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#!/usr/bin/python -u
#
# p7zr library
#
# Copyright (c) 2019-2022 Hiroshi Miura <miurahr@linux.com>
# Copyright (c) 2004-2015 by Joachim Bauch, mail@joachim-bauch.de
# 7-Zip Copyright (C) 1999-2010 Igor Pavlov
# LZMA SDK Copyright (C) 1999-2010 Igor Pavlov
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
#
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
#
"""Read 7zip format archives."""
import collections.abc
import contextlib
import datetime
import errno
import functools
import gc
import io
import os
import pathlib
import queue
import stat
import sys
from multiprocessing import Process
from threading import Thread
from typing import IO, Any, BinaryIO, Dict, List, Optional, Tuple, Type, Union
import multivolumefile
from py7zr.archiveinfo import Folder, Header, SignatureHeader
from py7zr.callbacks import ExtractCallback
from py7zr.compressor import SupportedMethods, get_methods_names
from py7zr.exceptions import Bad7zFile, CrcError, DecompressionError, InternalError, UnsupportedCompressionMethodError
from py7zr.helpers import (
ArchiveTimestamp,
MemIO,
NullIO,
calculate_crc32,
check_archive_path,
filetime_to_dt,
get_sanitized_output_path,
is_path_valid,
readlink,
)
from py7zr.properties import DEFAULT_FILTERS, FILTER_DEFLATE64, MAGIC_7Z, get_default_blocksize, get_memory_limit
if sys.platform.startswith("win"):
import _winapi
FILE_ATTRIBUTE_UNIX_EXTENSION = 0x8000
FILE_ATTRIBUTE_WINDOWS_MASK = 0x07FFF
class ArchiveFile:
"""Represent each files metadata inside archive file.
It holds file properties; filename, permissions, and type whether
it is directory, link or normal file.
Instances of the :class:`ArchiveFile` class are returned by iterating :attr:`files_list` of
:class:`SevenZipFile` objects.
Each object stores information about a single member of the 7z archive. Most of users use :meth:`extractall()`.
The class also hold an archive parameter where file is exist in
archive file folder(container)."""
def __init__(self, id: int, file_info: Dict[str, Any]) -> None:
self.id = id
self._file_info = file_info
def file_properties(self) -> Dict[str, Any]:
"""Return file properties as a hash object. Following keys are included: ‘readonly’, ‘is_directory’,
‘posix_mode’, ‘archivable’, ‘emptystream’, ‘filename’, ‘creationtime’, ‘lastaccesstime’,
‘lastwritetime’, ‘attributes’
"""
properties = self._file_info
if properties is not None:
properties["readonly"] = self.readonly
properties["posix_mode"] = self.posix_mode
properties["archivable"] = self.archivable
properties["is_directory"] = self.is_directory
return properties
def _get_property(self, key: str) -> Any:
try:
return self._file_info[key]
except KeyError:
return None
@property
def origin(self) -> pathlib.Path:
return self._get_property("origin")
@property
def folder(self) -> Folder:
return self._get_property("folder")
@property
def filename(self) -> str:
"""return filename of archive file."""
return self._get_property("filename")
@property
def emptystream(self) -> bool:
"""True if file is empty(0-byte file), otherwise False"""
return self._get_property("emptystream")
@property
def uncompressed(self) -> List[int]:
return self._get_property("uncompressed")
@property
def compressed(self) -> Optional[int]:
"""Compressed size"""
return self._get_property("compressed")
@property
def crc32(self) -> Optional[int]:
"""CRC of archived file(optional)"""
return self._get_property("digest")
def _test_attribute(self, target_bit: int) -> bool:
attributes = self._get_property("attributes")
if attributes is None:
return False
return attributes & target_bit == target_bit
@property
def archivable(self) -> bool:
"""File has a Windows `archive` flag."""
if hasattr(stat, "FILE_ATTRIBUTE_ARCHIVE"):
return self._test_attribute(getattr(stat, "FILE_ATTRIBUTE_ARCHIVE"))
return False
@property
def is_directory(self) -> bool:
"""True if file is a directory, otherwise False."""
if hasattr(stat, "FILE_ATTRIBUTE_DIRECTORY"):
return self._test_attribute(getattr(stat, "FILE_ATTRIBUTE_DIRECTORY"))
return False
@property
def readonly(self) -> bool:
"""True if file is readonly, otherwise False."""
if hasattr(stat, "FILE_ATTRIBUTE_READONLY"):
return self._test_attribute(getattr(stat, "FILE_ATTRIBUTE_READONLY"))
return False
def _get_unix_extension(self) -> Optional[int]:
attributes = self._get_property("attributes")
if self._test_attribute(FILE_ATTRIBUTE_UNIX_EXTENSION):
return attributes >> 16
return None
def data(self) -> Optional[BinaryIO]:
return self._get_property("data")
def has_strdata(self) -> bool:
"""True if file content is set by writestr() method otherwise False."""
return "data" in self._file_info
@property
def is_symlink(self) -> bool:
"""True if file is a symbolic link, otherwise False."""
e = self._get_unix_extension()
if e is not None:
return stat.S_ISLNK(e)
if hasattr(stat, "FILE_ATTRIBUTE_REPARSE_POINT"):
return self._test_attribute(getattr(stat, "FILE_ATTRIBUTE_REPARSE_POINT"))
return False
@property
def is_junction(self) -> bool:
"""True if file is a junction/reparse point on windows, otherwise False."""
if hasattr(stat, "FILE_ATTRIBUTE_REPARSE_POINT"):
return self._test_attribute(
getattr(stat, "FILE_ATTRIBUTE_REPARSE_POINT") | getattr(stat, "FILE_ATTRIBUTE_DIRECTORY")
)
return False
@property
def is_socket(self) -> bool:
"""True if file is a socket, otherwise False."""
e = self._get_unix_extension()
if e is not None:
return stat.S_ISSOCK(e)
return False
@property
def lastwritetime(self) -> Optional[ArchiveTimestamp]:
"""Return last written timestamp of a file."""
return self._get_property("lastwritetime")
@property
def posix_mode(self) -> Optional[int]:
"""
posix mode when a member has a unix extension property, or None
:return: Return file stat mode can be set by os.chmod()
"""
e = self._get_unix_extension()
if e is not None:
return stat.S_IMODE(e)
return None
@property
def st_fmt(self) -> Optional[int]:
"""
:return: Return the portion of the file mode that describes the file type
"""
e = self._get_unix_extension()
if e is not None:
return stat.S_IFMT(e)
return None
class ArchiveFileList(collections.abc.Iterable):
"""Iteratable container of ArchiveFile."""
def __init__(self, offset: int = 0):
self.files_list: List[dict] = []
self.index = 0
self.offset = offset
def append(self, file_info: Dict[str, Any]) -> None:
self.files_list.append(file_info)
def __len__(self) -> int:
return len(self.files_list)
def __iter__(self) -> "ArchiveFileListIterator":
return ArchiveFileListIterator(self)
def __getitem__(self, index):
if index > len(self.files_list):
raise IndexError
if index < 0:
raise IndexError
res = ArchiveFile(index + self.offset, self.files_list[index])
return res
class ArchiveFileListIterator(collections.abc.Iterator):
def __init__(self, archive_file_list):
self._archive_file_list = archive_file_list
self._index = 0
def __next__(self) -> ArchiveFile:
if self._index == len(self._archive_file_list):
raise StopIteration
res = self._archive_file_list[self._index]
self._index += 1
return res
# ------------------
# Exported Classes
# ------------------
class ArchiveInfo:
"""Hold archive information"""
def __init__(
self,
filename: str,
stat: os.stat_result,
header_size: int,
method_names: List[str],
solid: bool,
blocks: int,
uncompressed: List[int],
):
self.stat = stat
self.filename = filename
self.size = stat.st_size
self.header_size = header_size
self.method_names = method_names
self.solid = solid
self.blocks = blocks
self.uncompressed = uncompressed
class FileInfo:
"""Hold archived file information."""
def __init__(
self,
filename,
compressed,
uncompressed,
archivable,
is_directory,
creationtime,
crc32,
):
self.filename = filename
self.compressed = compressed
self.uncompressed = uncompressed
self.archivable = archivable
self.is_directory = is_directory
self.creationtime = creationtime
self.crc32 = crc32
class SevenZipFile(contextlib.AbstractContextManager):
"""The SevenZipFile Class provides an interface to 7z archives."""
def __init__(
self,
file: Union[BinaryIO, str, pathlib.Path],
mode: str = "r",
*,
filters: Optional[List[Dict[str, int]]] = None,
dereference=False,
password: Optional[str] = None,
header_encryption: bool = False,
blocksize: Optional[int] = None,
mp: bool = False,
) -> None:
if mode not in ("r", "w", "x", "a"):
raise ValueError("ZipFile requires mode 'r', 'w', 'x', or 'a'")
self.fp: BinaryIO
self.mp = mp
self.password_protected = password is not None
if blocksize:
self._block_size = blocksize
else:
self._block_size = get_default_blocksize()
# Check if we were passed a file-like object or not
if isinstance(file, str):
self._filePassed: bool = False
self.filename: str = file
if mode == "r":
self.fp = open(file, "rb")
elif mode == "w":
self.fp = open(file, "w+b")
elif mode == "x":
self.fp = open(file, "x+b")
elif mode == "a":
self.fp = open(file, "r+b")
else:
raise ValueError("File open error.")
self.mode = mode
elif isinstance(file, pathlib.Path):
self._filePassed = False
self.filename = str(file)
if mode == "r":
self.fp = file.open(mode="rb") # noqa # typeshed issue: 2911
elif mode == "w":
self.fp = file.open(mode="w+b") # noqa
elif mode == "x":
self.fp = file.open(mode="x+b") # noqa
elif mode == "a":
self.fp = file.open(mode="r+b") # noqa
else:
raise ValueError("File open error.")
self.mode = mode
elif isinstance(file, multivolumefile.MultiVolume):
self._filePassed = True
self.fp = file
self.filename = None
self.mode = mode # noqa
elif isinstance(file, io.IOBase):
self._filePassed = True
self.fp = file
self.filename = getattr(file, "name", None)
self.mode = mode # noqa
else:
raise TypeError("invalid file: {}".format(type(file)))
self.encoded_header_mode = True
self.header_encryption = header_encryption
self._fileRefCnt = 1
try:
if mode == "r":
self._real_get_contents(password)
self.fp.seek(self.afterheader) # seek into start of payload and prepare worker to extract
self.worker = Worker(self.files, self.afterheader, self.header, self.mp)
elif mode in "w":
self._prepare_write(filters, password)
elif mode in "x":
raise NotImplementedError
elif mode == "a":
self._real_get_contents(password)
self._prepare_append(filters, password)
else:
raise ValueError("Mode must be 'r', 'w', 'x', or 'a'")
except Exception as e:
self._fpclose()
raise e
self._dict: Dict[str, IO[Any]] = {}
self.dereference = dereference
self.reporterd: Optional[Thread] = None
self.q: queue.Queue[Any] = queue.Queue()
def __enter__(self):
return self
def __exit__(self, exc_type, exc_val, exc_tb):
self.close()
def _fpclose(self) -> None:
assert self._fileRefCnt > 0
self._fileRefCnt -= 1
if not self._fileRefCnt and not self._filePassed:
self.fp.close()
def _real_get_contents(self, password) -> None:
if not self._check_7zfile(self.fp):
raise Bad7zFile("not a 7z file")
self.sig_header = SignatureHeader.retrieve(self.fp)
self.afterheader: int = self.fp.tell()
self.fp.seek(self.sig_header.nextheaderofs, os.SEEK_CUR)
buffer = io.BytesIO(self.fp.read(self.sig_header.nextheadersize))
if self.sig_header.nextheadercrc != calculate_crc32(buffer.getvalue()):
raise Bad7zFile("invalid header data")
header = Header.retrieve(self.fp, buffer, self.afterheader, password)
if header is None:
return
header._initilized = True
self.header = header
header.size += 32 + self.sig_header.nextheadersize
buffer.close()
self.files = ArchiveFileList()
if getattr(self.header, "files_info", None) is None:
return
# Initialize references for convenience
if hasattr(self.header, "main_streams") and self.header.main_streams is not None:
folders = self.header.main_streams.unpackinfo.folders
for folder in folders:
folder.password = password
packinfo = self.header.main_streams.packinfo
packsizes = packinfo.packsizes
subinfo = self.header.main_streams.substreamsinfo
if subinfo is not None and subinfo.unpacksizes is not None:
unpacksizes = subinfo.unpacksizes
else:
unpacksizes = [x.unpacksizes[-1] for x in folders]
else:
subinfo = None
folders = None
packinfo = None
packsizes = []
unpacksizes = [0]
pstat = self.ParseStatus()
pstat.src_pos = self.afterheader
file_in_solid = 0
for file_id, file_info in enumerate(self.header.files_info.files):
if not file_info["emptystream"] and folders is not None:
folder = folders[pstat.folder]
numinstreams = max([coder.get("numinstreams", 1) for coder in folder.coders])
(maxsize, compressed, uncompressed, packsize, solid,) = self._get_fileinfo_sizes(
pstat,
subinfo,
packinfo,
folder,
packsizes,
unpacksizes,
file_in_solid,
numinstreams,
)
pstat.input += 1
folder.solid = solid
file_info["folder"] = folder
file_info["maxsize"] = maxsize
file_info["compressed"] = compressed
file_info["uncompressed"] = uncompressed
file_info["packsizes"] = packsize
if subinfo.digestsdefined[pstat.outstreams]:
file_info["digest"] = subinfo.digests[pstat.outstreams]
if folder is None:
pstat.src_pos += file_info["compressed"]
else:
if folder.solid:
file_in_solid += 1
pstat.outstreams += 1
if folder.files is None:
folder.files = ArchiveFileList(offset=file_id)
folder.files.append(file_info)
if pstat.input >= subinfo.num_unpackstreams_folders[pstat.folder]:
file_in_solid = 0
pstat.src_pos += sum(packinfo.packsizes[pstat.stream : pstat.stream + numinstreams])
pstat.folder += 1
pstat.stream += numinstreams
pstat.input = 0
else:
file_info["folder"] = None
file_info["maxsize"] = 0
file_info["compressed"] = 0
file_info["uncompressed"] = 0
file_info["packsizes"] = [0]
if "filename" not in file_info:
# compressed file is stored without a name, generate one
try:
basefilename = self.filename
except AttributeError:
# 7z archive file doesn't have a name
file_info["filename"] = "contents"
else:
if basefilename is not None:
fn, ext = os.path.splitext(os.path.basename(basefilename))
file_info["filename"] = fn
else:
file_info["filename"] = "contents"
self.files.append(file_info)
if not self.password_protected and self.header.main_streams is not None:
# Check specified coders have a crypt method or not.
self.password_protected = any(
[SupportedMethods.needs_password(folder.coders) for folder in self.header.main_streams.unpackinfo.folders]
)
def _extract(
self,
path: Optional[Any] = None,
targets: Optional[List[str]] = None,
return_dict: bool = False,
callback: Optional[ExtractCallback] = None,
) -> Optional[Dict[str, IO[Any]]]:
if callback is None:
pass
elif isinstance(callback, ExtractCallback):
self.reporterd = Thread(target=self.reporter, args=(callback,), daemon=True)
self.reporterd.start()
else:
raise ValueError("Callback specified is not an instance of subclass of py7zr.callbacks.ExtractCallback class")
target_files: List[Tuple[pathlib.Path, Dict[str, Any]]] = []
target_dirs: List[pathlib.Path] = []
if path is not None:
if isinstance(path, str):
path = pathlib.Path(path)
try:
if not path.exists():
path.mkdir(parents=True)
else:
pass
except OSError as e:
if e.errno == errno.EEXIST and path.is_dir():
pass
else:
raise e
fnames: List[str] = [] # check duplicated filename in one archive?
self.q.put(("pre", None, None))
for f in self.files:
# When archive has a multiple files which have same name
# To guarantee order of archive, multi-thread decompression becomes off.
# Currently always overwrite by latter archives.
# TODO: provide option to select overwrite or skip.
if f.filename not in fnames:
outname = f.filename
else:
i = 0
while True:
outname = f.filename + "_%d" % i
if outname not in fnames:
break
i += 1
fnames.append(outname)
if path is None or path.is_absolute():
outfilename = get_sanitized_output_path(outname, path)
else:
outfilename = get_sanitized_output_path(outname, pathlib.Path(os.getcwd()).joinpath(path))
if targets is not None and f.filename not in targets:
self.worker.register_filelike(f.id, None)
continue
if return_dict:
if f.is_directory or f.is_socket:
# ignore special files and directories
pass
else:
fname = outfilename.as_posix()
_buf = io.BytesIO()
self._dict[fname] = _buf
self.worker.register_filelike(f.id, MemIO(_buf))
elif f.is_directory:
if not outfilename.exists():
target_dirs.append(outfilename)
target_files.append((outfilename, f.file_properties()))
else:
pass
elif f.is_socket:
pass # TODO: implement me.
elif f.is_symlink or f.is_junction:
self.worker.register_filelike(f.id, outfilename)
else:
self.worker.register_filelike(f.id, outfilename)
target_files.append((outfilename, f.file_properties()))
for target_dir in sorted(target_dirs):
try:
target_dir.mkdir(parents=True)
except FileExistsError:
if target_dir.is_dir():
pass
elif target_dir.is_file():
raise DecompressionError("Directory {} is existed as a normal file.".format(str(target_dir)))
else:
raise DecompressionError("Directory {} making fails on unknown condition.".format(str(target_dir)))
if callback is not None:
self.worker.extract(
self.fp,
path,
parallel=(not self.password_protected and not self._filePassed),
q=self.q,
)
else:
self.worker.extract(
self.fp,
path,
parallel=(not self.password_protected and not self._filePassed),
)
self.q.put(("post", None, None))
# early return when dict specified
if return_dict:
return self._dict
# set file properties
for outfilename, properties in target_files:
# mtime
lastmodified = None
try:
lastmodified = ArchiveTimestamp(properties["lastwritetime"]).totimestamp()
except KeyError:
pass
if lastmodified is not None:
os.utime(str(outfilename), times=(lastmodified, lastmodified))
if os.name == "posix":
st_mode = properties["posix_mode"]
if st_mode is not None:
outfilename.chmod(st_mode)
continue
# fallback: only set readonly if specified
if properties["readonly"] and not properties["is_directory"]:
ro_mask = 0o777 ^ (stat.S_IWRITE | stat.S_IWGRP | stat.S_IWOTH)
outfilename.chmod(outfilename.stat().st_mode & ro_mask)
return None
def _prepare_append(self, filters, password):
if password is not None and filters is None:
filters = DEFAULT_FILTERS.ENCRYPTED_ARCHIVE_FILTER
elif filters is None:
filters = DEFAULT_FILTERS.ARCHIVE_FILTER
else:
for f in filters:
if f["id"] == FILTER_DEFLATE64:
raise UnsupportedCompressionMethodError(filters, "Compression with deflate64 is not supported.")
self.header.filters = filters
self.header.password = password
if self.header.main_streams is not None:
pos = self.afterheader + self.header.main_streams.packinfo.packpositions[-1]
else:
pos = self.afterheader
self.fp.seek(pos)
self.worker = Worker(self.files, pos, self.header, self.mp)
def _prepare_write(self, filters, password):
if password is not None and filters is None:
filters = DEFAULT_FILTERS.ENCRYPTED_ARCHIVE_FILTER
elif filters is None:
filters = DEFAULT_FILTERS.ARCHIVE_FILTER
else:
for f in filters:
if f["id"] == FILTER_DEFLATE64:
raise UnsupportedCompressionMethodError(filters, "Compression with deflate64 is not supported.")
self.files = ArchiveFileList()
self.sig_header = SignatureHeader()
self.sig_header._write_skelton(self.fp)
self.afterheader = self.fp.tell()
self.header = Header.build_header(filters, password)
self.fp.seek(self.afterheader)
self.worker = Worker(self.files, self.afterheader, self.header, self.mp)
def _write_flush(self):
if self.header._initialized:
folder = self.header.main_streams.unpackinfo.folders[-1]
self.worker.flush_archive(self.fp, folder)
self._write_header()
def _write_header(self):
"""Write header and update signature header."""
(header_pos, header_len, header_crc) = self.header.write(
self.fp,
self.afterheader,
encoded=self.encoded_header_mode,
encrypted=self.header_encryption,
)
self.sig_header.nextheaderofs = header_pos - self.afterheader
self.sig_header.calccrc(header_len, header_crc)
self.sig_header.write(self.fp)
def _writeall(self, path, arcname):
try:
if path.is_symlink() and not self.dereference:
self.write(path, arcname)
elif path.is_file():
self.write(path, arcname)
elif path.is_dir():
if not path.samefile("."):
self.write(path, arcname)
for nm in sorted(os.listdir(str(path))):
arc = os.path.join(arcname, nm) if arcname is not None else None
self._writeall(path.joinpath(nm), arc)
else:
return # pathlib ignores ELOOP and return False for is_*().
except OSError as ose:
if self.dereference and ose.errno in [errno.ELOOP]:
return # ignore ELOOP here, this resulted to stop looped symlink reference.
elif self.dereference and sys.platform == "win32" and ose.errno in [errno.ENOENT]:
return # ignore ENOENT which is happened when a case of ELOOP on windows.
else:
raise
class ParseStatus:
def __init__(self, src_pos=0):
self.src_pos = src_pos
self.folder = 0 # 7zip folder where target stored
self.outstreams = 0 # output stream count
self.input = 0 # unpack stream count in each folder
self.stream = 0 # target input stream position
def _get_fileinfo_sizes(
self,
pstat,
subinfo,
packinfo,
folder,
packsizes,
unpacksizes,
file_in_solid,
numinstreams,
):
if pstat.input == 0:
folder.solid = subinfo.num_unpackstreams_folders[pstat.folder] > 1
maxsize = (folder.solid and packinfo.packsizes[pstat.stream]) or None
uncompressed = unpacksizes[pstat.outstreams]
if file_in_solid > 0:
compressed = None
elif pstat.stream < len(packsizes): # file is compressed
compressed = packsizes[pstat.stream]
else: # file is not compressed
compressed = uncompressed
packsize = packsizes[pstat.stream : pstat.stream + numinstreams]
return maxsize, compressed, uncompressed, packsize, folder.solid
def set_encoded_header_mode(self, mode: bool) -> None:
if mode:
self.encoded_header_mode = True
else:
self.encoded_header_mode = False
self.header_encryption = False
def set_encrypted_header(self, mode: bool) -> None:
if mode:
self.encoded_header_mode = True
self.header_encryption = True
else:
self.header_encryption = False
@staticmethod
def _check_7zfile(fp: Union[BinaryIO, io.BufferedReader, io.IOBase]) -> bool:
result = MAGIC_7Z == fp.read(len(MAGIC_7Z))[: len(MAGIC_7Z)]
fp.seek(-len(MAGIC_7Z), 1)
return result
def _get_method_names(self) -> List[str]:
try:
return get_methods_names([folder.coders for folder in self.header.main_streams.unpackinfo.folders])
except KeyError:
raise UnsupportedCompressionMethodError(self.header.main_streams.unpackinfo.folders, "Unknown method")
def _read_digest(self, pos: int, size: int) -> int:
self.fp.seek(pos)
remaining_size = size
digest = 0
while remaining_size > 0:
block = min(self._block_size, remaining_size)
digest = calculate_crc32(self.fp.read(block), digest)
remaining_size -= block
return digest
def _is_solid(self):
for f in self.header.main_streams.substreamsinfo.num_unpackstreams_folders:
if f > 1:
return True
return False
def _var_release(self):
self._dict = None
self.worker.close()
del self.worker
del self.files
del self.header
del self.sig_header
gc.collect()
@staticmethod
def _make_file_info(target: pathlib.Path, arcname: Optional[str] = None, dereference=False) -> Dict[str, Any]:
f: Dict[str, Any] = {}
f["origin"] = target
if arcname is not None:
f["filename"] = pathlib.Path(arcname).as_posix()
else:
f["filename"] = target.as_posix()
if sys.platform == "win32":
fstat = target.lstat()
if target.is_symlink():
if dereference:
fstat = target.stat()
if stat.S_ISDIR(fstat.st_mode):
f["emptystream"] = True
f["attributes"] = fstat.st_file_attributes & FILE_ATTRIBUTE_WINDOWS_MASK # noqa
else:
f["emptystream"] = False
f["attributes"] = stat.FILE_ATTRIBUTE_ARCHIVE # noqa
f["uncompressed"] = fstat.st_size
else:
f["emptystream"] = False
f["attributes"] = fstat.st_file_attributes & FILE_ATTRIBUTE_WINDOWS_MASK # noqa
# TODO: handle junctions
# f['attributes'] |= stat.FILE_ATTRIBUTE_REPARSE_POINT # noqa
elif target.is_dir():
f["emptystream"] = True
f["attributes"] = fstat.st_file_attributes & FILE_ATTRIBUTE_WINDOWS_MASK # noqa
elif target.is_file():
f["emptystream"] = False
f["attributes"] = stat.FILE_ATTRIBUTE_ARCHIVE # noqa
f["uncompressed"] = fstat.st_size
elif (
sys.platform == "darwin"
or sys.platform.startswith("linux")
or sys.platform.startswith("freebsd")
or sys.platform.startswith("netbsd")
or sys.platform.startswith("sunos")
or sys.platform == "aix"
):
fstat = target.lstat()
if target.is_symlink():
if dereference:
fstat = target.stat()
if stat.S_ISDIR(fstat.st_mode):
f["emptystream"] = True
f["attributes"] = getattr(stat, "FILE_ATTRIBUTE_DIRECTORY")
f["attributes"] |= FILE_ATTRIBUTE_UNIX_EXTENSION | (stat.S_IFDIR << 16)
f["attributes"] |= stat.S_IMODE(fstat.st_mode) << 16
else:
f["emptystream"] = False
f["attributes"] = getattr(stat, "FILE_ATTRIBUTE_ARCHIVE")
f["attributes"] |= FILE_ATTRIBUTE_UNIX_EXTENSION | (stat.S_IMODE(fstat.st_mode) << 16)
else:
f["emptystream"] = False
f["attributes"] = getattr(stat, "FILE_ATTRIBUTE_ARCHIVE") | getattr(stat, "FILE_ATTRIBUTE_REPARSE_POINT")
f["attributes"] |= FILE_ATTRIBUTE_UNIX_EXTENSION | (stat.S_IFLNK << 16)
f["attributes"] |= stat.S_IMODE(fstat.st_mode) << 16
elif target.is_dir():
f["emptystream"] = True
f["attributes"] = getattr(stat, "FILE_ATTRIBUTE_DIRECTORY")
f["attributes"] |= FILE_ATTRIBUTE_UNIX_EXTENSION | (stat.S_IFDIR << 16)
f["attributes"] |= stat.S_IMODE(fstat.st_mode) << 16
elif target.is_file():
f["emptystream"] = False
f["uncompressed"] = fstat.st_size
f["attributes"] = getattr(stat, "FILE_ATTRIBUTE_ARCHIVE")
f["attributes"] |= FILE_ATTRIBUTE_UNIX_EXTENSION | (stat.S_IMODE(fstat.st_mode) << 16)
else:
fstat = target.stat()
if target.is_dir():
f["emptystream"] = True
f["attributes"] = stat.FILE_ATTRIBUTE_DIRECTORY
elif target.is_file():
f["emptystream"] = False
f["uncompressed"] = fstat.st_size
f["attributes"] = stat.FILE_ATTRIBUTE_ARCHIVE
f["creationtime"] = ArchiveTimestamp.from_datetime(fstat.st_ctime)
f["lastwritetime"] = ArchiveTimestamp.from_datetime(fstat.st_mtime)
f["lastaccesstime"] = ArchiveTimestamp.from_datetime(fstat.st_atime)
return f
def _make_file_info_from_name(self, bio, size: int, arcname: str) -> Dict[str, Any]:
f: Dict[str, Any] = {}
f["origin"] = None
f["data"] = bio
f["filename"] = pathlib.Path(arcname).as_posix()
f["uncompressed"] = size
f["emptystream"] = size == 0
f["attributes"] = getattr(stat, "FILE_ATTRIBUTE_ARCHIVE")
f["creationtime"] = ArchiveTimestamp.from_now()
f["lastwritetime"] = ArchiveTimestamp.from_now()
return f
# --------------------------------------------------------------------------
# The public methods which SevenZipFile provides:
def getnames(self) -> List[str]:
"""Return the members of the archive as a list of their names. It has
the same order as the list returned by getmembers().
"""
return list(map(lambda x: x.filename, self.files))
def archiveinfo(self) -> ArchiveInfo:
total_uncompressed = functools.reduce(lambda x, y: x + y, [f.uncompressed for f in self.files])
if isinstance(self.fp, multivolumefile.MultiVolume):
fname = self.fp.name
fstat = self.fp.stat()
else:
fname = self.filename
assert fname is not None
fstat = os.stat(fname)
return ArchiveInfo(
fname,
fstat,
self.header.size,
self._get_method_names(),
self._is_solid(),
len(self.header.main_streams.unpackinfo.folders),
total_uncompressed,
)
def needs_password(self) -> bool:
return self.password_protected
def list(self) -> List[FileInfo]:
"""Returns contents information"""
alist: List[FileInfo] = []
lastmodified: Optional[datetime.datetime] = None
for f in self.files:
if f.lastwritetime is not None:
lastmodified = filetime_to_dt(f.lastwritetime)
alist.append(
FileInfo(
f.filename,
f.compressed,
f.uncompressed,
f.archivable,
f.is_directory,
lastmodified,
f.crc32,
)
)
return alist
def readall(self) -> Optional[Dict[str, IO[Any]]]:
return self._extract(path=None, return_dict=True)
def extractall(self, path: Optional[Any] = None, callback: Optional[ExtractCallback] = None) -> None:
"""Extract all members from the archive to the current working
directory and set owner, modification time and permissions on
directories afterwards. ``path`` specifies a different directory
to extract to.
"""
self._extract(path=path, return_dict=False, callback=callback)
def read(self, targets: Optional[List[str]] = None) -> Optional[Dict[str, IO[Any]]]:
return self._extract(path=None, targets=targets, return_dict=True)
def extract(self, path: Optional[Any] = None, targets: Optional[List[str]] = None) -> None:
self._extract(path, targets, return_dict=False)
def reporter(self, callback: ExtractCallback):
while True:
try:
item: Optional[Tuple[str, str, str]] = self.q.get(timeout=1)
except queue.Empty:
pass
else:
if item is None:
break
elif item[0] == "s":
callback.report_start(item[1], item[2])
elif item[0] == "e":
callback.report_end(item[1], item[2])
elif item[0] == "pre":
callback.report_start_preparation()
elif item[0] == "post":
callback.report_postprocess()
elif item[0] == "w":
callback.report_warning(item[1])
else:
pass
self.q.task_done()
def writeall(self, path: Union[pathlib.Path, str], arcname: Optional[str] = None):
"""Write files in target path into archive."""
if isinstance(path, str):
path = pathlib.Path(path)
if not path.exists():
raise ValueError("specified path does not exist.")
if path.is_dir() or path.is_file():
self._writeall(path, arcname)
else:
raise ValueError("specified path is not a directory or a file")
def write(self, file: Union[pathlib.Path, str], arcname: Optional[str] = None):
"""Write single target file into archive."""
if isinstance(file, str):
path = pathlib.Path(file)
elif isinstance(file, pathlib.Path):
path = file
else:
raise ValueError("Unsupported file type.")
folder = self.header.initialize()
file_info = self._make_file_info(path, arcname, self.dereference)
self.header.files_info.files.append(file_info)
self.header.files_info.emptyfiles.append(file_info["emptystream"])
self.files.append(file_info)
self.worker.archive(self.fp, self.files, folder, deref=self.dereference)
def writed(self, targets: Dict[str, IO[Any]]) -> None:
for target, input in targets.items():
self.writef(input, target)
def writef(self, bio: IO[Any], arcname: str):
if not check_archive_path(arcname):
raise ValueError(f"Specified path is bad: {arcname}")
return self._writef(bio, arcname)
def _writef(self, bio: IO[Any], arcname: str):
if isinstance(bio, io.BytesIO):
size = bio.getbuffer().nbytes
elif isinstance(bio, io.TextIOBase):
# First check whether is it Text?
raise ValueError("Unsupported file object type: please open file with Binary mode.")
elif isinstance(bio, io.BufferedIOBase):
# come here when subtype of io.BufferedIOBase that don't have __sizeof__ (eg. pypy)
# alternative for `size = bio.__sizeof__()`
current = bio.tell()
bio.seek(0, os.SEEK_END)
last = bio.tell()
bio.seek(current, os.SEEK_SET)
size = last - current
else:
raise ValueError("Wrong argument passed for argument bio.")
if size > 0:
folder = self.header.initialize()
file_info = self._make_file_info_from_name(bio, size, arcname)
self.header.files_info.files.append(file_info)
self.header.files_info.emptyfiles.append(file_info["emptystream"])
self.files.append(file_info)
self.worker.archive(self.fp, self.files, folder, deref=False)
else:
file_info = self._make_file_info_from_name(bio, size, arcname)
self.header.files_info.files.append(file_info)
self.header.files_info.emptyfiles.append(file_info["emptystream"])
self.files.append(file_info)
def writestr(self, data: Union[str, bytes, bytearray, memoryview], arcname: str):
if not check_archive_path(arcname):
raise ValueError(f"Specified path is bad: {arcname}")
return self._writestr(data, arcname)
def _writestr(self, data: Union[str, bytes, bytearray, memoryview], arcname: str):
if not isinstance(arcname, str):
raise ValueError("Unsupported arcname")
if isinstance(data, str):
self._writef(io.BytesIO(data.encode("UTF-8")), arcname)
elif isinstance(data, bytes) or isinstance(data, bytearray) or isinstance(data, memoryview):
self._writef(io.BytesIO(bytes(data)), arcname)
else:
raise ValueError("Unsupported data type.")
def close(self):
"""Flush all the data into archive and close it.
When close py7zr start reading target and writing actual archive file.
"""
if "w" in self.mode:
self._write_flush()
if "a" in self.mode:
self._write_flush()
if "r" in self.mode:
if self.reporterd is not None:
self.q.put_nowait(None)
self.reporterd.join(1)
if self.reporterd.is_alive():
raise InternalError("Progress report thread terminate error.")
self.reporterd = None
self._fpclose()
self._var_release()
def reset(self) -> None:
"""
When read mode, it reset file pointer, decompress worker and decompressor
"""
if self.mode == "r":
self.fp.seek(self.afterheader)
self.worker = Worker(self.files, self.afterheader, self.header, self.mp)
if self.header.main_streams is not None and self.header.main_streams.unpackinfo.numfolders > 0:
for i, folder in enumerate(self.header.main_streams.unpackinfo.folders):
folder.decompressor = None
def test(self) -> Optional[bool]:
self.fp.seek(self.afterheader)
self.worker = Worker(self.files, self.afterheader, self.header, self.mp)
crcs: Optional[List[int]] = self.header.main_streams.packinfo.crcs
if crcs is None or len(crcs) == 0:
return None
packpos = self.afterheader + self.header.main_streams.packinfo.packpos
packsizes = self.header.main_streams.packinfo.packsizes
digestdefined = self.header.main_streams.packinfo.digestdefined
j = 0
for i, d in enumerate(digestdefined):
if d:
if self._read_digest(packpos, packsizes[i]) != crcs[j]:
return False
j += 1
packpos += packsizes[i]
return True
def testzip(self) -> Optional[str]:
self.fp.seek(self.afterheader)
self.worker = Worker(self.files, self.afterheader, self.header, self.mp)
for f in self.files:
self.worker.register_filelike(f.id, None)
try:
self.worker.extract(
self.fp, None, parallel=(not self.password_protected), skip_notarget=False
) # TODO: print progress
except CrcError as crce:
return crce.args[2]
else:
return None
# --------------------
# exported functions
# --------------------
def is_7zfile(file: Union[BinaryIO, str, pathlib.Path]) -> bool:
"""Quickly see if a file is a 7Z file by checking the magic number.
The file argument may be a filename or file-like object too.
"""
result = False
try:
if (isinstance(file, BinaryIO) or isinstance(file, io.BufferedReader) or isinstance(file, io.IOBase)) and hasattr(
file, "read"
):
result = SevenZipFile._check_7zfile(file)
elif isinstance(file, str):
with open(file, "rb") as fp:
result = SevenZipFile._check_7zfile(fp)
elif isinstance(file, pathlib.Path) or isinstance(file, pathlib.PosixPath) or isinstance(file, pathlib.WindowsPath):
with file.open(mode="rb") as fp: # noqa
result = SevenZipFile._check_7zfile(fp)
else:
raise TypeError("invalid type: file should be str, pathlib.Path or BinaryIO, but {}".format(type(file)))
except OSError:
pass
return result
def unpack_7zarchive(archive, path, extra=None):
"""
Function for registering with shutil.register_unpack_format().
"""
arc = SevenZipFile(archive)
arc.extractall(path)
arc.close()
def pack_7zarchive(base_name, base_dir, owner=None, group=None, dry_run=None, logger=None):
"""
Function for registering with shutil.register_archive_format().
"""
target_name = "{}.7z".format(base_name)
with SevenZipFile(target_name, mode="w") as archive:
archive.writeall(path=base_dir)
return target_name
class Worker:
"""
Extract worker class to invoke handler.
"""
def __init__(self, files, src_start: int, header, mp=False) -> None:
self.target_filepath: Dict[int, Union[MemIO, pathlib.Path, None]] = {}
self.files = files
self.src_start = src_start
self.header = header
self.current_file_index = len(self.files)
self.last_file_index = len(self.files)
if mp:
self.concurrent: Union[Type[Thread], Type[Process]] = Process
else:
self.concurrent = Thread
def extract(self, fp: BinaryIO, path: Optional[pathlib.Path], parallel: bool, skip_notarget=True, q=None) -> None:
"""Extract worker method to handle 7zip folder and decompress each files."""
if hasattr(self.header, "main_streams") and self.header.main_streams is not None:
src_end = self.src_start + self.header.main_streams.packinfo.packpositions[-1]
numfolders = self.header.main_streams.unpackinfo.numfolders
if numfolders == 1:
self.extract_single(
fp,
self.files,
path,
self.src_start,
src_end,
q,
skip_notarget=skip_notarget,
)
else:
folders = self.header.main_streams.unpackinfo.folders
positions = self.header.main_streams.packinfo.packpositions
empty_files = [f for f in self.files if f.emptystream]
if not parallel:
self.extract_single(fp, empty_files, path, 0, 0, q)
for i in range(numfolders):
if skip_notarget:
if not any([self.target_filepath.get(f.id, None) for f in folders[i].files]):
continue
self.extract_single(
fp,
folders[i].files,
path,
self.src_start + positions[i],
self.src_start + positions[i + 1],
q,
skip_notarget=skip_notarget,
)
else:
if getattr(fp, "name", None) is None:
raise InternalError("Caught unknown variable status error")
filename: str = getattr(fp, "name", "") # do not become "" but it is for type check.
self.extract_single(open(filename, "rb"), empty_files, path, 0, 0, q)
concurrent_tasks = []
exc_q: queue.Queue = queue.Queue()
for i in range(numfolders):
if skip_notarget:
if not any([self.target_filepath.get(f.id, None) for f in folders[i].files]):
continue
p = self.concurrent(
target=self.extract_single,
args=(
filename,
folders[i].files,
path,
self.src_start + positions[i],
self.src_start + positions[i + 1],
q,
exc_q,
skip_notarget,
),
)
p.start()
concurrent_tasks.append(p)
for p in concurrent_tasks:
p.join()
if exc_q.empty():
pass
else:
exc_info = exc_q.get()
raise exc_info[1].with_traceback(exc_info[2])
else:
empty_files = [f for f in self.files if f.emptystream]
self.extract_single(fp, empty_files, path, 0, 0, q)
def extract_single(
self,
fp: Union[BinaryIO, str],
files,
path,
src_start: int,
src_end: int,
q: Optional[queue.Queue],
exc_q: Optional[queue.Queue] = None,
skip_notarget=True,
) -> None:
"""
Single thread extractor that takes file lists in single 7zip folder.
"""
if files is None:
return
try:
if isinstance(fp, str):
fp = open(fp, "rb")
fp.seek(src_start)
self._extract_single(fp, files, path, src_end, q, skip_notarget)
except Exception as e:
if exc_q is None:
raise e
else:
exc_tuple = sys.exc_info()
exc_q.put(exc_tuple)
def _extract_single(
self,
fp: BinaryIO,
files,
path,
src_end: int,
q: Optional[queue.Queue],
skip_notarget=True,
) -> None:
"""
Single thread extractor that takes file lists in single 7zip folder.
this may raise exception.
"""
just_check: List[ArchiveFile] = []
for f in files:
if q is not None:
q.put(
(
"s",
str(f.filename),
str(f.compressed) if f.compressed is not None else "0",
)
)
fileish = self.target_filepath.get(f.id, None)
if fileish is None:
if not f.emptystream:
just_check.append(f)
else:
# delayed execution of crc check.
self._check(fp, just_check, src_end)
just_check = []
fileish.parent.mkdir(parents=True, exist_ok=True)
if not f.emptystream:
if f.is_junction and not isinstance(fileish, MemIO) and sys.platform == "win32":
with io.BytesIO() as ofp:
self.decompress(fp, f.folder, ofp, f.uncompressed, f.compressed, src_end)
dst: str = ofp.read().decode("utf-8")
if is_path_valid(fileish.parent.joinpath(dst), path):
# fileish.unlink(missing_ok=True) > py3.7
if fileish.exists():
fileish.unlink()
if sys.platform == "win32": # hint for mypy
_winapi.CreateJunction(str(fileish), dst) # noqa
else:
raise Bad7zFile("Junction point out of target directory.")
elif f.is_symlink and not isinstance(fileish, MemIO):
with io.BytesIO() as omfp:
self.decompress(fp, f.folder, omfp, f.uncompressed, f.compressed, src_end)
omfp.seek(0)
dst = omfp.read().decode("utf-8")
# check sym_target points inside an archive target?
if is_path_valid(fileish.parent.joinpath(dst), path):
sym_target = pathlib.Path(dst)
# fileish.unlink(missing_ok=True) > py3.7
if fileish.exists():
fileish.unlink()
fileish.symlink_to(sym_target)
else:
raise Bad7zFile("Symlink point out of target directory.")
else:
with fileish.open(mode="wb") as obfp:
crc32 = self.decompress(fp, f.folder, obfp, f.uncompressed, f.compressed, src_end)
obfp.seek(0)
if f.crc32 is not None and crc32 != f.crc32:
raise CrcError(crc32, f.crc32, f.filename)
else:
# just create empty file
if not isinstance(fileish, MemIO):
fileish.touch()
else:
with fileish.open() as ofp:
pass
if q is not None:
q.put(("e", str(f.filename), str(f.uncompressed)))
if not skip_notarget:
# delayed execution of crc check.
self._check(fp, just_check, src_end)
def _check(self, fp, check_target, src_end):
"""
delayed execution of crc check.
"""
for f in check_target:
with NullIO() as ofp:
crc32 = self.decompress(fp, f.folder, ofp, f.uncompressed, f.compressed, src_end)
if f.crc32 is not None and crc32 != f.crc32:
raise CrcError(crc32, f.crc32, f.filename)
def decompress(
self,
fp: BinaryIO,
folder,
fq: IO[Any],
size: int,
compressed_size: Optional[int],
src_end: int,
) -> int:
"""
decompressor wrapper called from extract method.
:parameter fp: archive source file pointer
:parameter folder: Folder object that have decompressor object.
:parameter fq: output file pathlib.Path
:parameter size: uncompressed size of target file.
:parameter compressed_size: compressed size of target file.
:parameter src_end: end position of the folder
:returns None
"""
assert folder is not None
out_remaining = size
max_block_size = get_memory_limit()
crc32 = 0
decompressor = folder.get_decompressor(compressed_size)
while out_remaining > 0:
tmp = decompressor.decompress(fp, min(out_remaining, max_block_size))
if len(tmp) > 0:
out_remaining -= len(tmp)
fq.write(tmp)
crc32 = calculate_crc32(tmp, crc32)
if out_remaining <= 0:
break
if fp.tell() >= src_end:
if decompressor.crc is not None and not decompressor.check_crc():
raise CrcError(decompressor.crc, decompressor.digest, None)
return crc32
def _find_link_target(self, target):
"""
Find the target member of a symlink or hardlink member in the archive.
"""
targetname: str = target.as_posix()
linkname = readlink(targetname)
# Check windows full path symlinks
if linkname.startswith("\\\\?\\"):
linkname = linkname[4:]
# normalize as posix style
linkname: str = pathlib.Path(linkname).as_posix()
member = None
for j in range(len(self.files)):
if linkname == self.files[j].origin.as_posix():
# FIXME: when API user specify arcname, it will break
member = os.path.relpath(linkname, os.path.dirname(targetname))
break
if member is None:
member = linkname
return member
def _after_write(self, insize, foutsize, crc):
self.header.main_streams.substreamsinfo.digestsdefined.append(True)
self.header.main_streams.substreamsinfo.digests.append(crc)
if self.header.main_streams.substreamsinfo.unpacksizes is None:
self.header.main_streams.substreamsinfo.unpacksizes = [insize]
else:
self.header.main_streams.substreamsinfo.unpacksizes.append(insize)
if self.header.main_streams.substreamsinfo.num_unpackstreams_folders is None:
self.header.main_streams.substreamsinfo.num_unpackstreams_folders = [1]
else:
self.header.main_streams.substreamsinfo.num_unpackstreams_folders[-1] += 1
return foutsize, crc
def write(self, fp: BinaryIO, f, assym, folder):
compressor = folder.get_compressor()
if assym:
link_target: str = self._find_link_target(f.origin)
tgt: bytes = link_target.encode("utf-8")
fd = io.BytesIO(tgt)
insize, foutsize, crc = compressor.compress(fd, fp)
fd.close()
else:
with f.origin.open(mode="rb") as fd:
insize, foutsize, crc = compressor.compress(fd, fp)
return self._after_write(insize, foutsize, crc)
def writestr(self, fp: BinaryIO, f, folder):
compressor = folder.get_compressor()
insize, foutsize, crc = compressor.compress(f.data(), fp)
return self._after_write(insize, foutsize, crc)
def flush_archive(self, fp, folder):
compressor = folder.get_compressor()
foutsize = compressor.flush(fp)
if len(self.files) > 0:
if "maxsize" in self.header.files_info.files[self.last_file_index]:
self.header.files_info.files[self.last_file_index]["maxsize"] += foutsize
else:
self.header.files_info.files[self.last_file_index]["maxsize"] = foutsize
# Update size data in header
self.header.main_streams.packinfo.numstreams += 1
if self.header.main_streams.packinfo.enable_digests:
self.header.main_streams.packinfo.crcs.append(compressor.digest)
self.header.main_streams.packinfo.digestdefined.append(True)
self.header.main_streams.packinfo.packsizes.append(compressor.packsize)
folder.unpacksizes = compressor.unpacksizes
def archive(self, fp: BinaryIO, files, folder, deref=False):
"""Run archive task for specified 7zip folder."""
f = files[self.current_file_index]
if f.has_strdata():
foutsize, crc = self.writestr(fp, f, folder)
self.header.files_info.files[self.current_file_index]["maxsize"] = foutsize
self.header.files_info.files[self.current_file_index]["digest"] = crc
self.last_file_index = self.current_file_index
elif (f.is_symlink and not deref) or not f.emptystream:
foutsize, crc = self.write(fp, f, (f.is_symlink and not deref), folder)
self.header.files_info.files[self.current_file_index]["maxsize"] = foutsize
self.header.files_info.files[self.current_file_index]["digest"] = crc
self.last_file_index = self.current_file_index
self.current_file_index += 1
def register_filelike(self, id: int, fileish: Union[MemIO, pathlib.Path, None]) -> None:
"""register file-ish to worker."""
self.target_filepath[id] = fileish
def close(self):
del self.header
del self.files
del self.concurrent
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