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# 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. """A fake open() function replacement. See ``fake_filesystem`` for usage. """ import errno import os import sys from collections import namedtuple from stat import ( S_ISDIR, ) from typing import ( Optional, Union, Any, Tuple, cast, AnyStr, TYPE_CHECKING, ) from pyfakefs import helpers from pyfakefs.fake_file import ( FakePipeWrapper, FakeFileWrapper, FakeFile, AnyFileWrapper, ) from pyfakefs.helpers import ( AnyString, is_root, PERM_READ, PERM_WRITE, ) if TYPE_CHECKING: from pyfakefs.fake_filesystem import FakeFilesystem _OpenModes = namedtuple( "_OpenModes", "must_exist can_read can_write truncate append must_not_exist", ) _OPEN_MODE_MAP = { # mode name:(file must exist, can read, can write, # truncate, append, must not exist) "r": (True, True, False, False, False, False), "w": (False, False, True, True, False, False), "a": (False, False, True, False, True, False), "r+": (True, True, True, False, False, False), "w+": (False, True, True, True, False, False), "a+": (False, True, True, False, True, False), "x": (False, False, True, False, False, True), "x+": (False, True, True, False, False, True), } class FakeFileOpen: """Faked `file()` and `open()` function replacements. Returns FakeFile objects in a FakeFilesystem in place of the `file()` or `open()` function. """ __name__ = "FakeFileOpen" def __init__( self, filesystem: "FakeFilesystem", delete_on_close: bool = False, raw_io: bool = False, ): """ Args: filesystem: FakeFilesystem used to provide file system information delete_on_close: optional boolean, deletes file on close() """ self.filesystem = filesystem self._delete_on_close = delete_on_close self.raw_io = raw_io def __call__(self, *args: Any, **kwargs: Any) -> AnyFileWrapper: """Redirects calls to file() or open() to appropriate method.""" return self.call(*args, **kwargs) def call( self, file_: Union[AnyStr, int], mode: str = "r", buffering: int = -1, encoding: Optional[str] = None, errors: Optional[str] = None, newline: Optional[str] = None, closefd: bool = True, opener: Any = None, open_modes: Optional[_OpenModes] = None, ) -> AnyFileWrapper: """Return a file-like object with the contents of the target file object. Args: file_: Path to target file or a file descriptor. mode: Additional file modes (all modes in `open()` are supported). buffering: the buffer size used for writing. Data will only be flushed if buffer size is exceeded. The default (-1) uses a system specific default buffer size. Text line mode (e.g. buffering=1 in text mode) is not supported. encoding: The encoding used to encode unicode strings / decode bytes. errors: (str) Defines how encoding errors are handled. newline: Controls universal newlines, passed to stream object. closefd: If a file descriptor rather than file name is passed, and this is set to `False`, then the file descriptor is kept open when file is closed. opener: an optional function object that will be called with `file_` and the open flags (derived from `mode`) and returns a file descriptor. open_modes: Modes for opening files if called from low-level API. Returns: A file-like object containing the contents of the target file. Raises: OSError depending on Python version / call mode: - if the target object is a directory - on an invalid path - if the file does not exist when it should - if the file exists but should not - if permission is denied ValueError: for an invalid mode or mode combination """ binary = "b" in mode if binary and encoding: raise ValueError("binary mode doesn't take an encoding argument") newline, open_modes = self._handle_file_mode(mode, newline, open_modes) # the pathlib opener is defined in a Path instance that may not be # patched under some circumstances; as it just calls standard open(), # we may ignore it, as it would not change the behavior if opener is not None and opener.__module__ != "pathlib": # opener shall return a file descriptor, which will be handled # here as if directly passed file_ = opener(file_, self._open_flags_from_open_modes(open_modes)) file_object, file_path, filedes, real_path = self._handle_file_arg(file_) if file_object is None and file_path is None: # file must be a fake pipe wrapper, find it... if ( filedes is None or len(self.filesystem.open_files) <= filedes or not self.filesystem.open_files[filedes] ): raise OSError(errno.EBADF, "invalid pipe file descriptor") wrappers = self.filesystem.open_files[filedes] assert wrappers is not None existing_wrapper = wrappers[0] assert isinstance(existing_wrapper, FakePipeWrapper) wrapper = FakePipeWrapper( self.filesystem, existing_wrapper.fd, existing_wrapper.can_write, mode, ) file_des = self.filesystem._add_open_file(wrapper) wrapper.filedes = file_des return wrapper assert file_path is not None if not filedes: closefd = True if ( not opener and open_modes.must_not_exist and ( file_object or self.filesystem.islink(file_path) and not self.filesystem.is_windows_fs ) ): self.filesystem.raise_os_error(errno.EEXIST, file_path) assert real_path is not None file_object = self._init_file_object( file_object, file_path, open_modes, real_path ) if S_ISDIR(file_object.st_mode): if self.filesystem.is_windows_fs: self.filesystem.raise_os_error(errno.EACCES, file_path) else: self.filesystem.raise_os_error(errno.EISDIR, file_path) # If you print obj.name, the argument to open() must be printed. # Not the abspath, not the filename, but the actual argument. file_object.opened_as = file_path if open_modes.truncate: current_time = helpers.now() file_object.st_mtime = current_time if not self.filesystem.is_windows_fs: file_object.st_ctime = current_time fakefile = FakeFileWrapper( file_object, file_path, update=open_modes.can_write, read=open_modes.can_read, append=open_modes.append, delete_on_close=self._delete_on_close, filesystem=self.filesystem, newline=newline, binary=binary, closefd=closefd, encoding=encoding, errors=errors, buffering=buffering, raw_io=self.raw_io, ) if filedes is not None: fakefile.filedes = filedes # replace the file wrapper open_files_list = self.filesystem.open_files[filedes] assert open_files_list is not None open_files_list.append(fakefile) else: fakefile.filedes = self.filesystem._add_open_file(fakefile) return fakefile @staticmethod def _open_flags_from_open_modes(open_modes: _OpenModes) -> int: flags = 0 if open_modes.can_read and open_modes.can_write: flags |= os.O_RDWR elif open_modes.can_read: flags |= os.O_RDONLY elif open_modes.can_write: flags |= os.O_WRONLY if open_modes.append: flags |= os.O_APPEND if open_modes.truncate: flags |= os.O_TRUNC if not open_modes.must_exist and open_modes.can_write: flags |= os.O_CREAT if open_modes.must_not_exist and open_modes.can_write: flags |= os.O_EXCL return flags def _init_file_object( self, file_object: Optional[FakeFile], file_path: AnyStr, open_modes: _OpenModes, real_path: AnyString, ) -> FakeFile: if file_object: if not is_root() and ( (open_modes.can_read and not file_object.st_mode & PERM_READ) or (open_modes.can_write and not file_object.st_mode & PERM_WRITE) ): self.filesystem.raise_os_error(errno.EACCES, file_path) if open_modes.can_write: if open_modes.truncate: file_object.set_contents("") else: if open_modes.must_exist: self.filesystem.raise_os_error(errno.ENOENT, file_path) if self.filesystem.islink(file_path): link_object = self.filesystem.resolve(file_path, follow_symlinks=False) assert link_object.contents is not None target_path = cast( AnyStr, link_object.contents ) # pytype: disable=invalid-annotation else: target_path = file_path if self.filesystem.ends_with_path_separator(target_path): error = ( errno.EINVAL if self.filesystem.is_windows_fs else errno.ENOENT if self.filesystem.is_macos else errno.EISDIR ) self.filesystem.raise_os_error(error, file_path) file_object = self.filesystem.create_file_internally( real_path, create_missing_dirs=False, apply_umask=True ) return file_object def _handle_file_arg( self, file_: Union[AnyStr, int] ) -> Tuple[Optional[FakeFile], Optional[AnyStr], Optional[int], Optional[AnyStr]]: file_object = None if isinstance(file_, int): # opening a file descriptor filedes: int = file_ wrapper = self.filesystem.get_open_file(filedes) if isinstance(wrapper, FakePipeWrapper): return None, None, filedes, None if isinstance(wrapper, FakeFileWrapper): self._delete_on_close = wrapper.delete_on_close file_object = cast( FakeFile, self.filesystem.get_open_file(filedes).get_object() ) assert file_object is not None path = file_object.name return ( file_object, cast(AnyStr, path), # pytype: disable=invalid-annotation filedes, cast(AnyStr, path), # pytype: disable=invalid-annotation ) # open a file file by path file_path = cast(AnyStr, file_) # pytype: disable=invalid-annotation if file_path == self.filesystem.dev_null.name: file_object = self.filesystem.dev_null real_path = file_path else: real_path = self.filesystem.resolve_path(file_path) if self.filesystem.exists(file_path): file_object = self.filesystem.get_object_from_normpath( real_path, check_read_perm=False ) return file_object, file_path, None, real_path def _handle_file_mode( self, mode: str, newline: Optional[str], open_modes: Optional[_OpenModes], ) -> Tuple[Optional[str], _OpenModes]: orig_modes = mode # Save original modes for error messages. # Normalize modes. Handle 't' and 'U'. if ("b" in mode and "t" in mode) or ( sys.version_info > (3, 10) and "U" in mode ): raise ValueError("Invalid mode: " + mode) mode = mode.replace("t", "").replace("b", "") mode = mode.replace("rU", "r").replace("U", "r") if not self.raw_io: if mode not in _OPEN_MODE_MAP: raise ValueError("Invalid mode: %r" % orig_modes) open_modes = _OpenModes(*_OPEN_MODE_MAP[mode]) assert open_modes is not None return newline, open_modes