Hacked By AnonymousFox
# 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.
"""Test that FakeFilesystem calls work identically to a real filesystem."""
# pylint: disable-all
import os
import shutil
import sys
import tempfile
import time
import unittest
from pyfakefs import fake_filesystem, fake_os, fake_open
from pyfakefs.helpers import IS_PYPY
def sep(path):
"""Converts slashes in the path to the architecture's path seperator."""
if isinstance(path, str):
return path.replace("/", os.sep)
return path
def _get_errno(raised_error):
if raised_error is not None:
try:
return raised_error.errno
except AttributeError:
pass
class TestCase(unittest.TestCase):
is_windows = sys.platform.startswith("win")
_FAKE_FS_BASE = "C:\\fakefs" if is_windows else "/fakefs"
class FakeFilesystemVsRealTest(TestCase):
def _paths(self, path):
"""For a given path, return paths in the real and fake filesystems."""
if not path:
return None, None
return (
os.path.join(self.real_base, path),
os.path.join(self.fake_base, path),
)
def _create_test_file(self, file_type, path, contents=None):
"""Create a dir, file, or link in both the real fs and the fake."""
path = sep(path)
self._created_files.append([file_type, path, contents])
real_path, fake_path = self._paths(path)
if file_type == "d":
os.mkdir(real_path)
self.fake_os.mkdir(fake_path)
if file_type == "f":
fh = open(real_path, "w")
fh.write(contents or "")
fh.close()
fh = self.fake_open(fake_path, "w")
fh.write(contents or "")
fh.close()
# b for binary file
if file_type == "b":
fh = open(real_path, "wb")
fh.write(contents or "")
fh.close()
fh = self.fake_open(fake_path, "wb")
fh.write(contents or "")
fh.close()
# l for symlink, h for hard link
if file_type in ("l", "h"):
real_target, fake_target = (contents, contents)
# If it begins with '/', make it relative to the base. You can't go
# creating files in / for the real file system.
if contents.startswith(os.sep):
real_target, fake_target = self._paths(contents[1:])
if file_type == "l":
os.symlink(real_target, real_path)
self.fake_os.symlink(fake_target, fake_path)
elif file_type == "h":
os.link(real_target, real_path)
self.fake_os.link(fake_target, fake_path)
def setUp(self):
# Base paths in the real and test file systems. We keep them different
# so that missing features in the fake don't fall through to the base
# operations and magically succeed.
tsname = "fakefs.%s" % time.time()
self.cwd = os.getcwd()
# Fully expand the base_path - required on OS X.
self.real_base = os.path.realpath(os.path.join(tempfile.gettempdir(), tsname))
os.chdir(tempfile.gettempdir())
if os.path.isdir(self.real_base):
shutil.rmtree(self.real_base)
os.mkdir(self.real_base)
self.fake_base = self._FAKE_FS_BASE
# Make sure we can write to the physical testing temp directory.
self.assertTrue(os.access(self.real_base, os.W_OK))
self.fake_filesystem = fake_filesystem.FakeFilesystem()
self.fake_filesystem.create_dir(self.fake_base)
self.fake_os = fake_os.FakeOsModule(self.fake_filesystem)
self.fake_open = fake_open.FakeFileOpen(self.fake_filesystem)
self._created_files = []
os.chdir(self.real_base)
self.fake_os.chdir(self.fake_base)
def tearDown(self):
# We have to remove all the files from the real FS. Doing the same for
# the fake FS is optional, but doing it is an extra sanity check.
os.chdir(tempfile.gettempdir())
try:
rev_files = self._created_files[:]
rev_files.reverse()
for info in rev_files:
real_path, fake_path = self._paths(info[1])
if info[0] == "d":
try:
os.rmdir(real_path)
except OSError as e:
if "Directory not empty" in e:
self.fail(
"Real path %s not empty: %s : %s"
% (real_path, e, os.listdir(real_path))
)
else:
raise
self.fake_os.rmdir(fake_path)
if info[0] == "f" or info[0] == "l":
os.remove(real_path)
self.fake_os.remove(fake_path)
finally:
shutil.rmtree(self.real_base)
os.chdir(self.cwd)
def _compare_behaviors(
self, method_name, path, real, fake, method_returns_path=False
):
"""Invoke an os method in both real and fake contexts and compare
results.
Invoke a real filesystem method with a path to a real file and invoke
a fake filesystem method with a path to a fake file and compare the
results. We expect some calls to throw Exceptions, so we catch those
and compare them.
Args:
method_name: Name of method being tested, for use in
error messages.
path: potential path to a file in the real and fake file systems,
passing an empty tuple indicates that no arguments to pass
to method.
real: built-in system library or method from the built-in system
library which takes a path as an arg and returns some value.
fake: fake_filsystem object or method from a fake_filesystem class
which takes a path as an arg and returns some value.
method_returns_path: True if the method returns a path, and thus we
must compensate for expected difference between real and fake.
Returns:
A description of the difference in behavior, or None.
"""
# pylint: disable=C6403
def _error_class(exc):
if exc:
if hasattr(exc, "errno"):
return "{}({})".format(exc.__class__.__name__, exc.errno)
return exc.__class__.__name__
return "None"
real_err, real_value = self._get_real_value(method_name, path, real)
fake_err, fake_value = self._get_fake_value(method_name, path, fake)
method_call = f"{method_name}"
method_call += "()" if path == () else "({path})"
# We only compare on the error class because the acutal error contents
# is almost always different because of the file paths.
if _error_class(real_err) != _error_class(fake_err):
if real_err is None:
return "%s: real version returned %s, fake raised %s" % (
method_call,
real_value,
_error_class(fake_err),
)
if fake_err is None:
return "%s: real version raised %s, fake returned %s" % (
method_call,
_error_class(real_err),
fake_value,
)
return "%s: real version raised %s, fake raised %s" % (
method_call,
_error_class(real_err),
_error_class(fake_err),
)
real_errno = _get_errno(real_err)
fake_errno = _get_errno(fake_err)
if real_errno != fake_errno:
return "%s(%s): both raised %s, real errno %s, fake errno %s" % (
method_name,
path,
_error_class(real_err),
real_errno,
fake_errno,
)
# If the method is supposed to return a full path AND both values
# begin with the expected full path, then trim it off.
if method_returns_path:
if (
real_value
and fake_value
and real_value.startswith(self.real_base)
and fake_value.startswith(self.fake_base)
):
real_value = real_value[len(self.real_base) :]
fake_value = fake_value[len(self.fake_base) :]
if real_value != fake_value:
return "%s: real return %s, fake returned %s" % (
method_call,
real_value,
fake_value,
)
return None
@staticmethod
def _get_fake_value(method_name, path, fake):
fake_value = None
fake_err = None
try:
fake_method = fake
if not callable(fake):
fake_method = getattr(fake, method_name)
args = [] if path == () else [path]
result = fake_method(*args)
if isinstance(result, bytes):
fake_value = result.decode()
else:
fake_value = str(result)
except Exception as e: # pylint: disable-msg=W0703
fake_err = e
return fake_err, fake_value
@staticmethod
def _get_real_value(method_name, path, real):
real_value = None
real_err = None
# Catching Exception below gives a lint warning, but it's what we need.
try:
args = [] if path == () else [path]
real_method = real
if not callable(real):
real_method = getattr(real, method_name)
result = real_method(*args)
if isinstance(result, bytes):
real_value = result.decode()
else:
real_value = str(result)
except Exception as e: # pylint: disable-msg=W0703
real_err = e
return real_err, real_value
def assertOsMethodBehaviorMatches(
self, method_name, path, method_returns_path=False
):
"""Invoke an os method in both real and fake contexts and compare.
For a given method name (from the os module) and a path, compare the
behavior of the system provided module against the fake_filesystem
module.
We expect results and/or Exceptions raised to be identical.
Args:
method_name: Name of method being tested.
path: potential path to a file in the real and fake file systems.
method_returns_path: True if the method returns a path, and thus we
must compensate for expected difference between real and fake.
Returns:
A description of the difference in behavior, or None.
"""
path = sep(path)
return self._compare_behaviors(
method_name, path, os, self.fake_os, method_returns_path
)
def diff_open_method_behavior(
self, method_name, path, mode, data, method_returns_data=True
):
"""Invoke an open method in both real and fkae contexts and compare.
Args:
method_name: Name of method being tested.
path: potential path to a file in the real and fake file systems.
mode: how to open the file.
data: any data to pass to the method.
method_returns_data: True if a method returns some sort of data.
For a given method name (from builtin open) and a path, compare the
behavior of the system provided module against the fake_filesystem
module.
We expect results and/or Exceptions raised to be identical.
Returns:
A description of the difference in behavior, or None.
"""
with open(path, mode) as real_fh:
with self.fake_open(path, mode) as fake_fh:
return self._compare_behaviors(
method_name, data, real_fh, fake_fh, method_returns_data
)
def diff_os_path_method_behavior(
self, method_name, path, method_returns_path=False
):
"""Invoke an os.path method in both real and fake contexts and compare.
For a given method name (from the os.path module) and a path, compare
the behavior of the system provided module against the
fake_filesytem module.
We expect results and/or Exceptions raised to be identical.
Args:
method_name: Name of method being tested.
path: potential path to a file in the real and fake file systems.
method_returns_path: True if the method returns a path, and thus we
must compensate for expected difference between real and fake.
Returns:
A description of the difference in behavior, or None.
"""
return self._compare_behaviors(
method_name, path, os.path, self.fake_os.path, method_returns_path
)
def assertOsPathMethodBehaviorMatches(
self, method_name, path, method_returns_path=False
):
"""Assert that an os.path behaves the same in both real and
fake contexts.
Wraps DiffOsPathMethodBehavior, raising AssertionError if any
differences are reported.
Args:
method_name: Name of method being tested.
path: potential path to a file in the real and fake file systems.
method_returns_path: True if the method returns a path, and thus we
must compensate for expected difference between real and fake.
Raises:
AssertionError if there is any difference in behavior.
"""
path = sep(path)
diff = self.diff_os_path_method_behavior(method_name, path, method_returns_path)
if diff:
self.fail(diff)
def assertAllOsBehaviorsMatch(self, path):
path = sep(path)
os_method_names = [] if self.is_windows else ["readlink"]
os_method_names_no_args = ["getcwd"]
os_path_method_names = ["isabs", "isdir"]
if not self.is_windows:
os_path_method_names += ["islink", "lexists"]
if not self.is_windows or not IS_PYPY:
os_path_method_names += ["isfile", "exists"]
wrapped_methods = [
["access", self._access_real, self._access_fake],
["stat.size", self._stat_size_real, self._stat_size_fake],
["lstat.size", self._lstat_size_real, self._lstat_size_fake],
]
differences = []
for method_name in os_method_names:
diff = self.assertOsMethodBehaviorMatches(method_name, path)
if diff:
differences.append(diff)
for method_name in os_method_names_no_args:
diff = self.assertOsMethodBehaviorMatches(
method_name, (), method_returns_path=True
)
if diff:
differences.append(diff)
for method_name in os_path_method_names:
diff = self.diff_os_path_method_behavior(method_name, path)
if diff:
differences.append(diff)
for m in wrapped_methods:
diff = self._compare_behaviors(m[0], path, m[1], m[2])
if diff:
differences.append(diff)
if differences:
self.fail(
"Behaviors do not match for %s:\n %s"
% (path, "\n ".join(differences))
)
def assertFileHandleBehaviorsMatch(self, path, mode, data):
path = sep(path)
write_method_names = ["write", "writelines"]
read_method_names = ["read", "readlines"]
other_method_names = ["truncate", "flush", "close"]
differences = []
for method_name in write_method_names:
diff = self.diff_open_method_behavior(method_name, path, mode, data)
if diff:
differences.append(diff)
for method_name in read_method_names + other_method_names:
diff = self.diff_open_method_behavior(method_name, path, mode, ())
if diff:
differences.append(diff)
if differences:
self.fail(
"Behaviors do not match for %s:\n %s"
% (path, "\n ".join(differences))
)
def assertFileHandleOpenBehaviorsMatch(self, *args, **kwargs):
"""Compare open() function invocation between real and fake.
Runs open(*args, **kwargs) on both real and fake.
Args:
*args: args to pass through to open()
**kwargs: kwargs to pass through to open().
Returns:
None.
Raises:
AssertionError if underlying open() behavior differs from fake.
"""
real_err = None
fake_err = None
try:
with open(*args, **kwargs):
pass
except Exception as e: # pylint: disable-msg=W0703
real_err = e
try:
with self.fake_open(*args, **kwargs):
pass
except Exception as e: # pylint: disable-msg=W0703
fake_err = e
# default equal in case one is None and other is not.
is_exception_equal = real_err == fake_err
if real_err and fake_err:
# exception __eq__ doesn't evaluate equal ever, thus manual check.
is_exception_equal = (
type(real_err) is type(fake_err) and real_err.args == fake_err.args
)
if not is_exception_equal:
msg = "Behaviors don't match on open with args %s & kwargs %s.\n" % (
args,
kwargs,
)
real_err_msg = "Real open results in: %s\n" % repr(real_err)
fake_err_msg = "Fake open results in: %s\n" % repr(fake_err)
self.fail(msg + real_err_msg + fake_err_msg)
# Helpers for checks which are not straight method calls.
@staticmethod
def _access_real(path):
return os.access(path, os.R_OK)
def _access_fake(self, path):
return self.fake_os.access(path, os.R_OK)
def _stat_size_real(self, path):
real_path, unused_fake_path = self._paths(path)
# fake_filesystem.py does not implement stat().st_size for directories
if os.path.isdir(real_path):
return None
return os.stat(real_path).st_size
def _stat_size_fake(self, path):
unused_real_path, fake_path = self._paths(path)
# fake_filesystem.py does not implement stat().st_size for directories
if self.fake_os.path.isdir(fake_path):
return None
return self.fake_os.stat(fake_path).st_size
def _lstat_size_real(self, path):
real_path, unused_fake_path = self._paths(path)
if os.path.isdir(real_path):
return None
size = os.lstat(real_path).st_size
# Account for the difference in the lengths of the absolute paths.
if os.path.islink(real_path):
if os.readlink(real_path).startswith(os.sep):
size -= len(self.real_base)
return size
def _lstat_size_fake(self, path):
unused_real_path, fake_path = self._paths(path)
# size = 0
if self.fake_os.path.isdir(fake_path):
return None
size = self.fake_os.lstat(fake_path).st_size
# Account for the difference in the lengths of the absolute paths.
if self.fake_os.path.islink(fake_path):
if self.fake_os.readlink(fake_path).startswith(os.sep):
size -= len(self.fake_base)
return size
def test_isabs(self):
# We do not have to create any files for isabs.
self.assertOsPathMethodBehaviorMatches("isabs", None)
self.assertOsPathMethodBehaviorMatches("isabs", "")
self.assertOsPathMethodBehaviorMatches("isabs", "/")
self.assertOsPathMethodBehaviorMatches("isabs", "/a")
self.assertOsPathMethodBehaviorMatches("isabs", "a")
def test_none_path(self):
self.assertAllOsBehaviorsMatch(None)
def test_empty_path(self):
self.assertAllOsBehaviorsMatch("")
def test_root_path(self):
self.assertAllOsBehaviorsMatch("/")
def test_non_existant_file(self):
self.assertAllOsBehaviorsMatch("foo")
def test_empty_file(self):
self._create_test_file("f", "aFile")
self.assertAllOsBehaviorsMatch("aFile")
def test_file_with_contents(self):
self._create_test_file("f", "aFile", "some contents")
self.assertAllOsBehaviorsMatch("aFile")
def test_file_with_binary_contents(self):
self._create_test_file("b", "aFile", b"some contents")
self.assertAllOsBehaviorsMatch("aFile")
@unittest.skipIf(TestCase.is_windows, "no symlink in Windows")
def test_sym_link_to_empty_file(self):
self._create_test_file("f", "aFile")
self._create_test_file("l", "link_to_empty", "aFile")
self.assertAllOsBehaviorsMatch("link_to_empty")
@unittest.skipIf(TestCase.is_windows, "no symlink in Windows")
def test_hard_link_to_empty_file(self):
self._create_test_file("f", "aFile")
self._create_test_file("h", "link_to_empty", "aFile")
self.assertAllOsBehaviorsMatch("link_to_empty")
@unittest.skipIf(TestCase.is_windows, "no symlink in Windows")
def test_sym_link_to_real_file(self):
self._create_test_file("f", "aFile", "some contents")
self._create_test_file("l", "link_to_file", "aFile")
self.assertAllOsBehaviorsMatch("link_to_file")
@unittest.skipIf(TestCase.is_windows, "no symlink in Windows")
def test_hard_link_to_real_file(self):
self._create_test_file("f", "aFile", "some contents")
self._create_test_file("h", "link_to_file", "aFile")
self.assertAllOsBehaviorsMatch("link_to_file")
@unittest.skipIf(TestCase.is_windows, "no symlink in Windows")
def test_broken_sym_link(self):
self._create_test_file("l", "broken_link", "broken")
self._create_test_file("l", "loop", "/a/loop")
self.assertAllOsBehaviorsMatch("broken_link")
def test_file_in_a_folder(self):
self._create_test_file("d", "a")
self._create_test_file("d", "a/b")
self._create_test_file("f", "a/b/file", "contents")
self.assertAllOsBehaviorsMatch("a/b/file")
@unittest.skipIf(TestCase.is_windows, "no symlink in Windows")
def test_absolute_sym_link_to_folder(self):
self._create_test_file("d", "a")
self._create_test_file("d", "a/b")
self._create_test_file("f", "a/b/file", "contents")
self._create_test_file("l", "a/link", "/a/b")
self.assertAllOsBehaviorsMatch("a/link/file")
@unittest.skipIf(TestCase.is_windows, "no symlink in Windows")
def test_link_to_folder_after_chdir(self):
self._create_test_file("d", "a")
self._create_test_file("d", "a/b")
self._create_test_file("f", "a/b/file", "contents")
self._create_test_file("l", "a/link", "/a/b")
real_dir, fake_dir = self._paths("a/b")
os.chdir(real_dir)
self.fake_os.chdir(fake_dir)
self.assertAllOsBehaviorsMatch("file")
@unittest.skipIf(TestCase.is_windows, "no symlink in Windows")
def test_relative_sym_link_to_folder(self):
self._create_test_file("d", "a")
self._create_test_file("d", "a/b")
self._create_test_file("f", "a/b/file", "contents")
self._create_test_file("l", "a/link", "b")
self.assertAllOsBehaviorsMatch("a/link/file")
@unittest.skipIf(TestCase.is_windows, "no symlink in Windows")
def test_sym_link_to_parent(self):
# Soft links on HFS+ / OS X behave differently.
if os.uname()[0] != "Darwin":
self._create_test_file("d", "a")
self._create_test_file("d", "a/b")
self._create_test_file("l", "a/b/c", "..")
self.assertAllOsBehaviorsMatch("a/b/c")
@unittest.skipIf(TestCase.is_windows, "no symlink in Windows")
def test_path_through_sym_link_to_parent(self):
self._create_test_file("d", "a")
self._create_test_file("f", "a/target", "contents")
self._create_test_file("d", "a/b")
self._create_test_file("l", "a/b/c", "..")
self.assertAllOsBehaviorsMatch("a/b/c/target")
@unittest.skipIf(TestCase.is_windows, "no symlink in Windows")
def test_sym_link_to_sibling_directory(self):
self._create_test_file("d", "a")
self._create_test_file("d", "a/b")
self._create_test_file("d", "a/sibling_of_b")
self._create_test_file("f", "a/sibling_of_b/target", "contents")
self._create_test_file("l", "a/b/c", "../sibling_of_b")
self.assertAllOsBehaviorsMatch("a/b/c/target")
@unittest.skipIf(TestCase.is_windows, "no symlink in Windows")
def test_sym_link_to_sibling_directory_non_existant_file(self):
self._create_test_file("d", "a")
self._create_test_file("d", "a/b")
self._create_test_file("d", "a/sibling_of_b")
self._create_test_file("f", "a/sibling_of_b/target", "contents")
self._create_test_file("l", "a/b/c", "../sibling_of_b")
self.assertAllOsBehaviorsMatch("a/b/c/file_does_not_exist")
@unittest.skipIf(TestCase.is_windows, "no symlink in Windows")
def test_broken_sym_link_to_sibling_directory(self):
self._create_test_file("d", "a")
self._create_test_file("d", "a/b")
self._create_test_file("d", "a/sibling_of_b")
self._create_test_file("f", "a/sibling_of_b/target", "contents")
self._create_test_file("l", "a/b/c", "../broken_sibling_of_b")
self.assertAllOsBehaviorsMatch("a/b/c/target")
def test_relative_path(self):
self._create_test_file("d", "a")
self._create_test_file("d", "a/b")
self._create_test_file("d", "a/sibling_of_b")
self._create_test_file("f", "a/sibling_of_b/target", "contents")
self.assertAllOsBehaviorsMatch("a/b/../sibling_of_b/target")
def test_broken_relative_path(self):
self._create_test_file("d", "a")
self._create_test_file("d", "a/b")
self._create_test_file("d", "a/sibling_of_b")
self._create_test_file("f", "a/sibling_of_b/target", "contents")
self.assertAllOsBehaviorsMatch("a/b/../broken/target")
def test_bad_relative_path(self):
self._create_test_file("d", "a")
self._create_test_file("f", "a/target", "contents")
self._create_test_file("d", "a/b")
self._create_test_file("d", "a/sibling_of_b")
self._create_test_file("f", "a/sibling_of_b/target", "contents")
self.assertAllOsBehaviorsMatch("a/b/../broken/../target")
def test_getmtime_nonexistant_path(self):
self.assertOsPathMethodBehaviorMatches("getmtime", "no/such/path")
def test_builtin_open_modes(self):
self._create_test_file("f", "read", "some contents")
self._create_test_file("f", "write", "some contents")
self._create_test_file("f", "append", "some contents")
self.assertFileHandleBehaviorsMatch("read", "r", "other contents")
self.assertFileHandleBehaviorsMatch("write", "w", "other contents")
self.assertFileHandleBehaviorsMatch("append", "a", "other contents")
self._create_test_file("f", "readplus", "some contents")
self._create_test_file("f", "writeplus", "some contents")
self.assertFileHandleBehaviorsMatch("readplus", "r+", "other contents")
self.assertFileHandleBehaviorsMatch("writeplus", "w+", "other contents")
self._create_test_file("b", "binaryread", b"some contents")
self._create_test_file("b", "binarywrite", b"some contents")
self._create_test_file("b", "binaryappend", b"some contents")
self.assertFileHandleBehaviorsMatch("binaryread", "rb", b"other contents")
self.assertFileHandleBehaviorsMatch("binarywrite", "wb", b"other contents")
self.assertFileHandleBehaviorsMatch("binaryappend", "ab", b"other contents")
self.assertFileHandleBehaviorsMatch("read", "rb", "other contents")
self.assertFileHandleBehaviorsMatch("write", "wb", "other contents")
self.assertFileHandleBehaviorsMatch("append", "ab", "other contents")
# binary cannot have encoding
self.assertFileHandleOpenBehaviorsMatch("read", "rb", encoding="enc")
self.assertFileHandleOpenBehaviorsMatch("write", mode="wb", encoding="enc")
self.assertFileHandleOpenBehaviorsMatch("append", "ab", encoding="enc")
# text can have encoding
self.assertFileHandleOpenBehaviorsMatch("read", "r", encoding="utf-8")
self.assertFileHandleOpenBehaviorsMatch("write", "w", encoding="utf-8")
self.assertFileHandleOpenBehaviorsMatch("append", "a", encoding="utf-8")
def main(_):
unittest.main()
if __name__ == "__main__":
unittest.main()
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