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	import asyncio
	import io
	import logging
	import re
	import weakref
	from copy import copy
	from urllib.parse import urlparse

	import aiohttp
	import requests
	import yarl

	from fsspec.asyn import AbstractAsyncStreamedFile, AsyncFileSystem, sync, sync_wrapper
	from fsspec.callbacks import _DEFAULT_CALLBACK
	from fsspec.exceptions import FSTimeoutError
	from fsspec.spec import AbstractBufferedFile
	from fsspec.utils import DEFAULT_BLOCK_SIZE, isfilelike, nullcontext, tokenize

	from ..caching import AllBytes

	# https://stackoverflow.com/a/15926317/3821154
	ex = re.compile(r"""<(a\|A)\s+(?:[^>]*?\s+)?(href\|HREF)=["'](?P<url>[^"']+)""")
	ex2 = re.compile(r"""(?P<url>http[s]?://[-a-zA-Z0-9@:%_+.~#?&/=]+)""")
	logger = logging.getLogger("fsspec.http")


	async def get_client(**kwargs):
	return aiohttp.ClientSession(**kwargs)


	class HTTPFileSystem(AsyncFileSystem):
	"""
	Simple File-System for fetching data via HTTP(S)

	``ls()`` is implemented by loading the parent page and doing a regex
	match on the result. If simple_link=True, anything of the form
	"http(s)://server.com/stuff?thing=other"; otherwise only links within
	HTML href tags will be used.
	"""

	sep = "/"

	def __init__(
	self,
	simple_links=True,
	block_size=None,
	same_scheme=True,
	size_policy=None,
	cache_type="bytes",
	cache_options=None,
	asynchronous=False,
	loop=None,
	client_kwargs=None,
	get_client=get_client,
	encoded=False,
	**storage_options,
	):
	"""
	NB: if this is called async, you must await set_client

	Parameters
	----------
	block_size: int
	Blocks to read bytes; if 0, will default to raw requests file-like
	objects instead of HTTPFile instances
	simple_links: bool
	If True, will consider both HTML <a> tags and anything that looks
	like a URL; if False, will consider only the former.
	same_scheme: True
	When doing ls/glob, if this is True, only consider paths that have
	http/https matching the input URLs.
	size_policy: this argument is deprecated
	client_kwargs: dict
	Passed to aiohttp.ClientSession, see
	https://docs.aiohttp.org/en/stable/client_reference.html
	For example, ``{'auth': aiohttp.BasicAuth('user', 'pass')}``
	get_client: Callable[..., aiohttp.ClientSession]
	A callable which takes keyword arguments and constructs
	an aiohttp.ClientSession. It's state will be managed by
	the HTTPFileSystem class.
	storage_options: key-value
	Any other parameters passed on to requests
	cache_type, cache_options: defaults used in open
	"""
	super().__init__(self, asynchronous=asynchronous, loop=loop, **storage_options)
	self.block_size = block_size if block_size is not None else DEFAULT_BLOCK_SIZE
	self.simple_links = simple_links
	self.same_schema = same_scheme
	self.cache_type = cache_type
	self.cache_options = cache_options
	self.client_kwargs = client_kwargs or {}
	self.get_client = get_client
	self.encoded = encoded
	self.kwargs = storage_options
	self._session = None

	# Clean caching-related parameters from `storage_options`
	# before propagating them as `request_options` through `self.kwargs`.
	# TODO: Maybe rename `self.kwargs` to `self.request_options` to make
	# it clearer.
	request_options = copy(storage_options)
	self.use_listings_cache = request_options.pop("use_listings_cache", False)
	request_options.pop("listings_expiry_time", None)
	request_options.pop("max_paths", None)
	request_options.pop("skip_instance_cache", None)
	self.kwargs = request_options

	@property
	def fsid(self):
	return "http"

	def encode_url(self, url):
	return yarl.URL(url, encoded=self.encoded)

	@staticmethod
	def close_session(loop, session):
	if loop is not None and loop.is_running():
	try:
	sync(loop, session.close, timeout=0.1)
	return
	except (TimeoutError, FSTimeoutError):
	pass
	connector = getattr(session, "_connector", None)
	if connector is not None:
	# close after loop is dead
	connector._close()

	async def set_session(self):
	if self._session is None:
	self._session = await self.get_client(loop=self.loop, **self.client_kwargs)
	if not self.asynchronous:
	weakref.finalize(self, self.close_session, self.loop, self._session)
	return self._session

	@classmethod
	def _strip_protocol(cls, path):
	"""For HTTP, we always want to keep the full URL"""
	return path

	@classmethod
	def _parent(cls, path):
	# override, since _strip_protocol is different for URLs
	par = super()._parent(path)
	if len(par) > 7: # "http://..."
	return par
	return ""

	async def _ls_real(self, url, detail=True, **kwargs):
	# ignoring URL-encoded arguments
	kw = self.kwargs.copy()
	kw.update(kwargs)
	logger.debug(url)
	session = await self.set_session()
	async with session.get(self.encode_url(url), **self.kwargs) as r:
	self._raise_not_found_for_status(r, url)
	text = await r.text()
	if self.simple_links:
	links = ex2.findall(text) + [u[2] for u in ex.findall(text)]
	else:
	links = [u[2] for u in ex.findall(text)]
	out = set()
	parts = urlparse(url)
	for l in links:
	if isinstance(l, tuple):
	l = l[1]
	if l.startswith("/") and len(l) > 1:
	# absolute URL on this server
	l = f"{parts.scheme}://{parts.netloc}{l}"
	if l.startswith("http"):
	if self.same_schema and l.startswith(url.rstrip("/") + "/"):
	out.add(l)
	elif l.replace("https", "http").startswith(
	url.replace("https", "http").rstrip("/") + "/"
	):
	# allowed to cross http <-> https
	out.add(l)
	else:
	if l not in ["..", "../"]:
	# Ignore FTP-like "parent"
	out.add("/".join([url.rstrip("/"), l.lstrip("/")]))
	if not out and url.endswith("/"):
	out = await self._ls_real(url.rstrip("/"), detail=False)
	if detail:
	return [
	{
	"name": u,
	"size": None,
	"type": "directory" if u.endswith("/") else "file",
	}
	for u in out
	]
	else:
	return sorted(out)

	async def _ls(self, url, detail=True, **kwargs):
	if self.use_listings_cache and url in self.dircache:
	out = self.dircache[url]
	else:
	out = await self._ls_real(url, detail=detail, **kwargs)
	self.dircache[url] = out
	return out

	ls = sync_wrapper(_ls)

	def _raise_not_found_for_status(self, response, url):
	"""
	Raises FileNotFoundError for 404s, otherwise uses raise_for_status.
	"""
	if response.status == 404:
	raise FileNotFoundError(url)
	response.raise_for_status()

	async def _cat_file(self, url, start=None, end=None, **kwargs):
	kw = self.kwargs.copy()
	kw.update(kwargs)
	logger.debug(url)

	if start is not None or end is not None:
	if start == end:
	return b""
	headers = kw.pop("headers", {}).copy()

	headers["Range"] = await self._process_limits(url, start, end)
	kw["headers"] = headers
	session = await self.set_session()
	async with session.get(self.encode_url(url), **kw) as r:
	out = await r.read()
	self._raise_not_found_for_status(r, url)
	return out

	async def _get_file(
	self, rpath, lpath, chunk_size=5 * 220, callback=_DEFAULT_CALLBACK, kwargs
	):
	kw = self.kwargs.copy()
	kw.update(kwargs)
	logger.debug(rpath)
	session = await self.set_session()
	async with session.get(self.encode_url(rpath), **kw) as r:
	try:
	size = int(r.headers["content-length"])
	except (ValueError, KeyError):
	size = None

	callback.set_size(size)
	self._raise_not_found_for_status(r, rpath)
	if isfilelike(lpath):
	outfile = lpath
	else:
	outfile = open(lpath, "wb")

	try:
	chunk = True
	while chunk:
	chunk = await r.content.read(chunk_size)
	outfile.write(chunk)
	callback.relative_update(len(chunk))
	finally:
	if not isfilelike(lpath):
	outfile.close()

	async def _put_file(
	self,
	lpath,
	rpath,
	chunk_size=5 * 2**20,
	callback=_DEFAULT_CALLBACK,
	method="post",
	**kwargs,
	):
	async def gen_chunks():
	# Support passing arbitrary file-like objects
	# and use them instead of streams.
	if isinstance(lpath, io.IOBase):
	context = nullcontext(lpath)
	use_seek = False # might not support seeking
	else:
	context = open(lpath, "rb")
	use_seek = True

	with context as f:
	if use_seek:
	callback.set_size(f.seek(0, 2))
	f.seek(0)
	else:
	callback.set_size(getattr(f, "size", None))

	chunk = f.read(chunk_size)
	while chunk:
	yield chunk
	callback.relative_update(len(chunk))
	chunk = f.read(chunk_size)

	kw = self.kwargs.copy()
	kw.update(kwargs)
	session = await self.set_session()

	method = method.lower()
	if method not in ("post", "put"):
	raise ValueError(
	f"method has to be either 'post' or 'put', not: {method!r}"
	)

	meth = getattr(session, method)
	async with meth(rpath, data=gen_chunks(), **kw) as resp:
	self._raise_not_found_for_status(resp, rpath)

	async def _exists(self, path, **kwargs):
	kw = self.kwargs.copy()
	kw.update(kwargs)
	try:
	logger.debug(path)
	session = await self.set_session()
	r = await session.get(self.encode_url(path), **kw)
	async with r:
	return r.status < 400
	except (requests.HTTPError, aiohttp.ClientError):
	return False

	async def _isfile(self, path, **kwargs):
	return await self._exists(path, **kwargs)

	def _open(
	self,
	path,
	mode="rb",
	block_size=None,
	autocommit=None, # XXX: This differs from the base class.
	cache_type=None,
	cache_options=None,
	size=None,
	**kwargs,
	):
	"""Make a file-like object

	Parameters
	----------
	path: str
	Full URL with protocol
	mode: string
	must be "rb"
	block_size: int or None
	Bytes to download in one request; use instance value if None. If
	zero, will return a streaming Requests file-like instance.
	kwargs: key-value
	Any other parameters, passed to requests calls
	"""
	if mode != "rb":
	raise NotImplementedError
	block_size = block_size if block_size is not None else self.block_size
	kw = self.kwargs.copy()
	kw["asynchronous"] = self.asynchronous
	kw.update(kwargs)
	size = size or self.info(path, **kwargs)["size"]
	session = sync(self.loop, self.set_session)
	if block_size and size:
	return HTTPFile(
	self,
	path,
	session=session,
	block_size=block_size,
	mode=mode,
	size=size,
	cache_type=cache_type or self.cache_type,
	cache_options=cache_options or self.cache_options,
	loop=self.loop,
	**kw,
	)
	else:
	return HTTPStreamFile(
	self,
	path,
	mode=mode,
	loop=self.loop,
	session=session,
	**kw,
	)

	async def open_async(self, path, mode="rb", size=None, **kwargs):
	session = await self.set_session()
	if size is None:
	try:
	size = (await self._info(path, **kwargs))["size"]
	except FileNotFoundError:
	pass
	return AsyncStreamFile(
	self,
	path,
	loop=self.loop,
	session=session,
	size=size,
	**kwargs,
	)

	def ukey(self, url):
	"""Unique identifier; assume HTTP files are static, unchanging"""
	return tokenize(url, self.kwargs, self.protocol)

	async def _info(self, url, **kwargs):
	"""Get info of URL

	Tries to access location via HEAD, and then GET methods, but does
	not fetch the data.

	It is possible that the server does not supply any size information, in
	which case size will be given as None (and certain operations on the
	corresponding file will not work).
	"""
	info = {}
	session = await self.set_session()

	for policy in ["head", "get"]:
	try:
	info.update(
	await _file_info(
	self.encode_url(url),
	size_policy=policy,
	session=session,
	**self.kwargs,
	**kwargs,
	)
	)
	if info.get("size") is not None:
	break
	except Exception as exc:
	if policy == "get":
	# If get failed, then raise a FileNotFoundError
	raise FileNotFoundError(url) from exc
	logger.debug(str(exc))

	return {"name": url, "size": None, **info, "type": "file"}

	async def _glob(self, path, maxdepth=None, **kwargs):
	"""
	Find files by glob-matching.

	This implementation is idntical to the one in AbstractFileSystem,
	but "?" is not considered as a character for globbing, because it is
	so common in URLs, often identifying the "query" part.
	"""
	if maxdepth is not None and maxdepth < 1:
	raise ValueError("maxdepth must be at least 1")
	import re

	ends = path.endswith("/")
	path = self._strip_protocol(path)
	idx_star = path.find("") if path.find("") >= 0 else len(path)
	idx_brace = path.find("[") if path.find("[") >= 0 else len(path)

	min_idx = min(idx_star, idx_brace)

	detail = kwargs.pop("detail", False)

	if not has_magic(path):
	if await self._exists(path):
	if not detail:
	return [path]
	else:
	return {path: await self._info(path)}
	else:
	if not detail:
	return [] # glob of non-existent returns empty
	else:
	return {}
	elif "/" in path[:min_idx]:
	min_idx = path[:min_idx].rindex("/")
	root = path[: min_idx + 1]
	depth = path[min_idx + 1 :].count("/") + 1
	else:
	root = ""
	depth = path[min_idx + 1 :].count("/") + 1

	if "**" in path:
	if maxdepth is not None:
	idx_double_stars = path.find("**")
	depth_double_stars = path[idx_double_stars:].count("/") + 1
	depth = depth - depth_double_stars + maxdepth
	else:
	depth = None

	allpaths = await self._find(
	root, maxdepth=depth, withdirs=True, detail=True, **kwargs
	)
	# Escape characters special to python regex, leaving our supported
	# special characters in place.
	# See https://www.gnu.org/software/bash/manual/html_node/Pattern-Matching.html
	# for shell globbing details.
	pattern = (
	"^"
	+ (
	path.replace("\\", r"\\")
	.replace(".", r"\.")
	.replace("+", r"\+")
	.replace("//", "/")
	.replace("(", r"\(")
	.replace(")", r"\)")
	.replace("\|", r"\\|")
	.replace("^", r"\^")
	.replace("$", r"\$")
	.replace("{", r"\{")
	.replace("}", r"\}")
	.rstrip("/")
	)
	+ "$"
	)
	pattern = re.sub("/[*]{2}", "=SLASH_DOUBLE_STARS=", pattern)
	pattern = re.sub("[*]{2}/?", "=DOUBLE_STARS=", pattern)
	pattern = re.sub("[]", "[^/]", pattern)
	pattern = re.sub("=SLASH_DOUBLE_STARS=", "(\|/.*)", pattern)
	pattern = re.sub("=DOUBLE_STARS=", ".*", pattern)
	pattern = re.compile(pattern)
	out = {
	p: allpaths[p]
	for p in sorted(allpaths)
	if pattern.match(p.replace("//", "/").rstrip("/"))
	}

	# Return directories only when the glob end by a slash
	# This is needed for posix glob compliance
	if ends:
	out = {k: v for k, v in out.items() if v["type"] == "directory"}

	if detail:
	return out
	else:
	return list(out)

	async def _isdir(self, path):
	# override, since all URLs are (also) files
	try:
	return bool(await self._ls(path))
	except (FileNotFoundError, ValueError):
	return False


	class HTTPFile(AbstractBufferedFile):
	"""
	A file-like object pointing to a remove HTTP(S) resource

	Supports only reading, with read-ahead of a predermined block-size.

	In the case that the server does not supply the filesize, only reading of
	the complete file in one go is supported.

	Parameters
	----------
	url: str
	Full URL of the remote resource, including the protocol
	session: requests.Session or None
	All calls will be made within this session, to avoid restarting
	connections where the server allows this
	block_size: int or None
	The amount of read-ahead to do, in bytes. Default is 5MB, or the value
	configured for the FileSystem creating this file
	size: None or int
	If given, this is the size of the file in bytes, and we don't attempt
	to call the server to find the value.
	kwargs: all other key-values are passed to requests calls.
	"""

	def __init__(
	self,
	fs,
	url,
	session=None,
	block_size=None,
	mode="rb",
	cache_type="bytes",
	cache_options=None,
	size=None,
	loop=None,
	asynchronous=False,
	**kwargs,
	):
	if mode != "rb":
	raise NotImplementedError("File mode not supported")
	self.asynchronous = asynchronous
	self.url = url
	self.session = session
	self.details = {"name": url, "size": size, "type": "file"}
	super().__init__(
	fs=fs,
	path=url,
	mode=mode,
	block_size=block_size,
	cache_type=cache_type,
	cache_options=cache_options,
	**kwargs,
	)
	self.loop = loop

	def read(self, length=-1):
	"""Read bytes from file

	Parameters
	----------
	length: int
	Read up to this many bytes. If negative, read all content to end of
	file. If the server has not supplied the filesize, attempting to
	read only part of the data will raise a ValueError.
	"""
	if (
	(length < 0 and self.loc == 0) # explicit read all
	# but not when the size is known and fits into a block anyways
	and not (self.size is not None and self.size <= self.blocksize)
	):
	self._fetch_all()
	if self.size is None:
	if length < 0:
	self._fetch_all()
	else:
	length = min(self.size - self.loc, length)
	return super().read(length)

	async def async_fetch_all(self):
	"""Read whole file in one shot, without caching

	This is only called when position is still at zero,
	and read() is called without a byte-count.
	"""
	logger.debug(f"Fetch all for {self}")
	if not isinstance(self.cache, AllBytes):
	r = await self.session.get(self.fs.encode_url(self.url), **self.kwargs)
	async with r:
	r.raise_for_status()
	out = await r.read()
	self.cache = AllBytes(
	size=len(out), fetcher=None, blocksize=None, data=out
	)
	self.size = len(out)

	_fetch_all = sync_wrapper(async_fetch_all)

	def _parse_content_range(self, headers):
	"""Parse the Content-Range header"""
	s = headers.get("Content-Range", "")
	m = re.match(r"bytes (\d+-\d+\|\)/(\d+\|\)", s)
	if not m:
	return None, None, None

	if m[1] == "*":
	start = end = None
	else:
	start, end = [int(x) for x in m[1].split("-")]
	total = None if m[2] == "*" else int(m[2])
	return start, end, total

	async def async_fetch_range(self, start, end):
	"""Download a block of data

	The expectation is that the server returns only the requested bytes,
	with HTTP code 206. If this is not the case, we first check the headers,
	and then stream the output - if the data size is bigger than we
	requested, an exception is raised.
	"""
	logger.debug(f"Fetch range for {self}: {start}-{end}")
	kwargs = self.kwargs.copy()
	headers = kwargs.pop("headers", {}).copy()
	headers["Range"] = f"bytes={start}-{end - 1}"
	logger.debug(f"{self.url} : {headers['Range']}")
	r = await self.session.get(
	self.fs.encode_url(self.url), headers=headers, **kwargs
	)
	async with r:
	if r.status == 416:
	# range request outside file
	return b""
	r.raise_for_status()

	# If the server has handled the range request, it should reply
	# with status 206 (partial content). But we'll guess that a suitable
	# Content-Range header or a Content-Length no more than the
	# requested range also mean we have got the desired range.
	response_is_range = (
	r.status == 206
	or self._parse_content_range(r.headers)[0] == start
	or int(r.headers.get("Content-Length", end + 1)) <= end - start
	)

	if response_is_range:
	# partial content, as expected
	out = await r.read()
	elif start > 0:
	raise ValueError(
	"The HTTP server doesn't appear to support range requests. "
	"Only reading this file from the beginning is supported. "
	"Open with block_size=0 for a streaming file interface."
	)
	else:
	# Response is not a range, but we want the start of the file,
	# so we can read the required amount anyway.
	cl = 0
	out = []
	while True:
	chunk = await r.content.read(2**20)
	# data size unknown, let's read until we have enough
	if chunk:
	out.append(chunk)
	cl += len(chunk)
	if cl > end - start:
	break
	else:
	break
	out = b"".join(out)[: end - start]
	return out

	_fetch_range = sync_wrapper(async_fetch_range)

	def __reduce__(self):
	return (
	reopen,
	(
	self.fs,
	self.url,
	self.mode,
	self.blocksize,
	self.cache.name if self.cache else "none",
	self.size,
	),
	)


	def reopen(fs, url, mode, blocksize, cache_type, size=None):
	return fs.open(
	url, mode=mode, block_size=blocksize, cache_type=cache_type, size=size
	)


	magic_check = re.compile("([*[])")


	def has_magic(s):
	match = magic_check.search(s)
	return match is not None


	class HTTPStreamFile(AbstractBufferedFile):
	def __init__(self, fs, url, mode="rb", loop=None, session=None, **kwargs):
	self.asynchronous = kwargs.pop("asynchronous", False)
	self.url = url
	self.loop = loop
	self.session = session
	if mode != "rb":
	raise ValueError
	self.details = {"name": url, "size": None}
	super().__init__(fs=fs, path=url, mode=mode, cache_type="none", **kwargs)

	async def cor():
	r = await self.session.get(self.fs.encode_url(url), **kwargs).__aenter__()
	self.fs._raise_not_found_for_status(r, url)
	return r

	self.r = sync(self.loop, cor)

	def seek(self, loc, whence=0):
	if loc == 0 and whence == 1:
	return
	if loc == self.loc and whence == 0:
	return
	raise ValueError("Cannot seek streaming HTTP file")

	async def _read(self, num=-1):
	out = await self.r.content.read(num)
	self.loc += len(out)
	return out

	read = sync_wrapper(_read)

	async def _close(self):
	self.r.close()

	def close(self):
	asyncio.run_coroutine_threadsafe(self._close(), self.loop)
	super().close()

	def __reduce__(self):
	return reopen, (self.fs, self.url, self.mode, self.blocksize, self.cache.name)


	class AsyncStreamFile(AbstractAsyncStreamedFile):
	def __init__(
	self, fs, url, mode="rb", loop=None, session=None, size=None, **kwargs
	):
	self.url = url
	self.session = session
	self.r = None
	if mode != "rb":
	raise ValueError
	self.details = {"name": url, "size": None}
	self.kwargs = kwargs
	super().__init__(fs=fs, path=url, mode=mode, cache_type="none")
	self.size = size

	async def read(self, num=-1):
	if self.r is None:
	r = await self.session.get(
	self.fs.encode_url(self.url), **self.kwargs
	).__aenter__()
	self.fs._raise_not_found_for_status(r, self.url)
	self.r = r
	out = await self.r.content.read(num)
	self.loc += len(out)
	return out

	async def close(self):
	if self.r is not None:
	self.r.close()
	self.r = None
	await super().close()


	async def get_range(session, url, start, end, file=None, **kwargs):
	# explicit get a range when we know it must be safe
	kwargs = kwargs.copy()
	headers = kwargs.pop("headers", {}).copy()
	headers["Range"] = f"bytes={start}-{end - 1}"
	r = await session.get(url, headers=headers, **kwargs)
	r.raise_for_status()
	async with r:
	out = await r.read()
	if file:
	with open(file, "rb+") as f:
	f.seek(start)
	f.write(out)
	else:
	return out


	async def _file_info(url, session, size_policy="head", **kwargs):
	"""Call HEAD on the server to get details about the file (size/checksum etc.)

	Default operation is to explicitly allow redirects and use encoding
	'identity' (no compression) to get the true size of the target.
	"""
	logger.debug("Retrieve file size for %s", url)
	kwargs = kwargs.copy()
	ar = kwargs.pop("allow_redirects", True)
	head = kwargs.get("headers", {}).copy()
	head["Accept-Encoding"] = "identity"
	kwargs["headers"] = head

	info = {}
	if size_policy == "head":
	r = await session.head(url, allow_redirects=ar, **kwargs)
	elif size_policy == "get":
	r = await session.get(url, allow_redirects=ar, **kwargs)
	else:
	raise TypeError(f'size_policy must be "head" or "get", got {size_policy}')
	async with r:
	r.raise_for_status()

	# TODO:
	# recognise lack of 'Accept-Ranges',
	# or 'Accept-Ranges': 'none' (not 'bytes')
	# to mean streaming only, no random access => return None
	if "Content-Length" in r.headers:
	# Some servers may choose to ignore Accept-Encoding and return
	# compressed content, in which case the returned size is unreliable.
	if r.headers.get("Content-Encoding", "identity") == "identity":
	info["size"] = int(r.headers["Content-Length"])
	elif "Content-Range" in r.headers:
	info["size"] = int(r.headers["Content-Range"].split("/")[1])

	for checksum_field in ["ETag", "Content-MD5", "Digest"]:
	if r.headers.get(checksum_field):
	info[checksum_field] = r.headers[checksum_field]

	return info


	async def _file_size(url, session=None, args, *kwargs):
	if session is None:
	session = await get_client()
	info = await _file_info(url, session=session, args, *kwargs)
	return info.get("size")


	file_size = sync_wrapper(_file_size)