File: zipfs.py

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"""Manage the filesystem in a Zip archive.
"""

from __future__ import print_function, unicode_literals

import sys
import typing

import zipfile
from datetime import datetime

from . import errors
from ._url_tools import url_quote
from .base import FS
from .compress import write_zip
from .enums import ResourceType, Seek
from .info import Info
from .iotools import RawWrapper
from .memoryfs import MemoryFS
from .opener import open_fs
from .path import dirname, forcedir, normpath, relpath
from .permissions import Permissions
from .time import datetime_to_epoch
from .wrapfs import WrapFS

if typing.TYPE_CHECKING:
    from typing import (
        Any,
        BinaryIO,
        Collection,
        Dict,
        List,
        Optional,
        SupportsInt,
        Text,
        Tuple,
        Union,
    )

    from .info import RawInfo
    from .subfs import SubFS

    R = typing.TypeVar("R", bound="ReadZipFS")


class _ZipExtFile(RawWrapper):
    def __init__(self, fs, name):  # noqa: D107
        # type: (ReadZipFS, Text) -> None
        self._zip = _zip = fs._zip
        self._end = _zip.getinfo(name).file_size
        self._pos = 0
        super(_ZipExtFile, self).__init__(_zip.open(name), "r", name)

    # NOTE(@althonos): Starting from Python 3.7, files inside a Zip archive are
    #                  seekable provided they were opened from a seekable file
    #                  handle. Before that, we can emulate a seek using the
    #                  read method, although it adds a ton of overhead and is
    #                  way less efficient than extracting once to a BytesIO.
    if sys.version_info < (3, 7):

        def read(self, size=-1):
            # type: (int) -> bytes
            buf = self._f.read(-1 if size is None else size)
            self._pos += len(buf)
            return buf

        def read1(self, size=-1):
            # type: (int) -> bytes
            buf = self._f.read1(-1 if size is None else size)  # type: ignore
            self._pos += len(buf)
            return buf

        def tell(self):
            # type: () -> int
            return self._pos

        def seekable(self):
            return True

        def seek(self, offset, whence=Seek.set):
            # type: (int, SupportsInt) -> int
            """Change stream position.

            Change the stream position to the given byte offset. The
            offset is interpreted relative to the position indicated by
            ``whence``.

            Arguments:
                offset (int): the offset to the new position, in bytes.
                whence (int): the position reference. Possible values are:
                    * `Seek.set`: start of stream (the default).
                    * `Seek.current`: current position; offset may be negative.
                    * `Seek.end`: end of stream; offset must be negative.

            Returns:
                int: the new absolute position.

            Raises:
                ValueError: when ``whence`` is not known, or ``offset``
                    is invalid.

            Note:
                Zip compression does not support seeking, so the seeking
                is emulated. Seeking somewhere else than the current position
                will need to either:
                    * reopen the file and restart decompression
                    * read and discard data to advance in the file

            """
            _whence = int(whence)
            if _whence == Seek.current:
                offset += self._pos
            if _whence == Seek.current or _whence == Seek.set:
                if offset < 0:
                    raise ValueError("Negative seek position {}".format(offset))
            elif _whence == Seek.end:
                if offset > 0:
                    raise ValueError("Positive seek position {}".format(offset))
                offset += self._end
            else:
                raise ValueError(
                    "Invalid whence ({}, should be {}, {} or {})".format(
                        _whence, Seek.set, Seek.current, Seek.end
                    )
                )

            if offset < self._pos:
                self._f = self._zip.open(self.name)  # type: ignore
                self._pos = 0
            self.read(offset - self._pos)
            return self._pos

    else:

        def seek(self, offset, whence=Seek.set):
            # type: (int, SupportsInt) -> int
            """Change stream position.

            Change the stream position to the given byte offset. The
            offset is interpreted relative to the position indicated by
            ``whence``.

            Arguments:
                offset (int): the offset to the new position, in bytes.
                whence (int): the position reference. Possible values are:
                    * `Seek.set`: start of stream (the default).
                    * `Seek.current`: current position; offset may be negative.
                    * `Seek.end`: end of stream; offset must be negative.

            Returns:
                int: the new absolute position.

            Raises:
                ValueError: when ``whence`` is not known, or ``offset``
                    is invalid.

            """
            _whence = int(whence)
            _pos = self.tell()
            if _whence == Seek.set:
                if offset < 0:
                    raise ValueError("Negative seek position {}".format(offset))
            elif _whence == Seek.current:
                if _pos + offset < 0:
                    raise ValueError("Negative seek position {}".format(offset))
            elif _whence == Seek.end:
                if offset > 0:
                    raise ValueError("Positive seek position {}".format(offset))
            else:
                raise ValueError(
                    "Invalid whence ({}, should be {}, {} or {})".format(
                        _whence, Seek.set, Seek.current, Seek.end
                    )
                )

            return self._f.seek(offset, _whence)


class ZipFS(WrapFS):
    """Read and write zip files.

    There are two ways to open a `ZipFS` for the use cases of reading
    a zip file, and creating a new one.

    If you open the `ZipFS` with  ``write`` set to `False` (the default)
    then the filesystem will be a read-only filesystem which maps to
    the files and directories within the zip file. Files are
    decompressed on the fly when you open them.

    Here's how you might extract and print a readme from a zip file::

        with ZipFS('foo.zip') as zip_fs:
            readme = zip_fs.readtext('readme.txt')

    If you open the `ZipFS` with ``write`` set to `True`, then the `ZipFS`
    will be an empty temporary filesystem. Any files / directories you
    create in the `ZipFS` will be written in to a zip file when the `ZipFS`
    is closed.

    Here's how you might write a new zip file containing a ``readme.txt``
    file::

        with ZipFS('foo.zip', write=True) as new_zip:
            new_zip.writetext(
                'readme.txt',
                'This zip file was written by PyFilesystem'
            )


    Arguments:
        file (str or io.IOBase): An OS filename, or an open file object.
        write (bool): Set to `True` to write a new zip file, or `False`
            (default) to read an existing zip file.
        compression (int): Compression to use (one of the constants
            defined in the `zipfile` module in the stdlib).
        temp_fs (str or FS): An FS URL or an FS instance to use to
            store data prior to zipping. Defaults to creating a new
            `~fs.tempfs.TempFS`.

    """

    # TODO: __new__ returning different types may be too 'magical'
    def __new__(  # type: ignore
        cls,
        file,  # type: Union[Text, BinaryIO]
        write=False,  # type: bool
        compression=zipfile.ZIP_DEFLATED,  # type: int
        encoding="utf-8",  # type: Text
        temp_fs="temp://__ziptemp__",  # type: Union[Text, FS]
    ):
        # type: (...) -> FS
        # This magic returns a different class instance based on the
        # value of the ``write`` parameter.
        if write:
            return WriteZipFS(
                file, compression=compression, encoding=encoding, temp_fs=temp_fs
            )
        else:
            return ReadZipFS(file, encoding=encoding)

    if typing.TYPE_CHECKING:

        def __init__(
            self,
            file,  # type: Union[Text, BinaryIO]
            write=False,  # type: bool
            compression=zipfile.ZIP_DEFLATED,  # type: int
            encoding="utf-8",  # type: Text
            temp_fs="temp://__ziptemp__",  # type: Text
        ):  # noqa: D107
            # type: (...) -> None
            pass


class WriteZipFS(WrapFS):
    """A writable zip file."""

    def __init__(
        self,
        file,  # type: Union[Text, BinaryIO]
        compression=zipfile.ZIP_DEFLATED,  # type: int
        encoding="utf-8",  # type: Text
        temp_fs="temp://__ziptemp__",  # type: Union[Text, FS]
    ):  # noqa: D107
        # type: (...) -> None
        self._file = file
        self.compression = compression
        self.encoding = encoding
        self._temp_fs_url = temp_fs
        self._temp_fs = open_fs(temp_fs)
        self._meta = dict(self._temp_fs.getmeta())  # type: ignore
        super(WriteZipFS, self).__init__(self._temp_fs)

    def __repr__(self):
        # type: () -> Text
        t = "WriteZipFS({!r}, compression={!r}, encoding={!r}, temp_fs={!r})"
        return t.format(self._file, self.compression, self.encoding, self._temp_fs_url)

    def __str__(self):
        # type: () -> Text
        return "<zipfs-write '{}'>".format(self._file)

    def delegate_path(self, path):
        # type: (Text) -> Tuple[FS, Text]
        return self._temp_fs, path

    def delegate_fs(self):
        # type: () -> FS
        return self._temp_fs

    def close(self):
        # type: () -> None
        if not self.isclosed():
            try:
                self.write_zip()
            finally:
                self._temp_fs.close()
        super(WriteZipFS, self).close()

    def write_zip(
        self,
        file=None,  # type: Union[Text, BinaryIO, None]
        compression=None,  # type: Optional[int]
        encoding=None,  # type: Optional[Text]
    ):
        # type: (...) -> None
        """Write zip to a file.

        Arguments:
            file (str or io.IOBase, optional): Destination file, may be
                a file name or an open file handle.
            compression (int, optional): Compression to use (one of the
                constants defined in the `zipfile` module in the stdlib).
            encoding (str, optional): The character encoding to use
                (default uses the encoding defined in
                `~WriteZipFS.__init__`).

        Note:
            This is called automatically when the ZipFS is closed.

        """
        if not self.isclosed():
            write_zip(
                self._temp_fs,
                file or self._file,
                compression=compression or self.compression,
                encoding=encoding or self.encoding,
            )


class ReadZipFS(FS):
    """A readable zip file."""

    _meta = {
        "case_insensitive": False,
        "network": False,
        "read_only": True,
        "supports_rename": False,
        "thread_safe": True,
        "unicode_paths": True,
        "virtual": False,
    }

    @errors.CreateFailed.catch_all
    def __init__(self, file, encoding="utf-8"):  # noqa: D107
        # type: (Union[BinaryIO, Text], Text) -> None
        super(ReadZipFS, self).__init__()
        self._file = file
        self.encoding = encoding
        self._zip = zipfile.ZipFile(file, "r")
        self._directory_fs = None  # type: Optional[MemoryFS]

    def __repr__(self):
        # type: () -> Text
        return "ReadZipFS({!r})".format(self._file)

    def __str__(self):
        # type: () -> Text
        return "<zipfs '{}'>".format(self._file)

    def _path_to_zip_name(self, path):
        # type: (Text) -> str
        """Convert a path to a zip file name."""
        path = relpath(normpath(path))
        if self._directory.isdir(path):
            path = forcedir(path)
        return path

    @property
    def _directory(self):
        # type: () -> MemoryFS
        """`MemoryFS`: a filesystem with the same folder hierarchy as the zip."""
        self.check()
        with self._lock:
            if self._directory_fs is None:
                self._directory_fs = _fs = MemoryFS()
                for zip_name in self._zip.namelist():
                    resource_name = zip_name
                    if resource_name.endswith("/"):
                        _fs.makedirs(resource_name, recreate=True)
                    else:
                        _fs.makedirs(dirname(resource_name), recreate=True)
                        _fs.create(resource_name)
            return self._directory_fs

    def getinfo(self, path, namespaces=None):
        # type: (Text, Optional[Collection[Text]]) -> Info
        _path = self.validatepath(path)
        namespaces = namespaces or ()
        raw_info = {}  # type: Dict[Text, Dict[Text, object]]

        if _path == "/":
            raw_info["basic"] = {"name": "", "is_dir": True}
            if "details" in namespaces:
                raw_info["details"] = {"type": int(ResourceType.directory)}

        else:
            basic_info = self._directory.getinfo(_path)
            raw_info["basic"] = {"name": basic_info.name, "is_dir": basic_info.is_dir}

            if not {"details", "access", "zip"}.isdisjoint(namespaces):
                zip_name = self._path_to_zip_name(path)
                try:
                    zip_info = self._zip.getinfo(zip_name)
                except KeyError:
                    # Can occur if there is an implied directory in the zip
                    pass
                else:
                    if "details" in namespaces:
                        raw_info["details"] = {
                            "size": zip_info.file_size,
                            "type": int(
                                ResourceType.directory
                                if basic_info.is_dir
                                else ResourceType.file
                            ),
                            "modified": datetime_to_epoch(
                                datetime(*zip_info.date_time)
                            ),
                        }
                    if "zip" in namespaces:
                        raw_info["zip"] = {
                            k: getattr(zip_info, k)
                            for k in zip_info.__slots__  # type: ignore
                            if not k.startswith("_")
                        }
                    if "access" in namespaces:
                        # check the zip was created on UNIX to get permissions
                        if zip_info.external_attr and zip_info.create_system == 3:
                            raw_info["access"] = {
                                "permissions": Permissions(
                                    mode=zip_info.external_attr >> 16 & 0xFFF
                                ).dump()
                            }

        return Info(raw_info)

    def setinfo(self, path, info):
        # type: (Text, RawInfo) -> None
        self.check()
        raise errors.ResourceReadOnly(path)

    def listdir(self, path):
        # type: (Text) -> List[Text]
        self.check()
        return self._directory.listdir(path)

    def makedir(
        self,  # type: R
        path,  # type: Text
        permissions=None,  # type: Optional[Permissions]
        recreate=False,  # type: bool
    ):
        # type: (...) -> SubFS[R]
        self.check()
        raise errors.ResourceReadOnly(path)

    def openbin(self, path, mode="r", buffering=-1, **kwargs):
        # type: (Text, Text, int, **Any) -> BinaryIO
        self.check()
        if "w" in mode or "+" in mode or "a" in mode:
            raise errors.ResourceReadOnly(path)

        if not self._directory.exists(path):
            raise errors.ResourceNotFound(path)
        elif self._directory.isdir(path):
            raise errors.FileExpected(path)

        zip_name = self._path_to_zip_name(path)
        return _ZipExtFile(self, zip_name)  # type: ignore

    def remove(self, path):
        # type: (Text) -> None
        self.check()
        raise errors.ResourceReadOnly(path)

    def removedir(self, path):
        # type: (Text) -> None
        self.check()
        raise errors.ResourceReadOnly(path)

    def close(self):
        # type: () -> None
        super(ReadZipFS, self).close()
        if hasattr(self, "_zip"):
            self._zip.close()

    def readbytes(self, path):
        # type: (Text) -> bytes
        self.check()
        if not self._directory.isfile(path):
            raise errors.ResourceNotFound(path)
        zip_name = self._path_to_zip_name(path)
        zip_bytes = self._zip.read(zip_name)
        return zip_bytes

    def geturl(self, path, purpose="download"):
        # type: (Text, Text) -> Text
        if purpose == "fs" and isinstance(self._file, str):
            quoted_file = url_quote(self._file)
            quoted_path = url_quote(path)
            return "zip://{}!/{}".format(quoted_file, quoted_path)
        else:
            raise errors.NoURL(path, purpose)