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dupeguru/core/fs.py

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# Created By: Virgil Dupras
# Created On: 2009-10-22
2015-01-03 21:30:57 +00:00
# Copyright 2015 Hardcoded Software (http://www.hardcoded.net)
#
# This software is licensed under the "GPLv3" License as described in the "LICENSE" file,
# which should be included with this package. The terms are also available at
# http://www.gnu.org/licenses/gpl-3.0.html
# This is a fork from hsfs. The reason for this fork is that hsfs has been designed for musicGuru
# and was re-used for dupeGuru. The problem is that hsfs is way over-engineered for dupeGuru,
# resulting needless complexity and memory usage. It's been a while since I wanted to do that fork,
# and I'm doing it now.
import hashlib
import logging
from hscommon.util import nonone, get_file_ext
__all__ = [
"File",
"Folder",
"get_file",
"get_files",
"FSError",
"AlreadyExistsError",
"InvalidPath",
"InvalidDestinationError",
"OperationError",
]
NOT_SET = object()
class FSError(Exception):
cls_message = "An error has occured on '{name}' in '{parent}'"
def __init__(self, fsobject, parent=None):
message = self.cls_message
if isinstance(fsobject, str):
name = fsobject
elif isinstance(fsobject, File):
name = fsobject.name
else:
name = ""
parentname = str(parent) if parent is not None else ""
Exception.__init__(self, message.format(name=name, parent=parentname))
class AlreadyExistsError(FSError):
"The directory or file name we're trying to add already exists"
cls_message = "'{name}' already exists in '{parent}'"
class InvalidPath(FSError):
"The path of self is invalid, and cannot be worked with."
cls_message = "'{name}' is invalid."
class InvalidDestinationError(FSError):
"""A copy/move operation has been called, but the destination is invalid."""
cls_message = "'{name}' is an invalid destination for this operation."
class OperationError(FSError):
"""A copy/move/delete operation has been called, but the checkup after the
operation shows that it didn't work."""
cls_message = "Operation on '{name}' failed."
class File:
"""Represents a file and holds metadata to be used for scanning.
"""
INITIAL_INFO = {
"size": 0,
"mtime": 0,
"md5": "",
"md5partial": "",
}
# Slots for File make us save quite a bit of memory. In a memory test I've made with a lot of
# files, I saved 35% memory usage with "unread" files (no _read_info() call) and gains become
# even greater when we take into account read attributes (70%!). Yeah, it's worth it.
__slots__ = ("path", "is_ref", "words") + tuple(INITIAL_INFO.keys())
def __init__(self, path):
self.path = path
for attrname in self.INITIAL_INFO:
setattr(self, attrname, NOT_SET)
def __repr__(self):
return "<{} {}>".format(self.__class__.__name__, str(self.path))
def __getattribute__(self, attrname):
result = object.__getattribute__(self, attrname)
if result is NOT_SET:
try:
self._read_info(attrname)
except Exception as e:
logging.warning(
"An error '%s' was raised while decoding '%s'", e, repr(self.path)
)
result = object.__getattribute__(self, attrname)
if result is NOT_SET:
result = self.INITIAL_INFO[attrname]
return result
# This offset is where we should start reading the file to get a partial md5
# For audio file, it should be where audio data starts
def _get_md5partial_offset_and_size(self):
return (0x4000, 0x4000) # 16Kb
def _read_info(self, field):
if field in ("size", "mtime"):
stats = self.path.stat()
self.size = nonone(stats.st_size, 0)
self.mtime = nonone(stats.st_mtime, 0)
elif field == "md5partial":
try:
fp = self.path.open("rb")
offset, size = self._get_md5partial_offset_and_size()
fp.seek(offset)
partialdata = fp.read(size)
md5 = hashlib.md5(partialdata)
self.md5partial = md5.digest()
fp.close()
except Exception:
pass
elif field == "md5":
try:
fp = self.path.open("rb")
md5 = hashlib.md5()
# The goal here is to not run out of memory on really big files. However, the chunk
# size has to be large enough so that the python loop isn't too costly in terms of
# CPU.
CHUNK_SIZE = 1024 * 1024 # 1 mb
filedata = fp.read(CHUNK_SIZE)
while filedata:
md5.update(filedata)
filedata = fp.read(CHUNK_SIZE)
self.md5 = md5.digest()
fp.close()
except Exception:
pass
def _read_all_info(self, attrnames=None):
"""Cache all possible info.
If `attrnames` is not None, caches only attrnames.
"""
if attrnames is None:
attrnames = self.INITIAL_INFO.keys()
for attrname in attrnames:
getattr(self, attrname)
# --- Public
@classmethod
def can_handle(cls, path):
"""Returns whether this file wrapper class can handle ``path``.
"""
return not path.islink() and path.isfile()
def rename(self, newname):
if newname == self.name:
return
destpath = self.path.parent()[newname]
if destpath.exists():
raise AlreadyExistsError(newname, self.path.parent())
try:
self.path.rename(destpath)
except EnvironmentError:
raise OperationError(self)
if not destpath.exists():
raise OperationError(self)
self.path = destpath
def get_display_info(self, group, delta):
"""Returns a display-ready dict of dupe's data.
"""
raise NotImplementedError()
# --- Properties
@property
def extension(self):
return get_file_ext(self.name)
@property
def name(self):
return self.path.name
@property
def folder_path(self):
return self.path.parent()
class Folder(File):
"""A wrapper around a folder path.
It has the size/md5 info of a File, but it's value are the sum of its subitems.
"""
__slots__ = File.__slots__ + ("_subfolders",)
def __init__(self, path):
File.__init__(self, path)
self._subfolders = None
def _all_items(self):
folders = self.subfolders
files = get_files(self.path)
return folders + files
def _read_info(self, field):
if field in {"size", "mtime"}:
size = sum((f.size for f in self._all_items()), 0)
self.size = size
stats = self.path.stat()
self.mtime = nonone(stats.st_mtime, 0)
elif field in {"md5", "md5partial"}:
# What's sensitive here is that we must make sure that subfiles'
# md5 are always added up in the same order, but we also want a
# different md5 if a file gets moved in a different subdirectory.
def get_dir_md5_concat():
items = self._all_items()
items.sort(key=lambda f: f.path)
md5s = [getattr(f, field) for f in items]
return b"".join(md5s)
md5 = hashlib.md5(get_dir_md5_concat())
digest = md5.digest()
setattr(self, field, digest)
@property
def subfolders(self):
if self._subfolders is None:
subfolders = [
p for p in self.path.listdir() if not p.islink() and p.isdir()
]
self._subfolders = [self.__class__(p) for p in subfolders]
return self._subfolders
@classmethod
def can_handle(cls, path):
return not path.islink() and path.isdir()
def get_file(path, fileclasses=[File], deny_list_re=set()):
"""Wraps ``path`` around its appropriate :class:`File` class.
Whether a class is "appropriate" is decided by :meth:`File.can_handle`
:param Path path: path to wrap
:param fileclasses: List of candidate :class:`File` classes
"""
for fileclass in fileclasses:
if fileclass.can_handle(path):
# print(f"returning {path}")
# for expr in deny_list_re:
# if expr.match(str(path.name)):
# print(f"FOUND {repr(expr)} in {str(path.name)}")
# return
return fileclass(path)
def get_files(path, fileclasses=[File], deny_list_re=set()):
"""Returns a list of :class:`File` for each file contained in ``path``.
:param Path path: path to scan
:param fileclasses: List of candidate :class:`File` classes
"""
assert all(issubclass(fileclass, File) for fileclass in fileclasses)
try:
result = []
for path in path.listdir():
file = get_file(path, fileclasses=fileclasses, deny_list_re=deny_list_re)
if file is not None:
result.append(file)
return result
except EnvironmentError:
raise InvalidPath(path)