foo', 'bar', 'eleventyone')
self.create_file(file_path)
self.assert_raises_os_error(errno.EINVAL, self.os.readlink, file_path)
def test_readlink_raises_if_path_is_not_a_link_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
self.check_readlink_raises_if_path_is_not_a_link()
def test_readlink_raises_if_path_is_not_a_link_posix(self):
self.check_posix_only()
self.check_readlink_raises_if_path_is_not_a_link()
def check_readlink_raises_if_path_has_file(self, error_subtype):
self.create_file(self.make_path('a_file'))
file_path = self.make_path('a_file', 'foo')
self.assert_raises_os_error(error_subtype, self.os.readlink, file_path)
file_path = self.make_path('a_file', 'foo', 'bar')
self.assert_raises_os_error(error_subtype, self.os.readlink, file_path)
def test_readlink_raises_if_path_has_file_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
self.check_readlink_raises_if_path_has_file(errno.ENOENT)
def test_readlink_raises_if_path_has_file_posix(self):
self.check_posix_only()
self.check_readlink_raises_if_path_has_file(errno.ENOTDIR)
def test_readlink_raises_if_path_does_not_exist(self):
self.skip_if_symlink_not_supported()
self.assert_raises_os_error(errno.ENOENT, self.os.readlink,
'/this/path/does/not/exist')
def test_readlink_raises_if_path_is_none(self):
self.skip_if_symlink_not_supported()
self.assertRaises(TypeError, self.os.readlink, None)
def test_broken_symlink_with_trailing_separator_linux(self):
self.check_linux_only()
file_path = self.make_path('foo')
link_path = self.make_path('link')
self.os.symlink(file_path, link_path)
self.assert_raises_os_error(errno.EEXIST, self.os.symlink,
link_path + self.os.sep,
link_path + self.os.sep)
def test_broken_symlink_with_trailing_separator_macos(self):
# regression test for #371
self.check_macos_only()
file_path = self.make_path('foo')
link_path = self.make_path('link')
self.os.symlink(file_path, link_path)
self.os.symlink(link_path + self.os.sep, link_path + self.os.sep)
def test_broken_symlink_with_trailing_separator_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
file_path = self.make_path('foo')
link_path = self.make_path('link')
self.os.symlink(file_path, link_path)
self.assert_raises_os_error(errno.EINVAL, self.os.symlink,
link_path + self.os.sep,
link_path + self.os.sep)
def test_circular_readlink_with_trailing_separator_linux(self):
# Regression test for #372
self.check_linux_only()
file_path = self.make_path('foo')
self.os.symlink(file_path, file_path)
self.assert_raises_os_error(errno.ELOOP, self.os.readlink,
file_path + self.os.sep)
def test_circular_readlink_with_trailing_separator_macos(self):
# Regression test for #372
self.check_macos_only()
file_path = self.make_path('foo')
self.os.symlink(file_path, file_path)
self.os.readlink(file_path + self.os.sep)
def test_circular_readlink_with_trailing_separator_windows(self):
# Regression test for #372
self.check_windows_only()
self.skip_if_symlink_not_supported()
file_path = self.make_path('foo')
self.os.symlink(file_path, file_path)
self.assert_raises_os_error(errno.EINVAL, self.os.readlink,
file_path + self.os.sep)
def test_readlink_with_links_in_path(self):
self.skip_if_symlink_not_supported()
self.create_symlink(self.make_path('meyer', 'lemon', 'pie'),
self.make_path('yum'))
self.create_symlink(self.make_path('geo', 'metro'),
self.make_path('meyer'))
self.assertEqual(self.make_path('yum'),
self.os.readlink(
self.make_path('geo', 'metro', 'lemon', 'pie')))
def test_readlink_with_chained_links_in_path(self):
self.skip_if_symlink_not_supported()
self.create_symlink(self.make_path(
'eastern', 'european', 'wolfhounds', 'chase'),
self.make_path('cats'))
self.create_symlink(self.make_path('russian'),
self.make_path('eastern', 'european'))
self.create_symlink(self.make_path('dogs'),
self.make_path('russian', 'wolfhounds'))
self.assertEqual(self.make_path('cats'),
self.os.readlink(self.make_path('dogs', 'chase')))
def check_remove_dir(self, dir_error):
directory = self.make_path('xyzzy')
dir_path = self.os.path.join(directory, 'plugh')
self.create_dir(dir_path)
self.assertTrue(self.os.path.exists(dir_path))
self.assert_raises_os_error(dir_error, self.os.remove, dir_path)
self.assertTrue(self.os.path.exists(dir_path))
self.os.chdir(directory)
self.assert_raises_os_error(dir_error, self.os.remove, dir_path)
self.assertTrue(self.os.path.exists(dir_path))
self.assert_raises_os_error(errno.ENOENT, self.os.remove, '/plugh')
def test_remove_dir_linux(self):
self.check_linux_only()
self.check_remove_dir(errno.EISDIR)
def test_remove_dir_mac_os(self):
self.check_macos_only()
self.check_remove_dir(errno.EPERM)
def test_remove_dir_windows(self):
self.check_windows_only()
self.check_remove_dir(errno.EACCES)
def test_remove_dir_with_drive(self):
# regression test for issue #337
self.check_windows_only()
self.skip_real_fs()
dir_path = self.os.path.join('C:', 'test')
self.filesystem.create_dir(dir_path)
self.assert_raises_os_error(errno.EACCES, self.os.remove, dir_path)
def test_remove_file(self):
directory = self.make_path('zzy')
file_path = self.os.path.join(directory, 'plugh')
self.create_file(file_path)
self.assertTrue(self.os.path.exists(file_path))
self.os.remove(file_path)
self.assertFalse(self.os.path.exists(file_path))
def test_remove_file_no_directory(self):
directory = self.make_path('zzy')
file_name = 'plugh'
file_path = self.os.path.join(directory, file_name)
self.create_file(file_path)
self.assertTrue(self.os.path.exists(file_path))
self.os.chdir(directory)
self.os.remove(file_name)
self.assertFalse(self.os.path.exists(file_path))
def test_remove_file_with_read_permission_raises_in_windows(self):
self.check_windows_only()
path = self.make_path('foo', 'bar')
self.create_file(path)
self.os.chmod(path, 0o444)
self.assert_raises_os_error(errno.EACCES, self.os.remove, path)
self.os.chmod(path, 0o666)
def test_remove_file_with_read_permission_shall_succeed_in_posix(self):
self.check_posix_only()
path = self.make_path('foo', 'bar')
self.create_file(path)
self.os.chmod(path, 0o444)
self.os.remove(path)
self.assertFalse(self.os.path.exists(path))
def test_remove_file_without_parent_permission_raises_in_posix(self):
self.check_posix_only()
parent_dir = self.make_path('foo')
path = self.os.path.join(parent_dir, 'bar')
self.create_file(path)
self.os.chmod(parent_dir, 0o666) # missing execute permission
if not is_root():
self.assert_raises_os_error(errno.EACCES, self.os.remove, path)
else:
self.os.remove(path)
self.assertFalse(self.os.path.exists(path))
self.create_file(path)
self.os.chmod(parent_dir, 0o555) # missing write permission
if not is_root():
self.assert_raises_os_error(errno.EACCES, self.os.remove, path)
else:
self.os.remove(path)
self.assertFalse(self.os.path.exists(path))
self.create_file(path)
self.os.chmod(parent_dir, 0o333)
self.os.remove(path)
self.assertFalse(self.os.path.exists(path))
def test_remove_open_file_fails_under_windows(self):
self.check_windows_only()
path = self.make_path('foo', 'bar')
self.create_file(path)
with self.open(path, 'r'):
self.assert_raises_os_error(errno.EACCES, self.os.remove, path)
self.assertTrue(self.os.path.exists(path))
def test_remove_open_file_possible_under_posix(self):
self.check_posix_only()
path = self.make_path('foo', 'bar')
self.create_file(path)
self.open(path, 'r')
self.os.remove(path)
self.assertFalse(self.os.path.exists(path))
def test_remove_file_relative_path(self):
self.skip_real_fs()
original_dir = self.os.getcwd()
directory = self.make_path('zzy')
subdirectory = self.os.path.join(directory, 'zzy')
file_name = 'plugh'
file_path = self.os.path.join(directory, file_name)
file_path_relative = self.os.path.join('..', file_name)
self.create_file(file_path)
self.assertTrue(self.os.path.exists(file_path))
self.create_dir(subdirectory)
self.assertTrue(self.os.path.exists(subdirectory))
self.os.chdir(subdirectory)
self.os.remove(file_path_relative)
self.assertFalse(self.os.path.exists(file_path_relative))
self.os.chdir(original_dir)
self.assertFalse(self.os.path.exists(file_path))
def check_remove_dir_raises_error(self, dir_error):
directory = self.make_path('zzy')
self.create_dir(directory)
self.assert_raises_os_error(dir_error, self.os.remove, directory)
def test_remove_dir_raises_error_linux(self):
self.check_linux_only()
self.check_remove_dir_raises_error(errno.EISDIR)
def test_remove_dir_raises_error_mac_os(self):
self.check_macos_only()
self.check_remove_dir_raises_error(errno.EPERM)
def test_remove_dir_raises_error_windows(self):
self.check_windows_only()
self.check_remove_dir_raises_error(errno.EACCES)
def test_remove_symlink_to_dir(self):
self.skip_if_symlink_not_supported()
directory = self.make_path('zzy')
link = self.make_path('link_to_dir')
self.create_dir(directory)
self.os.symlink(directory, link)
self.assertTrue(self.os.path.exists(directory))
self.assertTrue(self.os.path.exists(link))
self.os.remove(link)
self.assertTrue(self.os.path.exists(directory))
self.assertFalse(self.os.path.exists(link))
def test_unlink_raises_if_not_exist(self):
file_path = self.make_path('file', 'does', 'not', 'exist')
self.assertFalse(self.os.path.exists(file_path))
self.assert_raises_os_error(errno.ENOENT, self.os.unlink, file_path)
def test_rename_to_nonexistent_file(self):
"""Can rename a file to an unused name."""
directory = self.make_path('xyzzy')
old_file_path = self.os.path.join(directory, 'plugh_old')
new_file_path = self.os.path.join(directory, 'plugh_new')
self.create_file(old_file_path, contents='test contents')
self.assertTrue(self.os.path.exists(old_file_path))
self.assertFalse(self.os.path.exists(new_file_path))
self.os.rename(old_file_path, new_file_path)
self.assertFalse(self.os.path.exists(old_file_path))
self.assertTrue(self.os.path.exists(new_file_path))
self.check_contents(new_file_path, 'test contents')
def test_rename_dir_to_symlink_posix(self):
self.check_posix_only()
link_path = self.make_path('link')
dir_path = self.make_path('dir')
link_target = self.os.path.join(dir_path, 'link_target')
self.create_dir(dir_path)
self.os.symlink(link_target, link_path)
self.assert_raises_os_error(errno.ENOTDIR, self.os.rename, dir_path,
link_path)
def test_rename_dir_to_symlink_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
link_path = self.make_path('link')
dir_path = self.make_path('dir')
link_target = self.os.path.join(dir_path, 'link_target')
self.create_dir(dir_path)
self.os.symlink(link_target, link_path)
self.assert_raises_os_error(errno.EEXIST, self.os.rename, dir_path,
link_path)
def test_rename_file_to_symlink(self):
self.check_posix_only()
link_path = self.make_path('file_link')
file_path = self.make_path('file')
self.os.symlink(file_path, link_path)
self.create_file(file_path)
self.os.rename(file_path, link_path)
self.assertFalse(self.os.path.exists(file_path))
self.assertTrue(self.os.path.exists(link_path))
self.assertTrue(self.os.path.isfile(link_path))
def test_rename_symlink_to_symlink(self):
self.check_posix_only()
base_path = self.make_path('foo', 'bar')
self.create_dir(base_path)
link_path1 = self.os.path.join(base_path, 'link1')
link_path2 = self.os.path.join(base_path, 'link2')
self.os.symlink(base_path, link_path1)
self.os.symlink(base_path, link_path2)
self.os.rename(link_path1, link_path2)
self.assertFalse(self.os.path.exists(link_path1))
self.assertTrue(self.os.path.exists(link_path2))
def test_rename_symlink_to_symlink_for_parent_raises(self):
self.check_posix_only()
dir_link = self.make_path('dir_link')
dir_path = self.make_path('dir')
dir_in_dir_path = self.os.path.join(dir_link, 'inner_dir')
self.create_dir(dir_path)
self.os.symlink(dir_path, dir_link)
self.create_dir(dir_in_dir_path)
self.assert_raises_os_error(errno.EINVAL, self.os.rename, dir_path,
dir_in_dir_path)
def check_rename_case_with_symlink(self, result):
self.skip_if_symlink_not_supported()
self.check_case_insensitive_fs()
dir_path_lower = self.make_path('beta')
self.create_dir(dir_path_lower)
link_path = self.make_path('b')
self.os.symlink(self.base_path, link_path)
path1 = self.os.path.join(link_path, 'Beta')
dir_path_upper = self.make_path('Beta')
self.os.rename(path1, dir_path_upper)
self.assertEqual(result, sorted(self.os.listdir(self.base_path)))
def test_rename_case_with_symlink_mac(self):
# Regression test for #322
self.check_macos_only()
self.check_rename_case_with_symlink(['b', 'beta'])
def test_rename_case_with_symlink_windows(self):
self.check_windows_only()
self.check_rename_case_with_symlink(['Beta', 'b'])
def test_recursive_rename_raises(self):
self.check_posix_only()
base_path = self.make_path('foo', 'bar')
self.create_dir(base_path)
new_path = self.os.path.join(base_path, 'new_dir')
self.assert_raises_os_error(errno.EINVAL, self.os.rename, base_path,
new_path)
def test_rename_file_to_parent_dir_file(self):
# Regression test for issue 230
dir_path = self.make_path('dir')
self.create_dir(dir_path)
file_path = self.make_path('old_file')
new_file_path = self.os.path.join(dir_path, 'new_file')
self.create_file(file_path)
self.os.rename(file_path, new_file_path)
def test_rename_with_target_parent_file_raises_posix(self):
self.check_posix_only()
file_path = self.make_path('foo', 'baz')
self.create_file(file_path)
self.assert_raises_os_error(errno.ENOTDIR, self.os.rename, file_path,
file_path + '/new')
def test_rename_with_target_parent_file_raises_windows(self):
self.check_windows_only()
file_path = self.make_path('foo', 'baz')
self.create_file(file_path)
self.assert_raises_os_error(errno.EACCES, self.os.rename, file_path,
self.os.path.join(file_path, 'new'))
def test_rename_symlink_to_source(self):
self.check_posix_only()
base_path = self.make_path('foo')
link_path = self.os.path.join(base_path, 'slink')
file_path = self.os.path.join(base_path, 'file')
self.create_file(file_path)
self.os.symlink(file_path, link_path)
self.os.rename(link_path, file_path)
self.assertFalse(self.os.path.exists(file_path))
def test_rename_symlink_to_dir_raises(self):
self.check_posix_only()
base_path = self.make_path('foo', 'bar')
link_path = self.os.path.join(base_path, 'dir_link')
dir_path = self.os.path.join(base_path, 'dir')
self.create_dir(dir_path)
self.os.symlink(dir_path, link_path)
self.assert_raises_os_error(errno.EISDIR, self.os.rename, link_path,
dir_path)
def test_rename_broken_symlink(self):
self.check_posix_only()
base_path = self.make_path('foo')
self.create_dir(base_path)
link_path = self.os.path.join(base_path, 'slink')
file_path = self.os.path.join(base_path, 'file')
self.os.symlink(file_path, link_path)
self.os.rename(link_path, file_path)
self.assertFalse(self.os.path.exists(file_path))
self.assertTrue(self.os.path.lexists(file_path))
self.assertFalse(self.os.path.exists(link_path))
def test_rename_directory(self):
"""Can rename a directory to an unused name."""
for old_path, new_path in [('wxyyw', 'xyzzy'), ('abccb', 'cdeed')]:
old_path = self.make_path(old_path)
new_path = self.make_path(new_path)
self.create_file(self.os.path.join(old_path, 'plugh'),
contents='test')
self.assertTrue(self.os.path.exists(old_path))
self.assertFalse(self.os.path.exists(new_path))
self.os.rename(old_path, new_path)
self.assertFalse(self.os.path.exists(old_path))
self.assertTrue(self.os.path.exists(new_path))
self.check_contents(self.os.path.join(new_path, 'plugh'), 'test')
if not self.use_real_fs():
self.assertEqual(3,
self.filesystem.get_object(new_path).st_nlink)
def check_rename_directory_to_existing_file_raises(self, error_nr):
dir_path = self.make_path('dir')
file_path = self.make_path('file')
self.create_dir(dir_path)
self.create_file(file_path)
self.assert_raises_os_error(error_nr, self.os.rename, dir_path,
file_path)
def test_rename_directory_to_existing_file_raises_posix(self):
self.check_posix_only()
self.check_rename_directory_to_existing_file_raises(errno.ENOTDIR)
def test_rename_directory_to_existing_file_raises_windows(self):
self.check_windows_only()
self.check_rename_directory_to_existing_file_raises(errno.EEXIST)
def test_rename_to_existing_directory_should_raise_under_windows(self):
"""Renaming to an existing directory raises OSError under Windows."""
self.check_windows_only()
old_path = self.make_path('foo', 'bar')
new_path = self.make_path('foo', 'baz')
self.create_dir(old_path)
self.create_dir(new_path)
self.assert_raises_os_error(errno.EEXIST, self.os.rename, old_path,
new_path)
def test_rename_to_a_hardlink_of_same_file_should_do_nothing(self):
self.skip_real_fs_failure(skip_posix=False)
self.skip_if_symlink_not_supported()
file_path = self.make_path('dir', 'file')
self.create_file(file_path)
link_path = self.make_path('link')
self.os.link(file_path, link_path)
self.os.rename(file_path, link_path)
self.assertTrue(self.os.path.exists(file_path))
self.assertTrue(self.os.path.exists(link_path))
def test_hardlink_works_with_symlink(self):
self.skip_if_symlink_not_supported()
base_path = self.make_path('foo')
self.create_dir(base_path)
symlink_path = self.os.path.join(base_path, 'slink')
self.os.symlink(base_path, symlink_path)
file_path = self.os.path.join(base_path, 'slink', 'beta')
self.create_file(file_path)
link_path = self.os.path.join(base_path, 'slink', 'gamma')
self.os.link(file_path, link_path)
self.assertTrue(self.os.path.exists(link_path))
self.assertFalse(self.os.path.islink(link_path))
@unittest.skipIf(sys.version_info < (3, 3), 'replace is new in Python 3.3')
def test_replace_existing_directory_should_raise_under_windows(self):
"""Renaming to an existing directory raises OSError under Windows."""
self.check_windows_only()
old_path = self.make_path('foo', 'bar')
new_path = self.make_path('foo', 'baz')
self.create_dir(old_path)
self.create_dir(new_path)
self.assert_raises_os_error(errno.EACCES, self.os.replace, old_path,
new_path)
def test_rename_to_existing_directory_under_posix(self):
"""Renaming to an existing directory changes the existing directory
under Posix."""
self.check_posix_only()
old_path = self.make_path('foo', 'bar')
new_path = self.make_path('xyzzy')
self.create_dir(self.os.path.join(old_path, 'sub'))
self.create_dir(new_path)
self.os.rename(old_path, new_path)
self.assertTrue(
self.os.path.exists(self.os.path.join(new_path, 'sub')))
self.assertFalse(self.os.path.exists(old_path))
def test_rename_file_to_existing_directory_raises_under_posix(self):
self.check_posix_only()
file_path = self.make_path('foo', 'bar', 'baz')
new_path = self.make_path('xyzzy')
self.create_file(file_path)
self.create_dir(new_path)
self.assert_raises_os_error(errno.EISDIR, self.os.rename, file_path,
new_path)
def test_rename_to_existing_dir_under_posix_raises_if_not_empty(self):
"""Renaming to an existing directory changes the existing directory
under Posix."""
self.check_posix_only()
old_path = self.make_path('foo', 'bar')
new_path = self.make_path('foo', 'baz')
self.create_dir(self.os.path.join(old_path, 'sub'))
self.create_dir(self.os.path.join(new_path, 'sub'))
# not testing specific subtype:
# raises errno.ENOTEMPTY under Ubuntu 16.04, MacOS and pyfakefs
# but raises errno.EEXIST at least under Ubunto 14.04
self.assertRaises(OSError, self.os.rename, old_path, new_path)
def test_rename_to_another_device_should_raise(self):
"""Renaming to another filesystem device raises OSError."""
self.skip_real_fs()
self.filesystem.add_mount_point('/mount')
old_path = '/foo/bar'
new_path = '/mount/bar'
self.filesystem.create_file(old_path)
self.assert_raises_os_error(errno.EXDEV, self.os.rename, old_path,
new_path)
def test_rename_to_existent_file_posix(self):
"""Can rename a file to a used name under Unix."""
self.check_posix_only()
directory = self.make_path('xyzzy')
old_file_path = self.os.path.join(directory, 'plugh_old')
new_file_path = self.os.path.join(directory, 'plugh_new')
self.create_file(old_file_path, contents='test contents 1')
self.create_file(new_file_path, contents='test contents 2')
self.assertTrue(self.os.path.exists(old_file_path))
self.assertTrue(self.os.path.exists(new_file_path))
self.os.rename(old_file_path, new_file_path)
self.assertFalse(self.os.path.exists(old_file_path))
self.assertTrue(self.os.path.exists(new_file_path))
self.check_contents(new_file_path, 'test contents 1')
def test_rename_to_existent_file_windows(self):
"""Renaming a file to a used name raises OSError under Windows."""
self.check_windows_only()
directory = self.make_path('xyzzy')
old_file_path = self.os.path.join(directory, 'plugh_old')
new_file_path = self.os.path.join(directory, 'plugh_new')
self.create_file(old_file_path, contents='test contents 1')
self.create_file(new_file_path, contents='test contents 2')
self.assertTrue(self.os.path.exists(old_file_path))
self.assertTrue(self.os.path.exists(new_file_path))
self.assert_raises_os_error(
errno.EEXIST, self.os.rename, old_file_path, new_file_path)
@unittest.skipIf(sys.version_info < (3, 3), 'replace is new in Python 3.3')
def test_replace_to_existent_file(self):
"""Replaces an existing file (does not work with `rename()` under
Windows)."""
directory = self.make_path('xyzzy')
old_file_path = self.os.path.join(directory, 'plugh_old')
new_file_path = self.os.path.join(directory, 'plugh_new')
self.create_file(old_file_path, contents='test contents 1')
self.create_file(new_file_path, contents='test contents 2')
self.assertTrue(self.os.path.exists(old_file_path))
self.assertTrue(self.os.path.exists(new_file_path))
self.os.replace(old_file_path, new_file_path)
self.assertFalse(self.os.path.exists(old_file_path))
self.assertTrue(self.os.path.exists(new_file_path))
self.check_contents(new_file_path, 'test contents 1')
def test_rename_to_nonexistent_dir(self):
"""Can rename a file to a name in a nonexistent dir."""
directory = self.make_path('xyzzy')
old_file_path = self.os.path.join(directory, 'plugh_old')
new_file_path = self.os.path.join(
directory, 'no_such_path', 'plugh_new')
self.create_file(old_file_path, contents='test contents')
self.assertTrue(self.os.path.exists(old_file_path))
self.assertFalse(self.os.path.exists(new_file_path))
self.assert_raises_os_error(
errno.ENOENT, self.os.rename, old_file_path, new_file_path)
self.assertTrue(self.os.path.exists(old_file_path))
self.assertFalse(self.os.path.exists(new_file_path))
self.check_contents(old_file_path, 'test contents')
def test_rename_nonexistent_file_should_raise_error(self):
"""Can't rename a file that doesn't exist."""
self.assert_raises_os_error(errno.ENOENT, self.os.rename,
'nonexistent-foo', 'doesn\'t-matter-bar')
def test_rename_empty_dir(self):
"""Test a rename of an empty directory."""
directory = self.make_path('xyzzy')
before_dir = self.os.path.join(directory, 'empty')
after_dir = self.os.path.join(directory, 'unused')
self.create_dir(before_dir)
self.assertTrue(
self.os.path.exists(self.os.path.join(before_dir, '.')))
self.assertFalse(self.os.path.exists(after_dir))
self.os.rename(before_dir, after_dir)
self.assertFalse(self.os.path.exists(before_dir))
self.assertTrue(self.os.path.exists(self.os.path.join(after_dir, '.')))
def test_rename_symlink(self):
self.check_posix_only()
base_path = self.make_path('foo', 'bar')
self.create_dir(base_path)
link_path = self.os.path.join(base_path, 'link')
self.os.symlink(base_path, link_path)
file_path = self.os.path.join(link_path, 'file')
new_file_path = self.os.path.join(link_path, 'new')
self.create_file(file_path)
self.os.rename(file_path, new_file_path)
self.assertFalse(self.os.path.exists(file_path))
self.assertTrue(self.os.path.exists(new_file_path))
def check_append_mode_tell_after_truncate(self, tell_result):
file_path = self.make_path('baz')
with self.open(file_path, 'w') as f0:
with self.open(file_path, 'a') as f1:
f1.write('abcde')
f0.seek(2)
f0.truncate()
self.assertEqual(tell_result, f1.tell())
with self.open(file_path, mode='rb') as f:
self.assertEqual(b'\0\0abcde', f.read())
def test_append_mode_tell_linux_windows(self):
# Regression test for #300
if not self.is_windows and self.is_python2:
self.skipTest('Inconsistent behavior under Python 2 in Linux')
self.check_linux_and_windows()
tell_result = 5 if self.is_python2 else 7
self.check_append_mode_tell_after_truncate(tell_result)
def test_append_mode_tell_macos(self):
# Regression test for #300
self.check_macos_only()
self.check_append_mode_tell_after_truncate(7)
def test_tell_after_seek_in_append_mode(self):
# Regression test for #363
file_path = self.make_path('foo')
with self.open(file_path, 'a') as f:
f.seek(1)
self.assertEqual(1, f.tell())
def test_tell_after_seekback_in_append_mode(self):
# Regression test for #414
file_path = self.make_path('foo')
with self.open(file_path, 'a') as f:
f.write('aa')
f.seek(1)
self.assertEqual(1, f.tell())
def test_dir_with_trailing_sep_is_dir(self):
# regression test for #387
self.assertTrue(self, self.os.path.isdir(self.base_path + self.os.sep))
def check_rename_dir_with_trailing_sep(self, error):
dir_path = self.make_path('dir') + self.os.sep
self.os.mkdir(dir_path)
self.assert_raises_os_error(error,
self.os.rename, dir_path, self.base_path)
def test_rename_dir_with_trailing_sep_posix(self):
# regression test for #406
self.check_posix_only()
self.check_rename_dir_with_trailing_sep(errno.ENOTEMPTY)
def test_rename_dir_with_trailing_sep_windows(self):
self.check_windows_only()
self.check_rename_dir_with_trailing_sep(errno.EEXIST)
def test_rename_dir(self):
"""Test a rename of a directory."""
directory = self.make_path('xyzzy')
before_dir = self.os.path.join(directory, 'before')
before_file = self.os.path.join(directory, 'before', 'file')
after_dir = self.os.path.join(directory, 'after')
after_file = self.os.path.join(directory, 'after', 'file')
self.create_dir(before_dir)
self.create_file(before_file, contents='payload')
self.assertTrue(self.os.path.exists(before_dir))
self.assertTrue(self.os.path.exists(before_file))
self.assertFalse(self.os.path.exists(after_dir))
self.assertFalse(self.os.path.exists(after_file))
self.os.rename(before_dir, after_dir)
self.assertFalse(self.os.path.exists(before_dir))
self.assertFalse(self.os.path.exists(before_file))
self.assertTrue(self.os.path.exists(after_dir))
self.assertTrue(self.os.path.exists(after_file))
self.check_contents(after_file, 'payload')
def test_rename_preserves_stat(self):
"""Test if rename preserves mtime."""
self.check_posix_only()
self.skip_real_fs()
directory = self.make_path('xyzzy')
old_file_path = self.os.path.join(directory, 'plugh_old')
new_file_path = self.os.path.join(directory, 'plugh_new')
self.create_file(old_file_path)
old_file = self.filesystem.get_object(old_file_path)
old_file.st_mtime = old_file.st_mtime - 3600
self.os.chown(old_file_path, 200, 200)
self.os.chmod(old_file_path, 0o222)
self.create_file(new_file_path)
new_file = self.filesystem.get_object(new_file_path)
self.assertNotEqual(new_file.st_mtime, old_file.st_mtime)
self.os.rename(old_file_path, new_file_path)
new_file = self.filesystem.get_object(
new_file_path, check_read_perm=False)
self.assertEqual(new_file.st_mtime, old_file.st_mtime)
self.assertEqual(new_file.st_mode, old_file.st_mode)
self.assertEqual(new_file.st_uid, old_file.st_uid)
self.assertEqual(new_file.st_gid, old_file.st_gid)
def test_rename_same_filenames(self):
"""Test renaming when old and new names are the same."""
directory = self.make_path('xyzzy')
file_contents = 'Spam eggs'
file_path = self.os.path.join(directory, 'eggs')
self.create_file(file_path, contents=file_contents)
self.os.rename(file_path, file_path)
self.check_contents(file_path, file_contents)
def test_rmdir(self):
"""Can remove a directory."""
directory = self.make_path('xyzzy')
sub_dir = self.make_path('xyzzy', 'abccd')
other_dir = self.make_path('xyzzy', 'cdeed')
self.create_dir(directory)
self.assertTrue(self.os.path.exists(directory))
self.os.rmdir(directory)
self.assertFalse(self.os.path.exists(directory))
self.create_dir(sub_dir)
self.create_dir(other_dir)
self.os.chdir(sub_dir)
self.os.rmdir('../cdeed')
self.assertFalse(self.os.path.exists(other_dir))
self.os.chdir('..')
self.os.rmdir('abccd')
self.assertFalse(self.os.path.exists(sub_dir))
def test_rmdir_raises_if_not_empty(self):
"""Raises an exception if the target directory is not empty."""
directory = self.make_path('xyzzy')
file_path = self.os.path.join(directory, 'plugh')
self.create_file(file_path)
self.assertTrue(self.os.path.exists(file_path))
self.assert_raises_os_error(errno.ENOTEMPTY, self.os.rmdir, directory)
def check_rmdir_raises_if_not_directory(self, error_nr):
"""Raises an exception if the target is not a directory."""
directory = self.make_path('xyzzy')
file_path = self.os.path.join(directory, 'plugh')
self.create_file(file_path)
self.assertTrue(self.os.path.exists(file_path))
self.assert_raises_os_error(self.not_dir_error(),
self.os.rmdir, file_path)
self.assert_raises_os_error(error_nr, self.os.rmdir, '.')
def test_rmdir_raises_if_not_directory_posix(self):
self.check_posix_only()
self.check_rmdir_raises_if_not_directory(errno.EINVAL)
def test_rmdir_raises_if_not_directory_windows(self):
self.check_windows_only()
self.check_rmdir_raises_if_not_directory(errno.EACCES)
def test_rmdir_raises_if_not_exist(self):
"""Raises an exception if the target does not exist."""
directory = self.make_path('xyzzy')
self.assertFalse(self.os.path.exists(directory))
self.assert_raises_os_error(errno.ENOENT, self.os.rmdir, directory)
def test_rmdir_via_symlink(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
base_path = self.make_path('foo', 'bar')
dir_path = self.os.path.join(base_path, 'alpha')
self.create_dir(dir_path)
link_path = self.os.path.join(base_path, 'beta')
self.os.symlink(base_path, link_path)
self.os.rmdir(link_path + '/alpha')
self.assertFalse(self.os.path.exists(dir_path))
def remove_dirs_check(self, directory):
self.assertTrue(self.os.path.exists(directory))
self.os.removedirs(directory)
return not self.os.path.exists(directory)
def test_removedirs(self):
# no exception raised
self.skip_real_fs()
data = ['test1', ('test1', 'test2'), ('test1', 'extra'),
('test1', 'test2', 'test3')]
for directory in data:
self.create_dir(self.make_path(directory))
self.assertTrue(self.os.path.exists(self.make_path(directory)))
self.assert_raises_os_error(errno.ENOTEMPTY, self.remove_dirs_check,
self.make_path(data[0]))
self.assert_raises_os_error(errno.ENOTEMPTY, self.remove_dirs_check,
self.make_path(data[1]))
self.assertTrue(self.remove_dirs_check(self.make_path(data[3])))
self.assertTrue(self.os.path.exists(self.make_path(data[0])))
self.assertFalse(self.os.path.exists(self.make_path(data[1])))
self.assertTrue(self.os.path.exists(self.make_path(data[2])))
# Should raise because '/test1/extra' is all that is left, and
# removedirs('/test1/extra') will eventually try to rmdir('/').
self.assert_raises_os_error(errno.EBUSY, self.remove_dirs_check,
self.make_path(data[2]))
# However, it will still delete '/test1') in the process.
self.assertFalse(self.os.path.exists(self.make_path(data[0])))
self.create_dir(self.make_path('test1', 'test2'))
# Add this to the root directory to avoid raising an exception.
self.filesystem.create_dir(self.make_path('test3'))
self.assertTrue(
self.remove_dirs_check(self.make_path('test1', 'test2')))
self.assertFalse(self.os.path.exists(self.make_path('test1', 'test2')))
self.assertFalse(self.os.path.exists(self.make_path('test1')))
def test_removedirs_raises_if_removing_root(self):
"""Raises exception if asked to remove '/'."""
self.skip_real_fs()
self.os.rmdir(self.base_path)
directory = self.os.path.splitdrive(
self.base_path)[0] + self.os.path.sep
self.assertTrue(self.os.path.exists(directory))
self.assert_raises_os_error(errno.EBUSY, self.os.removedirs, directory)
def test_removedirs_raises_if_cascade_removing_root(self):
"""Raises exception if asked to remove '/' as part of a
larger operation.
All of other directories should still be removed, though.
"""
self.skip_real_fs()
directory = self.make_path('foo', 'bar')
self.create_dir(directory)
self.assertTrue(self.os.path.exists(directory))
self.assert_raises_os_error(errno.EBUSY, self.os.removedirs, directory)
head, unused_tail = self.os.path.split(directory)
while self.os.path.splitdrive(head)[1] != self.os.path.sep:
self.assertFalse(self.os.path.exists(directory))
head, unused_tail = self.os.path.split(head)
def test_removedirs_with_trailing_slash(self):
"""removedirs works on directory names with trailing slashes."""
# separate this case from the removing-root-directory case
self.create_dir(self.make_path('baz'))
directory = self.make_path('foo', 'bar')
self.create_dir(directory)
self.assertTrue(self.os.path.exists(directory))
self.os.removedirs(directory)
self.assertFalse(self.os.path.exists(directory))
def test_remove_dirs_with_top_symlink_fails(self):
self.check_posix_only()
dir_path = self.make_path('dir')
dir_link = self.make_path('dir_link')
self.create_dir(dir_path)
self.os.symlink(dir_path, dir_link)
self.assert_raises_os_error(errno.ENOTDIR,
self.os.removedirs, dir_link)
def test_remove_dirs_with_non_top_symlink_succeeds(self):
self.check_posix_only()
dir_path = self.make_path('dir')
dir_link = self.make_path('dir_link')
self.create_dir(dir_path)
self.os.symlink(dir_path, dir_link)
dir_in_dir = self.os.path.join(dir_link, 'dir2')
self.create_dir(dir_in_dir)
self.os.removedirs(dir_in_dir)
self.assertFalse(self.os.path.exists(dir_in_dir))
# ensure that the symlink is not removed
self.assertTrue(self.os.path.exists(dir_link))
def test_mkdir(self):
"""mkdir can create a relative directory."""
self.skip_real_fs()
directory = 'xyzzy'
self.assertFalse(self.filesystem.exists(directory))
self.os.mkdir(directory)
self.assertTrue(self.filesystem.exists('/%s' % directory))
self.os.chdir(directory)
self.os.mkdir(directory)
self.assertTrue(
self.filesystem.exists('/%s/%s' % (directory, directory)))
self.os.chdir(directory)
self.os.mkdir('../abccb')
self.assertTrue(self.os.path.exists('/%s/abccb' % directory))
def test_mkdir_with_trailing_slash(self):
"""mkdir can create a directory named with a trailing slash."""
directory = self.make_path('foo')
self.assertFalse(self.os.path.exists(directory))
self.os.mkdir(directory)
self.assertTrue(self.os.path.exists(directory))
self.assertTrue(self.os.path.exists(self.make_path('foo')))
def test_mkdir_raises_if_empty_directory_name(self):
"""mkdir raises exeption if creating directory named ''."""
directory = ''
self.assert_raises_os_error(errno.ENOENT, self.os.mkdir, directory)
def test_mkdir_raises_if_no_parent(self):
"""mkdir raises exception if parent directory does not exist."""
parent = 'xyzzy'
directory = '%s/foo' % (parent,)
self.assertFalse(self.os.path.exists(parent))
self.assert_raises_os_error(errno.ENOENT, self.os.mkdir, directory)
def test_mkdir_raises_on_symlink_in_posix(self):
self.check_posix_only()
base_path = self.make_path('foo', 'bar')
link_path = self.os.path.join(base_path, 'link_to_dir')
dir_path = self.os.path.join(base_path, 'dir')
self.create_dir(dir_path)
self.os.symlink(dir_path, link_path)
self.assert_raises_os_error(errno.ENOTDIR, self.os.rmdir, link_path)
def test_mkdir_removes_symlink_in_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
base_path = self.make_path('foo', 'bar')
link_path = self.os.path.join(base_path, 'link_to_dir')
dir_path = self.os.path.join(base_path, 'dir')
self.create_dir(dir_path)
self.os.symlink(dir_path, link_path)
self.os.rmdir(link_path)
self.assertFalse(self.os.path.exists(link_path))
self.assertTrue(self.os.path.exists(dir_path))
def test_mkdir_raises_if_directory_exists(self):
"""mkdir raises exception if directory already exists."""
directory = self.make_path('xyzzy')
self.create_dir(directory)
self.assertTrue(self.os.path.exists(directory))
self.assert_raises_os_error(errno.EEXIST, self.os.mkdir, directory)
def test_mkdir_raises_if_file_exists(self):
"""mkdir raises exception if name already exists as a file."""
directory = self.make_path('xyzzy')
file_path = self.os.path.join(directory, 'plugh')
self.create_file(file_path)
self.assertTrue(self.os.path.exists(file_path))
self.assert_raises_os_error(errno.EEXIST, self.os.mkdir, file_path)
def check_mkdir_raises_if_parent_is_file(self, error_type):
"""mkdir raises exception if name already exists as a file."""
directory = self.make_path('xyzzy')
file_path = self.os.path.join(directory, 'plugh')
self.create_file(file_path)
self.assert_raises_os_error(error_type, self.os.mkdir,
self.os.path.join(file_path, 'ff'))
def test_mkdir_raises_if_parent_is_file_posix(self):
self.check_posix_only()
self.check_mkdir_raises_if_parent_is_file(errno.ENOTDIR)
def test_mkdir_raises_if_parent_is_file_windows(self):
self.check_windows_only()
self.check_mkdir_raises_if_parent_is_file(errno.ENOENT)
def test_mkdir_raises_with_slash_dot_posix(self):
"""mkdir raises exception if mkdir foo/. (trailing /.)."""
self.check_posix_only()
self.assert_raises_os_error(errno.EEXIST,
self.os.mkdir, self.os.sep + '.')
directory = self.make_path('xyzzy', '.')
self.assert_raises_os_error(errno.ENOENT, self.os.mkdir, directory)
self.create_dir(self.make_path('xyzzy'))
self.assert_raises_os_error(errno.EEXIST, self.os.mkdir, directory)
def test_mkdir_raises_with_slash_dot_windows(self):
"""mkdir raises exception if mkdir foo/. (trailing /.)."""
self.check_windows_only()
self.assert_raises_os_error(errno.EACCES,
self.os.mkdir, self.os.sep + '.')
directory = self.make_path('xyzzy', '.')
self.os.mkdir(directory)
self.create_dir(self.make_path('xyzzy'))
self.assert_raises_os_error(errno.EEXIST, self.os.mkdir, directory)
def test_mkdir_raises_with_double_dots_posix(self):
"""mkdir raises exception if mkdir foo/foo2/../foo3."""
self.check_posix_only()
self.assert_raises_os_error(errno.EEXIST,
self.os.mkdir, self.os.sep + '..')
directory = self.make_path('xyzzy', 'dir1', 'dir2', '..', '..', 'dir3')
self.assert_raises_os_error(errno.ENOENT, self.os.mkdir, directory)
self.create_dir(self.make_path('xyzzy'))
self.assert_raises_os_error(errno.ENOENT, self.os.mkdir, directory)
self.create_dir(self.make_path('xyzzy', 'dir1'))
self.assert_raises_os_error(errno.ENOENT, self.os.mkdir, directory)
self.create_dir(self.make_path('xyzzy', 'dir1', 'dir2'))
self.os.mkdir(directory)
self.assertTrue(self.os.path.exists(directory))
directory = self.make_path('xyzzy', 'dir1', '..')
self.assert_raises_os_error(errno.EEXIST, self.os.mkdir, directory)
def test_mkdir_raises_with_double_dots_windows(self):
"""mkdir raises exception if mkdir foo/foo2/../foo3."""
self.check_windows_only()
self.assert_raises_os_error(errno.EACCES,
self.os.mkdir, self.os.sep + '..')
directory = self.make_path(
'xyzzy', 'dir1', 'dir2', '..', '..', 'dir3')
self.assert_raises_os_error(errno.ENOENT, self.os.mkdir, directory)
self.create_dir(self.make_path('xyzzy'))
self.os.mkdir(directory)
self.assertTrue(self.os.path.exists(directory))
directory = self.make_path('xyzzy', 'dir1', '..')
self.assert_raises_os_error(errno.EEXIST, self.os.mkdir, directory)
def test_mkdir_raises_if_parent_is_read_only(self):
"""mkdir raises exception if parent is read only."""
self.check_posix_only()
directory = self.make_path('a')
self.os.mkdir(directory)
# Change directory permissions to be read only.
self.os.chmod(directory, 0o400)
directory = self.make_path('a', 'b')
if not is_root():
self.assert_raises_os_error(errno.EACCES, self.os.mkdir, directory)
else:
self.os.mkdir(directory)
self.assertTrue(self.os.path.exists(directory))
def test_mkdir_with_with_symlink_parent(self):
self.check_posix_only()
dir_path = self.make_path('foo', 'bar')
self.create_dir(dir_path)
link_path = self.make_path('foo', 'link')
self.os.symlink(dir_path, link_path)
new_dir = self.os.path.join(link_path, 'new_dir')
self.os.mkdir(new_dir)
self.assertTrue(self.os.path.exists(new_dir))
def test_makedirs(self):
"""makedirs can create a directory even if parent does not exist."""
parent = self.make_path('xyzzy')
directory = self.os.path.join(parent, 'foo')
self.assertFalse(self.os.path.exists(parent))
self.os.makedirs(directory)
self.assertTrue(self.os.path.exists(directory))
def check_makedirs_raises_if_parent_is_file(self, error_type):
"""makedirs raises exception if a parent component exists as a file."""
file_path = self.make_path('xyzzy')
directory = self.os.path.join(file_path, 'plugh')
self.create_file(file_path)
self.assertTrue(self.os.path.exists(file_path))
self.assert_raises_os_error(error_type, self.os.makedirs, directory)
def test_makedirs_raises_if_parent_is_file_posix(self):
self.check_posix_only()
self.check_makedirs_raises_if_parent_is_file(errno.ENOTDIR)
def test_makedirs_raises_if_parent_is_file_windows(self):
self.check_windows_only()
self.check_makedirs_raises_if_parent_is_file(errno.ENOENT)
def test_makedirs_raises_if_parent_is_broken_link(self):
self.check_posix_only()
link_path = self.make_path('broken_link')
self.os.symlink(self.make_path('bogus'), link_path)
self.assert_raises_os_error(errno.ENOENT, self.os.makedirs,
self.os.path.join(link_path, 'newdir'))
def test_makedirs_raises_if_parent_is_looping_link(self):
self.skip_if_symlink_not_supported()
link_path = self.make_path('link')
link_target = self.os.path.join(link_path, 'link')
self.os.symlink(link_target, link_path)
self.assert_raises_os_error(errno.EEXIST, self.os.makedirs, link_path)
def test_makedirs_if_parent_is_symlink(self):
self.check_posix_only()
base_dir = self.make_path('foo', 'bar')
self.create_dir(base_dir)
link_dir = self.os.path.join(base_dir, 'linked')
self.os.symlink(base_dir, link_dir)
new_dir = self.os.path.join(link_dir, 'f')
self.os.makedirs(name=new_dir)
self.assertTrue(self.os.path.exists(new_dir))
def test_makedirs_raises_if_access_denied(self):
"""makedirs raises exception if access denied."""
self.check_posix_only()
directory = self.make_path('a')
self.os.mkdir(directory)
# Change directory permissions to be read only.
self.os.chmod(directory, 0o400)
directory = self.make_path('a', 'b')
if not is_root():
self.assertRaises(Exception, self.os.makedirs, directory)
else:
self.os.makedirs(directory)
self.assertTrue(self.os.path.exists(directory))
@unittest.skipIf(sys.version_info < (3, 2),
'os.makedirs(exist_ok) argument new in version 3.2')
def test_makedirs_exist_ok(self):
"""makedirs uses the exist_ok argument"""
directory = self.make_path('xyzzy', 'foo')
self.create_dir(directory)
self.assertTrue(self.os.path.exists(directory))
self.assert_raises_os_error(errno.EEXIST, self.os.makedirs, directory)
self.os.makedirs(directory, exist_ok=True)
self.assertTrue(self.os.path.exists(directory))
# test fsync and fdatasync
def test_fsync_raises_on_non_int(self):
self.assertRaises(TypeError, self.os.fsync, "zero")
def test_fdatasync_raises_on_non_int(self):
self.check_linux_only()
self.assertRaises(TypeError, self.os.fdatasync, "zero")
def test_fsync_raises_on_invalid_fd(self):
self.assert_raises_os_error(errno.EBADF, self.os.fsync, 100)
def test_fdatasync_raises_on_invalid_fd(self):
# No open files yet
self.check_linux_only()
self.assert_raises_os_error(errno.EINVAL, self.os.fdatasync, 0)
self.assert_raises_os_error(errno.EBADF, self.os.fdatasync, 100)
def test_fsync_pass_posix(self):
self.check_posix_only()
test_file_path = self.make_path('test_file')
self.create_file(test_file_path, contents='dummy file contents')
with self.open(test_file_path, 'r') as test_file:
test_fd = test_file.fileno()
# Test that this doesn't raise anything
self.os.fsync(test_fd)
# And just for sanity, double-check that this still raises
self.assert_raises_os_error(errno.EBADF,
self.os.fsync, test_fd + 10)
def test_fsync_pass_windows(self):
self.check_windows_only()
test_file_path = self.make_path('test_file')
self.create_file(test_file_path, contents='dummy file contents')
with self.open(test_file_path, 'r+') as test_file:
test_fd = test_file.fileno()
# Test that this doesn't raise anything
self.os.fsync(test_fd)
# And just for sanity, double-check that this still raises
self.assert_raises_os_error(errno.EBADF,
self.os.fsync, test_fd + 10)
with self.open(test_file_path, 'r') as test_file:
test_fd = test_file.fileno()
self.assert_raises_os_error(errno.EBADF, self.os.fsync, test_fd)
def test_fdatasync_pass(self):
# setup
self.check_linux_only()
test_file_path = self.make_path('test_file')
self.create_file(test_file_path, contents='dummy file contents')
test_file = self.open(test_file_path, 'r')
test_fd = test_file.fileno()
# Test that this doesn't raise anything
self.os.fdatasync(test_fd)
# And just for sanity, double-check that this still raises
self.assert_raises_os_error(errno.EBADF,
self.os.fdatasync, test_fd + 10)
def test_access700(self):
# set up
self.check_posix_only()
path = self.make_path('some_file')
self.createTestFile(path)
self.os.chmod(path, 0o700)
self.assert_mode_equal(0o700, self.os.stat(path).st_mode)
# actual tests
self.assertTrue(self.os.access(path, self.os.F_OK))
self.assertTrue(self.os.access(path, self.os.R_OK))
self.assertTrue(self.os.access(path, self.os.W_OK))
self.assertTrue(self.os.access(path, self.os.X_OK))
self.assertTrue(self.os.access(path, self.rwx))
def test_access600(self):
# set up
self.check_posix_only()
path = self.make_path('some_file')
self.createTestFile(path)
self.os.chmod(path, 0o600)
self.assert_mode_equal(0o600, self.os.stat(path).st_mode)
# actual tests
self.assertTrue(self.os.access(path, self.os.F_OK))
self.assertTrue(self.os.access(path, self.os.R_OK))
self.assertTrue(self.os.access(path, self.os.W_OK))
self.assertFalse(self.os.access(path, self.os.X_OK))
self.assertFalse(self.os.access(path, self.rwx))
self.assertTrue(self.os.access(path, self.rw))
def test_access400(self):
# set up
self.check_posix_only()
path = self.make_path('some_file')
self.createTestFile(path)
self.os.chmod(path, 0o400)
self.assert_mode_equal(0o400, self.os.stat(path).st_mode)
# actual tests
self.assertTrue(self.os.access(path, self.os.F_OK))
self.assertTrue(self.os.access(path, self.os.R_OK))
self.assertFalse(self.os.access(path, self.os.X_OK))
self.assertFalse(self.os.access(path, self.rwx))
if is_root():
self.assertTrue(self.os.access(path, self.os.W_OK))
self.assertTrue(self.os.access(path, self.rw))
else:
self.assertFalse(self.os.access(path, self.os.W_OK))
self.assertFalse(self.os.access(path, self.rw))
@unittest.skipIf(sys.version_info < (3, 3),
'follow_symlinks new in Python 3.3')
def test_access_symlink(self):
self.skip_if_symlink_not_supported()
self.skip_real_fs()
path = self.make_path('some_file')
self.createTestFile(path)
link_path = self.make_path('link_to_some_file')
self.create_symlink(link_path, path)
self.os.chmod(link_path, 0o400)
# test file
self.assertTrue(self.os.access(link_path, self.os.F_OK))
self.assertTrue(self.os.access(link_path, self.os.R_OK))
if is_root():
self.assertTrue(self.os.access(link_path, self.os.W_OK))
self.assertTrue(self.os.access(link_path, self.rw))
else:
self.assertFalse(self.os.access(link_path, self.os.W_OK))
self.assertFalse(self.os.access(link_path, self.rw))
self.assertFalse(self.os.access(link_path, self.os.X_OK))
self.assertFalse(self.os.access(link_path, self.rwx))
# test link itself
self.assertTrue(
self.os.access(link_path, self.os.F_OK, follow_symlinks=False))
self.assertTrue(
self.os.access(link_path, self.os.R_OK, follow_symlinks=False))
self.assertTrue(
self.os.access(link_path, self.os.W_OK, follow_symlinks=False))
self.assertTrue(
self.os.access(link_path, self.os.X_OK, follow_symlinks=False))
self.assertTrue(
self.os.access(link_path, self.rwx, follow_symlinks=False))
self.assertTrue(
self.os.access(link_path, self.rw, follow_symlinks=False))
def test_access_non_existent_file(self):
# set up
path = self.make_path('non', 'existent', 'file')
self.assertFalse(self.os.path.exists(path))
# actual tests
self.assertFalse(self.os.access(path, self.os.F_OK))
self.assertFalse(self.os.access(path, self.os.R_OK))
self.assertFalse(self.os.access(path, self.os.W_OK))
self.assertFalse(self.os.access(path, self.os.X_OK))
self.assertFalse(self.os.access(path, self.rwx))
self.assertFalse(self.os.access(path, self.rw))
def test_chmod(self):
# set up
self.check_posix_only()
self.skip_real_fs()
path = self.make_path('some_file')
self.createTestFile(path)
# actual tests
self.os.chmod(path, 0o6543)
st = self.os.stat(path)
self.assert_mode_equal(0o6543, st.st_mode)
self.assertTrue(st.st_mode & stat.S_IFREG)
self.assertFalse(st.st_mode & stat.S_IFDIR)
@unittest.skipIf(sys.version_info < (3, 3),
'file descriptor as path new in Python 3.3')
def test_chmod_uses_open_fd_as_path(self):
self.check_posix_only()
self.skip_real_fs()
self.assert_raises_os_error(errno.EBADF, self.os.chmod, 5, 0o6543)
path = self.make_path('some_file')
self.createTestFile(path)
with self.open(path) as f:
self.os.chmod(f.filedes, 0o6543)
st = self.os.stat(path)
self.assert_mode_equal(0o6543, st.st_mode)
@unittest.skipIf(sys.version_info < (3, 3),
'follow_symlinks new in Python 3.3')
def test_chmod_follow_symlink(self):
self.check_posix_only()
if self.use_real_fs() and 'chmod' not in os.supports_follow_symlinks:
raise unittest.SkipTest('follow_symlinks not available')
path = self.make_path('some_file')
self.createTestFile(path)
link_path = self.make_path('link_to_some_file')
self.create_symlink(link_path, path)
self.os.chmod(link_path, 0o6543)
st = self.os.stat(link_path)
self.assert_mode_equal(0o6543, st.st_mode)
st = self.os.stat(link_path, follow_symlinks=False)
self.assert_mode_equal(0o777, st.st_mode)
@unittest.skipIf(sys.version_info < (3, 3),
'follow_symlinks new in Python 3.3')
def test_chmod_no_follow_symlink(self):
self.check_posix_only()
if self.use_real_fs() and 'chmod' not in os.supports_follow_symlinks:
raise unittest.SkipTest('follow_symlinks not available')
path = self.make_path('some_file')
self.createTestFile(path)
link_path = self.make_path('link_to_some_file')
self.create_symlink(link_path, path)
self.os.chmod(link_path, 0o6543, follow_symlinks=False)
st = self.os.stat(link_path)
self.assert_mode_equal(0o666, st.st_mode)
st = self.os.stat(link_path, follow_symlinks=False)
self.assert_mode_equal(0o6543, st.st_mode)
def test_lchmod(self):
"""lchmod shall behave like chmod with follow_symlinks=True
since Python 3.3"""
self.check_posix_only()
self.skip_real_fs()
path = self.make_path('some_file')
self.createTestFile(path)
link_path = self.make_path('link_to_some_file')
self.create_symlink(link_path, path)
self.os.lchmod(link_path, 0o6543)
st = self.os.stat(link_path)
self.assert_mode_equal(0o666, st.st_mode)
st = self.os.lstat(link_path)
self.assert_mode_equal(0o6543, st.st_mode)
def test_chmod_dir(self):
# set up
self.check_posix_only()
self.skip_real_fs()
path = self.make_path('some_dir')
self.createTestDirectory(path)
# actual tests
self.os.chmod(path, 0o1434)
st = self.os.stat(path)
self.assert_mode_equal(0o1434, st.st_mode)
self.assertFalse(st.st_mode & stat.S_IFREG)
self.assertTrue(st.st_mode & stat.S_IFDIR)
def test_chmod_non_existent(self):
# set up
path = self.make_path('non', 'existent', 'file')
self.assertFalse(self.os.path.exists(path))
# actual tests
try:
# Use try-catch to check exception attributes.
self.os.chmod(path, 0o777)
self.fail('Exception is expected.') # COV_NF_LINE
except OSError as os_error:
self.assertEqual(errno.ENOENT, os_error.errno)
self.assertEqual(path, os_error.filename)
def test_chown_existing_file(self):
# set up
self.skip_real_fs()
file_path = self.make_path('some_file')
self.create_file(file_path)
# first set it make sure it's set
self.os.chown(file_path, 100, 101)
st = self.os.stat(file_path)
self.assertEqual(st[stat.ST_UID], 100)
self.assertEqual(st[stat.ST_GID], 101)
# we can make sure it changed
self.os.chown(file_path, 200, 201)
st = self.os.stat(file_path)
self.assertEqual(st[stat.ST_UID], 200)
self.assertEqual(st[stat.ST_GID], 201)
# setting a value to -1 leaves it unchanged
self.os.chown(file_path, -1, -1)
st = self.os.stat(file_path)
self.assertEqual(st[stat.ST_UID], 200)
self.assertEqual(st[stat.ST_GID], 201)
@unittest.skipIf(sys.version_info < (3, 3),
'file descriptor as path new in Python 3.3')
def test_chown_uses_open_fd_as_path(self):
self.check_posix_only()
self.skip_real_fs()
self.assert_raises_os_error(errno.EBADF, self.os.chown, 5, 100, 101)
file_path = self.make_path('foo', 'bar')
self.create_file(file_path)
with self.open(file_path) as f:
self.os.chown(f.filedes, 100, 101)
st = self.os.stat(file_path)
self.assertEqual(st[stat.ST_UID], 100)
@unittest.skipIf(sys.version_info < (3, 3),
'follow_symlinks new in Python 3.3')
def test_chown_follow_symlink(self):
self.skip_real_fs()
file_path = self.make_path('some_file')
self.create_file(file_path)
link_path = self.make_path('link_to_some_file')
self.create_symlink(link_path, file_path)
self.os.chown(link_path, 100, 101)
st = self.os.stat(link_path)
self.assertEqual(st[stat.ST_UID], 100)
self.assertEqual(st[stat.ST_GID], 101)
st = self.os.stat(link_path, follow_symlinks=False)
self.assertNotEqual(st[stat.ST_UID], 100)
self.assertNotEqual(st[stat.ST_GID], 101)
@unittest.skipIf(sys.version_info < (3, 3),
'follow_symlinks new in Python 3.3')
def test_chown_no_follow_symlink(self):
self.skip_real_fs()
file_path = self.make_path('some_file')
self.create_file(file_path)
link_path = self.make_path('link_to_some_file')
self.create_symlink(link_path, file_path)
self.os.chown(link_path, 100, 101, follow_symlinks=False)
st = self.os.stat(link_path)
self.assertNotEqual(st[stat.ST_UID], 100)
self.assertNotEqual(st[stat.ST_GID], 101)
st = self.os.stat(link_path, follow_symlinks=False)
self.assertEqual(st[stat.ST_UID], 100)
self.assertEqual(st[stat.ST_GID], 101)
def test_chown_bad_arguments(self):
"""os.chown() with bad args (Issue #30)"""
self.check_posix_only()
file_path = self.make_path('some_file')
self.create_file(file_path)
self.assertRaises(TypeError, self.os.chown, file_path, 'username', -1)
self.assertRaises(TypeError, self.os.chown, file_path, -1, 'groupname')
def test_chown_nonexisting_file_should_raise_os_error(self):
self.check_posix_only()
file_path = self.make_path('some_file')
self.assertFalse(self.os.path.exists(file_path))
self.assert_raises_os_error(
errno.ENOENT, self.os.chown, file_path, 100, 100)
def test_classify_directory_contents(self):
"""Directory classification should work correctly."""
root_directory = self.make_path('foo')
test_directories = ['bar1', 'baz2']
test_files = ['baz1', 'bar2', 'baz3']
self.create_dir(root_directory)
for directory in test_directories:
directory = self.os.path.join(root_directory, directory)
self.create_dir(directory)
for test_file in test_files:
test_file = self.os.path.join(root_directory, test_file)
self.create_file(test_file)
test_directories.sort()
test_files.sort()
generator = self.os.walk(root_directory)
root, dirs, files = next(generator)
dirs.sort()
files.sort()
self.assertEqual(root_directory, root)
self.assertEqual(test_directories, dirs)
self.assertEqual(test_files, files)
# os.mknod does not work under MacOS due to permission issues
# so we test it under Linux only
def test_mk_nod_can_create_a_file(self):
self.check_linux_only()
filename = self.make_path('foo')
self.assertFalse(self.os.path.exists(filename))
self.os.mknod(filename)
self.assertTrue(self.os.path.exists(filename))
self.assertEqual(stat.S_IFREG | 0o600, self.os.stat(filename).st_mode)
def test_mk_nod_raises_if_empty_file_name(self):
self.check_linux_only()
filename = ''
self.assert_raises_os_error(errno.ENOENT, self.os.mknod, filename)
def test_mk_nod_raises_if_parent_dir_doesnt_exist(self):
self.check_linux_only()
parent = self.make_path('xyzzy')
filename = self.os.path.join(parent, 'foo')
self.assertFalse(self.os.path.exists(parent))
self.assert_raises_os_error(errno.ENOENT, self.os.mknod, filename)
def test_mk_nod_raises_if_file_exists(self):
self.check_linux_only()
filename = self.make_path('tmp', 'foo')
self.create_file(filename)
self.assertTrue(self.os.path.exists(filename))
self.assert_raises_os_error(errno.EEXIST, self.os.mknod, filename)
def test_mk_nod_raises_if_filename_is_dot(self):
self.check_linux_only()
filename = self.make_path('tmp', '.')
self.assert_raises_os_error(errno.ENOENT, self.os.mknod, filename)
def test_mk_nod_raises_if_filename_is_double_dot(self):
self.check_linux_only()
filename = self.make_path('tmp', '..')
self.assert_raises_os_error(errno.ENOENT, self.os.mknod, filename)
def test_mknod_empty_tail_for_existing_file_raises(self):
self.check_linux_only()
filename = self.make_path('foo')
self.create_file(filename)
self.assertTrue(self.os.path.exists(filename))
self.assert_raises_os_error(errno.EEXIST, self.os.mknod, filename)
def test_mknod_empty_tail_for_nonexistent_file_raises(self):
self.check_linux_only()
filename = self.make_path('tmp', 'foo')
self.assert_raises_os_error(errno.ENOENT, self.os.mknod, filename)
def test_mknod_raises_if_filename_is_empty_string(self):
self.check_linux_only()
filename = ''
self.assert_raises_os_error(errno.ENOENT, self.os.mknod, filename)
def test_mknod_raises_if_unsupported_options(self):
self.check_posix_only()
filename = 'abcde'
if not is_root():
self.assert_raises_os_error(errno.EPERM, self.os.mknod, filename,
stat.S_IFCHR)
else:
self.os.mknod(filename, stat.S_IFCHR)
self.os.remove(filename)
def test_mknod_raises_if_parent_is_not_a_directory(self):
self.check_linux_only()
filename1 = self.make_path('foo')
self.create_file(filename1)
self.assertTrue(self.os.path.exists(filename1))
filename2 = self.make_path('foo', 'bar')
self.assert_raises_os_error(errno.ENOTDIR, self.os.mknod, filename2)
def test_symlink(self):
self.skip_if_symlink_not_supported()
file_path = self.make_path('foo', 'bar', 'baz')
self.create_dir(self.make_path('foo', 'bar'))
self.os.symlink('bogus', file_path)
self.assertTrue(self.os.path.lexists(file_path))
self.assertFalse(self.os.path.exists(file_path))
self.create_file(self.make_path('foo', 'bar', 'bogus'))
self.assertTrue(self.os.path.lexists(file_path))
self.assertTrue(self.os.path.exists(file_path))
def test_symlink_on_nonexisting_path_raises(self):
self.check_posix_only()
dir_path = self.make_path('bar')
link_path = self.os.path.join(dir_path, 'bar')
self.assert_raises_os_error(errno.ENOENT, self.os.symlink, link_path,
link_path)
self.assert_raises_os_error(errno.ENOENT, self.os.symlink, dir_path,
link_path)
def test_symlink_with_path_ending_with_sep_in_posix(self):
self.check_posix_only()
dir_path = self.make_path('dir')
self.create_dir(dir_path)
self.assert_raises_os_error(errno.EEXIST, self.os.symlink,
self.base_path, dir_path + self.os.sep)
dir_path = self.make_path('bar')
self.assert_raises_os_error(errno.ENOENT, self.os.symlink,
self.base_path, dir_path + self.os.sep)
def test_symlink_with_path_ending_with_sep_in_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
dir_path = self.make_path('dir')
self.create_dir(dir_path)
self.assert_raises_os_error(errno.EEXIST, self.os.symlink,
self.base_path, dir_path + self.os.sep)
dir_path = self.make_path('bar')
# does not raise under Windows
self.os.symlink(self.base_path, dir_path + self.os.sep)
def test_broken_symlink_with_trailing_sep_posix(self):
# Regression test for #390
self.check_linux_only()
path0 = self.make_path('foo') + self.os.sep
self.assert_raises_os_error(
errno.ENOENT, self.os.symlink, path0, path0)
def test_broken_symlink_with_trailing_sep_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
path0 = self.make_path('foo') + self.os.sep
self.assert_raises_os_error(
errno.EINVAL, self.os.symlink, path0, path0)
def test_rename_symlink_with_trailing_sep_linux(self):
# Regression test for #391
self.check_linux_only()
path = self.make_path('foo')
self.os.symlink(self.base_path, path)
self.assert_raises_os_error(errno.ENOTDIR, self.os.rename,
path + self.os.sep, self.base_path)
def test_rename_symlink_with_trailing_sep_macos(self):
# Regression test for #391
self.check_macos_only()
path = self.make_path('foo')
self.os.symlink(self.base_path, path)
self.os.rename(path + self.os.sep, self.base_path)
def test_rename_symlink_with_trailing_sep_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
path = self.make_path('foo')
self.os.symlink(self.base_path, path)
self.assert_raises_os_error(errno.EEXIST, self.os.rename,
path + self.os.sep, self.base_path)
def test_rename_symlink_to_other_case(self):
# Regression test for #389
self.skip_if_symlink_not_supported()
link_path = self.make_path('foo')
self.os.symlink(self.base_path, link_path)
link_to_link_path = self.make_path('BAR')
self.os.symlink(link_path, link_to_link_path)
new_link_to_link_path = self.os.path.join(link_path, 'bar')
self.os.rename(link_to_link_path, new_link_to_link_path)
self.assertEqual(['bar', 'foo'],
sorted(self.os.listdir(new_link_to_link_path)))
def create_broken_link_path_with_trailing_sep(self):
# Regression tests for #396
self.skip_if_symlink_not_supported()
link_path = self.make_path('link')
target_path = self.make_path('target')
self.os.symlink(target_path, link_path)
link_path += self.os.sep
return link_path
def test_lstat_broken_link_with_trailing_sep_linux(self):
self.check_linux_only()
link_path = self.create_broken_link_path_with_trailing_sep()
self.assert_raises_os_error(errno.ENOENT, self.os.lstat, link_path)
def test_lstat_broken_link_with_trailing_sep_macos(self):
self.check_macos_only()
link_path = self.create_broken_link_path_with_trailing_sep()
self.assert_raises_os_error(errno.ENOENT, self.os.lstat, link_path)
def test_lstat_broken_link_with_trailing_sep_windows(self):
self.check_windows_only()
link_path = self.create_broken_link_path_with_trailing_sep()
self.assert_raises_os_error(errno.EINVAL, self.os.lstat, link_path)
def test_mkdir_broken_link_with_trailing_sep_linux_windows(self):
self.check_linux_and_windows()
link_path = self.create_broken_link_path_with_trailing_sep()
self.assert_raises_os_error(errno.EEXIST, self.os.mkdir, link_path)
self.assert_raises_os_error(errno.EEXIST, self.os.makedirs, link_path)
def test_mkdir_broken_link_with_trailing_sep_macos(self):
self.check_macos_only()
link_path = self.create_broken_link_path_with_trailing_sep()
self.os.mkdir(link_path) # no error
def test_makedirs_broken_link_with_trailing_sep_macos(self):
self.check_macos_only()
link_path = self.create_broken_link_path_with_trailing_sep()
self.os.makedirs(link_path) # no error
def test_remove_broken_link_with_trailing_sep_linux(self):
self.check_linux_only()
link_path = self.create_broken_link_path_with_trailing_sep()
self.assert_raises_os_error(errno.ENOTDIR, self.os.remove, link_path)
def test_remove_broken_link_with_trailing_sep_macos(self):
self.check_macos_only()
link_path = self.create_broken_link_path_with_trailing_sep()
self.assert_raises_os_error(errno.ENOENT, self.os.remove, link_path)
def test_remove_broken_link_with_trailing_sep_windows(self):
self.check_windows_only()
link_path = self.create_broken_link_path_with_trailing_sep()
self.assert_raises_os_error(errno.EINVAL, self.os.remove, link_path)
def test_rename_broken_link_with_trailing_sep_linux(self):
self.check_linux_only()
link_path = self.create_broken_link_path_with_trailing_sep()
self.assert_raises_os_error(
errno.ENOTDIR, self.os.rename, link_path, self.make_path('target'))
def test_rename_broken_link_with_trailing_sep_macos(self):
self.check_macos_only()
link_path = self.create_broken_link_path_with_trailing_sep()
self.assert_raises_os_error(
errno.ENOENT, self.os.rename, link_path, self.make_path('target'))
def test_rename_broken_link_with_trailing_sep_windows(self):
self.check_windows_only()
link_path = self.create_broken_link_path_with_trailing_sep()
self.assert_raises_os_error(
errno.EINVAL, self.os.rename, link_path, self.make_path('target'))
def test_readlink_broken_link_with_trailing_sep_posix(self):
self.check_posix_only()
link_path = self.create_broken_link_path_with_trailing_sep()
self.assert_raises_os_error(errno.ENOENT, self.os.readlink, link_path)
def test_readlink_broken_link_with_trailing_sep_windows(self):
self.check_windows_only()
link_path = self.create_broken_link_path_with_trailing_sep()
self.assert_raises_os_error(errno.EINVAL, self.os.readlink, link_path)
def test_islink_broken_link_with_trailing_sep(self):
link_path = self.create_broken_link_path_with_trailing_sep()
self.assertFalse(self.os.path.islink(link_path))
def test_lexists_broken_link_with_trailing_sep(self):
link_path = self.create_broken_link_path_with_trailing_sep()
self.assertFalse(self.os.path.lexists(link_path))
def test_rename_link_with_trailing_sep_to_self_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
path = self.make_path('foo')
self.os.symlink(self.base_path, path)
self.os.rename(path + self.os.sep, path) # no error
def test_rename_link_with_trailing_sep_to_self_posix(self):
# Regression test for #395
self.check_posix_only()
path = self.make_path('foo')
self.os.symlink(self.base_path, path)
self.assert_raises_os_error(
errno.ENOTDIR, self.os.rename, path + self.os.sep, path)
def check_open_broken_symlink_to_path_with_trailing_sep(self, error):
# Regression tests for #397
self.skip_if_symlink_not_supported()
target_path = self.make_path('target') + self.os.sep
link_path = self.make_path('link')
self.os.symlink(target_path, link_path)
self.assert_raises_io_error(error, self.open, link_path, 'a')
self.assert_raises_io_error(error, self.open, link_path, 'w')
def test_open_broken_symlink_to_path_with_trailing_sep_linux(self):
self.check_linux_only()
self.check_open_broken_symlink_to_path_with_trailing_sep(errno.EISDIR)
def test_open_broken_symlink_to_path_with_trailing_sep_macos(self):
self.check_macos_only()
self.check_open_broken_symlink_to_path_with_trailing_sep(errno.ENOENT)
def test_open_broken_symlink_to_path_with_trailing_sep_windows(self):
self.check_windows_only()
self.check_open_broken_symlink_to_path_with_trailing_sep(errno.EINVAL)
def check_link_path_ending_with_sep(self, error):
# Regression tests for #399
self.skip_if_symlink_not_supported()
file_path = self.make_path('foo')
link_path = self.make_path('link')
with self.open(file_path, 'w'):
self.assert_raises_os_error(
error, self.os.link, file_path + self.os.sep, link_path)
def test_link_path_ending_with_sep_posix(self):
self.check_posix_only()
self.check_link_path_ending_with_sep(errno.ENOTDIR)
def test_link_path_ending_with_sep_windows(self):
self.check_windows_only()
self.check_link_path_ending_with_sep(errno.EINVAL)
def test_link_to_path_ending_with_sep_posix(self):
# regression test for #407
self.check_posix_only()
path0 = self.make_path('foo') + self.os.sep
path1 = self.make_path('bar')
with self.open(path1, 'w'):
self.assert_raises_os_error(errno.ENOENT,
self.os.link, path1, path0)
def test_link_to_path_ending_with_sep_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
path0 = self.make_path('foo') + self.os.sep
path1 = self.make_path('bar')
with self.open(path1, 'w'):
self.os.link(path1, path0)
self.assertTrue(self.os.path.exists(path1))
def check_rename_to_path_ending_with_sep(self, error):
# Regression tests for #400
file_path = self.make_path('foo')
with self.open(file_path, 'w'):
self.assert_raises_os_error(
error, self.os.rename, file_path + self.os.sep, file_path)
def test_rename_to_path_ending_with_sep_posix(self):
self.check_posix_only()
self.check_rename_to_path_ending_with_sep(errno.ENOTDIR)
def test_rename_to_path_ending_with_sep_windows(self):
self.check_windows_only()
self.check_rename_to_path_ending_with_sep(errno.EINVAL)
def test_rmdir_link_with_trailing_sep_linux(self):
self.check_linux_only()
dir_path = self.make_path('foo')
self.os.mkdir(dir_path)
link_path = self.make_path('link')
self.os.symlink(dir_path, link_path)
self.assert_raises_os_error(
errno.ENOTDIR, self.os.rmdir, link_path + self.os.sep)
def test_rmdir_link_with_trailing_sep_macos(self):
# Regression test for #398
self.check_macos_only()
dir_path = self.make_path('foo')
self.os.mkdir(dir_path)
link_path = self.make_path('link')
self.os.symlink(dir_path, link_path)
self.os.rmdir(link_path + self.os.sep)
self.assertFalse(self.os.path.exists(link_path))
def test_rmdir_link_with_trailing_sep_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
dir_path = self.make_path('foo')
self.os.mkdir(dir_path)
link_path = self.make_path('link')
self.os.symlink(dir_path, link_path)
self.os.rmdir(link_path + self.os.sep)
self.assertFalse(self.os.path.exists(link_path))
def test_readlink_circular_link_with_trailing_sep_linux(self):
self.check_linux_only()
path1 = self.make_path('foo')
path0 = self.make_path('bar')
self.os.symlink(path0, path1)
self.os.symlink(path1, path0)
self.assert_raises_os_error(
errno.ELOOP, self.os.readlink, path0 + self.os.sep)
def test_readlink_circular_link_with_trailing_sep_macos(self):
# Regression test for #392
self.check_macos_only()
path1 = self.make_path('foo')
path0 = self.make_path('bar')
self.os.symlink(path0, path1)
self.os.symlink(path1, path0)
self.assertEqual(path0, self.os.readlink(path0 + self.os.sep))
def test_readlink_circular_link_with_trailing_sep_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
path1 = self.make_path('foo')
path0 = self.make_path('bar')
self.os.symlink(path0, path1)
self.os.symlink(path1, path0)
self.assert_raises_os_error(
errno.EINVAL, self.os.readlink, path0 + self.os.sep)
# hard link related tests
def test_link_bogus(self):
# trying to create a link from a non-existent file should fail
self.skip_if_symlink_not_supported()
self.assert_raises_os_error(errno.ENOENT,
self.os.link, '/nonexistent_source',
'/link_dest')
def test_link_delete(self):
self.skip_if_symlink_not_supported()
file1_path = self.make_path('test_file1')
file2_path = self.make_path('test_file2')
contents1 = 'abcdef'
# Create file
self.create_file(file1_path, contents=contents1)
# link to second file
self.os.link(file1_path, file2_path)
# delete first file
self.os.unlink(file1_path)
# assert that second file exists, and its contents are the same
self.assertTrue(self.os.path.exists(file2_path))
with self.open(file2_path) as f:
self.assertEqual(f.read(), contents1)
def test_link_update(self):
self.skip_if_symlink_not_supported()
file1_path = self.make_path('test_file1')
file2_path = self.make_path('test_file2')
contents1 = 'abcdef'
contents2 = 'ghijkl'
# Create file and link
self.create_file(file1_path, contents=contents1)
self.os.link(file1_path, file2_path)
# assert that the second file contains contents1
with self.open(file2_path) as f:
self.assertEqual(f.read(), contents1)
# update the first file
with self.open(file1_path, 'w') as f:
f.write(contents2)
# assert that second file contains contents2
with self.open(file2_path) as f:
self.assertEqual(f.read(), contents2)
def test_link_non_existent_parent(self):
self.skip_if_symlink_not_supported()
file1_path = self.make_path('test_file1')
breaking_link_path = self.make_path('nonexistent', 'test_file2')
contents1 = 'abcdef'
# Create file and link
self.create_file(file1_path, contents=contents1)
# trying to create a link under a non-existent directory should fail
self.assert_raises_os_error(
errno.ENOENT, self.os.link, file1_path, breaking_link_path)
def test_link_is_existing_file(self):
self.skip_if_symlink_not_supported()
file_path = self.make_path('foo', 'bar')
self.create_file(file_path)
self.assert_raises_os_error(errno.EEXIST, self.os.link, file_path,
file_path)
def test_link_target_is_dir_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
dir_path = self.make_path('foo', 'bar')
link_path = self.os.path.join(dir_path, 'link')
self.create_dir(dir_path)
self.assert_raises_os_error(errno.EACCES, self.os.link, dir_path,
link_path)
def test_link_target_is_dir_posix(self):
self.check_posix_only()
dir_path = self.make_path('foo', 'bar')
link_path = self.os.path.join(dir_path, 'link')
self.create_dir(dir_path)
self.assert_raises_os_error(errno.EPERM, self.os.link, dir_path,
link_path)
def test_link_count1(self):
"""Test that hard link counts are updated correctly."""
self.skip_if_symlink_not_supported()
file1_path = self.make_path('test_file1')
file2_path = self.make_path('test_file2')
file3_path = self.make_path('test_file3')
self.create_file(file1_path)
# initial link count should be one
self.assertEqual(self.os.stat(file1_path).st_nlink, 1)
self.os.link(file1_path, file2_path)
# the count should be incremented for each hard link created
self.assertEqual(self.os.stat(file1_path).st_nlink, 2)
self.assertEqual(self.os.stat(file2_path).st_nlink, 2)
# Check that the counts are all updated together
self.os.link(file2_path, file3_path)
self.assertEqual(self.os.stat(file1_path).st_nlink, 3)
self.assertEqual(self.os.stat(file2_path).st_nlink, 3)
self.assertEqual(self.os.stat(file3_path).st_nlink, 3)
# Counts should be decremented when links are removed
self.os.unlink(file3_path)
self.assertEqual(self.os.stat(file1_path).st_nlink, 2)
self.assertEqual(self.os.stat(file2_path).st_nlink, 2)
# check that it gets decremented correctly again
self.os.unlink(file1_path)
self.assertEqual(self.os.stat(file2_path).st_nlink, 1)
def test_nlink_for_directories(self):
self.skip_real_fs()
self.create_dir(self.make_path('foo', 'bar'))
self.create_file(self.make_path('foo', 'baz'))
self.assertEqual(2, self.filesystem.get_object(
self.make_path('foo', 'bar')).st_nlink)
self.assertEqual(4, self.filesystem.get_object(
self.make_path('foo')).st_nlink)
self.create_file(self.make_path('foo', 'baz2'))
self.assertEqual(5, self.filesystem.get_object(
self.make_path('foo')).st_nlink)
def test_umask(self):
self.check_posix_only()
umask = os.umask(0o22)
os.umask(umask)
self.assertEqual(umask, self.os.umask(0o22))
def test_mkdir_umask_applied(self):
"""mkdir creates a directory with umask applied."""
self.check_posix_only()
self.os.umask(0o22)
dir1 = self.make_path('dir1')
self.os.mkdir(dir1)
self.assert_mode_equal(0o755, self.os.stat(dir1).st_mode)
self.os.umask(0o67)
dir2 = self.make_path('dir2')
self.os.mkdir(dir2)
self.assert_mode_equal(0o710, self.os.stat(dir2).st_mode)
def test_makedirs_umask_applied(self):
"""makedirs creates a directories with umask applied."""
self.check_posix_only()
self.os.umask(0o22)
self.os.makedirs(self.make_path('p1', 'dir1'))
self.assert_mode_equal(
0o755, self.os.stat(self.make_path('p1')).st_mode)
self.assert_mode_equal(
0o755, self.os.stat(self.make_path('p1', 'dir1')).st_mode)
self.os.umask(0o67)
self.os.makedirs(self.make_path('p2', 'dir2'))
self.assert_mode_equal(
0o710, self.os.stat(self.make_path('p2')).st_mode)
self.assert_mode_equal(
0o710, self.os.stat(self.make_path('p2', 'dir2')).st_mode)
def test_mknod_umask_applied(self):
"""mkdir creates a device with umask applied."""
# skipping MacOs due to mknod permission issues
self.check_linux_only()
self.os.umask(0o22)
node1 = self.make_path('nod1')
self.os.mknod(node1, stat.S_IFREG | 0o666)
self.assert_mode_equal(0o644, self.os.stat(node1).st_mode)
self.os.umask(0o27)
node2 = self.make_path('nod2')
self.os.mknod(node2, stat.S_IFREG | 0o666)
self.assert_mode_equal(0o640, self.os.stat(node2).st_mode)
def test_open_umask_applied(self):
"""open creates a file with umask applied."""
self.check_posix_only()
self.os.umask(0o22)
file1 = self.make_path('file1')
self.open(file1, 'w').close()
self.assert_mode_equal(0o644, self.os.stat(file1).st_mode)
self.os.umask(0o27)
file2 = self.make_path('file2')
self.open(file2, 'w').close()
self.assert_mode_equal(0o640, self.os.stat(file2).st_mode)
def test_open_pipe(self):
read_fd, write_fd = self.os.pipe()
self.os.close(read_fd)
self.os.close(write_fd)
def test_open_pipe_with_existing_fd(self):
file1 = self.make_path('file1')
fd = self.os.open(file1, os.O_CREAT)
read_fd, write_fd = self.os.pipe()
self.assertGreater(read_fd, fd)
self.os.close(fd)
self.os.close(read_fd)
self.os.close(write_fd)
def test_open_file_with_existing_pipe(self):
read_fd, write_fd = self.os.pipe()
file1 = self.make_path('file1')
fd = self.os.open(file1, os.O_CREAT)
self.assertGreater(fd, write_fd)
self.os.close(read_fd)
self.os.close(write_fd)
self.os.close(fd)
def test_write_to_pipe(self):
read_fd, write_fd = self.os.pipe()
self.os.write(write_fd, b'test')
self.assertEqual(b'test', self.os.read(read_fd, 4))
self.os.close(read_fd)
self.os.close(write_fd)
def test_write_to_read_fd(self):
read_fd, write_fd = self.os.pipe()
self.assert_raises_os_error(errno.EBADF,
self.os.write, read_fd, b'test')
self.os.close(read_fd)
self.os.close(write_fd)
class RealOsModuleTest(FakeOsModuleTest):
def use_real_fs(self):
return True
class FakeOsModuleTestCaseInsensitiveFS(FakeOsModuleTestBase):
def setUp(self):
super(FakeOsModuleTestCaseInsensitiveFS, self).setUp()
self.check_case_insensitive_fs()
self.rwx = self.os.R_OK | self.os.W_OK | self.os.X_OK
self.rw = self.os.R_OK | self.os.W_OK
def test_chdir_fails_non_directory(self):
"""chdir should raise OSError if the target is not a directory."""
filename = self.make_path('foo', 'bar')
self.create_file(filename)
filename1 = self.make_path('Foo', 'Bar')
self.assert_raises_os_error(
self.not_dir_error(), self.os.chdir, filename1)
def test_listdir_returns_list(self):
directory_root = self.make_path('xyzzy')
self.os.mkdir(directory_root)
directory = self.os.path.join(directory_root, 'bug')
self.os.mkdir(directory)
directory_upper = self.make_path('XYZZY', 'BUG')
self.create_file(self.make_path(directory, 'foo'))
self.assertEqual(['foo'], self.os.listdir(directory_upper))
def test_listdir_on_symlink(self):
self.skip_if_symlink_not_supported()
directory = self.make_path('xyzzy')
files = ['foo', 'bar', 'baz']
for f in files:
self.create_file(self.make_path(directory, f))
self.create_symlink(self.make_path('symlink'), self.make_path('xyzzy'))
files.sort()
self.assertEqual(files,
sorted(self.os.listdir(self.make_path('SymLink'))))
def test_fdopen_mode(self):
self.skip_real_fs()
file_path1 = self.make_path('some_file1')
file_path2 = self.make_path('Some_File1')
file_path3 = self.make_path('SOME_file1')
self.create_file(file_path1, contents='contents here1')
self.os.chmod(file_path2, (stat.S_IFREG | 0o666) ^ stat.S_IWRITE)
fake_file1 = self.open(file_path3, 'r')
fileno1 = fake_file1.fileno()
self.os.fdopen(fileno1)
self.os.fdopen(fileno1, 'r')
exception = OSError if self.is_python2 else IOError
if not is_root():
self.assertRaises(exception, self.os.fdopen, fileno1, 'w')
else:
self.os.fdopen(fileno1, 'w')
def test_stat(self):
directory = self.make_path('xyzzy')
directory1 = self.make_path('XYZZY')
file_path = self.os.path.join(directory, 'plugh')
self.create_file(file_path, contents='ABCDE')
self.assertTrue(stat.S_IFDIR & self.os.stat(directory1)[stat.ST_MODE])
file_path1 = self.os.path.join(directory1, 'Plugh')
self.assertTrue(stat.S_IFREG & self.os.stat(file_path1)[stat.ST_MODE])
self.assertTrue(stat.S_IFREG & self.os.stat(file_path1).st_mode)
self.assertEqual(5, self.os.stat(file_path1)[stat.ST_SIZE])
@unittest.skipIf(sys.version_info < (3, 3),
'follow_symlinks new in Python 3.3')
def test_stat_no_follow_symlinks_posix(self):
"""Test that stat with follow_symlinks=False behaves like lstat."""
self.check_posix_only()
directory = self.make_path('xyzzy')
base_name = 'plugh'
file_contents = 'frobozz'
# Just make sure we didn't accidentally make our test data meaningless.
self.assertNotEqual(len(base_name), len(file_contents))
file_path = self.os.path.join(directory, base_name)
link_path = self.os.path.join(directory, 'link')
self.create_file(file_path, contents=file_contents)
self.create_symlink(link_path, base_name)
self.assertEqual(len(file_contents), self.os.stat(
file_path.upper(), follow_symlinks=False)[stat.ST_SIZE])
self.assertEqual(len(base_name), self.os.stat(
link_path.upper(), follow_symlinks=False)[stat.ST_SIZE])
def test_lstat_posix(self):
self.check_posix_only()
directory = self.make_path('xyzzy')
base_name = 'plugh'
file_contents = 'frobozz'
# Just make sure we didn't accidentally make our test data meaningless.
self.assertNotEqual(len(base_name), len(file_contents))
file_path = self.os.path.join(directory, base_name)
link_path = self.os.path.join(directory, 'link')
self.create_file(file_path, contents=file_contents)
self.create_symlink(link_path, base_name)
self.assertEqual(len(file_contents),
self.os.lstat(file_path.upper())[stat.ST_SIZE])
self.assertEqual(len(base_name),
self.os.lstat(link_path.upper())[stat.ST_SIZE])
def test_readlink(self):
self.skip_if_symlink_not_supported()
link_path = self.make_path('foo', 'bar', 'baz')
target = self.make_path('tarJAY')
self.create_symlink(link_path, target)
self.assertEqual(self.os.readlink(link_path.upper()), target)
def check_readlink_raises_if_path_not_a_link(self):
file_path = self.make_path('foo', 'bar', 'eleventyone')
self.create_file(file_path)
self.assert_raises_os_error(errno.EINVAL,
self.os.readlink, file_path.upper())
def test_readlink_raises_if_path_not_a_link_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
self.check_readlink_raises_if_path_not_a_link()
def test_readlink_raises_if_path_not_a_link_posix(self):
self.check_posix_only()
self.check_readlink_raises_if_path_not_a_link()
def check_readlink_raises_if_path_has_file(self, error_subtype):
self.create_file(self.make_path('a_file'))
file_path = self.make_path('a_file', 'foo')
self.assert_raises_os_error(error_subtype,
self.os.readlink, file_path.upper())
file_path = self.make_path('a_file', 'foo', 'bar')
self.assert_raises_os_error(error_subtype,
self.os.readlink, file_path.upper())
def test_readlink_raises_if_path_has_file_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
self.check_readlink_raises_if_path_has_file(errno.ENOENT)
def test_readlink_raises_if_path_has_file_posix(self):
self.check_posix_only()
self.check_readlink_raises_if_path_has_file(errno.ENOTDIR)
def test_readlink_with_links_in_path(self):
self.skip_if_symlink_not_supported()
self.create_symlink(self.make_path('meyer', 'lemon', 'pie'),
self.make_path('yum'))
self.create_symlink(self.make_path('geo', 'metro'),
self.make_path('Meyer'))
self.assertEqual(self.make_path('yum'),
self.os.readlink(
self.make_path('Geo', 'Metro', 'Lemon', 'Pie')))
def test_readlink_with_chained_links_in_path(self):
self.skip_if_symlink_not_supported()
self.create_symlink(self.make_path(
'eastern', 'european', 'wolfhounds', 'chase'),
self.make_path('cats'))
self.create_symlink(self.make_path('russian'),
self.make_path('Eastern', 'European'))
self.create_symlink(self.make_path('dogs'),
self.make_path('Russian', 'Wolfhounds'))
self.assertEqual(self.make_path('cats'),
self.os.readlink(self.make_path('DOGS', 'Chase')))
def check_remove_dir(self, dir_error):
directory = self.make_path('xyzzy')
dir_path = self.os.path.join(directory, 'plugh')
self.create_dir(dir_path)
dir_path = dir_path.upper()
self.assertTrue(self.os.path.exists(dir_path.upper()))
self.assert_raises_os_error(dir_error, self.os.remove, dir_path)
self.assertTrue(self.os.path.exists(dir_path))
self.os.chdir(directory)
self.assert_raises_os_error(dir_error, self.os.remove, dir_path)
self.assertTrue(self.os.path.exists(dir_path))
self.assert_raises_os_error(errno.ENOENT, self.os.remove, '/Plugh')
def test_remove_dir_mac_os(self):
self.check_macos_only()
self.check_remove_dir(errno.EPERM)
def test_remove_dir_windows(self):
self.check_windows_only()
self.check_remove_dir(errno.EACCES)
def test_remove_file(self):
directory = self.make_path('zzy')
file_path = self.os.path.join(directory, 'plugh')
self.create_file(file_path)
self.assertTrue(self.os.path.exists(file_path.upper()))
self.os.remove(file_path.upper())
self.assertFalse(self.os.path.exists(file_path))
def test_remove_file_no_directory(self):
directory = self.make_path('zzy')
file_name = 'plugh'
file_path = self.os.path.join(directory, file_name)
self.create_file(file_path)
self.assertTrue(self.os.path.exists(file_path))
self.os.chdir(directory.upper())
self.os.remove(file_name.upper())
self.assertFalse(self.os.path.exists(file_path))
def test_remove_open_file_fails_under_windows(self):
self.check_windows_only()
path = self.make_path('foo', 'bar')
self.create_file(path)
with self.open(path, 'r'):
self.assert_raises_os_error(errno.EACCES,
self.os.remove, path.upper())
self.assertTrue(self.os.path.exists(path))
def test_remove_open_file_possible_under_posix(self):
self.check_posix_only()
path = self.make_path('foo', 'bar')
self.create_file(path)
self.open(path, 'r')
self.os.remove(path.upper())
self.assertFalse(self.os.path.exists(path))
def test_remove_file_relative_path(self):
self.skip_real_fs()
original_dir = self.os.getcwd()
directory = self.make_path('zzy')
subdirectory = self.os.path.join(directory, 'zzy')
file_name = 'plugh'
file_path = self.os.path.join(directory, file_name)
file_path_relative = self.os.path.join('..', file_name)
self.create_file(file_path.upper())
self.assertTrue(self.os.path.exists(file_path))
self.create_dir(subdirectory)
self.assertTrue(self.os.path.exists(subdirectory))
self.os.chdir(subdirectory.upper())
self.os.remove(file_path_relative.upper())
self.assertFalse(self.os.path.exists(file_path_relative))
self.os.chdir(original_dir.upper())
self.assertFalse(self.os.path.exists(file_path))
def check_remove_dir_raises_error(self, dir_error):
directory = self.make_path('zzy')
self.create_dir(directory)
self.assert_raises_os_error(dir_error,
self.os.remove, directory.upper())
def test_remove_dir_raises_error_mac_os(self):
self.check_macos_only()
self.check_remove_dir_raises_error(errno.EPERM)
def test_remove_dir_raises_error_windows(self):
self.check_windows_only()
self.check_remove_dir_raises_error(errno.EACCES)
def test_remove_symlink_to_dir(self):
self.skip_if_symlink_not_supported()
directory = self.make_path('zzy')
link = self.make_path('link_to_dir')
self.create_dir(directory)
self.os.symlink(directory, link)
self.assertTrue(self.os.path.exists(directory))
self.assertTrue(self.os.path.exists(link))
self.os.remove(link.upper())
self.assertTrue(self.os.path.exists(directory))
self.assertFalse(self.os.path.exists(link))
def test_rename_dir_to_symlink_posix(self):
self.check_posix_only()
link_path = self.make_path('link')
dir_path = self.make_path('dir')
link_target = self.os.path.join(dir_path, 'link_target')
self.create_dir(dir_path)
self.os.symlink(link_target.upper(), link_path.upper())
self.assert_raises_os_error(errno.ENOTDIR, self.os.rename, dir_path,
link_path)
def test_rename_dir_to_symlink_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
link_path = self.make_path('link')
dir_path = self.make_path('dir')
link_target = self.os.path.join(dir_path, 'link_target')
self.create_dir(dir_path)
self.os.symlink(link_target.upper(), link_path.upper())
self.assert_raises_os_error(errno.EEXIST, self.os.rename, dir_path,
link_path)
def test_rename_dir_to_existing_dir(self):
# Regression test for #317
self.check_posix_only()
dest_dir_path = self.make_path('Dest')
new_dest_dir_path = self.make_path('dest')
self.os.mkdir(dest_dir_path)
source_dir_path = self.make_path('src')
self.os.mkdir(source_dir_path)
self.os.rename(source_dir_path, new_dest_dir_path)
self.assertEqual(['dest'], self.os.listdir(self.base_path))
def test_rename_file_to_symlink(self):
self.check_posix_only()
link_path = self.make_path('file_link')
file_path = self.make_path('file')
self.os.symlink(file_path, link_path)
self.create_file(file_path)
self.os.rename(file_path.upper(), link_path)
self.assertFalse(self.os.path.exists(file_path))
self.assertTrue(self.os.path.exists(link_path.upper()))
self.assertTrue(self.os.path.isfile(link_path.upper()))
def test_rename_symlink_to_symlink(self):
self.check_posix_only()
base_path = self.make_path('foo', 'bar')
self.create_dir(base_path)
link_path1 = self.os.path.join(base_path, 'link1')
link_path2 = self.os.path.join(base_path, 'link2')
self.os.symlink(base_path.upper(), link_path1)
self.os.symlink(base_path, link_path2)
self.os.rename(link_path1.upper(), link_path2.upper())
self.assertFalse(self.os.path.exists(link_path1))
self.assertTrue(self.os.path.exists(link_path2))
def test_rename_symlink_to_symlink_for_parent_raises(self):
self.check_posix_only()
dir_link = self.make_path('dir_link')
dir_path = self.make_path('dir')
dir_in_dir_path = self.os.path.join(dir_link, 'inner_dir')
self.create_dir(dir_path)
self.os.symlink(dir_path.upper(), dir_link)
self.create_dir(dir_in_dir_path)
self.assert_raises_os_error(errno.EINVAL, self.os.rename, dir_path,
dir_in_dir_path.upper())
def test_rename_directory_to_linked_dir(self):
# Regression test for #314
self.skip_if_symlink_not_supported()
link_path = self.make_path('link')
self.os.symlink(self.base_path, link_path)
link_subdir = self.os.path.join(link_path, 'dir')
dir_path = self.make_path('Dir')
self.os.mkdir(dir_path)
self.os.rename(dir_path, link_subdir)
self.assertEqual(['dir', 'link'],
sorted(self.os.listdir(self.base_path)))
def test_recursive_rename_raises(self):
self.check_posix_only()
base_path = self.make_path('foo', 'bar')
self.create_dir(base_path)
new_path = self.os.path.join(base_path, 'new_dir')
self.assert_raises_os_error(errno.EINVAL, self.os.rename,
base_path.upper(), new_path)
def test_rename_with_target_parent_file_raises_posix(self):
self.check_posix_only()
file_path = self.make_path('foo', 'baz')
self.create_file(file_path)
self.assert_raises_os_error(errno.ENOTDIR, self.os.rename, file_path,
file_path.upper() + '/new')
def test_rename_with_target_parent_file_raises_windows(self):
self.check_windows_only()
file_path = self.make_path('foo', 'baz')
self.create_file(file_path)
self.assert_raises_os_error(
errno.EACCES, self.os.rename, file_path,
self.os.path.join(file_path.upper(), 'new'))
def test_rename_looping_symlink(self):
# Regression test for #315
self.skip_if_symlink_not_supported()
path_lower = self.make_path('baz')
path_upper = self.make_path('BAZ')
self.os.symlink(path_lower, path_upper)
self.os.rename(path_upper, path_lower)
self.assertEqual(['baz'], self.os.listdir(self.base_path))
def test_rename_symlink_to_source(self):
self.check_posix_only()
base_path = self.make_path('foo')
link_path = self.os.path.join(base_path, 'slink')
file_path = self.os.path.join(base_path, 'file')
self.create_file(file_path)
self.os.symlink(file_path, link_path)
self.os.rename(link_path.upper(), file_path.upper())
self.assertFalse(self.os.path.exists(file_path))
def test_rename_symlink_to_dir_raises(self):
self.check_posix_only()
base_path = self.make_path('foo', 'bar')
link_path = self.os.path.join(base_path, 'dir_link')
dir_path = self.os.path.join(base_path, 'dir')
self.create_dir(dir_path)
self.os.symlink(dir_path, link_path.upper())
self.assert_raises_os_error(errno.EISDIR, self.os.rename, link_path,
dir_path.upper())
def test_rename_broken_symlink(self):
self.check_posix_only()
base_path = self.make_path('foo')
self.create_dir(base_path)
link_path = self.os.path.join(base_path, 'slink')
file_path = self.os.path.join(base_path, 'file')
self.os.symlink(file_path.upper(), link_path)
self.os.rename(link_path.upper(), file_path)
self.assertFalse(self.os.path.exists(file_path))
self.assertTrue(self.os.path.lexists(file_path))
self.assertFalse(self.os.path.exists(link_path))
def test_change_case_in_case_insensitive_file_system(self):
"""Can use `rename()` to change filename case in a case-insensitive
file system."""
old_file_path = self.make_path('fileName')
new_file_path = self.make_path('FileNAME')
self.create_file(old_file_path, contents='test contents')
self.assertEqual(['fileName'], self.os.listdir(self.base_path))
self.os.rename(old_file_path, new_file_path)
self.assertTrue(self.os.path.exists(old_file_path))
self.assertTrue(self.os.path.exists(new_file_path))
self.assertEqual(['FileNAME'], self.os.listdir(self.base_path))
def test_rename_symlink_with_changed_case(self):
# Regression test for #313
self.skip_if_symlink_not_supported()
link_path = self.make_path('link')
self.os.symlink(self.base_path, link_path)
link_path = self.os.path.join(link_path, 'link')
link_path_upper = self.make_path('link', 'LINK')
self.os.rename(link_path_upper, link_path)
def test_rename_directory(self):
"""Can rename a directory to an unused name."""
for old_path, new_path in [('wxyyw', 'xyzzy'), ('abccb', 'cdeed')]:
old_path = self.make_path(old_path)
new_path = self.make_path(new_path)
self.create_file(self.os.path.join(old_path, 'plugh'),
contents='test')
self.assertTrue(self.os.path.exists(old_path))
self.assertFalse(self.os.path.exists(new_path))
self.os.rename(old_path.upper(), new_path.upper())
self.assertFalse(self.os.path.exists(old_path))
self.assertTrue(self.os.path.exists(new_path))
self.check_contents(self.os.path.join(new_path, 'plugh'), 'test')
if not self.use_real_fs():
self.assertEqual(3,
self.filesystem.get_object(new_path).st_nlink)
def check_rename_directory_to_existing_file_raises(self, error_nr):
dir_path = self.make_path('dir')
file_path = self.make_path('file')
self.create_dir(dir_path)
self.create_file(file_path)
self.assert_raises_os_error(error_nr, self.os.rename, dir_path,
file_path.upper())
def test_rename_directory_to_existing_file_raises_posix(self):
self.check_posix_only()
self.check_rename_directory_to_existing_file_raises(errno.ENOTDIR)
def test_rename_directory_to_existing_file_raises_windows(self):
self.check_windows_only()
self.check_rename_directory_to_existing_file_raises(errno.EEXIST)
def test_rename_to_existing_directory_should_raise_under_windows(self):
"""Renaming to an existing directory raises OSError under Windows."""
self.check_windows_only()
old_path = self.make_path('foo', 'bar')
new_path = self.make_path('foo', 'baz')
self.create_dir(old_path)
self.create_dir(new_path)
self.assert_raises_os_error(errno.EEXIST, self.os.rename,
old_path.upper(),
new_path.upper())
def test_rename_to_a_hardlink_of_same_file_should_do_nothing(self):
self.skip_real_fs_failure(skip_posix=False)
self.skip_if_symlink_not_supported()
file_path = self.make_path('dir', 'file')
self.create_file(file_path)
link_path = self.make_path('link')
self.os.link(file_path.upper(), link_path)
self.os.rename(file_path, link_path.upper())
self.assertTrue(self.os.path.exists(file_path))
self.assertTrue(self.os.path.exists(link_path))
def test_rename_with_incorrect_source_case(self):
# Regression test for #308
base_path = self.make_path('foo')
path0 = self.os.path.join(base_path, 'bar')
path1 = self.os.path.join(base_path, 'Bar')
self.create_dir(path0)
self.os.rename(path1, path0)
self.assertTrue(self.os.path.exists(path0))
def test_rename_symlink_to_other_case_does_nothing_in_mac_os(self):
# Regression test for #318
self.check_macos_only()
path0 = self.make_path("beta")
self.os.symlink(self.base_path, path0)
path0 = self.make_path("beta", "Beta")
path1 = self.make_path("Beta")
self.os.rename(path0, path1)
self.assertEqual(['beta'], sorted(self.os.listdir(path0)))
def test_rename_symlink_to_other_case_works_in_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
path0 = self.make_path("beta")
self.os.symlink(self.base_path, path0)
path0 = self.make_path("beta", "Beta")
path1 = self.make_path("Beta")
self.os.rename(path0, path1)
self.assertEqual(['Beta'], sorted(self.os.listdir(path0)))
def test_stat_with_mixed_case(self):
# Regression test for #310
self.skip_if_symlink_not_supported()
base_path = self.make_path('foo')
path = self.os.path.join(base_path, 'bar')
self.create_dir(path)
path = self.os.path.join(path, 'Bar')
self.os.symlink(base_path, path)
path = self.os.path.join(path, 'Bar')
# used to raise
self.os.stat(path)
def test_hardlink_works_with_symlink(self):
self.skip_if_symlink_not_supported()
base_path = self.make_path('foo')
self.create_dir(base_path)
symlink_path = self.os.path.join(base_path, 'slink')
self.os.symlink(base_path.upper(), symlink_path)
file_path = self.os.path.join(base_path, 'slink', 'beta')
self.create_file(file_path)
link_path = self.os.path.join(base_path, 'Slink', 'gamma')
self.os.link(file_path, link_path)
self.assertTrue(self.os.path.exists(link_path))
@unittest.skipIf(sys.version_info < (3, 3), 'replace is new in Python 3.3')
def test_replace_existing_directory_should_raise_under_windows(self):
"""Renaming to an existing directory raises OSError under Windows."""
self.check_windows_only()
old_path = self.make_path('foo', 'bar')
new_path = self.make_path('foo', 'baz')
self.create_dir(old_path)
self.create_dir(new_path)
self.assert_raises_os_error(errno.EACCES, self.os.replace, old_path,
new_path.upper())
def test_rename_to_existing_directory_under_posix(self):
"""Renaming to an existing directory changes the existing directory
under Posix."""
self.check_posix_only()
old_path = self.make_path('foo', 'bar')
new_path = self.make_path('xyzzy')
self.create_dir(self.os.path.join(old_path, 'sub'))
self.create_dir(new_path)
self.os.rename(old_path.upper(), new_path.upper())
self.assertTrue(
self.os.path.exists(self.os.path.join(new_path, 'sub')))
self.assertFalse(self.os.path.exists(old_path))
def test_rename_file_to_existing_directory_raises_under_posix(self):
self.check_posix_only()
file_path = self.make_path('foo', 'bar', 'baz')
new_path = self.make_path('xyzzy')
self.create_file(file_path)
self.create_dir(new_path)
self.assert_raises_os_error(errno.EISDIR, self.os.rename,
file_path.upper(),
new_path.upper())
def test_rename_to_existent_file_posix(self):
"""Can rename a file to a used name under Unix."""
self.check_posix_only()
directory = self.make_path('xyzzy')
old_file_path = self.os.path.join(directory, 'plugh_old')
new_file_path = self.os.path.join(directory, 'plugh_new')
self.create_file(old_file_path, contents='test contents 1')
self.create_file(new_file_path, contents='test contents 2')
self.assertTrue(self.os.path.exists(old_file_path))
self.assertTrue(self.os.path.exists(new_file_path))
self.os.rename(old_file_path.upper(), new_file_path.upper())
self.assertFalse(self.os.path.exists(old_file_path))
self.assertTrue(self.os.path.exists(new_file_path))
self.check_contents(new_file_path, 'test contents 1')
def test_rename_to_existent_file_windows(self):
"""Renaming a file to a used name raises OSError under Windows."""
self.check_windows_only()
directory = self.make_path('xyzzy')
old_file_path = self.os.path.join(directory, 'plugh_old')
new_file_path = self.os.path.join(directory, 'plugh_new')
self.create_file(old_file_path, contents='test contents 1')
self.create_file(new_file_path, contents='test contents 2')
self.assertTrue(self.os.path.exists(old_file_path))
self.assertTrue(self.os.path.exists(new_file_path))
self.assert_raises_os_error(errno.EEXIST, self.os.rename,
old_file_path.upper(),
new_file_path.upper())
@unittest.skipIf(sys.version_info < (3, 3), 'replace is new in Python 3.3')
def test_replace_to_existent_file(self):
"""Replaces an existing file (does not work with `rename()` under
Windows)."""
directory = self.make_path('xyzzy')
old_file_path = self.os.path.join(directory, 'plugh_old')
new_file_path = self.os.path.join(directory, 'plugh_new')
self.create_file(old_file_path, contents='test contents 1')
self.create_file(new_file_path, contents='test contents 2')
self.assertTrue(self.os.path.exists(old_file_path))
self.assertTrue(self.os.path.exists(new_file_path))
self.os.replace(old_file_path.upper(), new_file_path.upper())
self.assertFalse(self.os.path.exists(old_file_path))
self.assertTrue(self.os.path.exists(new_file_path))
self.check_contents(new_file_path, 'test contents 1')
def test_rename_to_nonexistent_dir(self):
"""Can rename a file to a name in a nonexistent dir."""
directory = self.make_path('xyzzy')
old_file_path = self.os.path.join(directory, 'plugh_old')
new_file_path = self.os.path.join(
directory, 'no_such_path', 'plugh_new')
self.create_file(old_file_path, contents='test contents')
self.assertTrue(self.os.path.exists(old_file_path))
self.assertFalse(self.os.path.exists(new_file_path))
self.assert_raises_os_error(errno.ENOENT, self.os.rename,
old_file_path.upper(),
new_file_path.upper())
self.assertTrue(self.os.path.exists(old_file_path))
self.assertFalse(self.os.path.exists(new_file_path))
self.check_contents(old_file_path, 'test contents')
def check_rename_case_only_with_symlink_parent(self):
# Regression test for #319
self.os.symlink(self.base_path, self.make_path('link'))
dir_upper = self.make_path('link', 'Alpha')
self.os.mkdir(dir_upper)
dir_lower = self.make_path('alpha')
self.os.rename(dir_upper, dir_lower)
self.assertEqual(['alpha', 'link'],
sorted(self.os.listdir(self.base_path)))
def test_rename_case_only_with_symlink_parent_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
self.check_rename_case_only_with_symlink_parent()
def test_rename_case_only_with_symlink_parent_macos(self):
self.check_macos_only()
self.check_rename_case_only_with_symlink_parent()
def test_rename_dir(self):
"""Test a rename of a directory."""
directory = self.make_path('xyzzy')
before_dir = self.os.path.join(directory, 'before')
before_file = self.os.path.join(directory, 'before', 'file')
after_dir = self.os.path.join(directory, 'after')
after_file = self.os.path.join(directory, 'after', 'file')
self.create_dir(before_dir)
self.create_file(before_file, contents='payload')
self.assertTrue(self.os.path.exists(before_dir.upper()))
self.assertTrue(self.os.path.exists(before_file.upper()))
self.assertFalse(self.os.path.exists(after_dir.upper()))
self.assertFalse(self.os.path.exists(after_file.upper()))
self.os.rename(before_dir.upper(), after_dir)
self.assertFalse(self.os.path.exists(before_dir.upper()))
self.assertFalse(self.os.path.exists(before_file.upper()))
self.assertTrue(self.os.path.exists(after_dir.upper()))
self.assertTrue(self.os.path.exists(after_file.upper()))
self.check_contents(after_file, 'payload')
def test_rename_same_filenames(self):
"""Test renaming when old and new names are the same."""
directory = self.make_path('xyzzy')
file_contents = 'Spam eggs'
file_path = self.os.path.join(directory, 'eggs')
self.create_file(file_path, contents=file_contents)
self.os.rename(file_path, file_path.upper())
self.check_contents(file_path, file_contents)
def test_rmdir(self):
"""Can remove a directory."""
directory = self.make_path('xyzzy')
sub_dir = self.make_path('xyzzy', 'abccd')
other_dir = self.make_path('xyzzy', 'cdeed')
self.create_dir(directory)
self.assertTrue(self.os.path.exists(directory))
self.os.rmdir(directory)
self.assertFalse(self.os.path.exists(directory))
self.create_dir(sub_dir)
self.create_dir(other_dir)
self.os.chdir(sub_dir)
self.os.rmdir('../CDEED')
self.assertFalse(self.os.path.exists(other_dir))
self.os.chdir('..')
self.os.rmdir('AbcCd')
self.assertFalse(self.os.path.exists(sub_dir))
def test_rmdir_via_symlink(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
base_path = self.make_path('foo', 'bar')
dir_path = self.os.path.join(base_path, 'alpha')
self.create_dir(dir_path)
link_path = self.os.path.join(base_path, 'beta')
self.os.symlink(base_path, link_path)
self.os.rmdir(link_path + '/Alpha')
self.assertFalse(self.os.path.exists(dir_path))
def test_remove_dirs_with_non_top_symlink_succeeds(self):
self.check_posix_only()
dir_path = self.make_path('dir')
dir_link = self.make_path('dir_link')
self.create_dir(dir_path)
self.os.symlink(dir_path, dir_link)
dir_in_dir = self.os.path.join(dir_link, 'dir2')
self.create_dir(dir_in_dir)
self.os.removedirs(dir_in_dir.upper())
self.assertFalse(self.os.path.exists(dir_in_dir))
# ensure that the symlink is not removed
self.assertTrue(self.os.path.exists(dir_link))
def test_mkdir_raises_on_symlink_in_posix(self):
self.check_posix_only()
base_path = self.make_path('foo', 'bar')
link_path = self.os.path.join(base_path, 'link_to_dir')
dir_path = self.os.path.join(base_path, 'dir')
self.create_dir(dir_path)
self.os.symlink(dir_path.upper(), link_path.upper())
self.assert_raises_os_error(errno.ENOTDIR, self.os.rmdir, link_path)
def test_mkdir_removes_symlink_in_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
base_path = self.make_path('foo', 'bar')
link_path = self.os.path.join(base_path, 'link_to_dir')
dir_path = self.os.path.join(base_path, 'dir')
self.create_dir(dir_path)
self.os.symlink(dir_path.upper(), link_path.upper())
self.os.rmdir(link_path)
self.assertFalse(self.os.path.exists(link_path))
self.assertTrue(self.os.path.exists(dir_path))
def test_mkdir_raises_if_directory_exists(self):
"""mkdir raises exception if directory already exists."""
directory = self.make_path('xyzzy')
self.create_dir(directory)
self.assertTrue(self.os.path.exists(directory))
self.assert_raises_os_error(errno.EEXIST,
self.os.mkdir, directory.upper())
def test_mkdir_raises_if_file_exists(self):
"""mkdir raises exception if name already exists as a file."""
directory = self.make_path('xyzzy')
file_path = self.os.path.join(directory, 'plugh')
self.create_file(file_path)
self.assertTrue(self.os.path.exists(file_path))
self.assert_raises_os_error(errno.EEXIST,
self.os.mkdir, file_path.upper())
def test_mkdir_raises_if_symlink_exists(self):
# Regression test for #309
self.skip_if_symlink_not_supported()
path1 = self.make_path('baz')
self.os.symlink(path1, path1)
path2 = self.make_path('Baz')
self.assert_raises_os_error(errno.EEXIST, self.os.mkdir, path2)
def check_mkdir_raises_if_parent_is_file(self, error_type):
"""mkdir raises exception if name already exists as a file."""
directory = self.make_path('xyzzy')
file_path = self.os.path.join(directory, 'plugh')
self.create_file(file_path)
self.assert_raises_os_error(error_type, self.os.mkdir,
self.os.path.join(file_path.upper(),
'ff'))
def test_mkdir_raises_if_parent_is_file_posix(self):
self.check_posix_only()
self.check_mkdir_raises_if_parent_is_file(errno.ENOTDIR)
def test_mkdir_raises_if_parent_is_file_windows(self):
self.check_windows_only()
self.check_mkdir_raises_if_parent_is_file(errno.ENOENT)
def test_makedirs(self):
"""makedirs can create a directory even if parent does not exist."""
parent = self.make_path('xyzzy')
directory = self.os.path.join(parent, 'foo')
self.assertFalse(self.os.path.exists(parent))
self.os.makedirs(directory.upper())
self.assertTrue(self.os.path.exists(directory))
def check_makedirs_raises_if_parent_is_file(self, error_type):
"""makedirs raises exception if a parent component exists as a file."""
file_path = self.make_path('xyzzy')
directory = self.os.path.join(file_path, 'plugh')
self.create_file(file_path)
self.assertTrue(self.os.path.exists(file_path))
self.assert_raises_os_error(error_type, self.os.makedirs,
directory.upper())
def test_makedirs_raises_if_parent_is_file_posix(self):
self.check_posix_only()
self.check_makedirs_raises_if_parent_is_file(errno.ENOTDIR)
def test_makedirs_raises_if_parent_is_file_windows(self):
self.check_windows_only()
self.check_makedirs_raises_if_parent_is_file(errno.ENOENT)
def test_makedirs_raises_if_parent_is_broken_link(self):
self.check_posix_only()
link_path = self.make_path('broken_link')
self.os.symlink(self.make_path('bogus'), link_path)
self.assert_raises_os_error(errno.ENOENT, self.os.makedirs,
self.os.path.join(link_path.upper(),
'newdir'))
@unittest.skipIf(sys.version_info < (3, 2),
'os.makedirs(exist_ok) argument new in version 3.2')
def test_makedirs_exist_ok(self):
"""makedirs uses the exist_ok argument"""
directory = self.make_path('xyzzy', 'foo')
self.create_dir(directory)
self.assertTrue(self.os.path.exists(directory))
self.assert_raises_os_error(errno.EEXIST, self.os.makedirs,
directory.upper())
self.os.makedirs(directory.upper(), exist_ok=True)
self.assertTrue(self.os.path.exists(directory))
# test fsync and fdatasync
def test_fsync_pass(self):
test_file_path = self.make_path('test_file')
self.create_file(test_file_path, contents='dummy file contents')
test_file = self.open(test_file_path.upper(), 'r+')
test_fd = test_file.fileno()
# Test that this doesn't raise anything
self.os.fsync(test_fd)
# And just for sanity, double-check that this still raises
self.assert_raises_os_error(errno.EBADF, self.os.fsync, test_fd + 10)
def test_chmod(self):
# set up
self.check_posix_only()
self.skip_real_fs()
path = self.make_path('some_file')
self.createTestFile(path)
# actual tests
self.os.chmod(path.upper(), 0o6543)
st = self.os.stat(path)
self.assert_mode_equal(0o6543, st.st_mode)
self.assertTrue(st.st_mode & stat.S_IFREG)
self.assertFalse(st.st_mode & stat.S_IFDIR)
def test_symlink(self):
self.skip_if_symlink_not_supported()
file_path = self.make_path('foo', 'bar', 'baz')
self.create_dir(self.make_path('foo', 'bar'))
self.os.symlink('bogus', file_path.upper())
self.assertTrue(self.os.path.lexists(file_path))
self.assertFalse(self.os.path.exists(file_path))
self.create_file(self.make_path('Foo', 'Bar', 'Bogus'))
self.assertTrue(self.os.path.lexists(file_path))
self.assertTrue(self.os.path.exists(file_path))
# hard link related tests
def test_link_delete(self):
self.skip_if_symlink_not_supported()
file1_path = self.make_path('test_file1')
file2_path = self.make_path('test_file2')
contents1 = 'abcdef'
# Create file
self.create_file(file1_path, contents=contents1)
# link to second file
self.os.link(file1_path.upper(), file2_path)
# delete first file
self.os.unlink(file1_path)
# assert that second file exists, and its contents are the same
self.assertTrue(self.os.path.exists(file2_path))
with self.open(file2_path.upper()) as f:
self.assertEqual(f.read(), contents1)
def test_link_is_existing_file(self):
self.skip_if_symlink_not_supported()
file_path = self.make_path('foo', 'bar')
self.create_file(file_path)
self.assert_raises_os_error(errno.EEXIST, self.os.link,
file_path.upper(), file_path.upper())
def test_link_is_broken_symlink(self):
# Regression test for #311
self.skip_if_symlink_not_supported()
self.check_case_insensitive_fs()
file_path = self.make_path('baz')
self.create_file(file_path)
path_lower = self.make_path('foo')
self.os.symlink(path_lower, path_lower)
path_upper = self.make_path('Foo')
self.assert_raises_os_error(errno.EEXIST,
self.os.link, file_path, path_upper)
def test_link_with_changed_case(self):
# Regression test for #312
self.skip_if_symlink_not_supported()
self.check_case_insensitive_fs()
link_path = self.make_path('link')
self.os.symlink(self.base_path, link_path)
link_path = self.os.path.join(link_path, 'Link')
self.assertTrue(self.os.lstat(link_path))
class RealOsModuleTestCaseInsensitiveFS(FakeOsModuleTestCaseInsensitiveFS):
def use_real_fs(self):
return True
class FakeOsModuleTimeTest(FakeOsModuleTestBase):
def setUp(self):
super(FakeOsModuleTimeTest, self).setUp()
self.orig_time = time.time
self.dummy_time = None
self.setDummyTime(200)
def tearDown(self):
time.time = self.orig_time
super(FakeOsModuleTimeTest, self).tearDown()
def setDummyTime(self, start):
self.dummy_time = DummyTime(start, 20)
time.time = self.dummy_time
def test_chmod_st_ctime(self):
# set up
file_path = 'some_file'
self.filesystem.create_file(file_path)
self.assertTrue(self.os.path.exists(file_path))
self.dummy_time.start()
st = self.os.stat(file_path)
self.assertEqual(200, st.st_ctime)
# tests
self.os.chmod(file_path, 0o765)
st = self.os.stat(file_path)
self.assertEqual(220, st.st_ctime)
def test_utime_sets_current_time_if_args_is_none(self):
# set up
path = self.make_path('some_file')
self.createTestFile(path)
self.dummy_time.start()
st = self.os.stat(path)
# 200 is the current time established in setUp().
self.assertEqual(200, st.st_atime)
self.assertEqual(200, st.st_mtime)
# actual tests
self.os.utime(path, None)
st = self.os.stat(path)
self.assertEqual(220, st.st_atime)
self.assertEqual(220, st.st_mtime)
def test_utime_sets_current_time_if_args_is_none_with_floats(self):
# set up
# we set os.stat_float_times() to False, so atime/ctime/mtime
# are converted as ints (seconds since epoch)
self.setDummyTime(200.9123)
path = '/some_file'
fake_filesystem.FakeOsModule.stat_float_times(False)
self.createTestFile(path)
self.dummy_time.start()
st = self.os.stat(path)
# 200 is the current time established above (if converted to int).
self.assertEqual(200, st.st_atime)
self.assertTrue(isinstance(st.st_atime, int))
self.assertEqual(200, st.st_mtime)
self.assertTrue(isinstance(st.st_mtime, int))
if sys.version_info >= (3, 3):
self.assertEqual(200912300000, st.st_atime_ns)
self.assertEqual(200912300000, st.st_mtime_ns)
self.assertEqual(200, st.st_mtime)
# actual tests
self.os.utime(path, None)
st = self.os.stat(path)
self.assertEqual(220, st.st_atime)
self.assertTrue(isinstance(st.st_atime, int))
self.assertEqual(220, st.st_mtime)
self.assertTrue(isinstance(st.st_mtime, int))
if sys.version_info >= (3, 3):
self.assertEqual(220912300000, st.st_atime_ns)
self.assertEqual(220912300000, st.st_mtime_ns)
def test_utime_sets_current_time_if_args_is_none_with_floats_n_sec(self):
fake_filesystem.FakeOsModule.stat_float_times(False)
self.setDummyTime(200.9123)
path = self.make_path('some_file')
self.createTestFile(path)
test_file = self.filesystem.get_object(path)
self.dummy_time.start()
st = self.os.stat(path)
self.assertEqual(200, st.st_ctime)
self.assertEqual(200, test_file.st_ctime)
self.assertTrue(isinstance(st.st_ctime, int))
self.assertTrue(isinstance(test_file.st_ctime, int))
self.os.stat_float_times(True) # first time float time
self.assertEqual(200, st.st_ctime) # st does not change
self.assertEqual(200.9123, test_file.st_ctime) # but the file does
self.assertTrue(isinstance(st.st_ctime, int))
self.assertTrue(isinstance(test_file.st_ctime, float))
self.os.stat_float_times(False) # reverting to int
self.assertEqual(200, test_file.st_ctime)
self.assertTrue(isinstance(test_file.st_ctime, int))
self.assertEqual(200, st.st_ctime)
self.assertTrue(isinstance(st.st_ctime, int))
self.os.stat_float_times(True)
st = self.os.stat(path)
# 200.9123 not converted to int
self.assertEqual(200.9123, test_file.st_atime, test_file.st_mtime)
self.assertEqual(200.9123, st.st_atime, st.st_mtime)
self.os.utime(path, None)
st = self.os.stat(path)
self.assertEqual(220.9123, st.st_atime)
self.assertEqual(220.9123, st.st_mtime)
def test_utime_sets_specified_time(self):
# set up
path = self.make_path('some_file')
self.createTestFile(path)
self.os.stat(path)
# actual tests
self.os.utime(path, (1, 2))
st = self.os.stat(path)
self.assertEqual(1, st.st_atime)
self.assertEqual(2, st.st_mtime)
def test_utime_dir(self):
# set up
path = '/some_dir'
self.createTestDirectory(path)
# actual tests
self.os.utime(path, (1.0, 2.0))
st = self.os.stat(path)
self.assertEqual(1.0, st.st_atime)
self.assertEqual(2.0, st.st_mtime)
@unittest.skipIf(sys.version_info < (3, 3),
'follow_symlinks new in Python 3.3')
def test_utime_follow_symlinks(self):
path = self.make_path('some_file')
self.createTestFile(path)
link_path = '/link_to_some_file'
self.filesystem.create_symlink(link_path, path)
self.os.utime(link_path, (1, 2))
st = self.os.stat(link_path)
self.assertEqual(1, st.st_atime)
self.assertEqual(2, st.st_mtime)
@unittest.skipIf(sys.version_info < (3, 3),
'follow_symlinks new in Python 3.3')
def test_utime_no_follow_symlinks(self):
path = self.make_path('some_file')
self.createTestFile(path)
link_path = '/link_to_some_file'
self.filesystem.create_symlink(link_path, path)
self.os.utime(link_path, (1, 2), follow_symlinks=False)
st = self.os.stat(link_path)
self.assertNotEqual(1, st.st_atime)
self.assertNotEqual(2, st.st_mtime)
st = self.os.stat(link_path, follow_symlinks=False)
self.assertEqual(1, st.st_atime)
self.assertEqual(2, st.st_mtime)
def test_utime_non_existent(self):
path = '/non/existent/file'
self.assertFalse(self.os.path.exists(path))
self.assert_raises_os_error(errno.ENOENT, self.os.utime, path, (1, 2))
def test_utime_invalid_times_arg_raises(self):
path = '/some_dir'
self.createTestDirectory(path)
# the error message differs with different Python versions
# we don't expect the same message here
self.assertRaises(TypeError, self.os.utime, path, (1, 2, 3))
self.assertRaises(TypeError, self.os.utime, path, (1, 'str'))
@unittest.skipIf(sys.version_info < (3, 3), 'ns new in Python 3.3')
def test_utime_sets_specified_time_in_ns(self):
# set up
path = self.make_path('some_file')
self.createTestFile(path)
self.dummy_time.start()
self.os.stat(path)
# actual tests
self.os.utime(path, ns=(200000000, 400000000))
st = self.os.stat(path)
self.assertEqual(0.2, st.st_atime)
self.assertEqual(0.4, st.st_mtime)
@unittest.skipIf(sys.version_info < (3, 3), 'ns new in Python 3.3')
def test_utime_incorrect_ns_argument_raises(self):
file_path = 'some_file'
self.filesystem.create_file(file_path)
self.assertRaises(TypeError, self.os.utime, file_path, ns=200000000)
self.assertRaises(TypeError, self.os.utime, file_path, ns=('a', 'b'))
self.assertRaises(ValueError, self.os.utime, file_path, times=(1, 2),
ns=(100, 200))
@unittest.skipIf(sys.version_info < (3, 3),
'file descriptor as path new in Python 3.3')
def test_utime_uses_open_fd_as_path(self):
if os.utime not in os.supports_fd:
self.skip_real_fs()
self.assert_raises_os_error(errno.EBADF, self.os.utime, 5, (1, 2))
path = self.make_path('some_file')
self.createTestFile(path)
with FakeFileOpen(self.filesystem)(path) as f:
self.os.utime(f.filedes, times=(1, 2))
st = self.os.stat(path)
self.assertEqual(1, st.st_atime)
self.assertEqual(2, st.st_mtime)
class FakeOsModuleLowLevelFileOpTest(FakeOsModuleTestBase):
"""Test low level functions `os.open()`, `os.read()` and `os.write()`."""
def setUp(self):
os.umask(0o022)
super(FakeOsModuleLowLevelFileOpTest, self).setUp()
def test_open_read_only(self):
file_path = self.make_path('file1')
self.create_file(file_path, contents=b'contents')
file_des = self.os.open(file_path, os.O_RDONLY)
self.assertEqual(b'contents', self.os.read(file_des, 8))
self.assert_raises_os_error(errno.EBADF,
self.os.write, file_des, b'test')
self.os.close(file_des)
def test_open_read_only_write_zero_bytes_posix(self):
self.check_posix_only()
file_path = self.make_path('file1')
self.create_file(file_path, contents=b'contents')
file_des = self.os.open(file_path, os.O_RDONLY)
self.assert_raises_os_error(errno.EBADF,
self.os.write, file_des, b'test')
self.os.close(file_des)
def test_open_read_only_write_zero_bytes_windows(self):
# under Windows, writing an empty string to a read only file
# is not an error
self.check_windows_only()
file_path = self.make_path('file1')
self.create_file(file_path, contents=b'contents')
file_des = self.os.open(file_path, os.O_RDONLY)
self.assertEqual(0, self.os.write(file_des, b''))
self.os.close(file_des)
def test_open_write_only(self):
file_path = self.make_path('file1')
self.create_file(file_path, contents=b'contents')
file_des = self.os.open(file_path, os.O_WRONLY)
self.assertEqual(4, self.os.write(file_des, b'test'))
self.check_contents(file_path, b'testents')
self.os.close(file_des)
def test_open_write_only_raises_on_read(self):
file_path = self.make_path('file1')
self.create_file(file_path, contents=b'contents')
file_des = self.os.open(file_path, os.O_WRONLY)
self.assert_raises_os_error(errno.EBADF, self.os.read, file_des, 5)
self.os.close(file_des)
file_des = self.os.open(file_path, os.O_WRONLY | os.O_TRUNC)
self.assert_raises_os_error(errno.EBADF, self.os.read, file_des, 5)
self.os.close(file_des)
file_path2 = self.make_path('file2')
file_des = self.os.open(file_path2, os.O_CREAT | os.O_WRONLY)
self.assert_raises_os_error(errno.EBADF, self.os.read, file_des, 5)
self.os.close(file_des)
file_des = self.os.open(file_path2,
os.O_CREAT | os.O_WRONLY | os.O_TRUNC)
self.assert_raises_os_error(errno.EBADF, self.os.read, file_des, 5)
self.os.close(file_des)
def test_open_write_only_read_zero_bytes_posix(self):
self.check_posix_only()
file_path = self.make_path('file1')
file_des = self.os.open(file_path, os.O_CREAT | os.O_WRONLY)
self.assert_raises_os_error(errno.EBADF, self.os.read, file_des, 0)
self.os.close(file_des)
def test_open_write_only_read_zero_bytes_windows(self):
# under Windows, reading 0 bytes from a write only file is not an error
self.check_windows_only()
file_path = self.make_path('file1')
file_des = self.os.open(file_path, os.O_CREAT | os.O_WRONLY)
self.assertEqual(b'', self.os.read(file_des, 0))
self.os.close(file_des)
def test_open_read_write(self):
file_path = self.make_path('file1')
self.create_file(file_path, contents=b'contents')
file_des = self.os.open(file_path, os.O_RDWR)
self.assertEqual(4, self.os.write(file_des, b'test'))
self.check_contents(file_path, b'testents')
self.os.close(file_des)
def test_open_create_is_read_only(self):
file_path = self.make_path('file1')
file_des = self.os.open(file_path, os.O_CREAT)
self.assertEqual(b'', self.os.read(file_des, 1))
self.assert_raises_os_error(errno.EBADF,
self.os.write, file_des, b'foo')
self.os.close(file_des)
def test_open_create_truncate_is_read_only(self):
file_path = self.make_path('file1')
file_des = self.os.open(file_path, os.O_CREAT | os.O_TRUNC)
self.assertEqual(b'', self.os.read(file_des, 1))
self.assert_raises_os_error(errno.EBADF,
self.os.write, file_des, b'foo')
self.os.close(file_des)
def test_open_raises_if_does_not_exist(self):
file_path = self.make_path('file1')
self.assert_raises_os_error(errno.ENOENT, self.os.open, file_path,
os.O_RDONLY)
self.assert_raises_os_error(errno.ENOENT, self.os.open, file_path,
os.O_WRONLY)
self.assert_raises_os_error(errno.ENOENT, self.os.open, file_path,
os.O_RDWR)
def test_exclusive_open_raises_without_create_mode(self):
self.skip_real_fs()
file_path = self.make_path('file1')
self.assertRaises(NotImplementedError, self.os.open, file_path,
os.O_EXCL)
self.assertRaises(NotImplementedError, self.os.open, file_path,
os.O_EXCL | os.O_WRONLY)
self.assertRaises(NotImplementedError, self.os.open, file_path,
os.O_EXCL | os.O_RDWR)
self.assertRaises(NotImplementedError, self.os.open, file_path,
os.O_EXCL | os.O_TRUNC | os.O_APPEND)
def test_open_raises_if_parent_does_not_exist(self):
path = self.make_path('alpha', 'alpha')
self.assert_raises_os_error(errno.ENOENT, self.os.open, path,
os.O_CREAT | os.O_WRONLY | os.O_TRUNC)
def test_open_truncate(self):
file_path = self.make_path('file1')
self.create_file(file_path, contents=b'contents')
file_des = self.os.open(file_path, os.O_RDWR | os.O_TRUNC)
self.assertEqual(b'', self.os.read(file_des, 8))
self.assertEqual(4, self.os.write(file_des, b'test'))
self.check_contents(file_path, b'test')
self.os.close(file_des)
@unittest.skipIf(not TestCase.is_windows,
'O_TEMPORARY only present in Windows')
def test_temp_file(self):
file_path = self.make_path('file1')
fd = self.os.open(file_path, os.O_CREAT | os.O_RDWR | os.O_TEMPORARY)
self.assertTrue(self.os.path.exists(file_path))
self.os.close(fd)
self.assertFalse(self.os.path.exists(file_path))
def test_open_append(self):
file_path = self.make_path('file1')
self.create_file(file_path, contents=b'contents')
file_des = self.os.open(file_path, os.O_WRONLY | os.O_APPEND)
self.assertEqual(4, self.os.write(file_des, b'test'))
self.check_contents(file_path, b'contentstest')
self.os.close(file_des)
def test_open_create(self):
file_path = self.make_path('file1')
file_des = self.os.open(file_path, os.O_RDWR | os.O_CREAT)
self.assertTrue(self.os.path.exists(file_path))
self.assertEqual(4, self.os.write(file_des, b'test'))
self.check_contents(file_path, 'test')
self.os.close(file_des)
def test_can_read_after_create_exclusive(self):
self.check_posix_only()
path1 = self.make_path('alpha')
file_des = self.os.open(path1, os.O_CREAT | os.O_EXCL)
self.assertEqual(b'', self.os.read(file_des, 0))
self.assert_raises_os_error(errno.EBADF, self.os.write, file_des, b'')
self.os.close(file_des)
def test_open_create_mode_posix(self):
self.check_posix_only()
file_path = self.make_path('file1')
file_des = self.os.open(file_path, os.O_WRONLY | os.O_CREAT, 0o700)
self.assertTrue(self.os.path.exists(file_path))
self.assert_raises_os_error(errno.EBADF, self.os.read, file_des, 5)
self.assertEqual(4, self.os.write(file_des, b'test'))
self.assert_mode_equal(0o700, self.os.stat(file_path).st_mode)
self.os.close(file_des)
def test_open_create_mode_windows(self):
self.check_windows_only()
file_path = self.make_path('file1')
file_des = self.os.open(file_path, os.O_WRONLY | os.O_CREAT, 0o700)
self.assertTrue(self.os.path.exists(file_path))
self.assert_raises_os_error(errno.EBADF, self.os.read, file_des, 5)
self.assertEqual(4, self.os.write(file_des, b'test'))
self.assert_mode_equal(0o666, self.os.stat(file_path).st_mode)
self.os.close(file_des)
def testOpenCreateMode444Windows(self):
self.check_windows_only()
file_path = self.make_path('file1')
file_des = self.os.open(file_path, os.O_WRONLY | os.O_CREAT, 0o442)
self.assert_mode_equal(0o444, self.os.stat(file_path).st_mode)
self.os.close(file_des)
def testOpenCreateMode666Windows(self):
self.check_windows_only()
file_path = self.make_path('file1')
file_des = self.os.open(file_path, os.O_WRONLY | os.O_CREAT, 0o224)
self.assert_mode_equal(0o666, self.os.stat(file_path).st_mode)
self.os.close(file_des)
@unittest.skipIf(sys.version_info < (3, 3),
'Exclusive mode new in Python 3.3')
def test_open_exclusive(self):
file_path = self.make_path('file1')
file_des = self.os.open(file_path, os.O_RDWR | os.O_EXCL | os.O_CREAT)
self.assertTrue(self.os.path.exists(file_path))
self.os.close(file_des)
@unittest.skipIf(sys.version_info < (3, 3),
'Exclusive mode new in Python 3.3')
def test_open_exclusive_raises_if_file_exists(self):
file_path = self.make_path('file1')
self.create_file(file_path, contents=b'contents')
self.assert_raises_io_error(errno.EEXIST, self.os.open, file_path,
os.O_RDWR | os.O_EXCL | os.O_CREAT)
self.assert_raises_io_error(errno.EEXIST, self.os.open, file_path,
os.O_RDWR | os.O_EXCL | os.O_CREAT)
@unittest.skipIf(sys.version_info < (3, 3),
'Exclusive mode new in Python 3.3')
def test_open_exclusive_raises_if_symlink_exists_in_posix(self):
self.check_posix_only()
link_path = self.make_path('link')
link_target = self.make_path('link_target')
self.os.symlink(link_target, link_path)
self.assert_raises_os_error(
errno.EEXIST, self.os.open, link_path,
os.O_CREAT | os.O_WRONLY | os.O_TRUNC | os.O_EXCL)
@unittest.skipIf(sys.version_info < (3, 3),
'Exclusive mode new in Python 3.3')
def test_open_exclusive_if_symlink_exists_works_in_windows(self):
self.check_windows_only()
self.skip_if_symlink_not_supported()
link_path = self.make_path('link')
link_target = self.make_path('link_target')
self.os.symlink(link_target, link_path)
fd = self.os.open(link_path,
os.O_CREAT | os.O_WRONLY | os.O_TRUNC | os.O_EXCL)
self.os.close(fd)
def test_open_directory_raises_under_windows(self):
self.check_windows_only()
dir_path = self.make_path('dir')
self.create_dir(dir_path)
self.assert_raises_os_error(errno.EACCES, self.os.open, dir_path,
os.O_RDONLY)
self.assert_raises_os_error(errno.EACCES, self.os.open, dir_path,
os.O_WRONLY)
self.assert_raises_os_error(errno.EACCES, self.os.open, dir_path,
os.O_RDWR)
def test_open_directory_for_writing_raises_under_posix(self):
self.check_posix_only()
dir_path = self.make_path('dir')
self.create_dir(dir_path)
self.assert_raises_os_error(errno.EISDIR, self.os.open, dir_path,
os.O_WRONLY)
self.assert_raises_os_error(errno.EISDIR, self.os.open, dir_path,
os.O_RDWR)
def test_open_directory_read_only_under_posix(self):
self.check_posix_only()
self.skip_real_fs()
dir_path = self.make_path('dir')
self.create_dir(dir_path)
file_des = self.os.open(dir_path, os.O_RDONLY)
self.assertEqual(3, file_des)
def test_opening_existing_directory_in_creation_mode(self):
self.check_linux_only()
dir_path = self.make_path("alpha")
self.os.mkdir(dir_path)
self.assert_raises_os_error(errno.EISDIR,
self.os.open, dir_path, os.O_CREAT)
def test_writing_to_existing_directory(self):
self.check_macos_only()
dir_path = self.make_path("alpha")
self.os.mkdir(dir_path)
fd = self.os.open(dir_path, os.O_CREAT)
self.assert_raises_os_error(errno.EBADF, self.os.write, fd, b'')
def test_opening_existing_directory_in_write_mode(self):
self.check_posix_only()
dir_path = self.make_path("alpha")
self.os.mkdir(dir_path)
self.assert_raises_os_error(errno.EISDIR,
self.os.open, dir_path, os.O_WRONLY)
def test_open_mode_posix(self):
self.check_posix_only()
self.skip_real_fs()
file_path = self.make_path('baz')
file_des = self.os.open(file_path,
os.O_CREAT | os.O_WRONLY | os.O_TRUNC)
stat0 = self.os.fstat(file_des)
# not a really good test as this replicates the code,
# but we don't know the umask at the test system
self.assertEqual(0o100777 & ~self.os._umask(), stat0.st_mode)
self.os.close(file_des)
def test_open_mode_windows(self):
self.check_windows_only()
file_path = self.make_path('baz')
file_des = self.os.open(file_path,
os.O_CREAT | os.O_WRONLY | os.O_TRUNC)
stat0 = self.os.fstat(file_des)
self.assertEqual(0o100666, stat0.st_mode)
self.os.close(file_des)
def test_write_read(self):
file_path = self.make_path('file1')
self.create_file(file_path, contents=b'orig contents')
new_contents = b'1234567890abcdef'
with self.open(file_path, 'wb') as fh:
fileno = fh.fileno()
self.assertEqual(len(new_contents),
self.os.write(fileno, new_contents))
self.check_contents(file_path, new_contents)
with self.open(file_path, 'rb') as fh:
fileno = fh.fileno()
self.assertEqual(b'', self.os.read(fileno, 0))
self.assertEqual(new_contents[0:2], self.os.read(fileno, 2))
self.assertEqual(new_contents[2:10], self.os.read(fileno, 8))
self.assertEqual(new_contents[10:], self.os.read(fileno, 100))
self.assertEqual(b'', self.os.read(fileno, 10))
self.assert_raises_os_error(errno.EBADF, self.os.write, fileno,
new_contents)
self.assert_raises_os_error(errno.EBADF, self.os.read, fileno, 10)
def test_write_from_different_f_ds(self):
# Regression test for #211
file_path = self.make_path('baz')
fd0 = self.os.open(file_path, os.O_CREAT | os.O_WRONLY | os.O_TRUNC)
fd1 = self.os.open(file_path, os.O_CREAT | os.O_WRONLY | os.O_TRUNC)
self.os.write(fd0, b'aaaa')
self.os.write(fd1, b'bb')
self.assertEqual(4, self.os.path.getsize(file_path))
self.check_contents(file_path, b'bbaa')
self.os.close(fd1)
self.os.close(fd0)
def test_write_from_different_fds_with_append(self):
# Regression test for #268
file_path = self.make_path('baz')
fd0 = self.os.open(file_path, os.O_CREAT | os.O_WRONLY | os.O_TRUNC)
fd1 = self.os.open(file_path, os.O_WRONLY | os.O_APPEND)
self.os.write(fd0, b'aaa')
self.os.write(fd1, b'bbb')
self.assertEqual(6, self.os.path.getsize(file_path))
self.check_contents(file_path, b'aaabbb')
self.os.close(fd1)
self.os.close(fd0)
def test_read_only_read_after_write(self):
# Regression test for #269
self.check_posix_only()
file_path = self.make_path('foo', 'bar', 'baz')
self.create_file(file_path, contents=b'test')
fd0 = self.os.open(file_path, os.O_CREAT)
fd1 = self.os.open(file_path, os.O_CREAT | os.O_WRONLY | os.O_TRUNC)
self.assertEqual(b'', self.os.read(fd0, 0))
self.os.close(fd1)
self.os.close(fd0)
def test_read_after_closing_write_descriptor(self):
# Regression test for #271
file_path = self.make_path('baz')
fd0 = self.os.open(file_path, os.O_CREAT | os.O_WRONLY | os.O_TRUNC)
fd1 = self.os.open(file_path, os.O_CREAT | os.O_WRONLY | os.O_TRUNC)
fd2 = self.os.open(file_path, os.O_CREAT)
self.os.write(fd1, b'abc')
self.os.close(fd0)
self.assertEqual(b'abc', self.os.read(fd2, 3))
self.os.close(fd2)
self.os.close(fd1)
def test_writing_behind_end_of_file(self):
# Regression test for #273
file_path = self.make_path('baz')
fd1 = self.os.open(file_path, os.O_CREAT)
fd2 = self.os.open(file_path, os.O_RDWR)
self.os.write(fd2, b'm')
fd3 = self.os.open(file_path, os.O_CREAT | os.O_WRONLY | os.O_TRUNC)
self.assertEqual(b'', self.os.read(fd2, 1))
self.os.write(fd2, b'm')
self.assertEqual(b'\x00m', self.os.read(fd1, 2))
self.os.close(fd1)
self.os.close(fd2)
self.os.close(fd3)
def test_devnull_posix(self):
self.check_posix_only()
self.assertTrue(self.os.path.exists(self.os.devnull))
def test_devnull_windows(self):
self.check_windows_only()
self.assertFalse(self.os.path.exists(self.os.devnull))
def test_write_devnull(self):
fd = self.os.open(self.os.devnull, os.O_RDWR)
self.assertEqual(4, self.os.write(fd, b'test'))
self.assertEqual(b'', self.os.read(fd, 4))
self.os.close(fd)
fd = self.os.open(self.os.devnull, os.O_RDONLY)
self.assertEqual(b'', self.os.read(fd, 4))
self.os.close(fd)
class RealOsModuleLowLevelFileOpTest(FakeOsModuleLowLevelFileOpTest):
def use_real_fs(self):
return True
class FakeOsModuleWalkTest(FakeOsModuleTestBase):
def assertWalkResults(self, expected, top, topdown=True,
followlinks=False):
# as the result of walk is unsorted, we have to check against
# sorted results
result = [step for step in self.os.walk(
top, topdown=topdown, followlinks=followlinks)]
result = sorted(result, key=lambda lst: lst[0])
expected = sorted(expected, key=lambda lst: lst[0])
self.assertEqual(len(expected), len(result))
for entry, expected_entry in zip(result, expected):
self.assertEqual(expected_entry[0], entry[0])
self.assertEqual(expected_entry[1], sorted(entry[1]))
self.assertEqual(expected_entry[2], sorted(entry[2]))
def ResetErrno(self):
"""Reset the last seen errno."""
self.last_errno = False
def StoreErrno(self, os_error):
"""Store the last errno we saw."""
self.last_errno = os_error.errno
def GetErrno(self):
"""Return the last errno we saw."""
return self.last_errno
def test_walk_top_down(self):
"""Walk down ordering is correct."""
base_dir = self.make_path('foo')
self.create_file(self.os.path.join(base_dir, '1.txt'))
self.create_file(self.os.path.join(base_dir, 'bar1', '2.txt'))
self.create_file(self.os.path.join(base_dir, 'bar1', 'baz', '3.txt'))
self.create_file(self.os.path.join(base_dir, 'bar2', '4.txt'))
expected = [
(base_dir, ['bar1', 'bar2'], ['1.txt']),
(self.os.path.join(base_dir, 'bar1'), ['baz'], ['2.txt']),
(self.os.path.join(base_dir, 'bar1', 'baz'), [], ['3.txt']),
(self.os.path.join(base_dir, 'bar2'), [], ['4.txt']),
]
self.assertWalkResults(expected, base_dir)
def test_walk_bottom_up(self):
"""Walk up ordering is correct."""
base_dir = self.make_path('foo')
self.create_file(self.os.path.join(base_dir, 'bar1', 'baz', '1.txt'))
self.create_file(self.os.path.join(base_dir, 'bar1', '2.txt'))
self.create_file(self.os.path.join(base_dir, 'bar2', '3.txt'))
self.create_file(self.os.path.join(base_dir, '4.txt'))
expected = [
(self.os.path.join(base_dir, 'bar1', 'baz'), [], ['1.txt']),
(self.os.path.join(base_dir, 'bar1'), ['baz'], ['2.txt']),
(self.os.path.join(base_dir, 'bar2'), [], ['3.txt']),
(base_dir, ['bar1', 'bar2'], ['4.txt']),
]
self.assertWalkResults(expected, self.make_path('foo'), topdown=False)
def test_walk_raises_if_non_existent(self):
"""Raises an exception when attempting to walk
non-existent directory."""
directory = self.make_path('foo', 'bar')
self.assertEqual(False, self.os.path.exists(directory))
generator = self.os.walk(directory)
self.assertRaises(StopIteration, next, generator)
def test_walk_raises_if_not_directory(self):
"""Raises an exception when attempting to walk a non-directory."""
filename = self.make_path('foo', 'bar')
self.create_file(filename)
generator = self.os.walk(filename)
self.assertRaises(StopIteration, next, generator)
def test_walk_calls_on_error_if_non_existent(self):
"""Calls onerror with correct errno when walking
non-existent directory."""
self.ResetErrno()
directory = self.make_path('foo', 'bar')
self.assertEqual(False, self.os.path.exists(directory))
# Calling os.walk on a non-existent directory should trigger
# a call to the onerror method.
# We do not actually care what, if anything, is returned.
for _ in self.os.walk(directory, onerror=self.StoreErrno):
pass
self.assertTrue(self.GetErrno() in (errno.ENOTDIR, errno.ENOENT))
def test_walk_calls_on_error_if_not_directory(self):
"""Calls onerror with correct errno when walking non-directory."""
self.ResetErrno()
filename = self.make_path('foo' 'bar')
self.create_file(filename)
self.assertEqual(True, self.os.path.exists(filename))
# Calling `os.walk` on a file should trigger a call to the
# `onerror` method.
# We do not actually care what, if anything, is returned.
for _ in self.os.walk(filename, onerror=self.StoreErrno):
pass
self.assertTrue(self.GetErrno() in (self.not_dir_error(),
errno.EACCES))
def test_walk_skips_removed_directories(self):
"""Caller can modify list of directories to visit while walking."""
root = self.make_path('foo')
visit = 'visit'
no_visit = 'no_visit'
self.create_file(self.os.path.join(root, 'bar'))
self.create_file(self.os.path.join(root, visit, '1.txt'))
self.create_file(self.os.path.join(root, visit, '2.txt'))
self.create_file(self.os.path.join(root, no_visit, '3.txt'))
self.create_file(self.os.path.join(root, no_visit, '4.txt'))
generator = self.os.walk(self.make_path('foo'))
root_contents = next(generator)
root_contents[1].remove(no_visit)
visited_visit_directory = False
for root, _dirs, _files in iter(generator):
self.assertEqual(False, root.endswith(self.os.path.sep + no_visit))
if root.endswith(self.os.path.sep + visit):
visited_visit_directory = True
self.assertEqual(True, visited_visit_directory)
def test_walk_followsymlink_disabled(self):
self.check_posix_only()
base_dir = self.make_path('foo')
link_dir = self.make_path('linked')
self.create_file(self.os.path.join(link_dir, 'subfile'))
self.create_file(self.os.path.join(base_dir, 'bar', 'baz'))
self.create_file(self.os.path.join(base_dir, 'bar', 'xyzzy', 'plugh'))
self.create_symlink(
self.os.path.join(base_dir, 'created_link'), link_dir)
expected = [
(base_dir, ['bar', 'created_link'], []),
(self.os.path.join(base_dir, 'bar'), ['xyzzy'], ['baz']),
(self.os.path.join(base_dir, 'bar', 'xyzzy'), [], ['plugh']),
]
self.assertWalkResults(expected, base_dir, followlinks=False)
expected = [(self.os.path.join(base_dir, 'created_link'),
[], ['subfile'])]
self.assertWalkResults(expected,
self.os.path.join(base_dir, 'created_link'),
followlinks=False)
def test_walk_followsymlink_enabled(self):
self.check_posix_only()
base_dir = self.make_path('foo')
link_dir = self.make_path('linked')
self.create_file(self.os.path.join(link_dir, 'subfile'))
self.create_file(self.os.path.join(base_dir, 'bar', 'baz'))
self.create_file(self.os.path.join(base_dir, 'bar', 'xyzzy', 'plugh'))
self.create_symlink(self.os.path.join(base_dir, 'created_link'),
self.os.path.join(link_dir))
expected = [
(base_dir, ['bar', 'created_link'], []),
(self.os.path.join(base_dir, 'bar'), ['xyzzy'], ['baz']),
(self.os.path.join(base_dir, 'bar', 'xyzzy'), [], ['plugh']),
(self.os.path.join(base_dir, 'created_link'), [], ['subfile']),
]
self.assertWalkResults(expected, base_dir, followlinks=True)
expected = [(self.os.path.join(base_dir, 'created_link'),
[], ['subfile'])]
self.assertWalkResults(expected,
self.os.path.join(base_dir, 'created_link'),
followlinks=True)
class RealOsModuleWalkTest(FakeOsModuleWalkTest):
def use_real_fs(self):
return True
@unittest.skipIf(sys.version_info < (3, 3),
'dir_fd argument was introduced in Python 3.3')
class FakeOsModuleDirFdTest(FakeOsModuleTestBase):
def setUp(self):
super(FakeOsModuleDirFdTest, self).setUp()
self.os.supports_dir_fd = set()
self.filesystem.is_windows_fs = False
self.filesystem.create_dir('/foo/bar')
self.dir_fd = self.os.open('/foo', os.O_RDONLY)
self.filesystem.create_file('/foo/baz')
def test_access(self):
self.assertRaises(
NotImplementedError, self.os.access, 'baz', self.os.F_OK,
dir_fd=self.dir_fd)
self.os.supports_dir_fd.add(os.access)
self.assertTrue(
self.os.access('baz', self.os.F_OK, dir_fd=self.dir_fd))
def test_chmod(self):
self.assertRaises(
NotImplementedError, self.os.chmod, 'baz', 0o6543,
dir_fd=self.dir_fd)
self.os.supports_dir_fd.add(os.chmod)
self.os.chmod('baz', 0o6543, dir_fd=self.dir_fd)
st = self.os.stat('/foo/baz')
self.assert_mode_equal(0o6543, st.st_mode)
@unittest.skipIf(not hasattr(os, 'chown'),
'chown not on all platforms available')
def test_chown(self):
self.assertRaises(
NotImplementedError, self.os.chown, 'baz', 100, 101,
dir_fd=self.dir_fd)
self.os.supports_dir_fd.add(os.chown)
self.os.chown('baz', 100, 101, dir_fd=self.dir_fd)
st = self.os.stat('/foo/baz')
self.assertEqual(st[stat.ST_UID], 100)
self.assertEqual(st[stat.ST_GID], 101)
def test_link_src_fd(self):
self.assertRaises(
NotImplementedError, self.os.link, 'baz', '/bat',
src_dir_fd=self.dir_fd)
self.os.supports_dir_fd.add(os.link)
self.os.link('baz', '/bat', src_dir_fd=self.dir_fd)
self.assertTrue(self.os.path.exists('/bat'))
def test_link_dst_fd(self):
self.assertRaises(
NotImplementedError, self.os.link, 'baz', '/bat',
dst_dir_fd=self.dir_fd)
self.os.supports_dir_fd.add(os.link)
self.os.link('/foo/baz', 'bat', dst_dir_fd=self.dir_fd)
self.assertTrue(self.os.path.exists('/foo/bat'))
def test_symlink(self):
self.assertRaises(
NotImplementedError, self.os.symlink, 'baz', '/bat',
dir_fd=self.dir_fd)
self.os.supports_dir_fd.add(os.symlink)
self.os.symlink('baz', '/bat', dir_fd=self.dir_fd)
self.assertTrue(self.os.path.exists('/bat'))
def test_readlink(self):
self.filesystem.create_symlink('/meyer/lemon/pie', '/foo/baz')
self.filesystem.create_symlink('/geo/metro', '/meyer')
self.assertRaises(
NotImplementedError, self.os.readlink, '/geo/metro/lemon/pie',
dir_fd=self.dir_fd)
self.os.supports_dir_fd.add(os.readlink)
self.assertEqual('/foo/baz', self.os.readlink(
'/geo/metro/lemon/pie', dir_fd=self.dir_fd))
def test_stat(self):
self.assertRaises(
NotImplementedError, self.os.stat, 'baz', dir_fd=self.dir_fd)
self.os.supports_dir_fd.add(os.stat)
st = self.os.stat('baz', dir_fd=self.dir_fd)
self.assertEqual(st.st_mode, 0o100666)
def test_lstat(self):
self.assertRaises(
NotImplementedError, self.os.lstat, 'baz', dir_fd=self.dir_fd)
self.os.supports_dir_fd.add(os.lstat)
st = self.os.lstat('baz', dir_fd=self.dir_fd)
self.assertEqual(st.st_mode, 0o100666)
def test_mkdir(self):
self.assertRaises(
NotImplementedError, self.os.mkdir, 'newdir', dir_fd=self.dir_fd)
self.os.supports_dir_fd.add(os.mkdir)
self.os.mkdir('newdir', dir_fd=self.dir_fd)
self.assertTrue(self.os.path.exists('/foo/newdir'))
def test_rmdir(self):
self.assertRaises(
NotImplementedError, self.os.rmdir, 'bar', dir_fd=self.dir_fd)
self.os.supports_dir_fd.add(os.rmdir)
self.os.rmdir('bar', dir_fd=self.dir_fd)
self.assertFalse(self.os.path.exists('/foo/bar'))
@unittest.skipIf(not hasattr(os, 'mknod'),
'mknod not on all platforms available')
def test_mknod(self):
self.assertRaises(
NotImplementedError, self.os.mknod, 'newdir', dir_fd=self.dir_fd)
self.os.supports_dir_fd.add(os.mknod)
self.os.mknod('newdir', dir_fd=self.dir_fd)
self.assertTrue(self.os.path.exists('/foo/newdir'))
def test_rename_src_fd(self):
self.assertRaises(
NotImplementedError, self.os.rename, 'baz', '/foo/batz',
src_dir_fd=self.dir_fd)
self.os.supports_dir_fd.add(os.rename)
self.os.rename('bar', '/foo/batz', src_dir_fd=self.dir_fd)
self.assertTrue(self.os.path.exists('/foo/batz'))
def test_rename_dst_fd(self):
self.assertRaises(
NotImplementedError, self.os.rename, 'baz', '/foo/batz',
dst_dir_fd=self.dir_fd)
self.os.supports_dir_fd.add(os.rename)
self.os.rename('/foo/bar', 'batz', dst_dir_fd=self.dir_fd)
self.assertTrue(self.os.path.exists('/foo/batz'))
def test_replace_src_fd(self):
self.assertRaises(
NotImplementedError, self.os.rename, 'baz', '/foo/batz',
src_dir_fd=self.dir_fd)
self.os.supports_dir_fd.add(os.rename)
self.os.replace('bar', '/foo/batz', src_dir_fd=self.dir_fd)
self.assertTrue(self.os.path.exists('/foo/batz'))
def test_replace_dst_fd(self):
self.assertRaises(
NotImplementedError, self.os.rename, 'baz', '/foo/batz',
dst_dir_fd=self.dir_fd)
self.os.supports_dir_fd.add(os.rename)
self.os.replace('/foo/bar', 'batz', dst_dir_fd=self.dir_fd)
self.assertTrue(self.os.path.exists('/foo/batz'))
def test_remove(self):
self.assertRaises(
NotImplementedError, self.os.remove, 'baz', dir_fd=self.dir_fd)
self.os.supports_dir_fd.add(os.remove)
self.os.remove('baz', dir_fd=self.dir_fd)
self.assertFalse(self.os.path.exists('/foo/baz'))
def test_unlink(self):
self.assertRaises(
NotImplementedError, self.os.unlink, 'baz', dir_fd=self.dir_fd)
self.os.supports_dir_fd.add(os.unlink)
self.os.unlink('baz', dir_fd=self.dir_fd)
self.assertFalse(self.os.path.exists('/foo/baz'))
def test_utime(self):
self.assertRaises(
NotImplementedError, self.os.utime, 'baz', (1, 2),
dir_fd=self.dir_fd)
self.os.supports_dir_fd.add(os.utime)
self.os.utime('baz', (1, 2), dir_fd=self.dir_fd)
st = self.os.stat('/foo/baz')
self.assertEqual(1, st.st_atime)
self.assertEqual(2, st.st_mtime)
def test_open(self):
self.assertRaises(
NotImplementedError, self.os.open, 'baz', os.O_RDONLY,
dir_fd=self.dir_fd)
self.os.supports_dir_fd.add(os.open)
fd = self.os.open('baz', os.O_RDONLY, dir_fd=self.dir_fd)
self.assertLess(0, fd)
class StatPropagationTest(TestCase):
def setUp(self):
self.filesystem = fake_filesystem.FakeFilesystem(path_separator='/')
self.os = fake_filesystem.FakeOsModule(self.filesystem)
self.open = fake_filesystem.FakeFileOpen(self.filesystem)
def test_file_size_updated_via_close(self):
"""test that file size gets updated via close()."""
file_dir = 'xyzzy'
file_path = 'xyzzy/close'
content = 'This is a test.'
self.os.mkdir(file_dir)
fh = self.open(file_path, 'w')
self.assertEqual(0, self.os.stat(file_path)[stat.ST_SIZE])
self.assertEqual('', self.filesystem.get_object(file_path).contents)
fh.write(content)
self.assertEqual(0, self.os.stat(file_path)[stat.ST_SIZE])
self.assertEqual('', self.filesystem.get_object(file_path).contents)
fh.close()
self.assertEqual(len(content), self.os.stat(file_path)[stat.ST_SIZE])
self.assertEqual(content,
self.filesystem.get_object(file_path).contents)
def test_file_size_not_reset_after_close(self):
file_dir = 'xyzzy'
file_path = 'xyzzy/close'
self.os.mkdir(file_dir)
size = 1234
# The file has size, but no content. When the file is opened for
# reading, its size should be preserved.
self.filesystem.create_file(file_path, st_size=size)
fh = self.open(file_path, 'r')
fh.close()
self.assertEqual(size, self.open(file_path, 'r').size())
def test_file_size_after_write(self):
file_path = 'test_file'
original_content = 'abcdef'
original_size = len(original_content)
self.filesystem.create_file(file_path, contents=original_content)
added_content = 'foo bar'
expected_size = original_size + len(added_content)
fh = self.open(file_path, 'a')
fh.write(added_content)
self.assertEqual(original_size, fh.size())
fh.close()
self.assertEqual(expected_size, self.open(file_path, 'r').size())
def test_large_file_size_after_write(self):
file_path = 'test_file'
original_content = 'abcdef'
original_size = len(original_content)
self.filesystem.create_file(file_path, st_size=original_size)
added_content = 'foo bar'
fh = self.open(file_path, 'a')
self.assertRaises(fake_filesystem.FakeLargeFileIoException,
lambda: fh.write(added_content))
def test_file_size_updated_via_flush(self):
"""test that file size gets updated via flush()."""
file_dir = 'xyzzy'
file_name = 'flush'
file_path = self.os.path.join(file_dir, file_name)
content = 'This might be a test.'
self.os.mkdir(file_dir)
fh = self.open(file_path, 'w')
self.assertEqual(0, self.os.stat(file_path)[stat.ST_SIZE])
self.assertEqual('', self.filesystem.get_object(file_path).contents)
fh.write(content)
self.assertEqual(0, self.os.stat(file_path)[stat.ST_SIZE])
self.assertEqual('', self.filesystem.get_object(file_path).contents)
fh.flush()
self.assertEqual(len(content), self.os.stat(file_path)[stat.ST_SIZE])
self.assertEqual(content,
self.filesystem.get_object(file_path).contents)
fh.close()
self.assertEqual(len(content), self.os.stat(file_path)[stat.ST_SIZE])
self.assertEqual(content,
self.filesystem.get_object(file_path).contents)
def test_file_size_truncation(self):
"""test that file size gets updated via open()."""
file_dir = 'xyzzy'
file_path = 'xyzzy/truncation'
content = 'AAA content.'
# pre-create file with content
self.os.mkdir(file_dir)
fh = self.open(file_path, 'w')
fh.write(content)
fh.close()
self.assertEqual(len(content), self.os.stat(file_path)[stat.ST_SIZE])
self.assertEqual(content,
self.filesystem.get_object(file_path).contents)
# test file truncation
fh = self.open(file_path, 'w')
self.assertEqual(0, self.os.stat(file_path)[stat.ST_SIZE])
self.assertEqual('', self.filesystem.get_object(file_path).contents)
fh.close()
@unittest.skipIf(not use_scandir, 'only run if scandir is available')
class FakeScandirTest(FakeOsModuleTestBase):
FILE_SIZE = 50
LINKED_FILE_SIZE = 10
def setUp(self):
super(FakeScandirTest, self).setUp()
self.supports_symlinks = (not self.is_windows or
not self.use_real_fs() and
not self.is_python2)
if use_scandir_package:
if self.use_real_fs():
from scandir import scandir
else:
import pyfakefs.fake_scandir
def fake_scan_dir(p):
return pyfakefs.fake_scandir.scandir(self.filesystem, p)
scandir = fake_scan_dir
else:
scandir = self.os.scandir
self.scandir = scandir
self.directory = self.make_path('xyzzy', 'plugh')
link_dir = self.make_path('linked', 'plugh')
self.linked_file_path = self.os.path.join(link_dir, 'file')
self.linked_dir_path = self.os.path.join(link_dir, 'dir')
self.rel_linked_dir_path = (
self.os.path.join('..', '..', 'linked', 'plugh', 'dir'))
self.rel_linked_file_path = (
self.os.path.join('..', '..', 'linked', 'plugh', 'file'))
self.dir_path = self.os.path.join(self.directory, 'dir')
self.file_path = self.os.path.join(self.directory, 'file')
self.file_link_path = self.os.path.join(self.directory, 'link_file')
self.dir_link_path = self.os.path.join(self.directory, 'link_dir')
self.file_rel_link_path = self.os.path.join(self.directory,
'rel_link_file')
self.dir_rel_link_path = self.os.path.join(self.directory,
'rel_link_dir')
self.create_dir(self.dir_path)
self.create_file(self.file_path, contents=b'b' * self.FILE_SIZE)
if self.supports_symlinks:
self.create_dir(self.linked_dir_path)
self.create_file(self.linked_file_path,
contents=b'a' * self.LINKED_FILE_SIZE),
self.create_symlink(self.dir_link_path, self.linked_dir_path)
self.create_symlink(self.file_link_path, self.linked_file_path)
self.create_symlink(self.dir_rel_link_path,
self.rel_linked_dir_path)
self.create_symlink(self.file_rel_link_path,
self.rel_linked_file_path)
# Changing the working directory below is to make sure relative paths
# to the files and directories created above are reasonable.
# Corner-cases about relative paths are better checked in tests created
# for that purpose.
#
# WARNING: This is self.pretest_cwd and not self.cwd as the latter is
# used by superclass RealFsTestCase.
self.pretest_cwd = self.os.getcwd()
self.os.chdir(self.base_path)
self.dir_entries = list(self.do_scandir())
self.dir_entries.sort(key=lambda entry: entry.name)
def tearDown(self):
self.os.chdir(self.pretest_cwd)
super(FakeScandirTest, self).tearDown()
def do_scandir(self):
"""Hook to override how scandir is called."""
return self.scandir(self.directory)
def scandir_path(self):
"""Hook to override the expected scandir() path in DirEntry.path."""
return self.directory
def test_paths(self):
sorted_names = ['dir', 'file']
if self.supports_symlinks:
sorted_names.extend(['link_dir', 'link_file', 'rel_link_dir',
'rel_link_file'])
self.assertEqual(len(sorted_names), len(self.dir_entries))
self.assertEqual(sorted_names,
[entry.name for entry in self.dir_entries])
sorted_paths = [self.os.path.join(self.scandir_path(), name)
for name in sorted_names]
self.assertEqual(sorted_paths,
[entry.path for entry in self.dir_entries])
def test_isfile(self):
self.assertFalse(self.dir_entries[0].is_file())
self.assertTrue(self.dir_entries[1].is_file())
if self.supports_symlinks:
self.assertFalse(self.dir_entries[2].is_file())
self.assertFalse(
self.dir_entries[2].is_file(follow_symlinks=False))
self.assertTrue(self.dir_entries[3].is_file())
self.assertFalse(
self.dir_entries[3].is_file(follow_symlinks=False))
self.assertFalse(self.dir_entries[4].is_file())
self.assertFalse(
self.dir_entries[4].is_file(follow_symlinks=False))
self.assertTrue(self.dir_entries[5].is_file())
self.assertFalse(
self.dir_entries[5].is_file(follow_symlinks=False))
def test_isdir(self):
self.assertTrue(self.dir_entries[0].is_dir())
self.assertFalse(self.dir_entries[1].is_dir())
if self.supports_symlinks:
self.assertTrue(self.dir_entries[2].is_dir())
self.assertFalse(self.dir_entries[2].is_dir(follow_symlinks=False))
self.assertFalse(self.dir_entries[3].is_dir())
self.assertFalse(self.dir_entries[3].is_dir(follow_symlinks=False))
self.assertTrue(self.dir_entries[4].is_dir())
self.assertFalse(self.dir_entries[4].is_dir(follow_symlinks=False))
self.assertFalse(self.dir_entries[5].is_dir())
self.assertFalse(self.dir_entries[5].is_dir(follow_symlinks=False))
def test_is_link(self):
if self.supports_symlinks:
self.assertFalse(self.dir_entries[0].is_symlink())
self.assertFalse(self.dir_entries[1].is_symlink())
self.assertTrue(self.dir_entries[2].is_symlink())
self.assertTrue(self.dir_entries[3].is_symlink())
self.assertTrue(self.dir_entries[4].is_symlink())
self.assertTrue(self.dir_entries[5].is_symlink())
def test_path_links_not_resolved(self):
# regression test for #350
self.skip_if_symlink_not_supported()
dir_path = self.make_path('A', 'B', 'C')
self.os.makedirs(self.os.path.join(dir_path, 'D'))
link_path = self.make_path('A', 'C')
self.os.symlink(dir_path, link_path)
self.assertEqual([self.os.path.join(link_path, 'D')],
[f.path for f in self.scandir(link_path)])
def test_inode(self):
if use_scandir and self.use_real_fs():
if self.is_windows:
self.skipTest(
'inode seems not to work in scandir module under Windows')
if IN_DOCKER:
self.skipTest(
'inode seems not to work in a Docker container')
self.assertEqual(self.os.stat(self.dir_path).st_ino,
self.dir_entries[0].inode())
self.assertEqual(self.os.stat(self.file_path).st_ino,
self.dir_entries[1].inode())
if self.supports_symlinks:
self.assertEqual(self.os.lstat(self.dir_link_path).st_ino,
self.dir_entries[2].inode())
self.assertEqual(self.os.lstat(self.file_link_path).st_ino,
self.dir_entries[3].inode())
self.assertEqual(self.os.lstat(self.dir_rel_link_path).st_ino,
self.dir_entries[4].inode())
self.assertEqual(self.os.lstat(self.file_rel_link_path).st_ino,
self.dir_entries[5].inode())
def check_stat(self, absolute_symlink_expected_size,
relative_symlink_expected_size):
self.assertEqual(self.FILE_SIZE, self.dir_entries[1].stat().st_size)
self.assertEqual(
self.os.stat(self.dir_path).st_ctime,
self.dir_entries[0].stat().st_ctime)
if self.supports_symlinks:
self.assertEqual(self.LINKED_FILE_SIZE,
self.dir_entries[3].stat().st_size)
self.assertEqual(absolute_symlink_expected_size,
self.dir_entries[3].stat(
follow_symlinks=False).st_size)
self.assertEqual(
self.os.stat(self.linked_dir_path).st_mtime,
self.dir_entries[2].stat().st_mtime)
self.assertEqual(self.LINKED_FILE_SIZE,
self.dir_entries[5].stat().st_size)
self.assertEqual(relative_symlink_expected_size,
self.dir_entries[5].stat(
follow_symlinks=False).st_size)
self.assertEqual(
self.os.stat(self.linked_dir_path).st_mtime,
self.dir_entries[4].stat().st_mtime)
@unittest.skipIf(TestCase.is_windows, 'POSIX specific behavior')
def test_stat_posix(self):
self.check_stat(len(self.linked_file_path),
len(self.rel_linked_file_path))
@unittest.skipIf(not TestCase.is_windows, 'Windows specific behavior')
def test_stat_windows(self):
self.check_stat(0, 0)
def test_index_access_to_stat_times_returns_int(self):
self.assertEqual(self.os.stat(self.dir_path)[stat.ST_CTIME],
int(self.dir_entries[0].stat().st_ctime))
if self.supports_symlinks:
self.assertEqual(self.os.stat(self.linked_dir_path)[stat.ST_MTIME],
int(self.dir_entries[2].stat().st_mtime))
self.assertEqual(self.os.stat(self.linked_dir_path)[stat.ST_MTIME],
int(self.dir_entries[4].stat().st_mtime))
def test_stat_ino_dev(self):
if self.supports_symlinks:
file_stat = self.os.stat(self.linked_file_path)
self.assertEqual(file_stat.st_ino,
self.dir_entries[3].stat().st_ino)
self.assertEqual(file_stat.st_dev,
self.dir_entries[3].stat().st_dev)
self.assertEqual(file_stat.st_ino,
self.dir_entries[5].stat().st_ino)
self.assertEqual(file_stat.st_dev,
self.dir_entries[5].stat().st_dev)
@unittest.skipIf(sys.version_info < (3, 6) or not use_builtin_scandir,
'Path-like objects have been introduced in Python 3.6')
def test_path_like(self):
self.assertTrue(isinstance(self.dir_entries[0], os.PathLike))
self.assertEqual(self.os.path.join(self.scandir_path(), 'dir'),
os.fspath(self.dir_entries[0]))
self.assertEqual(self.os.path.join(self.scandir_path(), 'file'),
os.fspath(self.dir_entries[1]))
@unittest.skipIf(IS_PY2 and TestCase.is_windows,
'Exception subtype differs')
def test_non_existing_dir(self):
self.assert_raises_os_error(
errno.ENOENT, self.scandir, 'non_existing/fake_dir')
@unittest.skipIf(not IS_PY2 or not TestCase.is_windows,
'Exception subtype differs')
def test_non_existing_dir(self):
self.assert_raises_os_error(
errno.ESRCH, self.scandir, 'non_existing/fake_dir')
class RealScandirTest(FakeScandirTest):
def use_real_fs(self):
return True
class FakeScandirRelTest(FakeScandirTest):
def scandir_path(self):
# When scandir is called with a relative path, that relative path is
# used in the path attribute of the DirEntry objects.
return self.os.path.relpath(self.directory)
def do_scandir(self):
return self.scandir(self.os.path.relpath(self.directory))
class RealScandirRelTest(FakeScandirRelTest):
def use_real_fs(self):
return True
@unittest.skipIf(sys.version_info < (3, 7) or TestCase.is_windows or
use_scandir_package,
'dir_fd support for os.scandir was introduced in Python 3.7')
class FakeScandirFdTest(FakeScandirTest):
def tearDown(self):
self.os.close(self.dir_fd)
super(FakeScandirFdTest, self).tearDown()
def scandir_path(self):
# When scandir is called with a filedescriptor, only the name of the
# entry is returned in the path attribute of the DirEntry objects.
return ''
def do_scandir(self):
self.dir_fd = self.os.open(self.directory, os.O_RDONLY)
return self.scandir(self.dir_fd)
class RealScandirFdTest(FakeScandirFdTest):
def use_real_fs(self):
return True
class FakeScandirFdRelTest(FakeScandirFdTest):
def do_scandir(self):
self.dir_fd = self.os.open(self.os.path.relpath(self.directory),
os.O_RDONLY)
return self.scandir(self.dir_fd)
class RealScandirFdRelTest(FakeScandirFdRelTest):
def use_real_fs(self):
return True
@unittest.skipIf(TestCase.is_python2,
reason='Xattr only supported in Linux/Python 3')
class FakeExtendedAttributeTest(FakeOsModuleTestBase):
def setUp(self):
super(FakeExtendedAttributeTest, self).setUp()
self.check_linux_only()
self.dir_path = self.make_path('foo')
self.file_path = self.os.path.join(self.dir_path, 'bar')
self.create_file(self.file_path)
def test_empty_xattr(self):
self.assertEqual([], self.os.listxattr(self.dir_path))
self.assertEqual([], self.os.listxattr(self.file_path))
def test_setxattr(self):
self.assertRaises(TypeError, self.os.setxattr,
self.file_path, 'test', 'value')
self.assert_raises_os_error(errno.EEXIST, self.os.setxattr,
self.file_path, 'test', b'value',
self.os.XATTR_REPLACE)
self.os.setxattr(self.file_path, 'test', b'value')
self.assertEqual(b'value', self.os.getxattr(self.file_path, 'test'))
self.assert_raises_os_error(errno.ENODATA, self.os.setxattr,
self.file_path, 'test', b'value',
self.os.XATTR_CREATE)
def test_removeattr(self):
self.os.removexattr(self.file_path, 'test')
self.assertEqual([], self.os.listxattr(self.file_path))
self.os.setxattr(self.file_path, b'test', b'value')
self.assertEqual(['test'], self.os.listxattr(self.file_path))
self.assertEqual(b'value', self.os.getxattr(self.file_path, 'test'))
self.os.removexattr(self.file_path, 'test')
self.assertEqual([], self.os.listxattr(self.file_path))
self.assertIsNone(self.os.getxattr(self.file_path, 'test'))
def test_default_path(self):
self.os.chdir(self.dir_path)
self.os.setxattr(self.dir_path, b'test', b'value')
self.assertEqual(['test'], self.os.listxattr())
self.assertEqual(b'value', self.os.getxattr(self.dir_path, 'test'))
class FakeOsUnreadableDirTest(FakeOsModuleTestBase):
def setUp(self):
super(FakeOsUnreadableDirTest, self).setUp()
self.check_posix_only()
self.dir_path = self.make_path('some_dir')
self.file_path = self.os.path.join(self.dir_path, 'some_file')
self.create_file(self.file_path)
self.os.chmod(self.dir_path, 0o000)
def test_listdir_unreadable_dir(self):
if not is_root():
self.assert_raises_os_error(
errno.EACCES, self.os.listdir, self.dir_path)
else:
self.assertEqual(['some_file'], self.os.listdir(self.dir_path))
def test_stat_unreadable_dir(self):
self.assertEqual(0, self.os.stat(self.dir_path).st_mode & 0o666)
def test_stat_file_in_unreadable_dir(self):
if not is_root():
self.assert_raises_os_error(
errno.EACCES, self.os.stat, self.file_path)
else:
self.assertEqual(0, self.os.stat(self.file_path).st_size)
class RealOsUnreadableDirTest(FakeOsUnreadableDirTest):
def use_real_fs(self):
return True