GRAYBYTE | AutoShopMaker

Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

# 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. """Unittest for fake_filesystem module.""" import contextlib import errno import os import stat import sys import unittest from pyfakefs import fake_filesystem, fake_os, fake_open from pyfakefs.fake_filesystem import ( set_uid, set_gid, is_root, reset_ids, OSType, ) from pyfakefs.helpers import IS_WIN from pyfakefs.tests.test_utils import TestCase, RealFsTestCase, time_mock class FakeDirectoryUnitTest(TestCase): def setUp(self): self.filesystem = fake_filesystem.FakeFilesystem(path_separator="/") self.os = fake_os.FakeOsModule(self.filesystem) self.time = time_mock(10, 1) self.time.start() self.fake_file = fake_filesystem.FakeFile( "foobar", contents="dummy_file", filesystem=self.filesystem ) self.fake_dir = fake_filesystem.FakeDirectory( "somedir", filesystem=self.filesystem ) def tearDown(self): self.time.stop() def test_new_file_and_directory(self): self.assertTrue(stat.S_IFREG & self.fake_file.st_mode) self.assertTrue(stat.S_IFDIR & self.fake_dir.st_mode) self.assertEqual({}, self.fake_dir.entries) def test_add_entry(self): self.fake_dir.add_entry(self.fake_file) self.assertEqual({"foobar": self.fake_file}, self.fake_dir.entries) def test_get_entry(self): self.fake_dir.add_entry(self.fake_file) self.assertEqual(self.fake_file, self.fake_dir.get_entry("foobar")) def test_path(self): root_dir = self.filesystem.root_dir_name self.filesystem.root.add_entry(self.fake_dir) self.fake_dir.add_entry(self.fake_file) self.assertEqual(f"{root_dir}somedir/foobar", self.fake_file.path) self.assertEqual(f"{root_dir}somedir", self.fake_dir.path) def test_path_with_drive(self): self.filesystem.is_windows_fs = True dir_path = "C:/foo/bar/baz" self.filesystem.create_dir(dir_path) dir_object = self.filesystem.get_object(dir_path) self.assertEqual(dir_path, dir_object.path) def test_path_after_chdir(self): root_dir = self.filesystem.root_dir_name dir_path = "/foo/bar/baz" self.filesystem.create_dir(dir_path) self.os.chdir(dir_path) dir_object = self.filesystem.get_object(dir_path) self.assertEqual(f"{root_dir}foo/bar/baz", dir_object.path) def test_path_after_chdir_with_drive(self): self.filesystem.is_windows_fs = True dir_path = "C:/foo/bar/baz" self.filesystem.create_dir(dir_path) self.os.chdir(dir_path) dir_object = self.filesystem.get_object(dir_path) self.assertEqual(dir_path, dir_object.path) def test_remove_entry(self): self.fake_dir.add_entry(self.fake_file) self.assertEqual(self.fake_file, self.fake_dir.get_entry("foobar")) self.fake_dir.remove_entry("foobar") with self.assertRaises(KeyError): self.fake_dir.get_entry("foobar") def test_should_throw_if_set_size_is_not_integer(self): with self.raises_os_error(errno.ENOSPC): self.fake_file.size = 0.1 def test_should_throw_if_set_size_is_negative(self): with self.raises_os_error(errno.ENOSPC): self.fake_file.size = -1 def test_produce_empty_file_if_set_size_is_zero(self): self.fake_file.size = 0 self.assertEqual("", self.fake_file.contents) def test_sets_content_empty_if_set_size_is_zero(self): self.fake_file.size = 0 self.assertEqual("", self.fake_file.contents) def test_truncate_file_if_size_is_smaller_than_current_size(self): self.fake_file.size = 6 self.assertEqual("dummy_", self.fake_file.contents) def test_leave_file_unchanged_if_size_is_equal_to_current_size(self): self.fake_file.size = 10 self.assertEqual("dummy_file", self.fake_file.contents) def test_set_contents_to_dir_raises(self): # Regression test for #276 self.filesystem.is_windows_fs = True with self.raises_os_error(errno.EISDIR): self.fake_dir.set_contents("a") self.filesystem.is_windows_fs = False with self.raises_os_error(errno.EISDIR): self.fake_dir.set_contents("a") def test_pads_with_nullbytes_if_size_is_greater_than_current_size(self): self.fake_file.size = 13 self.assertEqual("dummy_file\0\0\0", self.fake_file.contents) def test_set_m_time(self): self.assertEqual(10, self.fake_file.st_mtime) self.fake_file.st_mtime = 14 self.assertEqual(14, self.fake_file.st_mtime) self.fake_file.st_mtime = 131 self.assertEqual(131, self.fake_file.st_mtime) def test_file_inode(self): filesystem = fake_filesystem.FakeFilesystem(path_separator="/") fake_os_module = fake_os.FakeOsModule(filesystem) file_path = "some_file1" filesystem.create_file(file_path, contents="contents here1") self.assertLess(0, fake_os_module.stat(file_path)[stat.ST_INO]) file_obj = filesystem.get_object(file_path) file_obj.st_ino = 43 self.assertEqual(43, fake_os_module.stat(file_path)[stat.ST_INO]) def test_directory_inode(self): filesystem = fake_filesystem.FakeFilesystem(path_separator="/") fake_os_module = fake_os.FakeOsModule(filesystem) dirpath = "testdir" filesystem.create_dir(dirpath) self.assertLess(0, fake_os_module.stat(dirpath)[stat.ST_INO]) dir_obj = filesystem.get_object(dirpath) dir_obj.st_ino = 43 self.assertEqual(43, fake_os_module.stat(dirpath)[stat.ST_INO]) def test_directory_size(self): fs = fake_filesystem.FakeFilesystem(path_separator="/") foo_dir = fs.create_dir("/foo") fs.create_file("/foo/bar.txt", st_size=20) bar_dir = fs.create_dir("/foo/bar/") fs.create_file("/foo/bar/baz1.txt", st_size=30) fs.create_file("/foo/bar/baz2.txt", st_size=40) foo1_dir = fs.create_dir("/foo1") fs.create_file("/foo1/bar.txt", st_size=50) fs.create_file("/foo1/bar/baz/file", st_size=60) self.assertEqual(90, foo_dir.size) self.assertEqual(70, bar_dir.size) self.assertEqual(110, foo1_dir.size) self.assertEqual(200, fs.root_dir.size) with self.raises_os_error(errno.EISDIR): foo1_dir.size = 100 def test_ordered_dirs(self): filesystem = fake_filesystem.FakeFilesystem(path_separator="/") filesystem.create_dir("/foo") filesystem.create_file("/foo/2") filesystem.create_file("/foo/4") filesystem.create_file("/foo/1") filesystem.create_file("/foo/3") fake_dir = filesystem.get_object("/foo") self.assertEqual(["2", "4", "1", "3"], fake_dir.ordered_dirs) class SetLargeFileSizeTest(TestCase): def setUp(self): filesystem = fake_filesystem.FakeFilesystem() self.fake_file = fake_filesystem.FakeFile("foobar", filesystem=filesystem) def test_should_throw_if_size_is_not_integer(self): with self.raises_os_error(errno.ENOSPC): self.fake_file.set_large_file_size(0.1) def test_should_throw_if_size_is_negative(self): with self.raises_os_error(errno.ENOSPC): self.fake_file.set_large_file_size(-1) def test_sets_content_none_if_size_is_non_negative_integer(self): self.fake_file.set_large_file_size(1000000000) self.assertEqual(None, self.fake_file.contents) self.assertEqual(1000000000, self.fake_file.st_size) class NormalizePathTest(TestCase): def setUp(self): self.filesystem = fake_filesystem.FakeFilesystem(path_separator="/") self.root_name = self.filesystem.root_dir_name def test_empty_path_should_get_normalized_to_root_path(self): self.assertEqual(self.root_name, self.filesystem.absnormpath("")) def test_root_path_remains_unchanged(self): self.assertEqual(self.root_name, self.filesystem.absnormpath(self.root_name)) def test_relative_path_forced_to_cwd(self): path = "bar" self.filesystem.cwd = "/foo" self.assertEqual("/foo/bar", self.filesystem.absnormpath(path)) def test_absolute_path_remains_unchanged(self): path = "foo/bar" self.assertEqual(self.root_name + path, self.filesystem.absnormpath(path)) def test_dotted_path_is_normalized(self): path = "/foo/.." self.assertEqual( self.filesystem.root_dir_name, self.filesystem.absnormpath(path) ) path = "foo/../bar" self.assertEqual( f"{self.filesystem.root_dir_name}bar", self.filesystem.absnormpath(path), ) def test_dot_path_is_normalized(self): path = "." self.assertEqual(self.root_name, self.filesystem.absnormpath(path)) class GetPathComponentsTest(TestCase): def setUp(self): self.filesystem = fake_filesystem.FakeFilesystem(path_separator="/") self.root_name = "/" def test_root_path_should_return_empty_list(self): self.assertEqual([], self.filesystem._path_components(self.root_name)) def test_empty_path_should_return_empty_list(self): self.assertEqual([], self.filesystem._path_components("")) def test_relative_path_with_one_component_should_return_component(self): self.assertEqual(["foo"], self.filesystem._path_components("foo")) def test_absolute_path_with_one_component_should_return_component(self): self.assertEqual(["foo"], self.filesystem._path_components("/foo")) def test_two_level_relative_path_should_return_components(self): self.assertEqual(["foo", "bar"], self.filesystem._path_components("foo/bar")) def test_two_level_absolute_path_should_return_components(self): self.assertEqual(["foo", "bar"], self.filesystem._path_components("/foo/bar")) class FakeFilesystemUnitTest(TestCase): def setUp(self): self.filesystem = fake_filesystem.FakeFilesystem(path_separator="/") self.root_name = self.filesystem.root_dir_name self.fake_file = fake_filesystem.FakeFile("foobar", filesystem=self.filesystem) self.fake_child = fake_filesystem.FakeDirectory( "foobaz", filesystem=self.filesystem ) self.fake_grandchild = fake_filesystem.FakeDirectory( "quux", filesystem=self.filesystem ) def test_new_filesystem(self): self.assertEqual("/", self.filesystem.path_separator) self.assertTrue(stat.S_IFDIR & self.filesystem.root.st_mode) self.assertEqual({}, self.filesystem.root_dir.entries) def test_none_raises_type_error(self): with self.assertRaises(TypeError): self.filesystem.exists(None) def test_empty_string_does_not_exist(self): self.assertFalse(self.filesystem.exists("")) def test_exists_root(self): self.assertTrue(self.filesystem.exists(self.root_name)) def test_exists_unadded_file(self): self.assertFalse(self.filesystem.exists(self.fake_file.name)) def test_not_exists_subpath_named_like_file_contents(self): # Regression test for #219 file_path = "/foo/bar" self.filesystem.create_file(file_path, contents="baz") self.assertFalse(self.filesystem.exists(file_path + "/baz")) def test_get_root_object(self): self.assertEqual( self.filesystem.root_dir, self.filesystem.get_object(self.root_name), ) def test_add_object_to_root(self): self.filesystem.add_object(self.root_name, self.fake_file) self.assertEqual({"foobar": self.fake_file}, self.filesystem.root_dir.entries) def test_windows_root_dir_name(self): self.filesystem.is_windows_fs = True self.assertEqual("C:/", self.filesystem.root_dir_name) self.filesystem.cwd = "E:/foo" self.assertEqual("E:/", self.filesystem.root_dir_name) self.filesystem.cwd = "//foo/bar" self.assertEqual("//foo/bar/", self.filesystem.root_dir_name) def test_exists_added_file(self): self.filesystem.add_object(self.root_name, self.fake_file) self.assertTrue(self.filesystem.exists(self.fake_file.name)) def test_exists_relative_path_posix(self): self.filesystem.is_windows_fs = False self.filesystem.create_file("/a/b/file_one") self.filesystem.create_file("/a/c/file_two") self.assertTrue(self.filesystem.exists("a/b/../c/file_two")) self.assertTrue(self.filesystem.exists("/a/c/../b/file_one")) self.assertTrue(self.filesystem.exists("/a/c/../../a/b/file_one")) self.assertFalse(self.filesystem.exists("a/b/../z/d")) self.assertFalse(self.filesystem.exists("a/b/../z/../c/file_two")) self.filesystem.cwd = "/a/c" self.assertTrue(self.filesystem.exists("../b/file_one")) self.assertTrue(self.filesystem.exists("../../a/b/file_one")) self.assertTrue(self.filesystem.exists("../../a/b/../../a/c/file_two")) self.assertFalse(self.filesystem.exists("../z/file_one")) self.assertFalse(self.filesystem.exists("../z/../c/file_two")) def test_exists_relative_path_windows(self): self.filesystem.is_windows_fs = True self.filesystem.is_macos = False self.filesystem.create_file("/a/b/file_one") self.filesystem.create_file("/a/c/file_two") self.assertTrue(self.filesystem.exists("a/b/../c/file_two")) self.assertTrue(self.filesystem.exists("/a/c/../b/file_one")) self.assertTrue(self.filesystem.exists("/a/c/../../a/b/file_one")) self.assertFalse(self.filesystem.exists("a/b/../z/d")) self.assertTrue(self.filesystem.exists("a/b/../z/../c/file_two")) self.filesystem.cwd = "C:/a/c" self.assertTrue(self.filesystem.exists("../b/file_one")) self.assertTrue(self.filesystem.exists("../../a/b/file_one")) self.assertTrue(self.filesystem.exists("../../a/b/../../a/c/file_two")) self.assertFalse(self.filesystem.exists("../z/file_one")) self.assertTrue(self.filesystem.exists("../z/../c/file_two")) def test_get_object_from_root(self): self.filesystem.add_object(self.root_name, self.fake_file) self.assertEqual(self.fake_file, self.filesystem.get_object("foobar")) def test_get_nonexistent_object_from_root_error(self): self.filesystem.add_object(self.root_name, self.fake_file) self.assertEqual(self.fake_file, self.filesystem.get_object("foobar")) with self.raises_os_error(errno.ENOENT): self.filesystem.get_object("some_bogus_filename") def test_remove_object_from_root(self): self.filesystem.add_object(self.root_name, self.fake_file) self.filesystem.remove_object(self.fake_file.name) with self.raises_os_error(errno.ENOENT): self.filesystem.get_object(self.fake_file.name) def test_remove_nonexisten_object_from_root_error(self): with self.raises_os_error(errno.ENOENT): self.filesystem.remove_object("some_bogus_filename") def test_exists_removed_file(self): self.filesystem.add_object(self.root_name, self.fake_file) self.filesystem.remove_object(self.fake_file.name) self.assertFalse(self.filesystem.exists(self.fake_file.name)) def test_add_object_to_child(self): self.filesystem.add_object(self.root_name, self.fake_child) self.filesystem.add_object(self.fake_child.name, self.fake_file) self.assertEqual( {self.fake_file.name: self.fake_file}, self.filesystem.root_dir.get_entry(self.fake_child.name).entries, ) def test_add_object_to_regular_file_error_posix(self): self.filesystem.is_windows_fs = False self.filesystem.add_object(self.filesystem.root_dir_name, self.fake_file) with self.raises_os_error(errno.ENOTDIR): self.filesystem.add_object(self.fake_file.name, self.fake_file) def test_add_object_to_regular_file_error_windows(self): self.filesystem.is_windows_fs = True self.filesystem.add_object(self.root_name, self.fake_file) with self.raises_os_error(errno.ENOENT): self.filesystem.add_object(self.fake_file.name, self.fake_file) def test_exists_file_added_to_child(self): self.filesystem.add_object(self.root_name, self.fake_child) self.filesystem.add_object(self.fake_child.name, self.fake_file) path = self.filesystem.joinpaths(self.fake_child.name, self.fake_file.name) self.assertTrue(self.filesystem.exists(path)) def test_get_object_from_child(self): self.filesystem.add_object(self.root_name, self.fake_child) self.filesystem.add_object(self.fake_child.name, self.fake_file) self.assertEqual( self.fake_file, self.filesystem.get_object( self.filesystem.joinpaths(self.fake_child.name, self.fake_file.name) ), ) def test_get_nonexistent_object_from_child_error(self): self.filesystem.add_object(self.root_name, self.fake_child) self.filesystem.add_object(self.fake_child.name, self.fake_file) with self.raises_os_error(errno.ENOENT): self.filesystem.get_object( self.filesystem.joinpaths(self.fake_child.name, "some_bogus_filename") ) def test_remove_object_from_child(self): self.filesystem.add_object(self.root_name, self.fake_child) self.filesystem.add_object(self.fake_child.name, self.fake_file) target_path = self.filesystem.joinpaths( self.fake_child.name, self.fake_file.name ) self.filesystem.remove_object(target_path) with self.raises_os_error(errno.ENOENT): self.filesystem.get_object(target_path) def test_remove_object_from_child_error(self): self.filesystem.add_object(self.root_name, self.fake_child) with self.raises_os_error(errno.ENOENT): self.filesystem.remove_object( self.filesystem.joinpaths(self.fake_child.name, "some_bogus_filename") ) def test_remove_object_from_non_directory_error(self): self.filesystem.add_object(self.root_name, self.fake_file) with self.raises_os_error(errno.ENOTDIR): self.filesystem.remove_object( self.filesystem.joinpaths( "%s" % self.fake_file.name, "file_does_not_matter_since_parent_not_a_directory", ) ) def test_exists_file_removed_from_child(self): self.filesystem.add_object(self.root_name, self.fake_child) self.filesystem.add_object(self.fake_child.name, self.fake_file) path = self.filesystem.joinpaths(self.fake_child.name, self.fake_file.name) self.filesystem.remove_object(path) self.assertFalse(self.filesystem.exists(path)) def test_operate_on_grandchild_directory(self): self.filesystem.add_object(self.root_name, self.fake_child) self.filesystem.add_object(self.fake_child.name, self.fake_grandchild) grandchild_directory = self.filesystem.joinpaths( self.fake_child.name, self.fake_grandchild.name ) grandchild_file = self.filesystem.joinpaths( grandchild_directory, self.fake_file.name ) with self.assertRaises(OSError): self.filesystem.get_object(grandchild_file) self.filesystem.add_object(grandchild_directory, self.fake_file) self.assertEqual(self.fake_file, self.filesystem.get_object(grandchild_file)) self.assertTrue(self.filesystem.exists(grandchild_file)) self.filesystem.remove_object(grandchild_file) with self.assertRaises(OSError): self.filesystem.get_object(grandchild_file) self.assertFalse(self.filesystem.exists(grandchild_file)) def test_create_directory_in_root_directory(self): path = "foo" self.filesystem.create_dir(path) new_dir = self.filesystem.get_object(path) self.assertEqual(os.path.basename(path), new_dir.name) self.assertTrue(stat.S_IFDIR & new_dir.st_mode) def test_create_directory_in_root_directory_already_exists_error(self): path = "foo" self.filesystem.create_dir(path) with self.raises_os_error(errno.EEXIST): self.filesystem.create_dir(path) def test_create_directory(self): path = "foo/bar/baz" self.filesystem.create_dir(path) new_dir = self.filesystem.get_object(path) self.assertEqual(os.path.basename(path), new_dir.name) self.assertTrue(stat.S_IFDIR & new_dir.st_mode) # Create second directory to make sure first is OK. path = "%s/quux" % path self.filesystem.create_dir(path) new_dir = self.filesystem.get_object(path) self.assertEqual(os.path.basename(path), new_dir.name) self.assertTrue(stat.S_IFDIR & new_dir.st_mode) def test_create_directory_already_exists_error(self): path = "foo/bar/baz" self.filesystem.create_dir(path) with self.raises_os_error(errno.EEXIST): self.filesystem.create_dir(path) def test_create_file_in_read_only_directory_raises_in_posix(self): self.filesystem.is_windows_fs = False dir_path = "/foo/bar" self.filesystem.create_dir(dir_path, perm_bits=0o555) file_path = dir_path + "/baz" if not is_root(): with self.raises_os_error(errno.EACCES): self.filesystem.create_file(file_path) else: self.filesystem.create_file(file_path) self.assertTrue(self.filesystem.exists(file_path)) def test_create_file_in_read_only_directory_possible_in_windows(self): self.filesystem.is_windows_fs = True dir_path = "C:/foo/bar" self.filesystem.create_dir(dir_path, perm_bits=0o555) file_path = dir_path + "/baz" self.filesystem.create_file(file_path) self.assertTrue(self.filesystem.exists(file_path)) def test_create_file_in_current_directory(self): path = "foo" contents = "dummy data" self.filesystem.create_file(path, contents=contents) self.assertTrue(self.filesystem.exists(path)) self.assertFalse(self.filesystem.exists(os.path.dirname(path))) path = "./%s" % path self.assertTrue(self.filesystem.exists(os.path.dirname(path))) def test_create_file_in_root_directory(self): path = "/foo" contents = "dummy data" self.filesystem.create_file(path, contents=contents) new_file = self.filesystem.get_object(path) self.assertTrue(self.filesystem.exists(path)) self.assertTrue(self.filesystem.exists(os.path.dirname(path))) self.assertEqual(os.path.basename(path), new_file.name) self.assertTrue(stat.S_IFREG & new_file.st_mode) self.assertEqual(contents, new_file.contents) def test_create_file_with_size_but_no_content_creates_large_file(self): path = "large_foo_bar" self.filesystem.create_file(path, st_size=100000000) new_file = self.filesystem.get_object(path) self.assertEqual(None, new_file.contents) self.assertEqual(100000000, new_file.st_size) def test_create_file_in_root_directory_already_exists_error(self): path = "foo" self.filesystem.create_file(path) with self.raises_os_error(errno.EEXIST): self.filesystem.create_file(path) def test_create_file(self): path = "foo/bar/baz" retval = self.filesystem.create_file(path, contents="dummy_data") self.assertTrue(self.filesystem.exists(path)) self.assertTrue(self.filesystem.exists(os.path.dirname(path))) new_file = self.filesystem.get_object(path) self.assertEqual(os.path.basename(path), new_file.name) if IS_WIN: self.assertEqual(1, new_file.st_uid) self.assertEqual(1, new_file.st_gid) else: self.assertEqual(os.getuid(), new_file.st_uid) self.assertEqual(os.getgid(), new_file.st_gid) self.assertEqual(new_file, retval) def test_create_file_with_changed_ids(self): path = "foo/bar/baz" set_uid(42) set_gid(2) self.filesystem.create_file(path) self.assertTrue(self.filesystem.exists(path)) new_file = self.filesystem.get_object(path) self.assertEqual(42, new_file.st_uid) self.assertEqual(2, new_file.st_gid) reset_ids() def test_empty_file_created_for_none_contents(self): fake_open = fake_filesystem.FakeFileOpen(self.filesystem) path = "foo/bar/baz" self.filesystem.create_file(path, contents=None) with fake_open(path) as f: self.assertEqual("", f.read()) def test_create_file_with_incorrect_mode_type(self): with self.assertRaises(TypeError): self.filesystem.create_file("foo", "bar") def test_create_file_already_exists_error(self): path = "foo/bar/baz" self.filesystem.create_file(path, contents="dummy_data") with self.raises_os_error(errno.EEXIST): self.filesystem.create_file(path) def test_create_link(self): path = "foo/bar/baz" target_path = "foo/bar/quux" new_file = self.filesystem.create_symlink(path, "quux") # Neither the path nor the final target exists before we actually # write to one of them, even though the link appears in the file # system. self.assertFalse(self.filesystem.exists(path)) self.assertFalse(self.filesystem.exists(target_path)) self.assertTrue(stat.S_IFLNK & new_file.st_mode) # but once we write the linked to file, they both will exist. self.filesystem.create_file(target_path) self.assertTrue(self.filesystem.exists(path)) self.assertTrue(self.filesystem.exists(target_path)) def test_resolve_object(self): target_path = "dir/target" target_contents = "0123456789ABCDEF" link_name = "x" self.filesystem.create_dir("dir") self.filesystem.create_file("dir/target", contents=target_contents) self.filesystem.create_symlink(link_name, target_path) obj = self.filesystem.resolve(link_name) self.assertEqual("target", obj.name) self.assertEqual(target_contents, obj.contents) def check_lresolve_object(self): target_path = "dir/target" target_contents = "0123456789ABCDEF" link_name = "x" self.filesystem.create_dir("dir") self.filesystem.create_file("dir/target", contents=target_contents) self.filesystem.create_symlink(link_name, target_path) obj = self.filesystem.lresolve(link_name) self.assertEqual(link_name, obj.name) self.assertEqual(target_path, obj.contents) def test_lresolve_object_windows(self): self.filesystem.is_windows_fs = True self.check_lresolve_object() def test_lresolve_object_posix(self): self.filesystem.is_windows_fs = False self.check_lresolve_object() def check_directory_access_on_file(self, error_subtype): self.filesystem.create_file("not_a_dir") with self.raises_os_error(error_subtype): self.filesystem.resolve("not_a_dir/foo") with self.raises_os_error(error_subtype): self.filesystem.lresolve("not_a_dir/foo/bar") def test_directory_access_on_file_windows(self): self.filesystem.is_windows_fs = True self.check_directory_access_on_file(errno.ENOENT) def test_directory_access_on_file_posix(self): self.filesystem.is_windows_fs = False self.check_directory_access_on_file(errno.ENOTDIR) def test_pickle_fs(self): """Regression test for #445""" import pickle self.filesystem.open_files = [] p = pickle.dumps(self.filesystem) fs = pickle.loads(p) self.assertEqual(str(fs.root), str(self.filesystem.root)) self.assertEqual(fs.mount_points, self.filesystem.mount_points) class CaseInsensitiveFakeFilesystemTest(TestCase): def setUp(self): self.filesystem = fake_filesystem.FakeFilesystem(path_separator="/") self.filesystem.is_case_sensitive = False self.os = fake_os.FakeOsModule(self.filesystem) self.path = self.os.path def test_get_object(self): self.filesystem.create_dir("/foo/bar") self.filesystem.create_file("/foo/bar/baz") self.assertTrue(self.filesystem.get_object("/Foo/Bar/Baz")) def test_remove_object(self): self.filesystem.create_dir("/foo/bar") self.filesystem.create_file("/foo/bar/baz") self.filesystem.remove_object("/Foo/Bar/Baz") self.assertFalse(self.filesystem.exists("/foo/bar/baz")) def test_exists(self): self.filesystem.create_dir("/Foo/Bar") self.assertTrue(self.filesystem.exists("/Foo/Bar")) self.assertTrue(self.filesystem.exists("/foo/bar")) self.filesystem.create_file("/foo/Bar/baz") self.assertTrue(self.filesystem.exists("/Foo/bar/BAZ")) self.assertTrue(self.filesystem.exists("/foo/bar/baz")) def test_create_directory_with_different_case_root(self): self.filesystem.create_dir("/Foo/Bar") self.filesystem.create_dir("/foo/bar/baz") dir1 = self.filesystem.get_object("/Foo/Bar") dir2 = self.filesystem.get_object("/foo/bar") self.assertEqual(dir1, dir2) def test_create_file_with_different_case_dir(self): self.filesystem.create_dir("/Foo/Bar") self.filesystem.create_file("/foo/bar/baz") dir1 = self.filesystem.get_object("/Foo/Bar") dir2 = self.filesystem.get_object("/foo/bar") self.assertEqual(dir1, dir2) def test_resolve_path(self): self.filesystem.create_dir("/foo/baz") self.filesystem.create_symlink("/Foo/Bar", "./baz/bip") self.assertEqual( f"{self.filesystem.root_dir_name}foo/baz/bip", self.filesystem.resolve_path("/foo/bar"), ) def test_isdir_isfile(self): self.filesystem.create_file("foo/bar") self.assertTrue(self.path.isdir("Foo")) self.assertFalse(self.path.isfile("Foo")) self.assertTrue(self.path.isfile("Foo/Bar")) self.assertFalse(self.path.isdir("Foo/Bar")) def test_getsize(self): file_path = "foo/bar/baz" self.filesystem.create_file(file_path, contents="1234567") self.assertEqual(7, self.path.getsize("FOO/BAR/BAZ")) def test_getsize_with_looping_symlink(self): self.filesystem.is_windows_fs = False dir_path = "/foo/bar" self.filesystem.create_dir(dir_path) link_path = dir_path + "/link" link_target = link_path + "/link" self.os.symlink(link_target, link_path) with self.raises_os_error(errno.ELOOP): self.os.path.getsize(link_path) def test_get_mtime(self): test_file = self.filesystem.create_file("foo/bar1.txt") test_file.st_mtime = 24 self.assertEqual(24, self.path.getmtime("Foo/Bar1.TXT")) def test_get_object_with_file_size(self): self.filesystem.create_file("/Foo/Bar", st_size=10) self.assertTrue(self.filesystem.get_object("/foo/bar")) class CaseSensitiveFakeFilesystemTest(TestCase): def setUp(self): self.filesystem = fake_filesystem.FakeFilesystem(path_separator="/") self.filesystem.is_case_sensitive = True self.os = fake_os.FakeOsModule(self.filesystem) self.path = self.os.path def test_get_object(self): self.filesystem.create_dir("/foo/bar") self.filesystem.create_file("/foo/bar/baz") with self.assertRaises(OSError): self.filesystem.get_object("/Foo/Bar/Baz") def test_remove_object(self): self.filesystem.create_dir("/foo/bar") self.filesystem.create_file("/foo/bar/baz") with self.assertRaises(OSError): self.filesystem.remove_object("/Foo/Bar/Baz") self.assertTrue(self.filesystem.exists("/foo/bar/baz")) def test_exists(self): self.filesystem.create_dir("/Foo/Bar") self.assertTrue(self.filesystem.exists("/Foo/Bar")) self.assertFalse(self.filesystem.exists("/foo/bar")) self.filesystem.create_file("/foo/Bar/baz") self.assertFalse(self.filesystem.exists("/Foo/bar/BAZ")) self.assertFalse(self.filesystem.exists("/foo/bar/baz")) def test_create_directory_with_different_case_root(self): self.filesystem.create_dir("/Foo/Bar") self.filesystem.create_dir("/foo/bar/baz") dir1 = self.filesystem.get_object("/Foo/Bar") dir2 = self.filesystem.get_object("/foo/bar") self.assertNotEqual(dir1, dir2) def test_create_file_with_different_case_dir(self): self.filesystem.create_dir("/Foo/Bar") self.filesystem.create_file("/foo/bar/baz") dir1 = self.filesystem.get_object("/Foo/Bar") dir2 = self.filesystem.get_object("/foo/bar") self.assertNotEqual(dir1, dir2) def test_isdir_isfile(self): self.filesystem.create_file("foo/bar") self.assertFalse(self.path.isdir("Foo")) self.assertFalse(self.path.isfile("Foo")) self.assertFalse(self.path.isfile("Foo/Bar")) self.assertFalse(self.path.isdir("Foo/Bar")) def test_getsize(self): file_path = "foo/bar/baz" self.filesystem.create_file(file_path, contents="1234567") with self.assertRaises(os.error): self.path.getsize("FOO/BAR/BAZ") def test_get_mtime(self): test_file = self.filesystem.create_file("foo/bar1.txt") test_file.st_mtime = 24 with self.raises_os_error(errno.ENOENT): self.path.getmtime("Foo/Bar1.TXT") class OsPathInjectionRegressionTest(TestCase): """Test faking os.path before calling os.walk. Found when investigating a problem with gws/tools/labrat/rat_utils_unittest, which was faking out os.path before calling os.walk. """ def setUp(self): self.filesystem = fake_filesystem.FakeFilesystem(path_separator="/") self.os_path = os.path # The bug was that when os.path gets faked, the FakePathModule doesn't # get called in self.os.walk(). FakePathModule now insists that it is # created as part of FakeOsModule. self.os = fake_os.FakeOsModule(self.filesystem) def tearDown(self): os.path = self.os_path def test_create_top_level_directory(self): top_level_dir = "/x" self.assertFalse(self.filesystem.exists(top_level_dir)) self.filesystem.create_dir(top_level_dir) self.assertTrue(self.filesystem.exists("/")) self.assertTrue(self.filesystem.exists(top_level_dir)) self.filesystem.create_dir("%s/po" % top_level_dir) self.filesystem.create_file("%s/po/control" % top_level_dir) self.filesystem.create_file("%s/po/experiment" % top_level_dir) self.filesystem.create_dir("%s/gv" % top_level_dir) self.filesystem.create_file("%s/gv/control" % top_level_dir) expected = [ ("/", ["x"], []), ("/x", ["gv", "po"], []), ("/x/gv", [], ["control"]), ("/x/po", [], ["control", "experiment"]), ] # as the result is unsorted, we have to check against sorted results result = sorted([step for step in self.os.walk("/")], key=lambda v: v[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])) class FakePathModuleTest(TestCase): def setUp(self): self.filesystem = fake_filesystem.FakeFilesystem(path_separator="!") self.os = fake_os.FakeOsModule(self.filesystem) self.path = self.os.path def check_abspath(self, is_windows): # the implementation differs in Windows and Posix, so test both self.filesystem.is_windows_fs = is_windows filename = "foo" abspath = self.filesystem.root_dir_name + filename self.filesystem.create_file(abspath) self.assertEqual(abspath, self.path.abspath(abspath)) self.assertEqual(abspath, self.path.abspath(filename)) self.assertEqual(abspath, self.path.abspath("..!%s" % filename)) def test_abspath_windows(self): self.check_abspath(is_windows=True) def test_abspath_posix(self): """abspath should return a consistent representation of a file.""" self.check_abspath(is_windows=False) def check_abspath_bytes(self, is_windows): """abspath should return a consistent representation of a file.""" self.filesystem.is_windows_fs = is_windows filename = b"foo" abspath = self.filesystem.root_dir_name.encode() + filename self.filesystem.create_file(abspath) self.assertEqual(abspath, self.path.abspath(abspath)) self.assertEqual(abspath, self.path.abspath(filename)) self.assertEqual(abspath, self.path.abspath(b"..!" + filename)) def test_abspath_bytes_windows(self): self.check_abspath_bytes(is_windows=True) def test_abspath_bytes_posix(self): self.check_abspath_bytes(is_windows=False) def test_abspath_deals_with_relative_non_root_path(self): """abspath should correctly handle relative paths from a non-! directory. This test is distinct from the basic functionality test because fake_filesystem has historically been based in !. """ filename = "!foo!bar!baz" file_components = filename.split(self.path.sep) root_name = self.filesystem.root_dir_name basedir = f"{root_name}{file_components[0]}" self.filesystem.create_file(filename) self.os.chdir(basedir) self.assertEqual(basedir, self.path.abspath(self.path.curdir)) self.assertEqual(root_name, self.path.abspath("..")) self.assertEqual( self.path.join(basedir, file_components[1]), self.path.abspath(file_components[1]), ) def test_abs_path_with_drive_component(self): self.filesystem.is_windows_fs = True self.filesystem.cwd = "C:!foo" self.assertEqual("C:!foo!bar", self.path.abspath("bar")) self.assertEqual("C:!foo!bar", self.path.abspath("C:bar")) self.assertEqual("C:!foo!bar", self.path.abspath("!foo!bar")) def test_isabs_with_drive_component(self): self.filesystem.is_windows_fs = False self.assertFalse(self.path.isabs("C:!foo")) self.assertFalse(self.path.isabs(b"C:!foo")) self.assertTrue(self.path.isabs("!")) self.assertTrue(self.path.isabs(b"!")) self.filesystem.is_windows_fs = True self.assertTrue(self.path.isabs("C:!foo")) self.assertTrue(self.path.isabs(b"C:!foo")) self.assertTrue(self.path.isabs("!")) self.assertTrue(self.path.isabs(b"!")) def test_relpath(self): path_foo = "!path!to!foo" path_bar = "!path!to!bar" path_other = "!some!where!else" with self.assertRaises(ValueError): self.path.relpath(None) with self.assertRaises(ValueError): self.path.relpath("") self.assertEqual("path!to!foo", self.path.relpath(path_foo)) self.assertEqual("..!foo", self.path.relpath(path_foo, path_bar)) self.assertEqual( "..!..!..%s" % path_other, self.path.relpath(path_other, path_bar) ) self.assertEqual(".", self.path.relpath(path_bar, path_bar)) def test_realpath_vs_abspath(self): self.filesystem.is_windows_fs = False self.filesystem.create_file("!george!washington!bridge") self.filesystem.create_symlink("!first!president", "!george!washington") self.assertEqual( "!first!president!bridge", self.os.path.abspath("!first!president!bridge"), ) self.assertEqual( "!george!washington!bridge", self.os.path.realpath("!first!president!bridge"), ) self.os.chdir("!first!president") self.assertEqual("!george!washington!bridge", self.os.path.realpath("bridge")) @unittest.skipIf(sys.version_info < (3, 10), "'strict' new in Python 3.10") def test_realpath_strict(self): self.filesystem.create_file("!foo!bar") root_dir = self.filesystem.root_dir_name self.filesystem.cwd = f"{root_dir}foo" self.assertEqual( f"{root_dir}foo!baz", self.os.path.realpath("baz", strict=False) ) with self.raises_os_error(errno.ENOENT): self.os.path.realpath("baz", strict=True) self.assertEqual( f"{root_dir}foo!bar", self.os.path.realpath("bar", strict=True) ) def test_samefile(self): file_path1 = "!foo!bar!baz" file_path2 = "!foo!bar!boo" self.filesystem.create_file(file_path1) self.filesystem.create_file(file_path2) self.assertTrue(self.path.samefile(file_path1, file_path1)) self.assertFalse(self.path.samefile(file_path1, file_path2)) self.assertTrue(self.path.samefile(file_path1, "!foo!..!foo!bar!..!bar!baz")) self.assertTrue(self.path.samefile(file_path1, b"!foo!..!foo!bar!..!bar!baz")) def test_exists(self): file_path = "foo!bar!baz" file_path_bytes = b"foo!bar!baz" self.filesystem.create_file(file_path) self.assertTrue(self.path.exists(file_path)) self.assertTrue(self.path.exists(file_path_bytes)) self.assertFalse(self.path.exists("!some!other!bogus!path")) def test_exists_with_drive(self): self.filesystem.os = OSType.WINDOWS self.filesystem.add_mount_point("F:") self.assertTrue(self.path.exists("C:")) self.assertTrue(self.path.exists("c:\\")) self.assertTrue(self.path.exists("f:")) self.assertTrue(self.path.exists("F:\\")) self.assertFalse(self.path.exists("Z:")) self.assertFalse(self.path.exists("z:\\")) def test_lexists(self): file_path = "foo!bar!baz" file_path_bytes = b"foo!bar!baz" self.filesystem.create_dir("foo!bar") self.filesystem.create_symlink(file_path, "bogus") self.assertTrue(self.path.lexists(file_path)) self.assertTrue(self.path.lexists(file_path_bytes)) self.assertFalse(self.path.exists(file_path)) self.assertFalse(self.path.exists(file_path_bytes)) self.filesystem.create_file("foo!bar!bogus") self.assertTrue(self.path.exists(file_path)) def test_dirname_with_drive(self): self.filesystem.is_windows_fs = True self.assertEqual("c:!foo", self.path.dirname("c:!foo!bar")) self.assertEqual(b"c:!", self.path.dirname(b"c:!foo")) self.assertEqual("!foo", self.path.dirname("!foo!bar")) self.assertEqual(b"!", self.path.dirname(b"!foo")) self.assertEqual("c:foo", self.path.dirname("c:foo!bar")) self.assertEqual(b"c:", self.path.dirname(b"c:foo")) self.assertEqual("foo", self.path.dirname("foo!bar")) def test_dirname(self): dirname = "foo!bar" self.assertEqual(dirname, self.path.dirname("%s!baz" % dirname)) def test_join_strings(self): components = ["foo", "bar", "baz"] self.assertEqual("foo!bar!baz", self.path.join(*components)) def test_join_bytes(self): components = [b"foo", b"bar", b"baz"] self.assertEqual(b"foo!bar!baz", self.path.join(*components)) def test_expand_user(self): if self.is_windows: self.assertEqual( self.path.expanduser("~"), self.os.environ["USERPROFILE"].replace("\\", "!"), ) else: self.assertEqual( self.path.expanduser("~"), self.os.environ["HOME"].replace("/", "!"), ) @unittest.skipIf( TestCase.is_windows or TestCase.is_cygwin, "only tested on unix systems", ) def test_expand_root(self): if sys.platform == "darwin": roothome = "!var!root" else: roothome = "!root" self.assertEqual(self.path.expanduser("~root"), roothome) def test_getsize_path_nonexistent(self): file_path = "foo!bar!baz" with self.assertRaises(os.error): self.path.getsize(file_path) def test_getsize_file_empty(self): file_path = "foo!bar!baz" self.filesystem.create_file(file_path) self.assertEqual(0, self.path.getsize(file_path)) def test_getsize_file_non_zero_size(self): file_path = "foo!bar!baz" file_path_bytes = b"foo!bar!baz" self.filesystem.create_file(file_path, contents="1234567") self.assertEqual(7, self.path.getsize(file_path)) self.assertEqual(7, self.path.getsize(file_path_bytes)) def test_getsize_dir_empty(self): # For directories, only require that the size is non-negative. dir_path = "foo!bar" self.filesystem.create_dir(dir_path) size = self.path.getsize(dir_path) self.assertFalse(int(size) < 0, "expected non-negative size; actual: %s" % size) def test_getsize_dir_non_zero_size(self): # For directories, only require that the size is non-negative. dir_path = "foo!bar" self.filesystem.create_file(self.filesystem.joinpaths(dir_path, "baz")) size = self.path.getsize(dir_path) self.assertFalse(int(size) < 0, "expected non-negative size; actual: %s" % size) def test_isdir(self): self.filesystem.create_file("foo!bar") self.assertTrue(self.path.isdir("foo")) self.assertTrue(self.path.isdir(b"foo")) self.assertFalse(self.path.isdir("foo!bar")) self.assertFalse(self.path.isdir("it_dont_exist")) def test_isdir_with_cwd_change(self): self.filesystem.create_file("!foo!bar!baz") self.assertTrue(self.path.isdir("!foo")) self.assertTrue(self.path.isdir("!foo!bar")) self.assertTrue(self.path.isdir("foo")) self.assertTrue(self.path.isdir("foo!bar")) self.filesystem.cwd = f"{self.filesystem.root_dir_name}foo" self.assertTrue(self.path.isdir("!foo")) self.assertTrue(self.path.isdir("!foo!bar")) self.assertTrue(self.path.isdir("bar")) def test_isfile(self): self.filesystem.create_file("foo!bar") self.assertFalse(self.path.isfile("foo")) self.assertTrue(self.path.isfile("foo!bar")) self.assertTrue(self.path.isfile(b"foo!bar")) self.assertFalse(self.path.isfile("it_dont_exist")) def test_get_mtime(self): test_file = self.filesystem.create_file("foo!bar1.txt") self.assertNotEqual(24, self.path.getmtime("foo!bar1.txt")) test_file.st_mtime = 24 self.assertEqual(24, self.path.getmtime("foo!bar1.txt")) self.assertEqual(24, self.path.getmtime(b"foo!bar1.txt")) def test_get_mtime_raises_os_error(self): self.assertFalse(self.path.exists("does_not_exist")) with self.raises_os_error(errno.ENOENT): self.path.getmtime("does_not_exist") def test_islink(self): self.filesystem.create_dir("foo") self.filesystem.create_file("foo!regular_file") self.filesystem.create_symlink("foo!link_to_file", "regular_file") self.assertFalse(self.path.islink("foo")) # An object can be both a link and a file or file, according to the # comments in Python/Lib/posixpath.py. self.assertTrue(self.path.islink("foo!link_to_file")) self.assertTrue(self.path.isfile("foo!link_to_file")) self.assertTrue(self.path.islink(b"foo!link_to_file")) self.assertTrue(self.path.isfile(b"foo!link_to_file")) self.assertTrue(self.path.isfile("foo!regular_file")) self.assertFalse(self.path.islink("foo!regular_file")) self.assertFalse(self.path.islink("it_dont_exist")) def test_is_link_case_sensitive(self): # Regression test for #306 self.filesystem.is_case_sensitive = False self.filesystem.create_dir("foo") self.filesystem.create_symlink("foo!bar", "foo") self.assertTrue(self.path.islink("foo!Bar")) def test_ismount(self): self.assertFalse(self.path.ismount("")) self.assertTrue(self.path.ismount("!")) self.assertTrue(self.path.ismount(b"!")) self.assertFalse(self.path.ismount("!mount!")) self.filesystem.add_mount_point("!mount") self.assertTrue(self.path.ismount("!mount")) self.assertTrue(self.path.ismount(b"!mount")) self.assertTrue(self.path.ismount("!mount!")) def test_ismount_with_drive_letters(self): self.filesystem.is_windows_fs = True self.assertTrue(self.path.ismount("!")) self.assertTrue(self.path.ismount("c:!")) self.assertFalse(self.path.ismount("c:")) self.assertTrue(self.path.ismount("z:!")) self.filesystem.add_mount_point("!mount") self.assertTrue(self.path.ismount("!mount")) self.assertTrue(self.path.ismount("!mount!")) def test_ismount_with_unc_paths(self): self.filesystem.is_windows_fs = True self.assertTrue(self.path.ismount("!!a!")) self.assertTrue(self.path.ismount("!!a!b")) self.assertTrue(self.path.ismount("!!a!b!")) self.assertFalse(self.path.ismount("!a!b!")) self.assertFalse(self.path.ismount("!!a!b!c")) def test_ismount_with_alternate_path_separator(self): self.filesystem.alternative_path_separator = "!" self.filesystem.add_mount_point("!mount") self.assertTrue(self.path.ismount("!mount")) self.assertTrue(self.path.ismount("!mount!")) self.assertTrue(self.path.ismount("!mount!!")) self.filesystem.is_windows_fs = True self.assertTrue(self.path.ismount("Z:!")) def test_getattr_forward_to_real_os_path(self): """Forwards any non-faked calls to os.path.""" self.assertTrue(hasattr(self.path, "sep"), "Get a faked os.path function") private_path_function = None if sys.version_info < (3, 6): if self.is_windows: private_path_function = "_get_bothseps" else: private_path_function = "_join_real_path" if private_path_function: self.assertTrue( hasattr(self.path, private_path_function), "Get a real os.path function " "not implemented in fake os.path", ) self.assertFalse(hasattr(self.path, "nonexistent")) def test_splitroot_posix(self): self.filesystem.is_windows_fs = False self.assertEqual(("", "", "foo!bar"), self.filesystem.splitroot("foo!bar")) self.assertEqual(("", "!", "foo!bar"), self.filesystem.splitroot("!foo!bar")) self.assertEqual( ("", "!!", "foo!!bar"), self.filesystem.splitroot("!!foo!!bar") ) class PathManipulationTestBase(TestCase): def setUp(self): self.filesystem = fake_filesystem.FakeFilesystem(path_separator="|") class CollapsePathPipeSeparatorTest(PathManipulationTestBase): """Tests CollapsePath (mimics os.path.normpath) using | as path separator.""" def test_empty_path_becomes_dot_path(self): self.assertEqual(".", self.filesystem.normpath("")) def test_dot_path_unchanged(self): self.assertEqual(".", self.filesystem.normpath(".")) def test_slashes_are_not_collapsed(self): """Tests that '/' is not treated specially if the path separator is '|'. In particular, multiple slashes should not be collapsed. """ self.assertEqual("/", self.filesystem.normpath("/")) self.assertEqual("/////", self.filesystem.normpath("/////")) def test_root_path(self): self.assertEqual("|", self.filesystem.normpath("|")) def test_multiple_separators_collapsed_into_root_path(self): self.assertEqual("|", self.filesystem.normpath("|||||")) def test_all_dot_paths_removed_but_one(self): self.assertEqual(".", self.filesystem.normpath(".|.|.|.")) def test_all_dot_paths_removed_if_another_path_component_exists(self): self.assertEqual("|", self.filesystem.normpath("|.|.|.|")) self.assertEqual("foo|bar", self.filesystem.normpath("foo|.|.|.|bar")) def test_ignores_up_level_references_starting_from_root(self): self.assertEqual("|", self.filesystem.normpath("|..|..|..|")) self.assertEqual("|", self.filesystem.normpath("|..|..|foo|bar|..|..|")) self.filesystem.is_windows_fs = False # not an UNC path self.assertEqual("|", self.filesystem.normpath("||..|.|..||")) def test_conserves_up_level_references_starting_from_current_dir(self): self.assertEqual("..|..", self.filesystem.normpath("..|foo|bar|..|..|..")) def test_combine_dot_and_up_level_references_in_absolute_path(self): self.assertEqual("|yes", self.filesystem.normpath("|||||.|..|||yes|no|..|.|||")) def test_dots_in_path_collapses_to_last_path(self): self.assertEqual("bar", self.filesystem.normpath("foo|..|bar")) self.assertEqual("bar", self.filesystem.normpath("foo|..|yes|..|no|..|bar")) class SplitPathTest(PathManipulationTestBase): """Tests SplitPath (which mimics os.path.split) using | as path separator.""" def test_empty_path(self): self.assertEqual(("", ""), self.filesystem.splitpath("")) def test_no_separators(self): self.assertEqual(("", "ab"), self.filesystem.splitpath("ab")) def test_slashes_do_not_split(self): """Tests that '/' is not treated specially if the path separator is '|'.""" self.assertEqual(("", "a/b"), self.filesystem.splitpath("a/b")) def test_eliminate_trailing_separators_from_head(self): self.assertEqual(("a", "b"), self.filesystem.splitpath("a|b")) self.assertEqual(("a", "b"), self.filesystem.splitpath("a|||b")) self.assertEqual(("|a", "b"), self.filesystem.splitpath("|a||b")) self.assertEqual(("a|b", "c"), self.filesystem.splitpath("a|b|c")) self.assertEqual(("|a|b", "c"), self.filesystem.splitpath("|a|b|c")) def test_root_separator_is_not_stripped(self): self.assertEqual(("|||", ""), self.filesystem.splitpath("|||")) self.assertEqual(("|", "a"), self.filesystem.splitpath("|a")) self.assertEqual(("|||", "a"), self.filesystem.splitpath("|||a")) def test_empty_tail_if_path_ends_in_separator(self): self.assertEqual(("a|b", ""), self.filesystem.splitpath("a|b|")) def test_empty_path_components_are_preserved_in_head(self): self.assertEqual(("|a||b", "c"), self.filesystem.splitpath("|a||b||c")) class JoinPathTest(PathManipulationTestBase): """Tests JoinPath (which mimics os.path.join) using | as path separator.""" def test_one_empty_component(self): self.assertEqual("", self.filesystem.joinpaths("")) def test_multiple_empty_components(self): self.assertEqual("", self.filesystem.joinpaths("", "", "")) def test_separators_not_stripped_from_single_component(self): self.assertEqual("||a||", self.filesystem.joinpaths("||a||")) def test_one_separator_added_between_components(self): self.assertEqual("a|b|c|d", self.filesystem.joinpaths("a", "b", "c", "d")) def test_no_separator_added_for_components_ending_in_separator(self): self.assertEqual("a|b|c", self.filesystem.joinpaths("a|", "b|", "c")) self.assertEqual("a|||b|||c", self.filesystem.joinpaths("a|||", "b|||", "c")) def test_components_preceding_absolute_component_are_ignored(self): self.assertEqual("|c|d", self.filesystem.joinpaths("a", "|b", "|c", "d")) def test_one_separator_added_for_trailing_empty_components(self): self.assertEqual("a|", self.filesystem.joinpaths("a", "")) self.assertEqual("a|", self.filesystem.joinpaths("a", "", "")) def test_no_separator_added_for_leading_empty_components(self): self.assertEqual("a", self.filesystem.joinpaths("", "a")) def test_internal_empty_components_ignored(self): self.assertEqual("a|b", self.filesystem.joinpaths("a", "", "b")) self.assertEqual("a|b|", self.filesystem.joinpaths("a|", "", "b|")) class PathSeparatorTest(TestCase): def test_os_path_sep_matches_fake_filesystem_separator(self): filesystem = fake_filesystem.FakeFilesystem(path_separator="!") fake_os_module = fake_os.FakeOsModule(filesystem) self.assertEqual("!", fake_os_module.sep) self.assertEqual("!", fake_os_module.path.sep) class NormalizeCaseTest(TestCase): def setUp(self): self.filesystem = fake_filesystem.FakeFilesystem(path_separator="/") self.filesystem.is_case_sensitive = False def test_normalize_case(self): self.filesystem.create_file("/Foo/Bar") self.assertEqual( f"{self.filesystem.root_dir_name}Foo/Bar", self.filesystem._original_path("/foo/bar"), ) self.assertEqual( f"{self.filesystem.root_dir_name}Foo/Bar", self.filesystem._original_path("/FOO/BAR"), ) def test_normalize_case_for_drive(self): self.filesystem.is_windows_fs = True self.filesystem.create_file("C:/Foo/Bar") self.assertEqual("C:/Foo/Bar", self.filesystem._original_path("c:/foo/bar")) self.assertEqual("C:/Foo/Bar", self.filesystem._original_path("C:/FOO/BAR")) def test_normalize_case_for_non_existing_file(self): self.filesystem.create_dir("/Foo/Bar") self.assertEqual( f"{self.filesystem.root_dir_name}Foo/Bar/baz", self.filesystem._original_path("/foo/bar/baz"), ) self.assertEqual( f"{self.filesystem.root_dir_name}Foo/Bar/BAZ", self.filesystem._original_path("/FOO/BAR/BAZ"), ) @unittest.skipIf( not TestCase.is_windows, "Regression test for Windows problem only" ) def test_normalize_case_for_lazily_added_empty_file(self): # regression test for specific issue with added empty real files filesystem = fake_filesystem.FakeFilesystem() real_dir_path = os.path.split(os.path.dirname(os.path.abspath(__file__)))[0] filesystem.add_real_directory(real_dir_path) initPyPath = os.path.join(real_dir_path, "__init__.py") self.assertEqual(initPyPath, filesystem._original_path(initPyPath.upper())) class AlternativePathSeparatorTest(TestCase): def setUp(self): self.filesystem = fake_filesystem.FakeFilesystem(path_separator="!") self.filesystem.alternative_path_separator = "?" def test_initial_value(self): filesystem = fake_filesystem.FakeFilesystem() if self.is_windows: self.assertEqual("/", filesystem.alternative_path_separator) else: self.assertIsNone(filesystem.alternative_path_separator) filesystem = fake_filesystem.FakeFilesystem(path_separator="/") self.assertIsNone(filesystem.alternative_path_separator) def test_alt_sep(self): fake_os_module = fake_os.FakeOsModule(self.filesystem) self.assertEqual("?", fake_os_module.altsep) self.assertEqual("?", fake_os_module.path.altsep) def test_collapse_path_with_mixed_separators(self): self.assertEqual("!foo!bar", self.filesystem.normpath("!foo??bar")) def test_normalize_path_with_mixed_separators(self): path = "foo?..?bar" self.assertEqual( f"{self.filesystem.root_dir_name}bar", self.filesystem.absnormpath(path), ) def test_exists_with_mixed_separators(self): self.filesystem.create_file("?foo?bar?baz") self.filesystem.create_file("!foo!bar!xyzzy!plugh") self.assertTrue(self.filesystem.exists("!foo!bar!baz")) self.assertTrue(self.filesystem.exists("?foo?bar?xyzzy?plugh")) class DriveLetterSupportTest(TestCase): def setUp(self): self.filesystem = fake_filesystem.FakeFilesystem(path_separator="!") self.filesystem.alternative_path_separator = "^" self.filesystem.is_windows_fs = True def test_initial_value(self): filesystem = fake_filesystem.FakeFilesystem() if self.is_windows: self.assertTrue(filesystem.is_windows_fs) else: self.assertFalse(filesystem.is_windows_fs) def test_collapse_path(self): self.assertEqual("c:!foo!bar", self.filesystem.normpath("c:!!foo!!bar")) def test_collapse_unc_path(self): self.assertEqual("!!foo!bar!baz", self.filesystem.normpath("!!foo!bar!!baz!!")) def test_normalize_path_str(self): self.filesystem.cwd = "" self.assertEqual("c:!foo!bar", self.filesystem.absnormpath("c:!foo!!bar")) self.filesystem.cwd = "c:!foo" self.assertEqual("c:!foo!bar", self.filesystem.absnormpath("bar")) def test_normalize_path_bytes(self): self.filesystem.cwd = b"" self.assertEqual(b"c:!foo!bar", self.filesystem.absnormpath(b"c:!foo!!bar")) self.filesystem.cwd = b"c:!foo" self.assertEqual(b"c:!foo!bar", self.filesystem.absnormpath(b"bar")) def test_split_path_str(self): self.assertEqual(("c:!foo", "bar"), self.filesystem.splitpath("c:!foo!bar")) self.assertEqual(("c:!", "foo"), self.filesystem.splitpath("c:!foo")) self.assertEqual(("!foo", "bar"), self.filesystem.splitpath("!foo!bar")) self.assertEqual(("!", "foo"), self.filesystem.splitpath("!foo")) self.assertEqual(("c:foo", "bar"), self.filesystem.splitpath("c:foo!bar")) self.assertEqual(("c:", "foo"), self.filesystem.splitpath("c:foo")) self.assertEqual(("foo", "bar"), self.filesystem.splitpath("foo!bar")) def test_split_with_alt_separator(self): self.assertEqual(("a^b", "c"), self.filesystem.splitpath("a^b^c")) self.assertEqual(("a^b!c", "d"), self.filesystem.splitpath("a^b!c^d")) self.assertEqual(("a^b!c", "d"), self.filesystem.splitpath("a^b!c!d")) self.assertEqual((b"a^b", b"c"), self.filesystem.splitpath(b"a^b^c")) self.assertEqual((b"a^b!c", b"d"), self.filesystem.splitpath(b"a^b!c^d")) self.assertEqual((b"a^b!c", b"d"), self.filesystem.splitpath(b"a^b!c!d")) def test_split_path_bytes(self): self.assertEqual((b"c:!foo", b"bar"), self.filesystem.splitpath(b"c:!foo!bar")) self.assertEqual((b"c:!", b"foo"), self.filesystem.splitpath(b"c:!foo")) self.assertEqual((b"!foo", b"bar"), self.filesystem.splitpath(b"!foo!bar")) self.assertEqual((b"!", b"foo"), self.filesystem.splitpath(b"!foo")) self.assertEqual((b"c:foo", b"bar"), self.filesystem.splitpath(b"c:foo!bar")) self.assertEqual((b"c:", b"foo"), self.filesystem.splitpath(b"c:foo")) self.assertEqual((b"foo", b"bar"), self.filesystem.splitpath(b"foo!bar")) def test_characters_before_root_ignored_in_join_paths(self): self.assertEqual("c:d", self.filesystem.joinpaths("b", "c:", "d")) def test_resolve_path(self): self.assertEqual("C:!foo!bar", self.filesystem.resolve_path("C:!foo!bar")) def test_get_path_components(self): self.assertEqual( ["c:", "foo", "bar"], self.filesystem._path_components("c:!foo!bar"), ) self.assertEqual(["c:"], self.filesystem._path_components("c:")) def test_split_drive_str(self): self.assertEqual(("c:", "!foo!bar"), self.filesystem.splitdrive("c:!foo!bar")) self.assertEqual(("", "!foo!bar"), self.filesystem.splitdrive("!foo!bar")) self.assertEqual(("c:", "foo!bar"), self.filesystem.splitdrive("c:foo!bar")) self.assertEqual(("", "foo!bar"), self.filesystem.splitdrive("foo!bar")) def test_split_drive_bytes(self): self.assertEqual( (b"c:", b"!foo!bar"), self.filesystem.splitdrive(b"c:!foo!bar") ) self.assertEqual((b"", b"!foo!bar"), self.filesystem.splitdrive(b"!foo!bar")) def test_split_drive_alt_sep(self): self.assertEqual(("c:", "^foo^bar"), self.filesystem.splitdrive("c:^foo^bar")) self.assertEqual(("", "foo^bar"), self.filesystem.splitdrive("foo^bar")) self.assertEqual(("", "foo^bar!baz"), self.filesystem.splitdrive("foo^bar!baz")) self.assertEqual( (b"c:", b"^foo^bar"), self.filesystem.splitdrive(b"c:^foo^bar") ) self.assertEqual((b"", b"^foo^bar"), self.filesystem.splitdrive(b"^foo^bar")) self.assertEqual( (b"", b"^foo^bar!baz"), self.filesystem.splitdrive(b"^foo^bar!baz") ) def test_split_drive_with_unc_path(self): self.assertEqual( ("!!foo!bar", "!baz"), self.filesystem.splitdrive("!!foo!bar!baz") ) self.assertEqual(("", "!!foo"), self.filesystem.splitdrive("!!foo")) self.assertEqual(("", "!!foo!!bar"), self.filesystem.splitdrive("!!foo!!bar")) self.assertEqual(("!!foo!bar", "!!"), self.filesystem.splitdrive("!!foo!bar!!")) def test_split_drive_with_unc_path_alt_sep(self): self.assertEqual( ("^^foo^bar", "!baz"), self.filesystem.splitdrive("^^foo^bar!baz") ) self.assertEqual(("", "^^foo"), self.filesystem.splitdrive("^^foo")) self.assertEqual(("", "^^foo^^bar"), self.filesystem.splitdrive("^^foo^^bar")) self.assertEqual(("^^foo^bar", "^^"), self.filesystem.splitdrive("^^foo^bar^^")) def test_split_path_with_drive(self): self.assertEqual(("d:!foo", "baz"), self.filesystem.splitpath("d:!foo!baz")) self.assertEqual(("d:!foo!baz", ""), self.filesystem.splitpath("d:!foo!baz!")) self.assertEqual(("c:", ""), self.filesystem.splitpath("c:")) self.assertEqual(("c:!", ""), self.filesystem.splitpath("c:!")) self.assertEqual(("c:!!", ""), self.filesystem.splitpath("c:!!")) def test_split_path_with_drive_alt_sep(self): self.assertEqual(("d:^foo", "baz"), self.filesystem.splitpath("d:^foo^baz")) self.assertEqual(("d:^foo^baz", ""), self.filesystem.splitpath("d:^foo^baz^")) self.assertEqual(("c:", ""), self.filesystem.splitpath("c:")) self.assertEqual(("c:^", ""), self.filesystem.splitpath("c:^")) self.assertEqual(("c:^^", ""), self.filesystem.splitpath("c:^^")) def test_split_path_with_unc_path(self): self.assertEqual( ("!!foo!bar!", "baz"), self.filesystem.splitpath("!!foo!bar!baz") ) self.assertEqual(("!!foo!bar", ""), self.filesystem.splitpath("!!foo!bar")) self.assertEqual(("!!foo!bar!!", ""), self.filesystem.splitpath("!!foo!bar!!")) def test_split_path_with_unc_path_alt_sep(self): self.assertEqual( ("^^foo^bar^", "baz"), self.filesystem.splitpath("^^foo^bar^baz") ) self.assertEqual(("^^foo^bar", ""), self.filesystem.splitpath("^^foo^bar")) self.assertEqual(("^^foo^bar^^", ""), self.filesystem.splitpath("^^foo^bar^^")) def test_splitroot_with_drive(self): self.assertEqual( ("E:", "!", "foo!bar"), self.filesystem.splitroot("E:!foo!bar") ) self.assertEqual( ("E:", "!", "!foo!!!bar"), self.filesystem.splitroot("E:!!foo!!!bar") ) self.assertEqual( (b"E:", b"!", b"!foo!!!bar"), self.filesystem.splitroot(b"E:!!foo!!!bar") ) self.assertEqual( ("C:", "^", "foo^bar"), self.filesystem.splitroot("C:^foo^bar") ) def test_splitroot_with_unc_path(self): self.assertEqual( ("!!foo!bar", "!", "baz"), self.filesystem.splitroot("!!foo!bar!baz") ) self.assertEqual( ("!!?!UNC", "!", "foo!bar"), self.filesystem.splitroot("!!?!UNC!foo!bar") ) self.assertEqual( ("^^foo^bar", "^", "baz"), self.filesystem.splitroot("^^foo^bar^baz") ) self.assertEqual( (b"!!foo!bar", b"!", b"baz"), self.filesystem.splitroot(b"!!foo!bar!baz") ) def test_splitroot_with_empty_parts(self): self.assertEqual(("", "", ""), self.filesystem.splitroot("")) self.assertEqual(("", "!", "foo"), self.filesystem.splitroot("!foo")) self.assertEqual(("!!foo!bar", "", ""), self.filesystem.splitroot("!!foo!bar")) self.assertEqual(("!!foo", "", ""), self.filesystem.splitroot("!!foo")) self.assertEqual( ("!!foo!bar", "!", ""), self.filesystem.splitroot("!!foo!bar!") ) self.assertEqual(("C:", "", "foo!bar"), self.filesystem.splitroot("C:foo!bar")) class DiskSpaceTest(TestCase): def setUp(self): self.fs = fake_filesystem.FakeFilesystem(path_separator="!", total_size=100) self.os = fake_os.FakeOsModule(self.fs) self.open = fake_open.FakeFileOpen(self.fs) def test_disk_usage_on_file_creation(self): total_size = 100 self.fs.add_mount_point("!mount", total_size) def create_too_large_file(): with self.open("!mount!file", "w") as dest: dest.write("a" * (total_size + 1)) with self.assertRaises(OSError): create_too_large_file() self.assertEqual(0, self.fs.get_disk_usage("!mount").used) with self.open("!mount!file", "w") as dest: dest.write("a" * total_size) self.assertEqual(total_size, self.fs.get_disk_usage("!mount").used) def test_disk_usage_on_automounted_drive(self): self.fs.is_windows_fs = True self.fs.reset(total_size=100) self.fs.create_file("!foo!bar", st_size=50) self.assertEqual(0, self.fs.get_disk_usage("D:!").used) self.fs.cwd = "E:!foo" self.assertEqual(0, self.fs.get_disk_usage("!foo").used) def test_disk_usage_on_mounted_paths(self): self.fs.add_mount_point("!foo", total_size=200) self.fs.add_mount_point("!foo!bar", total_size=400) self.fs.create_file("!baz", st_size=50) self.fs.create_file("!foo!baz", st_size=60) self.fs.create_file("!foo!bar!baz", st_size=100) self.assertEqual(50, self.fs.get_disk_usage("!").used) self.assertEqual(60, self.fs.get_disk_usage("!foo").used) self.assertEqual(100, self.fs.get_disk_usage("!foo!bar").used) self.assertEqual(400, self.fs.get_disk_usage("!foo!bar").total) def test_file_system_size_after_large_file_creation(self): filesystem = fake_filesystem.FakeFilesystem( path_separator="!", total_size=1024 * 1024 * 1024 * 100 ) filesystem.create_file("!foo!baz", st_size=1024 * 1024 * 1024 * 10) self.assertEqual( ( 1024 * 1024 * 1024 * 100, 1024 * 1024 * 1024 * 10, 1024 * 1024 * 1024 * 90, ), filesystem.get_disk_usage(), ) def test_file_system_size_after_binary_file_creation(self): self.fs.create_file("!foo!bar", contents=b"xyzzy") self.assertEqual((100, 5, 95), self.fs.get_disk_usage()) def test_file_system_size_after_ascii_string_file_creation(self): self.fs.create_file("!foo!bar", contents="complicated") self.assertEqual((100, 11, 89), self.fs.get_disk_usage()) def test_filesystem_size_after_2byte_unicode_file_creation(self): self.fs.create_file("!foo!bar", contents="сложно", encoding="utf-8") self.assertEqual((100, 12, 88), self.fs.get_disk_usage()) def test_filesystem_size_after_3byte_unicode_file_creation(self): self.fs.create_file("!foo!bar", contents="複雑", encoding="utf-8") self.assertEqual((100, 6, 94), self.fs.get_disk_usage()) def test_file_system_size_after_file_deletion(self): self.fs.create_file("!foo!bar", contents=b"xyzzy") self.fs.create_file("!foo!baz", st_size=20) self.fs.remove_object("!foo!bar") self.assertEqual((100, 20, 80), self.fs.get_disk_usage()) def test_file_system_size_after_directory_removal(self): self.fs.create_file("!foo!bar", st_size=10) self.fs.create_file("!foo!baz", st_size=20) self.fs.create_file("!foo1!bar", st_size=40) self.fs.remove_object("!foo") self.assertEqual((100, 40, 60), self.fs.get_disk_usage()) def test_creating_file_with_fitting_content(self): initial_usage = self.fs.get_disk_usage() try: self.fs.create_file("!foo!bar", contents=b"a" * 100) except OSError: self.fail( "File with contents fitting into disk space " "could not be written." ) self.assertEqual(initial_usage.used + 100, self.fs.get_disk_usage().used) def test_creating_file_with_content_too_large(self): def create_large_file(): self.fs.create_file("!foo!bar", contents=b"a" * 101) initial_usage = self.fs.get_disk_usage() with self.assertRaises(OSError): create_large_file() self.assertEqual(initial_usage, self.fs.get_disk_usage()) def test_creating_file_with_fitting_size(self): initial_usage = self.fs.get_disk_usage() try: self.fs.create_file("!foo!bar", st_size=100) except OSError: self.fail("File with size fitting into disk space could not be written.") self.assertEqual(initial_usage.used + 100, self.fs.get_disk_usage().used) def test_creating_file_with_size_too_large(self): initial_usage = self.fs.get_disk_usage() def create_large_file(): self.fs.create_file("!foo!bar", st_size=101) with self.assertRaises(OSError): create_large_file() self.assertEqual(initial_usage, self.fs.get_disk_usage()) def test_resize_file_with_fitting_size(self): file_object = self.fs.create_file("!foo!bar", st_size=50) try: file_object.set_large_file_size(100) file_object.set_contents(b"a" * 100) except OSError: self.fail("Resizing file failed although disk space was sufficient.") def test_resize_file_with_size_too_large(self): file_object = self.fs.create_file("!foo!bar", st_size=50) with self.raises_os_error(errno.ENOSPC): file_object.set_large_file_size(200) with self.raises_os_error(errno.ENOSPC): file_object.set_contents("a" * 150) def test_file_system_size_after_directory_rename(self): self.fs.create_file("!foo!bar", st_size=20) self.os.rename("!foo", "!baz") self.assertEqual(20, self.fs.get_disk_usage().used) def test_file_system_size_after_file_rename(self): self.fs.create_file("!foo!bar", st_size=20) self.os.rename("!foo!bar", "!foo!baz") self.assertEqual(20, self.fs.get_disk_usage().used) def test_that_hard_link_does_not_change_used_size(self): file1_path = "test_file1" file2_path = "test_file2" self.fs.create_file(file1_path, st_size=20) self.assertEqual(20, self.fs.get_disk_usage().used) # creating a hard link shall not increase used space self.os.link(file1_path, file2_path) self.assertEqual(20, self.fs.get_disk_usage().used) # removing a file shall not decrease used space # if a hard link still exists self.os.unlink(file1_path) self.assertEqual(20, self.fs.get_disk_usage().used) self.os.unlink(file2_path) self.assertEqual(0, self.fs.get_disk_usage().used) def test_that_the_size_of_correct_mount_point_is_used(self): self.fs.add_mount_point("!mount_limited", total_size=50) self.fs.add_mount_point("!mount_unlimited") with self.raises_os_error(errno.ENOSPC): self.fs.create_file("!mount_limited!foo", st_size=60) with self.raises_os_error(errno.ENOSPC): self.fs.create_file("!bar", st_size=110) try: self.fs.create_file("!foo", st_size=60) self.fs.create_file("!mount_limited!foo", st_size=40) self.fs.create_file("!mount_unlimited!foo", st_size=1000000) except OSError: self.fail( "File with contents fitting into " "disk space could not be written." ) def test_that_disk_usage_of_correct_mount_point_is_used(self): self.fs.add_mount_point("!mount1", total_size=20) self.fs.add_mount_point("!mount1!bar!mount2", total_size=50) self.fs.create_file("!foo!bar", st_size=10) self.fs.create_file("!mount1!foo!bar", st_size=10) self.fs.create_file("!mount1!bar!mount2!foo!bar", st_size=10) self.assertEqual(90, self.fs.get_disk_usage("!foo").free) self.assertEqual(10, self.fs.get_disk_usage("!mount1!foo").free) self.assertEqual(40, self.fs.get_disk_usage("!mount1!bar!mount2").free) def test_set_larger_disk_size(self): self.fs.add_mount_point("!mount1", total_size=20) with self.raises_os_error(errno.ENOSPC): self.fs.create_file("!mount1!foo", st_size=100) self.fs.set_disk_usage(total_size=200, path="!mount1") self.fs.create_file("!mount1!foo", st_size=100) self.assertEqual(100, self.fs.get_disk_usage("!mount1!foo").free) def test_set_smaller_disk_size(self): self.fs.add_mount_point("!mount1", total_size=200) self.fs.create_file("!mount1!foo", st_size=100) with self.raises_os_error(errno.ENOSPC): self.fs.set_disk_usage(total_size=50, path="!mount1") self.fs.set_disk_usage(total_size=150, path="!mount1") self.assertEqual(50, self.fs.get_disk_usage("!mount1!foo").free) def test_disk_size_on_unlimited_disk(self): self.fs.add_mount_point("!mount1") self.fs.create_file("!mount1!foo", st_size=100) self.fs.set_disk_usage(total_size=1000, path="!mount1") self.assertEqual(900, self.fs.get_disk_usage("!mount1!foo").free) def test_disk_size_on_auto_mounted_drive_on_file_creation(self): self.fs.is_windows_fs = True # drive d: shall be auto-mounted and the used size adapted self.fs.create_file("d:!foo!bar", st_size=100) self.fs.set_disk_usage(total_size=1000, path="d:") self.assertEqual(self.fs.get_disk_usage("d:!foo").free, 900) def test_disk_size_on_auto_mounted_drive_on_directory_creation(self): self.fs.is_windows_fs = True self.fs.create_dir("d:!foo!bar") self.fs.create_file("d:!foo!bar!baz", st_size=100) self.fs.create_file("d:!foo!baz", st_size=100) self.fs.set_disk_usage(total_size=1000, path="d:") self.assertEqual(800, self.fs.get_disk_usage("d:!foo").free) def test_copying_preserves_byte_contents(self): source_file = self.fs.create_file("foo", contents=b"somebytes") dest_file = self.fs.create_file("bar") dest_file.set_contents(source_file.contents) self.assertEqual(dest_file.contents, source_file.contents) def test_diskusage_after_open_write(self): with self.open("bar.txt", "w") as f: f.write("a" * 60) f.flush() self.assertEqual(60, self.fs.get_disk_usage()[1]) def test_disk_full_after_reopened(self): with self.open("bar.txt", "w") as f: f.write("a" * 60) with self.open("bar.txt") as f: self.assertEqual("a" * 60, f.read()) with self.raises_os_error(errno.ENOSPC): with self.open("bar.txt", "w") as f: f.write("b" * 110) with self.raises_os_error(errno.ENOSPC): f.flush() with self.open("bar.txt") as f: self.assertEqual("", f.read()) def test_disk_full_append(self): file_path = "bar.txt" with self.open(file_path, "w") as f: f.write("a" * 60) with self.open(file_path) as f: self.assertEqual("a" * 60, f.read()) with self.raises_os_error(errno.ENOSPC): with self.open(file_path, "a") as f: f.write("b" * 41) with self.raises_os_error(errno.ENOSPC): f.flush() with self.open("bar.txt") as f: self.assertEqual(f.read(), "a" * 60) def test_disk_full_after_reopened_rplus_seek(self): with self.open("bar.txt", "w") as f: f.write("a" * 60) with self.open("bar.txt") as f: self.assertEqual(f.read(), "a" * 60) with self.raises_os_error(errno.ENOSPC): with self.open("bar.txt", "r+") as f: f.seek(50) f.write("b" * 60) with self.raises_os_error(errno.ENOSPC): f.flush() with self.open("bar.txt") as f: self.assertEqual(f.read(), "a" * 60) class MountPointTest(TestCase): def setUp(self): self.filesystem = fake_filesystem.FakeFilesystem( path_separator="!", total_size=100 ) def add_mount_points(self): self.filesystem.add_mount_point("!foo") self.filesystem.add_mount_point("!bar") self.filesystem.add_mount_point("!foo!baz") def test_that_new_mount_points_get_new_device_number(self): self.add_mount_points() self.assertEqual(1, self.filesystem.get_object("!").st_dev) self.assertEqual(2, self.filesystem.get_object("!foo").st_dev) self.assertEqual(3, self.filesystem.get_object("!bar").st_dev) self.assertEqual(4, self.filesystem.get_object("!foo!baz").st_dev) def test_that_new_directories_get_correct_device_number(self): self.add_mount_points() self.assertEqual(1, self.filesystem.create_dir("!foo1!bar").st_dev) self.assertEqual(2, self.filesystem.create_dir("!foo!bar").st_dev) self.assertEqual(4, self.filesystem.create_dir("!foo!baz!foo!bar").st_dev) def test_that_new_files_get_correct_device_number(self): self.add_mount_points() self.assertEqual(1, self.filesystem.create_file("!foo1!bar").st_dev) self.assertEqual(2, self.filesystem.create_file("!foo!bar").st_dev) self.assertEqual(4, self.filesystem.create_file("!foo!baz!foo!bar").st_dev) def test_that_mount_point_cannot_be_added_twice(self): self.add_mount_points() with self.raises_os_error(errno.EEXIST): self.filesystem.add_mount_point("!foo") with self.raises_os_error(errno.EEXIST): self.filesystem.add_mount_point("!foo!") def test_that_drives_are_auto_mounted(self): self.filesystem.is_windows_fs = True self.add_mount_points() self.filesystem.create_dir("d:!foo!bar") self.filesystem.create_file("d:!foo!baz") self.filesystem.create_file("z:!foo!baz") self.assertEqual(5, self.filesystem.get_object("d:").st_dev) self.assertEqual(5, self.filesystem.get_object("d:!foo!bar").st_dev) self.assertEqual(5, self.filesystem.get_object("d:!foo!baz").st_dev) self.assertEqual(6, self.filesystem.get_object("z:!foo!baz").st_dev) def test_that_drives_are_auto_mounted_case_insensitive(self): self.filesystem.is_windows_fs = True self.add_mount_points() self.filesystem.is_case_sensitive = False self.filesystem.create_dir("D:!foo!bar") self.filesystem.create_file("e:!foo!baz") self.assertEqual(5, self.filesystem.get_object("D:").st_dev) self.assertEqual(5, self.filesystem.get_object("d:!foo!bar").st_dev) self.assertEqual(6, self.filesystem.get_object("e:!foo").st_dev) self.assertEqual(6, self.filesystem.get_object("E:!Foo!Baz").st_dev) def test_that_unc_paths_are_auto_mounted(self): self.filesystem.is_windows_fs = True self.add_mount_points() self.filesystem.create_dir("!!foo!bar!baz") self.filesystem.create_file("!!foo!bar!bip!bop") self.assertEqual(5, self.filesystem.get_object("!!foo!bar").st_dev) self.assertEqual(5, self.filesystem.get_object("!!foo!bar!bip!bop").st_dev) class ConvenienceMethodTest(RealFsTestCase): def test_create_link_with_non_existent_parent(self): self.skip_if_symlink_not_supported() file1_path = self.make_path("test_file1") link_path = self.make_path("nonexistent", "test_file2") self.filesystem.create_file(file1_path, contents="link test") self.assertEqual(self.os.stat(file1_path).st_nlink, 1) self.filesystem.create_link(file1_path, link_path) self.assertEqual(self.os.stat(file1_path).st_nlink, 2) self.assertTrue(self.filesystem.exists(link_path)) def test_create_symlink_with_non_existent_parent(self): self.skip_if_symlink_not_supported() file1_path = self.make_path("test_file1") link_path = self.make_path("nonexistent", "test_file2") self.filesystem.create_file(file1_path, contents="symlink test") self.filesystem.create_symlink(link_path, file1_path) self.assertTrue(self.filesystem.exists(link_path)) self.assertTrue(self.filesystem.islink(link_path)) class RealFileSystemAccessTest(RealFsTestCase): def setUp(self): # use the real path separator to work with the real file system self.filesystem = fake_filesystem.FakeFilesystem() self.fake_open = fake_filesystem.FakeFileOpen(self.filesystem) self.pyfakefs_path = os.path.split(os.path.dirname(os.path.abspath(__file__)))[ 0 ] self.root_path = os.path.split(self.pyfakefs_path)[0] def test_add_non_existing_real_file_raises(self): nonexisting_path = os.path.join("nonexisting", "test.txt") with self.assertRaises(OSError): self.filesystem.add_real_file(nonexisting_path) self.assertFalse(self.filesystem.exists(nonexisting_path)) def test_add_non_existing_real_directory_raises(self): nonexisting_path = "/nonexisting" with self.raises_os_error(errno.ENOENT): self.filesystem.add_real_directory(nonexisting_path) self.assertFalse(self.filesystem.exists(nonexisting_path)) def test_existing_fake_file_raises(self): real_file_path = __file__ self.filesystem.create_file(real_file_path) with self.raises_os_error(errno.EEXIST): self.filesystem.add_real_file(real_file_path) def test_existing_fake_directory_raises(self): self.filesystem.create_dir(self.root_path) with self.raises_os_error(errno.EEXIST): self.filesystem.add_real_directory(self.root_path) def check_fake_file_stat(self, fake_file, real_file_path, target_path=None): if target_path is None or target_path == real_file_path: self.assertTrue(self.filesystem.exists(real_file_path)) else: self.assertFalse(self.filesystem.exists(real_file_path)) self.assertTrue(self.filesystem.exists(target_path)) real_stat = os.stat(real_file_path) self.assertIsNone(fake_file._byte_contents) self.assertEqual(fake_file.st_size, real_stat.st_size) self.assertAlmostEqual(fake_file.st_ctime, real_stat.st_ctime, places=5) self.assertAlmostEqual(fake_file.st_atime, real_stat.st_atime, places=5) self.assertAlmostEqual(fake_file.st_mtime, real_stat.st_mtime, places=5) self.assertEqual(fake_file.st_uid, real_stat.st_uid) self.assertEqual(fake_file.st_gid, real_stat.st_gid) def check_read_only_file(self, fake_file, real_file_path): with open(real_file_path, "rb") as f: real_contents = f.read() self.assertEqual(fake_file.byte_contents, real_contents) if not is_root(): with self.raises_os_error(errno.EACCES): self.fake_open(real_file_path, "w") else: with self.fake_open(real_file_path, "w"): pass def check_writable_file(self, fake_file, real_file_path): with open(real_file_path, "rb") as f: real_contents = f.read() self.assertEqual(fake_file.byte_contents, real_contents) with self.fake_open(real_file_path, "wb") as f: f.write(b"test") with open(real_file_path, "rb") as f: real_contents1 = f.read() self.assertEqual(real_contents1, real_contents) with self.fake_open(real_file_path, "rb") as f: fake_contents = f.read() self.assertEqual(fake_contents, b"test") def test_add_existing_real_file_read_only(self): real_file_path = os.path.abspath(__file__) fake_file = self.filesystem.add_real_file(real_file_path) self.check_fake_file_stat(fake_file, real_file_path) self.assertEqual(fake_file.st_mode & 0o333, 0) self.check_read_only_file(fake_file, real_file_path) def test_add_existing_real_file_read_write(self): real_file_path = os.path.realpath(__file__) fake_file = self.filesystem.add_real_file(real_file_path, read_only=False) self.check_fake_file_stat(fake_file, real_file_path) self.assertEqual(fake_file.st_mode, os.stat(real_file_path).st_mode) self.check_writable_file(fake_file, real_file_path) def test_add_real_file_to_existing_path(self): real_file_path = os.path.abspath(__file__) self.filesystem.create_file("/foo/bar") with self.raises_os_error(errno.EEXIST): self.filesystem.add_real_file(real_file_path, target_path="/foo/bar") def test_add_real_file_to_non_existing_path(self): real_file_path = os.path.abspath(__file__) fake_file = self.filesystem.add_real_file( real_file_path, target_path="/foo/bar" ) self.check_fake_file_stat(fake_file, real_file_path, target_path="/foo/bar") def test_write_to_real_file(self): # regression test for #470 real_file_path = os.path.abspath(__file__) self.filesystem.add_real_file(real_file_path, read_only=False) with self.fake_open(real_file_path, "w") as f: f.write("foo") with self.fake_open(real_file_path, "rb") as f: self.assertEqual(b"foo", f.read()) def test_add_existing_real_directory_read_only(self): self.filesystem.add_real_directory(self.pyfakefs_path) self.assertTrue(self.filesystem.exists(self.pyfakefs_path)) self.assertTrue( self.filesystem.exists( os.path.join(self.pyfakefs_path, "fake_filesystem.py") ) ) self.assertTrue( self.filesystem.exists(os.path.join(self.pyfakefs_path, "fake_pathlib.py")) ) file_path = os.path.join(self.pyfakefs_path, "fake_filesystem_shutil.py") fake_file = self.filesystem.resolve(file_path) self.check_fake_file_stat(fake_file, file_path) self.check_read_only_file(fake_file, file_path) def test_add_existing_real_directory_tree(self): self.filesystem.add_real_directory(self.root_path) self.assertTrue( self.filesystem.exists( os.path.join( self.root_path, "pyfakefs", "tests", "fake_filesystem_test.py", ) ) ) self.assertTrue( self.filesystem.exists( os.path.join(self.root_path, "pyfakefs", "fake_filesystem.py") ) ) self.assertTrue( self.filesystem.exists( os.path.join(self.root_path, "pyfakefs", "__init__.py") ) ) @contextlib.contextmanager def create_symlinks(self, symlinks): for link in symlinks: os.symlink(link[0], link[1]) yield for link in symlinks: os.unlink(link[1]) def test_add_existing_real_directory_symlink(self): fake_open = fake_filesystem.FakeFileOpen(self.filesystem) real_directory = os.path.join(self.root_path, "pyfakefs", "tests") symlinks = [ ( "..", os.path.join(real_directory, "fixtures", "symlink_dir_relative"), ), ( "../all_tests.py", os.path.join(real_directory, "fixtures", "symlink_file_relative"), ), ( real_directory, os.path.join(real_directory, "fixtures", "symlink_dir_absolute"), ), ( os.path.join(real_directory, "all_tests.py"), os.path.join(real_directory, "fixtures", "symlink_file_absolute"), ), ( "/etc/something", os.path.join( real_directory, "fixtures", "symlink_file_absolute_outside" ), ), ] self.filesystem.create_file("/etc/something") with fake_open("/etc/something", "w") as f: f.write("good morning") try: with self.create_symlinks(symlinks): self.filesystem.add_real_directory(real_directory, lazy_read=False) except OSError: if self.is_windows: raise unittest.SkipTest("Symlinks under Windows need admin privileges") raise for link in symlinks: self.assertTrue(self.filesystem.islink(link[1])) # relative self.assertTrue( self.filesystem.exists( os.path.join( self.root_path, "pyfakefs", "tests", "fixtures/symlink_dir_relative", ) ) ) self.assertTrue( self.filesystem.exists( os.path.join( self.root_path, "pyfakefs", "tests", "fixtures/symlink_dir_relative/all_tests.py", ) ) ) self.assertTrue( self.filesystem.exists( os.path.join( self.root_path, "pyfakefs", "tests", "fixtures/symlink_file_relative", ) ) ) # absolute self.assertTrue( self.filesystem.exists( os.path.join( self.root_path, "pyfakefs", "tests", "fixtures/symlink_dir_absolute", ) ) ) self.assertTrue( self.filesystem.exists( os.path.join( self.root_path, "pyfakefs", "tests", "fixtures/symlink_dir_absolute/all_tests.py", ) ) ) self.assertTrue( self.filesystem.exists( os.path.join( self.root_path, "pyfakefs", "tests", "fixtures/symlink_file_absolute", ) ) ) # outside self.assertTrue( self.filesystem.exists( os.path.join( self.root_path, "pyfakefs", "tests", "fixtures/symlink_file_absolute_outside", ) ) ) self.assertEqual( fake_open( os.path.join( self.root_path, "pyfakefs", "tests", "fixtures/symlink_file_absolute_outside", ) ).read(), "good morning", ) def test_add_existing_real_directory_symlink_target_path(self): self.skip_if_symlink_not_supported(force_real_fs=True) real_directory = os.path.join(self.root_path, "pyfakefs", "tests") symlinks = [ ( "..", os.path.join(real_directory, "fixtures", "symlink_dir_relative"), ), ( "../all_tests.py", os.path.join(real_directory, "fixtures", "symlink_file_relative"), ), ] with self.create_symlinks(symlinks): self.filesystem.add_real_directory( real_directory, target_path="/path", lazy_read=False ) self.assertTrue(self.filesystem.exists("/path/fixtures/symlink_dir_relative")) self.assertTrue( self.filesystem.exists("/path/fixtures/symlink_dir_relative/all_tests.py") ) self.assertTrue(self.filesystem.exists("/path/fixtures/symlink_file_relative")) def test_add_existing_real_directory_symlink_lazy_read(self): self.skip_if_symlink_not_supported(force_real_fs=True) real_directory = os.path.join(self.root_path, "pyfakefs", "tests") symlinks = [ ( "..", os.path.join(real_directory, "fixtures", "symlink_dir_relative"), ), ( "../all_tests.py", os.path.join(real_directory, "fixtures", "symlink_file_relative"), ), ] with self.create_symlinks(symlinks): self.filesystem.add_real_directory( real_directory, target_path="/path", lazy_read=True ) self.assertTrue( self.filesystem.exists("/path/fixtures/symlink_dir_relative") ) self.assertTrue( self.filesystem.exists( "/path/fixtures/symlink_dir_relative/all_tests.py" ) ) self.assertTrue( self.filesystem.exists("/path/fixtures/symlink_file_relative") ) def test_add_existing_real_directory_tree_to_existing_path(self): self.filesystem.create_dir("/foo/bar") with self.raises_os_error(errno.EEXIST): self.filesystem.add_real_directory(self.root_path, target_path="/foo/bar") def test_add_existing_real_directory_tree_to_other_path(self): self.filesystem.add_real_directory(self.root_path, target_path="/foo/bar") self.assertFalse( self.filesystem.exists( os.path.join(self.pyfakefs_path, "tests", "fake_filesystem_test.py") ) ) self.assertTrue( self.filesystem.exists( os.path.join( "foo", "bar", "pyfakefs", "tests", "fake_filesystem_test.py", ) ) ) self.assertFalse( self.filesystem.exists( os.path.join(self.root_path, "pyfakefs", "fake_filesystem.py") ) ) self.assertTrue( self.filesystem.exists( os.path.join("foo", "bar", "pyfakefs", "__init__.py") ) ) def test_get_object_from_lazily_added_real_directory(self): self.filesystem.is_case_sensitive = True self.filesystem.add_real_directory(self.root_path) self.assertTrue( self.filesystem.get_object( os.path.join(self.root_path, "pyfakefs", "fake_filesystem.py") ) ) self.assertTrue( self.filesystem.get_object( os.path.join(self.root_path, "pyfakefs", "__init__.py") ) ) def test_add_existing_real_directory_lazily(self): disk_size = 1024 * 1024 * 1024 real_dir_path = os.path.join(self.root_path, "pyfakefs") self.filesystem.set_disk_usage(disk_size, real_dir_path) self.filesystem.add_real_directory(real_dir_path) # the directory contents have not been read, the the disk usage # has not changed self.assertEqual(disk_size, self.filesystem.get_disk_usage(real_dir_path).free) # checking for existence shall read the directory contents self.assertTrue( self.filesystem.get_object( os.path.join(real_dir_path, "fake_filesystem.py") ) ) # so now the free disk space shall have decreased self.assertGreater( disk_size, self.filesystem.get_disk_usage(real_dir_path).free ) def test_add_existing_real_directory_not_lazily(self): disk_size = 1024 * 1024 * 1024 self.filesystem.set_disk_usage(disk_size, self.pyfakefs_path) self.filesystem.add_real_directory(self.pyfakefs_path, lazy_read=False) # the directory has been read, so the file sizes have # been subtracted from the free space self.assertGreater( disk_size, self.filesystem.get_disk_usage(self.pyfakefs_path).free ) def test_add_existing_real_directory_read_write(self): self.filesystem.add_real_directory(self.pyfakefs_path, read_only=False) self.assertTrue(self.filesystem.exists(self.pyfakefs_path)) self.assertTrue( self.filesystem.exists( os.path.join(self.pyfakefs_path, "fake_filesystem.py") ) ) self.assertTrue( self.filesystem.exists(os.path.join(self.pyfakefs_path, "fake_pathlib.py")) ) file_path = os.path.join(self.pyfakefs_path, "pytest_plugin.py") fake_file = self.filesystem.resolve(file_path) self.check_fake_file_stat(fake_file, file_path) self.check_writable_file(fake_file, file_path) def test_add_existing_real_paths_read_only(self): real_file_path = os.path.realpath(__file__) fixture_path = os.path.join(self.pyfakefs_path, "tests", "fixtures") self.filesystem.add_real_paths([real_file_path, fixture_path]) fake_file = self.filesystem.resolve(real_file_path) self.check_fake_file_stat(fake_file, real_file_path) self.check_read_only_file(fake_file, real_file_path) real_file_path = os.path.join(fixture_path, "module_with_attributes.py") fake_file = self.filesystem.resolve(real_file_path) self.check_fake_file_stat(fake_file, real_file_path) self.check_read_only_file(fake_file, real_file_path) def test_add_existing_real_paths_read_write(self): real_file_path = os.path.realpath(__file__) fixture_path = os.path.join(self.pyfakefs_path, "tests", "fixtures") self.filesystem.add_real_paths([real_file_path, fixture_path], read_only=False) fake_file = self.filesystem.resolve(real_file_path) self.check_fake_file_stat(fake_file, real_file_path) self.check_writable_file(fake_file, real_file_path) real_file_path = os.path.join(fixture_path, "module_with_attributes.py") fake_file = self.filesystem.resolve(real_file_path) self.check_fake_file_stat(fake_file, real_file_path) self.check_writable_file(fake_file, real_file_path) class FileSideEffectTests(TestCase): def side_effect(self): test_case = self test_case.side_effect_called = False def __side_effect(file_object): test_case.side_effect_called = True test_case.side_effect_file_object_content = file_object.contents return __side_effect def setUp(self): # use the real path separator to work with the real file system self.filesystem = fake_filesystem.FakeFilesystem() self.filesystem.create_file("/a/b/file_one", side_effect=self.side_effect()) def test_side_effect_called(self): fake_open = fake_filesystem.FakeFileOpen(self.filesystem) self.side_effect_called = False with fake_open("/a/b/file_one", "w") as handle: handle.write("foo") self.assertTrue(self.side_effect_called) def test_side_effect_file_object(self): fake_open = fake_filesystem.FakeFileOpen(self.filesystem) self.side_effect_called = False with fake_open("/a/b/file_one", "w") as handle: handle.write("foo") self.assertEqual(self.side_effect_file_object_content, "foo") if __name__ == "__main__": unittest.main()