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	r"""HTTP/1.1 client library

	<intro stuff goes here>
	<other stuff, too>

	HTTPConnection goes through a number of "states", which define when a client
	may legally make another request or fetch the response for a particular
	request. This diagram details these state transitions:

	(null)
	\|
	\| HTTPConnection()
	v
	Idle
	\|
	\| putrequest()
	v
	Request-started
	\|
	\| ( putheader() )* endheaders()
	v
	Request-sent
	\|\_____________________________
	\| \| getresponse() raises
	\| response = getresponse() \| ConnectionError
	v v
	Unread-response Idle
	[Response-headers-read]
	\|\____________________
	\| \|
	\| response.read() \| putrequest()
	v v
	Idle Req-started-unread-response
	______/\|
	/ \|
	response.read() \| \| ( putheader() )* endheaders()
	v v
	Request-started Req-sent-unread-response
	\|
	\| response.read()
	v
	Request-sent

	This diagram presents the following rules:
	-- a second request may not be started until {response-headers-read}
	-- a response [object] cannot be retrieved until {request-sent}
	-- there is no differentiation between an unread response body and a
	partially read response body

	Note: this enforcement is applied by the HTTPConnection class. The
	HTTPResponse class does not enforce this state machine, which
	implies sophisticated clients may accelerate the request/response
	pipeline. Caution should be taken, though: accelerating the states
	beyond the above pattern may imply knowledge of the server's
	connection-close behavior for certain requests. For example, it
	is impossible to tell whether the server will close the connection
	UNTIL the response headers have been read; this means that further
	requests cannot be placed into the pipeline until it is known that
	the server will NOT be closing the connection.

	Logical State __state __response
	------------- ------- ----------
	Idle _CS_IDLE None
	Request-started _CS_REQ_STARTED None
	Request-sent _CS_REQ_SENT None
	Unread-response _CS_IDLE <response_class>
	Req-started-unread-response _CS_REQ_STARTED <response_class>
	Req-sent-unread-response _CS_REQ_SENT <response_class>
	"""

	import email.parser
	import email.message
	import errno
	import http
	import io
	import re
	import socket
	import sys
	import collections.abc
	from urllib.parse import urlsplit

	# HTTPMessage, parse_headers(), and the HTTP status code constants are
	# intentionally omitted for simplicity
	__all__ = ["HTTPResponse", "HTTPConnection",
	"HTTPException", "NotConnected", "UnknownProtocol",
	"UnknownTransferEncoding", "UnimplementedFileMode",
	"IncompleteRead", "InvalidURL", "ImproperConnectionState",
	"CannotSendRequest", "CannotSendHeader", "ResponseNotReady",
	"BadStatusLine", "LineTooLong", "RemoteDisconnected", "error",
	"responses"]

	HTTP_PORT = 80
	HTTPS_PORT = 443

	_UNKNOWN = 'UNKNOWN'

	# connection states
	_CS_IDLE = 'Idle'
	_CS_REQ_STARTED = 'Request-started'
	_CS_REQ_SENT = 'Request-sent'


	# hack to maintain backwards compatibility
	globals().update(http.HTTPStatus.__members__)

	# another hack to maintain backwards compatibility
	# Mapping status codes to official W3C names
	responses = {v: v.phrase for v in http.HTTPStatus.__members__.values()}

	# maximal line length when calling readline().
	_MAXLINE = 65536
	_MAXHEADERS = 100

	# Header name/value ABNF (http://tools.ietf.org/html/rfc7230#section-3.2)
	#
	# VCHAR = %x21-7E
	# obs-text = %x80-FF
	# header-field = field-name ":" OWS field-value OWS
	# field-name = token
	# field-value = *( field-content / obs-fold )
	# field-content = field-vchar [ 1*( SP / HTAB ) field-vchar ]
	# field-vchar = VCHAR / obs-text
	#
	# obs-fold = CRLF 1*( SP / HTAB )
	# ; obsolete line folding
	# ; see Section 3.2.4

	# token = 1*tchar
	#
	# tchar = "!" / "#" / "$" / "%" / "&" / "'" / "*"
	# / "+" / "-" / "." / "^" / "_" / "`" / "\|" / "~"
	# / DIGIT / ALPHA
	# ; any VCHAR, except delimiters
	#
	# VCHAR defined in http://tools.ietf.org/html/rfc5234#appendix-B.1

	# the patterns for both name and value are more lenient than RFC
	# definitions to allow for backwards compatibility
	_is_legal_header_name = re.compile(rb'[^:\s][^:\r\n]*').fullmatch
	_is_illegal_header_value = re.compile(rb'\n(?![ \t])\|\r(?![ \t\n])').search

	# These characters are not allowed within HTTP URL paths.
	# See https://tools.ietf.org/html/rfc3986#section-3.3 and the
	# https://tools.ietf.org/html/rfc3986#appendix-A pchar definition.
	# Prevents CVE-2019-9740. Includes control characters such as \r\n.
	# We don't restrict chars above \x7f as putrequest() limits us to ASCII.
	_contains_disallowed_url_pchar_re = re.compile('[\x00-\x20\x7f]')
	# Arguably only these _should_ allowed:
	# _is_allowed_url_pchars_re = re.compile(r"^[/!$&'()*+,;=:@%a-zA-Z0-9._~-]+$")
	# We are more lenient for assumed real world compatibility purposes.

	# These characters are not allowed within HTTP method names
	# to prevent http header injection.
	_contains_disallowed_method_pchar_re = re.compile('[\x00-\x1f]')

	# We always set the Content-Length header for these methods because some
	# servers will otherwise respond with a 411
	_METHODS_EXPECTING_BODY = {'PATCH', 'POST', 'PUT'}


	def _encode(data, name='data'):
	"""Call data.encode("latin-1") but show a better error message."""
	try:
	return data.encode("latin-1")
	except UnicodeEncodeError as err:
	raise UnicodeEncodeError(
	err.encoding,
	err.object,
	err.start,
	err.end,
	"%s (%.20r) is not valid Latin-1. Use %s.encode('utf-8') "
	"if you want to send it encoded in UTF-8." %
	(name.title(), data[err.start:err.end], name)) from None


	class HTTPMessage(email.message.Message):
	# XXX The only usage of this method is in
	# http.server.CGIHTTPRequestHandler. Maybe move the code there so
	# that it doesn't need to be part of the public API. The API has
	# never been defined so this could cause backwards compatibility
	# issues.

	def getallmatchingheaders(self, name):
	"""Find all header lines matching a given header name.

	Look through the list of headers and find all lines matching a given
	header name (and their continuation lines). A list of the lines is
	returned, without interpretation. If the header does not occur, an
	empty list is returned. If the header occurs multiple times, all
	occurrences are returned. Case is not important in the header name.

	"""
	name = name.lower() + ':'
	n = len(name)
	lst = []
	hit = 0
	for line in self.keys():
	if line[:n].lower() == name:
	hit = 1
	elif not line[:1].isspace():
	hit = 0
	if hit:
	lst.append(line)
	return lst

	def _read_headers(fp):
	"""Reads potential header lines into a list from a file pointer.

	Length of line is limited by _MAXLINE, and number of
	headers is limited by _MAXHEADERS.
	"""
	headers = []
	while True:
	line = fp.readline(_MAXLINE + 1)
	if len(line) > _MAXLINE:
	raise LineTooLong("header line")
	headers.append(line)
	if len(headers) > _MAXHEADERS:
	raise HTTPException("got more than %d headers" % _MAXHEADERS)
	if line in (b'\r\n', b'\n', b''):
	break
	return headers

	def parse_headers(fp, _class=HTTPMessage):
	"""Parses only RFC2822 headers from a file pointer.

	email Parser wants to see strings rather than bytes.
	But a TextIOWrapper around self.rfile would buffer too many bytes
	from the stream, bytes which we later need to read as bytes.
	So we read the correct bytes here, as bytes, for email Parser
	to parse.

	"""
	headers = _read_headers(fp)
	hstring = b''.join(headers).decode('iso-8859-1')
	return email.parser.Parser(_class=_class).parsestr(hstring)


	class HTTPResponse(io.BufferedIOBase):

	# See RFC 2616 sec 19.6 and RFC 1945 sec 6 for details.

	# The bytes from the socket object are iso-8859-1 strings.
	# See RFC 2616 sec 2.2 which notes an exception for MIME-encoded
	# text following RFC 2047. The basic status line parsing only
	# accepts iso-8859-1.

	def __init__(self, sock, debuglevel=0, method=None, url=None):
	# If the response includes a content-length header, we need to
	# make sure that the client doesn't read more than the
	# specified number of bytes. If it does, it will block until
	# the server times out and closes the connection. This will
	# happen if a self.fp.read() is done (without a size) whether
	# self.fp is buffered or not. So, no self.fp.read() by
	# clients unless they know what they are doing.
	self.fp = sock.makefile("rb")
	self.debuglevel = debuglevel
	self._method = method

	# The HTTPResponse object is returned via urllib. The clients
	# of http and urllib expect different attributes for the
	# headers. headers is used here and supports urllib. msg is
	# provided as a backwards compatibility layer for http
	# clients.

	self.headers = self.msg = None

	# from the Status-Line of the response
	self.version = _UNKNOWN # HTTP-Version
	self.status = _UNKNOWN # Status-Code
	self.reason = _UNKNOWN # Reason-Phrase

	self.chunked = _UNKNOWN # is "chunked" being used?
	self.chunk_left = _UNKNOWN # bytes left to read in current chunk
	self.length = _UNKNOWN # number of bytes left in response
	self.will_close = _UNKNOWN # conn will close at end of response

	def _read_status(self):
	line = str(self.fp.readline(_MAXLINE + 1), "iso-8859-1")
	if len(line) > _MAXLINE:
	raise LineTooLong("status line")
	if self.debuglevel > 0:
	print("reply:", repr(line))
	if not line:
	# Presumably, the server closed the connection before
	# sending a valid response.
	raise RemoteDisconnected("Remote end closed connection without"
	" response")
	try:
	version, status, reason = line.split(None, 2)
	except ValueError:
	try:
	version, status = line.split(None, 1)
	reason = ""
	except ValueError:
	# empty version will cause next test to fail.
	version = ""
	if not version.startswith("HTTP/"):
	self._close_conn()
	raise BadStatusLine(line)

	# The status code is a three-digit number
	try:
	status = int(status)
	if status < 100 or status > 999:
	raise BadStatusLine(line)
	except ValueError:
	raise BadStatusLine(line)
	return version, status, reason

	def begin(self):
	if self.headers is not None:
	# we've already started reading the response
	return

	# read until we get a non-100 response
	while True:
	version, status, reason = self._read_status()
	if status != CONTINUE:
	break
	# skip the header from the 100 response
	skipped_headers = _read_headers(self.fp)
	if self.debuglevel > 0:
	print("headers:", skipped_headers)
	del skipped_headers

	self.code = self.status = status
	self.reason = reason.strip()
	if version in ("HTTP/1.0", "HTTP/0.9"):
	# Some servers might still return "0.9", treat it as 1.0 anyway
	self.version = 10
	elif version.startswith("HTTP/1."):
	self.version = 11 # use HTTP/1.1 code for HTTP/1.x where x>=1
	else:
	raise UnknownProtocol(version)

	self.headers = self.msg = parse_headers(self.fp)

	if self.debuglevel > 0:
	for hdr, val in self.headers.items():
	print("header:", hdr + ":", val)

	# are we using the chunked-style of transfer encoding?
	tr_enc = self.headers.get("transfer-encoding")
	if tr_enc and tr_enc.lower() == "chunked":
	self.chunked = True
	self.chunk_left = None
	else:
	self.chunked = False

	# will the connection close at the end of the response?
	self.will_close = self._check_close()

	# do we have a Content-Length?
	# NOTE: RFC 2616, S4.4, #3 says we ignore this if tr_enc is "chunked"
	self.length = None
	length = self.headers.get("content-length")
	if length and not self.chunked:
	try:
	self.length = int(length)
	except ValueError:
	self.length = None
	else:
	if self.length < 0: # ignore nonsensical negative lengths
	self.length = None
	else:
	self.length = None

	# does the body have a fixed length? (of zero)
	if (status == NO_CONTENT or status == NOT_MODIFIED or
	100 <= status < 200 or # 1xx codes
	self._method == "HEAD"):
	self.length = 0

	# if the connection remains open, and we aren't using chunked, and
	# a content-length was not provided, then assume that the connection
	# WILL close.
	if (not self.will_close and
	not self.chunked and
	self.length is None):
	self.will_close = True

	def _check_close(self):
	conn = self.headers.get("connection")
	if self.version == 11:
	# An HTTP/1.1 proxy is assumed to stay open unless
	# explicitly closed.
	if conn and "close" in conn.lower():
	return True
	return False

	# Some HTTP/1.0 implementations have support for persistent
	# connections, using rules different than HTTP/1.1.

	# For older HTTP, Keep-Alive indicates persistent connection.
	if self.headers.get("keep-alive"):
	return False

	# At least Akamai returns a "Connection: Keep-Alive" header,
	# which was supposed to be sent by the client.
	if conn and "keep-alive" in conn.lower():
	return False

	# Proxy-Connection is a netscape hack.
	pconn = self.headers.get("proxy-connection")
	if pconn and "keep-alive" in pconn.lower():
	return False

	# otherwise, assume it will close
	return True

	def _close_conn(self):
	fp = self.fp
	self.fp = None
	fp.close()

	def close(self):
	try:
	super().close() # set "closed" flag
	finally:
	if self.fp:
	self._close_conn()

	# These implementations are for the benefit of io.BufferedReader.

	# XXX This class should probably be revised to act more like
	# the "raw stream" that BufferedReader expects.

	def flush(self):
	super().flush()
	if self.fp:
	self.fp.flush()

	def readable(self):
	"""Always returns True"""
	return True

	# End of "raw stream" methods

	def isclosed(self):
	"""True if the connection is closed."""
	# NOTE: it is possible that we will not ever call self.close(). This
	# case occurs when will_close is TRUE, length is None, and we
	# read up to the last byte, but NOT past it.
	#
	# IMPLIES: if will_close is FALSE, then self.close() will ALWAYS be
	# called, meaning self.isclosed() is meaningful.
	return self.fp is None

	def read(self, amt=None):
	if self.fp is None:
	return b""

	if self._method == "HEAD":
	self._close_conn()
	return b""

	if self.chunked:
	return self._read_chunked(amt)

	if amt is not None:
	if self.length is not None and amt > self.length:
	# clip the read to the "end of response"
	amt = self.length
	s = self.fp.read(amt)
	if not s and amt:
	# Ideally, we would raise IncompleteRead if the content-length
	# wasn't satisfied, but it might break compatibility.
	self._close_conn()
	elif self.length is not None:
	self.length -= len(s)
	if not self.length:
	self._close_conn()
	return s
	else:
	# Amount is not given (unbounded read) so we must check self.length
	if self.length is None:
	s = self.fp.read()
	else:
	try:
	s = self._safe_read(self.length)
	except IncompleteRead:
	self._close_conn()
	raise
	self.length = 0
	self._close_conn() # we read everything
	return s

	def readinto(self, b):
	"""Read up to len(b) bytes into bytearray b and return the number
	of bytes read.
	"""

	if self.fp is None:
	return 0

	if self._method == "HEAD":
	self._close_conn()
	return 0

	if self.chunked:
	return self._readinto_chunked(b)

	if self.length is not None:
	if len(b) > self.length:
	# clip the read to the "end of response"
	b = memoryview(b)[0:self.length]

	# we do not use _safe_read() here because this may be a .will_close
	# connection, and the user is reading more bytes than will be provided
	# (for example, reading in 1k chunks)
	n = self.fp.readinto(b)
	if not n and b:
	# Ideally, we would raise IncompleteRead if the content-length
	# wasn't satisfied, but it might break compatibility.
	self._close_conn()
	elif self.length is not None:
	self.length -= n
	if not self.length:
	self._close_conn()
	return n

	def _read_next_chunk_size(self):
	# Read the next chunk size from the file
	line = self.fp.readline(_MAXLINE + 1)
	if len(line) > _MAXLINE:
	raise LineTooLong("chunk size")
	i = line.find(b";")
	if i >= 0:
	line = line[:i] # strip chunk-extensions
	try:
	return int(line, 16)
	except ValueError:
	# close the connection as protocol synchronisation is
	# probably lost
	self._close_conn()
	raise

	def _read_and_discard_trailer(self):
	# read and discard trailer up to the CRLF terminator
	### note: we shouldn't have any trailers!
	while True:
	line = self.fp.readline(_MAXLINE + 1)
	if len(line) > _MAXLINE:
	raise LineTooLong("trailer line")
	if not line:
	# a vanishingly small number of sites EOF without
	# sending the trailer
	break
	if line in (b'\r\n', b'\n', b''):
	break

	def _get_chunk_left(self):
	# return self.chunk_left, reading a new chunk if necessary.
	# chunk_left == 0: at the end of the current chunk, need to close it
	# chunk_left == None: No current chunk, should read next.
	# This function returns non-zero or None if the last chunk has
	# been read.
	chunk_left = self.chunk_left
	if not chunk_left: # Can be 0 or None
	if chunk_left is not None:
	# We are at the end of chunk, discard chunk end
	self._safe_read(2) # toss the CRLF at the end of the chunk
	try:
	chunk_left = self._read_next_chunk_size()
	except ValueError:
	raise IncompleteRead(b'')
	if chunk_left == 0:
	# last chunk: 1*("0") [ chunk-extension ] CRLF
	self._read_and_discard_trailer()
	# we read everything; close the "file"
	self._close_conn()
	chunk_left = None
	self.chunk_left = chunk_left
	return chunk_left

	def _read_chunked(self, amt=None):
	assert self.chunked != _UNKNOWN
	value = []
	try:
	while True:
	chunk_left = self._get_chunk_left()
	if chunk_left is None:
	break

	if amt is not None and amt <= chunk_left:
	value.append(self._safe_read(amt))
	self.chunk_left = chunk_left - amt
	break

	value.append(self._safe_read(chunk_left))
	if amt is not None:
	amt -= chunk_left
	self.chunk_left = 0
	return b''.join(value)
	except IncompleteRead:
	raise IncompleteRead(b''.join(value))

	def _readinto_chunked(self, b):
	assert self.chunked != _UNKNOWN
	total_bytes = 0
	mvb = memoryview(b)
	try:
	while True:
	chunk_left = self._get_chunk_left()
	if chunk_left is None:
	return total_bytes

	if len(mvb) <= chunk_left:
	n = self._safe_readinto(mvb)
	self.chunk_left = chunk_left - n
	return total_bytes + n

	temp_mvb = mvb[:chunk_left]
	n = self._safe_readinto(temp_mvb)
	mvb = mvb[n:]
	total_bytes += n
	self.chunk_left = 0

	except IncompleteRead:
	raise IncompleteRead(bytes(b[0:total_bytes]))

	def _safe_read(self, amt):
	"""Read the number of bytes requested.

	This function should be used when <amt> bytes "should" be present for
	reading. If the bytes are truly not available (due to EOF), then the
	IncompleteRead exception can be used to detect the problem.
	"""
	data = self.fp.read(amt)
	if len(data) < amt:
	raise IncompleteRead(data, amt-len(data))
	return data

	def _safe_readinto(self, b):
	"""Same as _safe_read, but for reading into a buffer."""
	amt = len(b)
	n = self.fp.readinto(b)
	if n < amt:
	raise IncompleteRead(bytes(b[:n]), amt-n)
	return n

	def read1(self, n=-1):
	"""Read with at most one underlying system call. If at least one
	byte is buffered, return that instead.
	"""
	if self.fp is None or self._method == "HEAD":
	return b""
	if self.chunked:
	return self._read1_chunked(n)
	if self.length is not None and (n < 0 or n > self.length):
	n = self.length
	result = self.fp.read1(n)
	if not result and n:
	self._close_conn()
	elif self.length is not None:
	self.length -= len(result)
	return result

	def peek(self, n=-1):
	# Having this enables IOBase.readline() to read more than one
	# byte at a time
	if self.fp is None or self._method == "HEAD":
	return b""
	if self.chunked:
	return self._peek_chunked(n)
	return self.fp.peek(n)

	def readline(self, limit=-1):
	if self.fp is None or self._method == "HEAD":
	return b""
	if self.chunked:
	# Fallback to IOBase readline which uses peek() and read()
	return super().readline(limit)
	if self.length is not None and (limit < 0 or limit > self.length):
	limit = self.length
	result = self.fp.readline(limit)
	if not result and limit:
	self._close_conn()
	elif self.length is not None:
	self.length -= len(result)
	return result

	def _read1_chunked(self, n):
	# Strictly speaking, _get_chunk_left() may cause more than one read,
	# but that is ok, since that is to satisfy the chunked protocol.
	chunk_left = self._get_chunk_left()
	if chunk_left is None or n == 0:
	return b''
	if not (0 <= n <= chunk_left):
	n = chunk_left # if n is negative or larger than chunk_left
	read = self.fp.read1(n)
	self.chunk_left -= len(read)
	if not read:
	raise IncompleteRead(b"")
	return read

	def _peek_chunked(self, n):
	# Strictly speaking, _get_chunk_left() may cause more than one read,
	# but that is ok, since that is to satisfy the chunked protocol.
	try:
	chunk_left = self._get_chunk_left()
	except IncompleteRead:
	return b'' # peek doesn't worry about protocol
	if chunk_left is None:
	return b'' # eof
	# peek is allowed to return more than requested. Just request the
	# entire chunk, and truncate what we get.
	return self.fp.peek(chunk_left)[:chunk_left]

	def fileno(self):
	return self.fp.fileno()

	def getheader(self, name, default=None):
	'''Returns the value of the header matching name.

	If there are multiple matching headers, the values are
	combined into a single string separated by commas and spaces.

	If no matching header is found, returns default or None if
	the default is not specified.

	If the headers are unknown, raises http.client.ResponseNotReady.

	'''
	if self.headers is None:
	raise ResponseNotReady()
	headers = self.headers.get_all(name) or default
	if isinstance(headers, str) or not hasattr(headers, '__iter__'):
	return headers
	else:
	return ', '.join(headers)

	def getheaders(self):
	"""Return list of (header, value) tuples."""
	if self.headers is None:
	raise ResponseNotReady()
	return list(self.headers.items())

	# We override IOBase.__iter__ so that it doesn't check for closed-ness

	def __iter__(self):
	return self

	# For compatibility with old-style urllib responses.

	def info(self):
	'''Returns an instance of the class mimetools.Message containing
	meta-information associated with the URL.

	When the method is HTTP, these headers are those returned by
	the server at the head of the retrieved HTML page (including
	Content-Length and Content-Type).

	When the method is FTP, a Content-Length header will be
	present if (as is now usual) the server passed back a file
	length in response to the FTP retrieval request. A
	Content-Type header will be present if the MIME type can be
	guessed.

	When the method is local-file, returned headers will include
	a Date representing the file's last-modified time, a
	Content-Length giving file size, and a Content-Type
	containing a guess at the file's type. See also the
	description of the mimetools module.

	'''
	return self.headers

	def geturl(self):
	'''Return the real URL of the page.

	In some cases, the HTTP server redirects a client to another
	URL. The urlopen() function handles this transparently, but in
	some cases the caller needs to know which URL the client was
	redirected to. The geturl() method can be used to get at this
	redirected URL.

	'''
	return self.url

	def getcode(self):
	'''Return the HTTP status code that was sent with the response,
	or None if the URL is not an HTTP URL.

	'''
	return self.status

	class HTTPConnection:

	_http_vsn = 11
	_http_vsn_str = 'HTTP/1.1'

	response_class = HTTPResponse
	default_port = HTTP_PORT
	auto_open = 1
	debuglevel = 0

	@staticmethod
	def _is_textIO(stream):
	"""Test whether a file-like object is a text or a binary stream.
	"""
	return isinstance(stream, io.TextIOBase)

	@staticmethod
	def _get_content_length(body, method):
	"""Get the content-length based on the body.

	If the body is None, we set Content-Length: 0 for methods that expect
	a body (RFC 7230, Section 3.3.2). We also set the Content-Length for
	any method if the body is a str or bytes-like object and not a file.
	"""
	if body is None:
	# do an explicit check for not None here to distinguish
	# between unset and set but empty
	if method.upper() in _METHODS_EXPECTING_BODY:
	return 0
	else:
	return None

	if hasattr(body, 'read'):
	# file-like object.
	return None

	try:
	# does it implement the buffer protocol (bytes, bytearray, array)?
	mv = memoryview(body)
	return mv.nbytes
	except TypeError:
	pass

	if isinstance(body, str):
	return len(body)

	return None

	def __init__(self, host, port=None, timeout=socket._GLOBAL_DEFAULT_TIMEOUT,
	source_address=None, blocksize=8192):
	self.timeout = timeout
	self.source_address = source_address
	self.blocksize = blocksize
	self.sock = None
	self._buffer = []
	self.__response = None
	self.__state = _CS_IDLE
	self._method = None
	self._tunnel_host = None
	self._tunnel_port = None
	self._tunnel_headers = {}

	(self.host, self.port) = self._get_hostport(host, port)

	self._validate_host(self.host)

	# This is stored as an instance variable to allow unit
	# tests to replace it with a suitable mockup
	self._create_connection = socket.create_connection

	def set_tunnel(self, host, port=None, headers=None):
	"""Set up host and port for HTTP CONNECT tunnelling.

	In a connection that uses HTTP CONNECT tunneling, the host passed to the
	constructor is used as a proxy server that relays all communication to
	the endpoint passed to `set_tunnel`. This done by sending an HTTP
	CONNECT request to the proxy server when the connection is established.

	This method must be called before the HTTP connection has been
	established.

	The headers argument should be a mapping of extra HTTP headers to send
	with the CONNECT request.
	"""

	if self.sock:
	raise RuntimeError("Can't set up tunnel for established connection")

	self._tunnel_host, self._tunnel_port = self._get_hostport(host, port)
	if headers:
	self._tunnel_headers = headers
	else:
	self._tunnel_headers.clear()

	def _get_hostport(self, host, port):
	if port is None:
	i = host.rfind(':')
	j = host.rfind(']') # ipv6 addresses have [...]
	if i > j:
	try:
	port = int(host[i+1:])
	except ValueError:
	if host[i+1:] == "": # http://foo.com:/ == http://foo.com/
	port = self.default_port
	else:
	raise InvalidURL("nonnumeric port: '%s'" % host[i+1:])
	host = host[:i]
	else:
	port = self.default_port
	if host and host[0] == '[' and host[-1] == ']':
	host = host[1:-1]

	return (host, port)

	def set_debuglevel(self, level):
	self.debuglevel = level

	def _tunnel(self):
	connect = b"CONNECT %s:%d HTTP/1.0\r\n" % (
	self._tunnel_host.encode("ascii"), self._tunnel_port)
	headers = [connect]
	for header, value in self._tunnel_headers.items():
	headers.append(f"{header}: {value}\r\n".encode("latin-1"))
	headers.append(b"\r\n")
	# Making a single send() call instead of one per line encourages
	# the host OS to use a more optimal packet size instead of
	# potentially emitting a series of small packets.
	self.send(b"".join(headers))
	del headers

	response = self.response_class(self.sock, method=self._method)
	(version, code, message) = response._read_status()

	if code != http.HTTPStatus.OK:
	self.close()
	raise OSError(f"Tunnel connection failed: {code} {message.strip()}")
	while True:
	line = response.fp.readline(_MAXLINE + 1)
	if len(line) > _MAXLINE:
	raise LineTooLong("header line")
	if not line:
	# for sites which EOF without sending a trailer
	break
	if line in (b'\r\n', b'\n', b''):
	break

	if self.debuglevel > 0:
	print('header:', line.decode())

	def connect(self):
	"""Connect to the host and port specified in __init__."""
	sys.audit("http.client.connect", self, self.host, self.port)
	self.sock = self._create_connection(
	(self.host,self.port), self.timeout, self.source_address)
	# Might fail in OSs that don't implement TCP_NODELAY
	try:
	self.sock.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, 1)
	except OSError as e:
	if e.errno != errno.ENOPROTOOPT:
	raise

	if self._tunnel_host:
	self._tunnel()

	def close(self):
	"""Close the connection to the HTTP server."""
	self.__state = _CS_IDLE
	try:
	sock = self.sock
	if sock:
	self.sock = None
	sock.close() # close it manually... there may be other refs
	finally:
	response = self.__response
	if response:
	self.__response = None
	response.close()

	def send(self, data):
	"""Send `data' to the server.
	``data`` can be a string object, a bytes object, an array object, a
	file-like object that supports a .read() method, or an iterable object.
	"""

	if self.sock is None:
	if self.auto_open:
	self.connect()
	else:
	raise NotConnected()

	if self.debuglevel > 0:
	print("send:", repr(data))
	if hasattr(data, "read") :
	if self.debuglevel > 0:
	print("sendIng a read()able")
	encode = self._is_textIO(data)
	if encode and self.debuglevel > 0:
	print("encoding file using iso-8859-1")
	while 1:
	datablock = data.read(self.blocksize)
	if not datablock:
	break
	if encode:
	datablock = datablock.encode("iso-8859-1")
	sys.audit("http.client.send", self, datablock)
	self.sock.sendall(datablock)
	return
	sys.audit("http.client.send", self, data)
	try:
	self.sock.sendall(data)
	except TypeError:
	if isinstance(data, collections.abc.Iterable):
	for d in data:
	self.sock.sendall(d)
	else:
	raise TypeError("data should be a bytes-like object "
	"or an iterable, got %r" % type(data))

	def _output(self, s):
	"""Add a line of output to the current request buffer.

	Assumes that the line does not end with \\r\\n.
	"""
	self._buffer.append(s)

	def _read_readable(self, readable):
	if self.debuglevel > 0:
	print("sendIng a read()able")
	encode = self._is_textIO(readable)
	if encode and self.debuglevel > 0:
	print("encoding file using iso-8859-1")
	while True:
	datablock = readable.read(self.blocksize)
	if not datablock:
	break
	if encode:
	datablock = datablock.encode("iso-8859-1")
	yield datablock

	def _send_output(self, message_body=None, encode_chunked=False):
	"""Send the currently buffered request and clear the buffer.

	Appends an extra \\r\\n to the buffer.
	A message_body may be specified, to be appended to the request.
	"""
	self._buffer.extend((b"", b""))
	msg = b"\r\n".join(self._buffer)
	del self._buffer[:]
	self.send(msg)

	if message_body is not None:

	# create a consistent interface to message_body
	if hasattr(message_body, 'read'):
	# Let file-like take precedence over byte-like. This
	# is needed to allow the current position of mmap'ed
	# files to be taken into account.
	chunks = self._read_readable(message_body)
	else:
	try:
	# this is solely to check to see if message_body
	# implements the buffer API. it /would/ be easier
	# to capture if PyObject_CheckBuffer was exposed
	# to Python.
	memoryview(message_body)
	except TypeError:
	try:
	chunks = iter(message_body)
	except TypeError:
	raise TypeError("message_body should be a bytes-like "
	"object or an iterable, got %r"
	% type(message_body))
	else:
	# the object implements the buffer interface and
	# can be passed directly into socket methods
	chunks = (message_body,)

	for chunk in chunks:
	if not chunk:
	if self.debuglevel > 0:
	print('Zero length chunk ignored')
	continue

	if encode_chunked and self._http_vsn == 11:
	# chunked encoding
	chunk = f'{len(chunk):X}\r\n'.encode('ascii') + chunk \
	+ b'\r\n'
	self.send(chunk)

	if encode_chunked and self._http_vsn == 11:
	# end chunked transfer
	self.send(b'0\r\n\r\n')

	def putrequest(self, method, url, skip_host=False,
	skip_accept_encoding=False):
	"""Send a request to the server.

	`method' specifies an HTTP request method, e.g. 'GET'.
	`url' specifies the object being requested, e.g. '/index.html'.
	`skip_host' if True does not add automatically a 'Host:' header
	`skip_accept_encoding' if True does not add automatically an
	'Accept-Encoding:' header
	"""

	# if a prior response has been completed, then forget about it.
	if self.__response and self.__response.isclosed():
	self.__response = None


	# in certain cases, we cannot issue another request on this connection.
	# this occurs when:
	# 1) we are in the process of sending a request. (_CS_REQ_STARTED)
	# 2) a response to a previous request has signalled that it is going
	# to close the connection upon completion.
	# 3) the headers for the previous response have not been read, thus
	# we cannot determine whether point (2) is true. (_CS_REQ_SENT)
	#
	# if there is no prior response, then we can request at will.
	#
	# if point (2) is true, then we will have passed the socket to the
	# response (effectively meaning, "there is no prior response"), and
	# will open a new one when a new request is made.
	#
	# Note: if a prior response exists, then we can start a new request.
	# We are not allowed to begin fetching the response to this new
	# request, however, until that prior response is complete.
	#
	if self.__state == _CS_IDLE:
	self.__state = _CS_REQ_STARTED
	else:
	raise CannotSendRequest(self.__state)

	self._validate_method(method)

	# Save the method for use later in the response phase
	self._method = method

	url = url or '/'
	self._validate_path(url)

	request = '%s %s %s' % (method, url, self._http_vsn_str)

	self._output(self._encode_request(request))

	if self._http_vsn == 11:
	# Issue some standard headers for better HTTP/1.1 compliance

	if not skip_host:
	# this header is issued only for HTTP/1.1
	# connections. more specifically, this means it is
	# only issued when the client uses the new
	# HTTPConnection() class. backwards-compat clients
	# will be using HTTP/1.0 and those clients may be
	# issuing this header themselves. we should NOT issue
	# it twice; some web servers (such as Apache) barf
	# when they see two Host: headers

	# If we need a non-standard port,include it in the
	# header. If the request is going through a proxy,
	# but the host of the actual URL, not the host of the
	# proxy.

	netloc = ''
	if url.startswith('http'):
	nil, netloc, nil, nil, nil = urlsplit(url)

	if netloc:
	try:
	netloc_enc = netloc.encode("ascii")
	except UnicodeEncodeError:
	netloc_enc = netloc.encode("idna")
	self.putheader('Host', netloc_enc)
	else:
	if self._tunnel_host:
	host = self._tunnel_host
	port = self._tunnel_port
	else:
	host = self.host
	port = self.port

	try:
	host_enc = host.encode("ascii")
	except UnicodeEncodeError:
	host_enc = host.encode("idna")

	# As per RFC 273, IPv6 address should be wrapped with []
	# when used as Host header

	if host.find(':') >= 0:
	host_enc = b'[' + host_enc + b']'

	if port == self.default_port:
	self.putheader('Host', host_enc)
	else:
	host_enc = host_enc.decode("ascii")
	self.putheader('Host', "%s:%s" % (host_enc, port))

	# note: we are assuming that clients will not attempt to set these
	# headers since this library must deal with the
	# consequences. this also means that when the supporting
	# libraries are updated to recognize other forms, then this
	# code should be changed (removed or updated).

	# we only want a Content-Encoding of "identity" since we don't
	# support encodings such as x-gzip or x-deflate.
	if not skip_accept_encoding:
	self.putheader('Accept-Encoding', 'identity')

	# we can accept "chunked" Transfer-Encodings, but no others
	# NOTE: no TE header implies only "chunked"
	#self.putheader('TE', 'chunked')

	# if TE is supplied in the header, then it must appear in a
	# Connection header.
	#self.putheader('Connection', 'TE')

	else:
	# For HTTP/1.0, the server will assume "not chunked"
	pass

	def _encode_request(self, request):
	# ASCII also helps prevent CVE-2019-9740.
	return request.encode('ascii')

	def _validate_method(self, method):
	"""Validate a method name for putrequest."""
	# prevent http header injection
	match = _contains_disallowed_method_pchar_re.search(method)
	if match:
	raise ValueError(
	f"method can't contain control characters. {method!r} "
	f"(found at least {match.group()!r})")

	def _validate_path(self, url):
	"""Validate a url for putrequest."""
	# Prevent CVE-2019-9740.
	match = _contains_disallowed_url_pchar_re.search(url)
	if match:
	raise InvalidURL(f"URL can't contain control characters. {url!r} "
	f"(found at least {match.group()!r})")

	def _validate_host(self, host):
	"""Validate a host so it doesn't contain control characters."""
	# Prevent CVE-2019-18348.
	match = _contains_disallowed_url_pchar_re.search(host)
	if match:
	raise InvalidURL(f"URL can't contain control characters. {host!r} "
	f"(found at least {match.group()!r})")

	def putheader(self, header, *values):
	"""Send a request header line to the server.

	For example: h.putheader('Accept', 'text/html')
	"""
	if self.__state != _CS_REQ_STARTED:
	raise CannotSendHeader()

	if hasattr(header, 'encode'):
	header = header.encode('ascii')

	if not _is_legal_header_name(header):
	raise ValueError('Invalid header name %r' % (header,))

	values = list(values)
	for i, one_value in enumerate(values):
	if hasattr(one_value, 'encode'):
	values[i] = one_value.encode('latin-1')
	elif isinstance(one_value, int):
	values[i] = str(one_value).encode('ascii')

	if _is_illegal_header_value(values[i]):
	raise ValueError('Invalid header value %r' % (values[i],))

	value = b'\r\n\t'.join(values)
	header = header + b': ' + value
	self._output(header)

	def endheaders(self, message_body=None, *, encode_chunked=False):
	"""Indicate that the last header line has been sent to the server.

	This method sends the request to the server. The optional message_body
	argument can be used to pass a message body associated with the
	request.
	"""
	if self.__state == _CS_REQ_STARTED:
	self.__state = _CS_REQ_SENT
	else:
	raise CannotSendHeader()
	self._send_output(message_body, encode_chunked=encode_chunked)

	def request(self, method, url, body=None, headers={}, *,
	encode_chunked=False):
	"""Send a complete request to the server."""
	self._send_request(method, url, body, headers, encode_chunked)

	def _send_request(self, method, url, body, headers, encode_chunked):
	# Honor explicitly requested Host: and Accept-Encoding: headers.
	header_names = frozenset(k.lower() for k in headers)
	skips = {}
	if 'host' in header_names:
	skips['skip_host'] = 1
	if 'accept-encoding' in header_names:
	skips['skip_accept_encoding'] = 1

	self.putrequest(method, url, **skips)

	# chunked encoding will happen if HTTP/1.1 is used and either
	# the caller passes encode_chunked=True or the following
	# conditions hold:
	# 1. content-length has not been explicitly set
	# 2. the body is a file or iterable, but not a str or bytes-like
	# 3. Transfer-Encoding has NOT been explicitly set by the caller

	if 'content-length' not in header_names:
	# only chunk body if not explicitly set for backwards
	# compatibility, assuming the client code is already handling the
	# chunking
	if 'transfer-encoding' not in header_names:
	# if content-length cannot be automatically determined, fall
	# back to chunked encoding
	encode_chunked = False
	content_length = self._get_content_length(body, method)
	if content_length is None:
	if body is not None:
	if self.debuglevel > 0:
	print('Unable to determine size of %r' % body)
	encode_chunked = True
	self.putheader('Transfer-Encoding', 'chunked')
	else:
	self.putheader('Content-Length', str(content_length))
	else:
	encode_chunked = False

	for hdr, value in headers.items():
	self.putheader(hdr, value)
	if isinstance(body, str):
	# RFC 2616 Section 3.7.1 says that text default has a
	# default charset of iso-8859-1.
	body = _encode(body, 'body')
	self.endheaders(body, encode_chunked=encode_chunked)

	def getresponse(self):
	"""Get the response from the server.

	If the HTTPConnection is in the correct state, returns an
	instance of HTTPResponse or of whatever object is returned by
	the response_class variable.

	If a request has not been sent or if a previous response has
	not be handled, ResponseNotReady is raised. If the HTTP
	response indicates that the connection should be closed, then
	it will be closed before the response is returned. When the
	connection is closed, the underlying socket is closed.
	"""

	# if a prior response has been completed, then forget about it.
	if self.__response and self.__response.isclosed():
	self.__response = None

	# if a prior response exists, then it must be completed (otherwise, we
	# cannot read this response's header to determine the connection-close
	# behavior)
	#
	# note: if a prior response existed, but was connection-close, then the
	# socket and response were made independent of this HTTPConnection
	# object since a new request requires that we open a whole new
	# connection
	#
	# this means the prior response had one of two states:
	# 1) will_close: this connection was reset and the prior socket and
	# response operate independently
	# 2) persistent: the response was retained and we await its
	# isclosed() status to become true.
	#
	if self.__state != _CS_REQ_SENT or self.__response:
	raise ResponseNotReady(self.__state)

	if self.debuglevel > 0:
	response = self.response_class(self.sock, self.debuglevel,
	method=self._method)
	else:
	response = self.response_class(self.sock, method=self._method)

	try:
	try:
	response.begin()
	except ConnectionError:
	self.close()
	raise
	assert response.will_close != _UNKNOWN
	self.__state = _CS_IDLE

	if response.will_close:
	# this effectively passes the connection to the response
	self.close()
	else:
	# remember this, so we can tell when it is complete
	self.__response = response

	return response
	except:
	response.close()
	raise

	try:
	import ssl
	except ImportError:
	pass
	else:
	class HTTPSConnection(HTTPConnection):
	"This class allows communication via SSL."

	default_port = HTTPS_PORT

	# XXX Should key_file and cert_file be deprecated in favour of context?

	def __init__(self, host, port=None, key_file=None, cert_file=None,
	timeout=socket._GLOBAL_DEFAULT_TIMEOUT,
	source_address=None, *, context=None,
	check_hostname=None, blocksize=8192):
	super(HTTPSConnection, self).__init__(host, port, timeout,
	source_address,
	blocksize=blocksize)
	if (key_file is not None or cert_file is not None or
	check_hostname is not None):
	import warnings
	warnings.warn("key_file, cert_file and check_hostname are "
	"deprecated, use a custom context instead.",
	DeprecationWarning, 2)
	self.key_file = key_file
	self.cert_file = cert_file
	if context is None:
	context = ssl._create_default_https_context()
	# send ALPN extension to indicate HTTP/1.1 protocol
	if self._http_vsn == 11:
	context.set_alpn_protocols(['http/1.1'])
	# enable PHA for TLS 1.3 connections if available
	if context.post_handshake_auth is not None:
	context.post_handshake_auth = True
	will_verify = context.verify_mode != ssl.CERT_NONE
	if check_hostname is None:
	check_hostname = context.check_hostname
	if check_hostname and not will_verify:
	raise ValueError("check_hostname needs a SSL context with "
	"either CERT_OPTIONAL or CERT_REQUIRED")
	if key_file or cert_file:
	context.load_cert_chain(cert_file, key_file)
	# cert and key file means the user wants to authenticate.
	# enable TLS 1.3 PHA implicitly even for custom contexts.
	if context.post_handshake_auth is not None:
	context.post_handshake_auth = True
	self._context = context
	if check_hostname is not None:
	self._context.check_hostname = check_hostname

	def connect(self):
	"Connect to a host on a given (SSL) port."

	super().connect()

	if self._tunnel_host:
	server_hostname = self._tunnel_host
	else:
	server_hostname = self.host

	self.sock = self._context.wrap_socket(self.sock,
	server_hostname=server_hostname)

	__all__.append("HTTPSConnection")

	class HTTPException(Exception):
	# Subclasses that define an __init__ must call Exception.__init__
	# or define self.args. Otherwise, str() will fail.
	pass

	class NotConnected(HTTPException):
	pass

	class InvalidURL(HTTPException):
	pass

	class UnknownProtocol(HTTPException):
	def __init__(self, version):
	self.args = version,
	self.version = version

	class UnknownTransferEncoding(HTTPException):
	pass

	class UnimplementedFileMode(HTTPException):
	pass

	class IncompleteRead(HTTPException):
	def __init__(self, partial, expected=None):
	self.args = partial,
	self.partial = partial
	self.expected = expected
	def __repr__(self):
	if self.expected is not None:
	e = ', %i more expected' % self.expected
	else:
	e = ''
	return '%s(%i bytes read%s)' % (self.__class__.__name__,
	len(self.partial), e)
	__str__ = object.__str__

	class ImproperConnectionState(HTTPException):
	pass

	class CannotSendRequest(ImproperConnectionState):
	pass

	class CannotSendHeader(ImproperConnectionState):
	pass

	class ResponseNotReady(ImproperConnectionState):
	pass

	class BadStatusLine(HTTPException):
	def __init__(self, line):
	if not line:
	line = repr(line)
	self.args = line,
	self.line = line

	class LineTooLong(HTTPException):
	def __init__(self, line_type):
	HTTPException.__init__(self, "got more than %d bytes when reading %s"
	% (_MAXLINE, line_type))

	class RemoteDisconnected(ConnectionResetError, BadStatusLine):
	def __init__(self, pos, *kw):
	BadStatusLine.__init__(self, "")
	ConnectionResetError.__init__(self, pos, *kw)

	# for backwards compatibility
	error = HTTPException