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from __future__ import annotations import datetime import logging import os import re import socket import sys import typing import warnings from http.client import HTTPConnection as _HTTPConnection from http.client import HTTPException as HTTPException # noqa: F401 from http.client import ResponseNotReady from socket import timeout as SocketTimeout if typing.TYPE_CHECKING: from typing import Literal from .response import HTTPResponse from .util.ssl_ import _TYPE_PEER_CERT_RET_DICT from .util.ssltransport import SSLTransport from ._collections import HTTPHeaderDict from .util.response import assert_header_parsing from .util.timeout import _DEFAULT_TIMEOUT, _TYPE_TIMEOUT, Timeout from .util.util import to_str from .util.wait import wait_for_read try: # Compiled with SSL? import ssl BaseSSLError = ssl.SSLError except (ImportError, AttributeError): ssl = None # type: ignore[assignment] class BaseSSLError(BaseException): # type: ignore[no-redef] pass from ._base_connection import _TYPE_BODY from ._base_connection import ProxyConfig as ProxyConfig from ._base_connection import _ResponseOptions as _ResponseOptions from ._version import __version__ from .exceptions import ( ConnectTimeoutError, HeaderParsingError, NameResolutionError, NewConnectionError, ProxyError, SystemTimeWarning, ) from .util import SKIP_HEADER, SKIPPABLE_HEADERS, connection, ssl_ from .util.request import body_to_chunks from .util.ssl_ import assert_fingerprint as _assert_fingerprint from .util.ssl_ import ( create_urllib3_context, is_ipaddress, resolve_cert_reqs, resolve_ssl_version, ssl_wrap_socket, ) from .util.ssl_match_hostname import CertificateError, match_hostname from .util.url import Url # Not a no-op, we're adding this to the namespace so it can be imported. ConnectionError = ConnectionError BrokenPipeError = BrokenPipeError log = logging.getLogger(__name__) port_by_scheme = {"http": 80, "https": 443} # When it comes time to update this value as a part of regular maintenance # (ie test_recent_date is failing) update it to ~6 months before the current date. RECENT_DATE = datetime.date(2023, 6, 1) _CONTAINS_CONTROL_CHAR_RE = re.compile(r"[^-!#$%&'*+.^_`|~0-9a-zA-Z]") _HAS_SYS_AUDIT = hasattr(sys, "audit") class HTTPConnection(_HTTPConnection): """ Based on :class:`http.client.HTTPConnection` but provides an extra constructor backwards-compatibility layer between older and newer Pythons. Additional keyword parameters are used to configure attributes of the connection. Accepted parameters include: - ``source_address``: Set the source address for the current connection. - ``socket_options``: Set specific options on the underlying socket. If not specified, then defaults are loaded from ``HTTPConnection.default_socket_options`` which includes disabling Nagle's algorithm (sets TCP_NODELAY to 1) unless the connection is behind a proxy. For example, if you wish to enable TCP Keep Alive in addition to the defaults, you might pass: .. code-block:: python HTTPConnection.default_socket_options + [ (socket.SOL_SOCKET, socket.SO_KEEPALIVE, 1), ] Or you may want to disable the defaults by passing an empty list (e.g., ``[]``). """ default_port: typing.ClassVar[int] = port_by_scheme["http"] # type: ignore[misc] #: Disable Nagle's algorithm by default. #: ``[(socket.IPPROTO_TCP, socket.TCP_NODELAY, 1)]`` default_socket_options: typing.ClassVar[connection._TYPE_SOCKET_OPTIONS] = [ (socket.IPPROTO_TCP, socket.TCP_NODELAY, 1) ] #: Whether this connection verifies the host's certificate. is_verified: bool = False #: Whether this proxy connection verified the proxy host's certificate. # If no proxy is currently connected to the value will be ``None``. proxy_is_verified: bool | None = None blocksize: int source_address: tuple[str, int] | None socket_options: connection._TYPE_SOCKET_OPTIONS | None _has_connected_to_proxy: bool _response_options: _ResponseOptions | None _tunnel_host: str | None _tunnel_port: int | None _tunnel_scheme: str | None def __init__( self, host: str, port: int | None = None, *, timeout: _TYPE_TIMEOUT = _DEFAULT_TIMEOUT, source_address: tuple[str, int] | None = None, blocksize: int = 16384, socket_options: None | (connection._TYPE_SOCKET_OPTIONS) = default_socket_options, proxy: Url | None = None, proxy_config: ProxyConfig | None = None, ) -> None: super().__init__( host=host, port=port, timeout=Timeout.resolve_default_timeout(timeout), source_address=source_address, blocksize=blocksize, ) self.socket_options = socket_options self.proxy = proxy self.proxy_config = proxy_config self._has_connected_to_proxy = False self._response_options = None self._tunnel_host: str | None = None self._tunnel_port: int | None = None self._tunnel_scheme: str | None = None @property def host(self) -> str: """ Getter method to remove any trailing dots that indicate the hostname is an FQDN. In general, SSL certificates don't include the trailing dot indicating a fully-qualified domain name, and thus, they don't validate properly when checked against a domain name that includes the dot. In addition, some servers may not expect to receive the trailing dot when provided. However, the hostname with trailing dot is critical to DNS resolution; doing a lookup with the trailing dot will properly only resolve the appropriate FQDN, whereas a lookup without a trailing dot will search the system's search domain list. Thus, it's important to keep the original host around for use only in those cases where it's appropriate (i.e., when doing DNS lookup to establish the actual TCP connection across which we're going to send HTTP requests). """ return self._dns_host.rstrip(".") @host.setter def host(self, value: str) -> None: """ Setter for the `host` property. We assume that only urllib3 uses the _dns_host attribute; httplib itself only uses `host`, and it seems reasonable that other libraries follow suit. """ self._dns_host = value def _new_conn(self) -> socket.socket: """Establish a socket connection and set nodelay settings on it. :return: New socket connection. """ try: sock = connection.create_connection( (self._dns_host, self.port), self.timeout, source_address=self.source_address, socket_options=self.socket_options, ) except socket.gaierror as e: raise NameResolutionError(self.host, self, e) from e except SocketTimeout as e: raise ConnectTimeoutError( self, f"Connection to {self.host} timed out. (connect timeout={self.timeout})", ) from e except OSError as e: raise NewConnectionError( self, f"Failed to establish a new connection: {e}" ) from e # Audit hooks are only available in Python 3.8+ if _HAS_SYS_AUDIT: sys.audit("http.client.connect", self, self.host, self.port) return sock def set_tunnel( self, host: str, port: int | None = None, headers: typing.Mapping[str, str] | None = None, scheme: str = "http", ) -> None: if scheme not in ("http", "https"): raise ValueError( f"Invalid proxy scheme for tunneling: {scheme!r}, must be either 'http' or 'https'" ) super().set_tunnel(host, port=port, headers=headers) self._tunnel_scheme = scheme def connect(self) -> None: self.sock = self._new_conn() if self._tunnel_host: # If we're tunneling it means we're connected to our proxy. self._has_connected_to_proxy = True # TODO: Fix tunnel so it doesn't depend on self.sock state. self._tunnel() # type: ignore[attr-defined] # If there's a proxy to be connected to we are fully connected. # This is set twice (once above and here) due to forwarding proxies # not using tunnelling. self._has_connected_to_proxy = bool(self.proxy) if self._has_connected_to_proxy: self.proxy_is_verified = False @property def is_closed(self) -> bool: return self.sock is None @property def is_connected(self) -> bool: if self.sock is None: return False return not wait_for_read(self.sock, timeout=0.0) @property def has_connected_to_proxy(self) -> bool: return self._has_connected_to_proxy @property def proxy_is_forwarding(self) -> bool: """ Return True if a forwarding proxy is configured, else return False """ return bool(self.proxy) and self._tunnel_host is None def close(self) -> None: try: super().close() finally: # Reset all stateful properties so connection # can be re-used without leaking prior configs. self.sock = None self.is_verified = False self.proxy_is_verified = None self._has_connected_to_proxy = False self._response_options = None self._tunnel_host = None self._tunnel_port = None self._tunnel_scheme = None def putrequest( self, method: str, url: str, skip_host: bool = False, skip_accept_encoding: bool = False, ) -> None: """""" # Empty docstring because the indentation of CPython's implementation # is broken but we don't want this method in our documentation. match = _CONTAINS_CONTROL_CHAR_RE.search(method) if match: raise ValueError( f"Method cannot contain non-token characters {method!r} (found at least {match.group()!r})" ) return super().putrequest( method, url, skip_host=skip_host, skip_accept_encoding=skip_accept_encoding ) def putheader(self, header: str, *values: str) -> None: # type: ignore[override] """""" if not any(isinstance(v, str) and v == SKIP_HEADER for v in values): super().putheader(header, *values) elif to_str(header.lower()) not in SKIPPABLE_HEADERS: skippable_headers = "', '".join( [str.title(header) for header in sorted(SKIPPABLE_HEADERS)] ) raise ValueError( f"urllib3.util.SKIP_HEADER only supports '{skippable_headers}'" ) # `request` method's signature intentionally violates LSP. # urllib3's API is different from `http.client.HTTPConnection` and the subclassing is only incidental. def request( # type: ignore[override] self, method: str, url: str, body: _TYPE_BODY | None = None, headers: typing.Mapping[str, str] | None = None, *, chunked: bool = False, preload_content: bool = True, decode_content: bool = True, enforce_content_length: bool = True, ) -> None: # Update the inner socket's timeout value to send the request. # This only triggers if the connection is re-used. if self.sock is not None: self.sock.settimeout(self.timeout) # Store these values to be fed into the HTTPResponse # object later. TODO: Remove this in favor of a real # HTTP lifecycle mechanism. # We have to store these before we call .request() # because sometimes we can still salvage a response # off the wire even if we aren't able to completely # send the request body. self._response_options = _ResponseOptions( request_method=method, request_url=url, preload_content=preload_content, decode_content=decode_content, enforce_content_length=enforce_content_length, ) if headers is None: headers = {} header_keys = frozenset(to_str(k.lower()) for k in headers) skip_accept_encoding = "accept-encoding" in header_keys skip_host = "host" in header_keys self.putrequest( method, url, skip_accept_encoding=skip_accept_encoding, skip_host=skip_host ) # Transform the body into an iterable of sendall()-able chunks # and detect if an explicit Content-Length is doable. chunks_and_cl = body_to_chunks(body, method=method, blocksize=self.blocksize) chunks = chunks_and_cl.chunks content_length = chunks_and_cl.content_length # When chunked is explicit set to 'True' we respect that. if chunked: if "transfer-encoding" not in header_keys: self.putheader("Transfer-Encoding", "chunked") else: # Detect whether a framing mechanism is already in use. If so # we respect that value, otherwise we pick chunked vs content-length # depending on the type of 'body'. if "content-length" in header_keys: chunked = False elif "transfer-encoding" in header_keys: chunked = True # Otherwise we go off the recommendation of 'body_to_chunks()'. else: chunked = False if content_length is None: if chunks is not None: chunked = True self.putheader("Transfer-Encoding", "chunked") else: self.putheader("Content-Length", str(content_length)) # Now that framing headers are out of the way we send all the other headers. if "user-agent" not in header_keys: self.putheader("User-Agent", _get_default_user_agent()) for header, value in headers.items(): self.putheader(header, value) self.endheaders() # If we're given a body we start sending that in chunks. if chunks is not None: for chunk in chunks: # Sending empty chunks isn't allowed for TE: chunked # as it indicates the end of the body. if not chunk: continue if isinstance(chunk, str): chunk = chunk.encode("utf-8") if chunked: self.send(b"%x\r\n%b\r\n" % (len(chunk), chunk)) else: self.send(chunk) # Regardless of whether we have a body or not, if we're in # chunked mode we want to send an explicit empty chunk. if chunked: self.send(b"0\r\n\r\n") def request_chunked( self, method: str, url: str, body: _TYPE_BODY | None = None, headers: typing.Mapping[str, str] | None = None, ) -> None: """ Alternative to the common request method, which sends the body with chunked encoding and not as one block """ warnings.warn( "HTTPConnection.request_chunked() is deprecated and will be removed " "in urllib3 v2.1.0. Instead use HTTPConnection.request(..., chunked=True).", category=DeprecationWarning, stacklevel=2, ) self.request(method, url, body=body, headers=headers, chunked=True) def getresponse( # type: ignore[override] self, ) -> HTTPResponse: """ 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. """ # Raise the same error as http.client.HTTPConnection if self._response_options is None: raise ResponseNotReady() # Reset this attribute for being used again. resp_options = self._response_options self._response_options = None # Since the connection's timeout value may have been updated # we need to set the timeout on the socket. self.sock.settimeout(self.timeout) # This is needed here to avoid circular import errors from .response import HTTPResponse # Get the response from http.client.HTTPConnection httplib_response = super().getresponse() try: assert_header_parsing(httplib_response.msg) except (HeaderParsingError, TypeError) as hpe: log.warning( "Failed to parse headers (url=%s): %s", _url_from_connection(self, resp_options.request_url), hpe, exc_info=True, ) headers = HTTPHeaderDict(httplib_response.msg.items()) response = HTTPResponse( body=httplib_response, headers=headers, status=httplib_response.status, version=httplib_response.version, reason=httplib_response.reason, preload_content=resp_options.preload_content, decode_content=resp_options.decode_content, original_response=httplib_response, enforce_content_length=resp_options.enforce_content_length, request_method=resp_options.request_method, request_url=resp_options.request_url, ) return response class HTTPSConnection(HTTPConnection): """ Many of the parameters to this constructor are passed to the underlying SSL socket by means of :py:func:`urllib3.util.ssl_wrap_socket`. """ default_port = port_by_scheme["https"] # type: ignore[misc] cert_reqs: int | str | None = None ca_certs: str | None = None ca_cert_dir: str | None = None ca_cert_data: None | str | bytes = None ssl_version: int | str | None = None ssl_minimum_version: int | None = None ssl_maximum_version: int | None = None assert_fingerprint: str | None = None def __init__( self, host: str, port: int | None = None, *, timeout: _TYPE_TIMEOUT = _DEFAULT_TIMEOUT, source_address: tuple[str, int] | None = None, blocksize: int = 16384, socket_options: None | (connection._TYPE_SOCKET_OPTIONS) = HTTPConnection.default_socket_options, proxy: Url | None = None, proxy_config: ProxyConfig | None = None, cert_reqs: int | str | None = None, assert_hostname: None | str | Literal[False] = None, assert_fingerprint: str | None = None, server_hostname: str | None = None, ssl_context: ssl.SSLContext | None = None, ca_certs: str | None = None, ca_cert_dir: str | None = None, ca_cert_data: None | str | bytes = None, ssl_minimum_version: int | None = None, ssl_maximum_version: int | None = None, ssl_version: int | str | None = None, # Deprecated cert_file: str | None = None, key_file: str | None = None, key_password: str | None = None, ) -> None: super().__init__( host, port=port, timeout=timeout, source_address=source_address, blocksize=blocksize, socket_options=socket_options, proxy=proxy, proxy_config=proxy_config, ) self.key_file = key_file self.cert_file = cert_file self.key_password = key_password self.ssl_context = ssl_context self.server_hostname = server_hostname self.assert_hostname = assert_hostname self.assert_fingerprint = assert_fingerprint self.ssl_version = ssl_version self.ssl_minimum_version = ssl_minimum_version self.ssl_maximum_version = ssl_maximum_version self.ca_certs = ca_certs and os.path.expanduser(ca_certs) self.ca_cert_dir = ca_cert_dir and os.path.expanduser(ca_cert_dir) self.ca_cert_data = ca_cert_data # cert_reqs depends on ssl_context so calculate last. if cert_reqs is None: if self.ssl_context is not None: cert_reqs = self.ssl_context.verify_mode else: cert_reqs = resolve_cert_reqs(None) self.cert_reqs = cert_reqs def set_cert( self, key_file: str | None = None, cert_file: str | None = None, cert_reqs: int | str | None = None, key_password: str | None = None, ca_certs: str | None = None, assert_hostname: None | str | Literal[False] = None, assert_fingerprint: str | None = None, ca_cert_dir: str | None = None, ca_cert_data: None | str | bytes = None, ) -> None: """ This method should only be called once, before the connection is used. """ warnings.warn( "HTTPSConnection.set_cert() is deprecated and will be removed " "in urllib3 v2.1.0. Instead provide the parameters to the " "HTTPSConnection constructor.", category=DeprecationWarning, stacklevel=2, ) # If cert_reqs is not provided we'll assume CERT_REQUIRED unless we also # have an SSLContext object in which case we'll use its verify_mode. if cert_reqs is None: if self.ssl_context is not None: cert_reqs = self.ssl_context.verify_mode else: cert_reqs = resolve_cert_reqs(None) self.key_file = key_file self.cert_file = cert_file self.cert_reqs = cert_reqs self.key_password = key_password self.assert_hostname = assert_hostname self.assert_fingerprint = assert_fingerprint self.ca_certs = ca_certs and os.path.expanduser(ca_certs) self.ca_cert_dir = ca_cert_dir and os.path.expanduser(ca_cert_dir) self.ca_cert_data = ca_cert_data def connect(self) -> None: sock: socket.socket | ssl.SSLSocket self.sock = sock = self._new_conn() server_hostname: str = self.host tls_in_tls = False # Do we need to establish a tunnel? if self._tunnel_host is not None: # We're tunneling to an HTTPS origin so need to do TLS-in-TLS. if self._tunnel_scheme == "https": # _connect_tls_proxy will verify and assign proxy_is_verified self.sock = sock = self._connect_tls_proxy(self.host, sock) tls_in_tls = True elif self._tunnel_scheme == "http": self.proxy_is_verified = False # If we're tunneling it means we're connected to our proxy. self._has_connected_to_proxy = True self._tunnel() # type: ignore[attr-defined] # Override the host with the one we're requesting data from. server_hostname = self._tunnel_host if self.server_hostname is not None: server_hostname = self.server_hostname is_time_off = datetime.date.today() < RECENT_DATE if is_time_off: warnings.warn( ( f"System time is way off (before {RECENT_DATE}). This will probably " "lead to SSL verification errors" ), SystemTimeWarning, ) # Remove trailing '.' from fqdn hostnames to allow certificate validation server_hostname_rm_dot = server_hostname.rstrip(".") sock_and_verified = _ssl_wrap_socket_and_match_hostname( sock=sock, cert_reqs=self.cert_reqs, ssl_version=self.ssl_version, ssl_minimum_version=self.ssl_minimum_version, ssl_maximum_version=self.ssl_maximum_version, ca_certs=self.ca_certs, ca_cert_dir=self.ca_cert_dir, ca_cert_data=self.ca_cert_data, cert_file=self.cert_file, key_file=self.key_file, key_password=self.key_password, server_hostname=server_hostname_rm_dot, ssl_context=self.ssl_context, tls_in_tls=tls_in_tls, assert_hostname=self.assert_hostname, assert_fingerprint=self.assert_fingerprint, ) self.sock = sock_and_verified.socket # Forwarding proxies can never have a verified target since # the proxy is the one doing the verification. Should instead # use a CONNECT tunnel in order to verify the target. # See: https://github.com/urllib3/urllib3/issues/3267. if self.proxy_is_forwarding: self.is_verified = False else: self.is_verified = sock_and_verified.is_verified # If there's a proxy to be connected to we are fully connected. # This is set twice (once above and here) due to forwarding proxies # not using tunnelling. self._has_connected_to_proxy = bool(self.proxy) # Set `self.proxy_is_verified` unless it's already set while # establishing a tunnel. if self._has_connected_to_proxy and self.proxy_is_verified is None: self.proxy_is_verified = sock_and_verified.is_verified def _connect_tls_proxy(self, hostname: str, sock: socket.socket) -> ssl.SSLSocket: """ Establish a TLS connection to the proxy using the provided SSL context. """ # `_connect_tls_proxy` is called when self._tunnel_host is truthy. proxy_config = typing.cast(ProxyConfig, self.proxy_config) ssl_context = proxy_config.ssl_context sock_and_verified = _ssl_wrap_socket_and_match_hostname( sock, cert_reqs=self.cert_reqs, ssl_version=self.ssl_version, ssl_minimum_version=self.ssl_minimum_version, ssl_maximum_version=self.ssl_maximum_version, ca_certs=self.ca_certs, ca_cert_dir=self.ca_cert_dir, ca_cert_data=self.ca_cert_data, server_hostname=hostname, ssl_context=ssl_context, assert_hostname=proxy_config.assert_hostname, assert_fingerprint=proxy_config.assert_fingerprint, # Features that aren't implemented for proxies yet: cert_file=None, key_file=None, key_password=None, tls_in_tls=False, ) self.proxy_is_verified = sock_and_verified.is_verified return sock_and_verified.socket # type: ignore[return-value] class _WrappedAndVerifiedSocket(typing.NamedTuple): """ Wrapped socket and whether the connection is verified after the TLS handshake """ socket: ssl.SSLSocket | SSLTransport is_verified: bool def _ssl_wrap_socket_and_match_hostname( sock: socket.socket, *, cert_reqs: None | str | int, ssl_version: None | str | int, ssl_minimum_version: int | None, ssl_maximum_version: int | None, cert_file: str | None, key_file: str | None, key_password: str | None, ca_certs: str | None, ca_cert_dir: str | None, ca_cert_data: None | str | bytes, assert_hostname: None | str | Literal[False], assert_fingerprint: str | None, server_hostname: str | None, ssl_context: ssl.SSLContext | None, tls_in_tls: bool = False, ) -> _WrappedAndVerifiedSocket: """Logic for constructing an SSLContext from all TLS parameters, passing that down into ssl_wrap_socket, and then doing certificate verification either via hostname or fingerprint. This function exists to guarantee that both proxies and targets have the same behavior when connecting via TLS. """ default_ssl_context = False if ssl_context is None: default_ssl_context = True context = create_urllib3_context( ssl_version=resolve_ssl_version(ssl_version), ssl_minimum_version=ssl_minimum_version, ssl_maximum_version=ssl_maximum_version, cert_reqs=resolve_cert_reqs(cert_reqs), ) else: context = ssl_context context.verify_mode = resolve_cert_reqs(cert_reqs) # In some cases, we want to verify hostnames ourselves if ( # `ssl` can't verify fingerprints or alternate hostnames assert_fingerprint or assert_hostname # assert_hostname can be set to False to disable hostname checking or assert_hostname is False # We still support OpenSSL 1.0.2, which prevents us from verifying # hostnames easily: https://github.com/pyca/pyopenssl/pull/933 or ssl_.IS_PYOPENSSL or not ssl_.HAS_NEVER_CHECK_COMMON_NAME ): context.check_hostname = False # Try to load OS default certs if none are given. We need to do the hasattr() check # for custom pyOpenSSL SSLContext objects because they don't support # load_default_certs(). if ( not ca_certs and not ca_cert_dir and not ca_cert_data and default_ssl_context and hasattr(context, "load_default_certs") ): context.load_default_certs() # Ensure that IPv6 addresses are in the proper format and don't have a # scope ID. Python's SSL module fails to recognize scoped IPv6 addresses # and interprets them as DNS hostnames. if server_hostname is not None: normalized = server_hostname.strip("[]") if "%" in normalized: normalized = normalized[: normalized.rfind("%")] if is_ipaddress(normalized): server_hostname = normalized ssl_sock = ssl_wrap_socket( sock=sock, keyfile=key_file, certfile=cert_file, key_password=key_password, ca_certs=ca_certs, ca_cert_dir=ca_cert_dir, ca_cert_data=ca_cert_data, server_hostname=server_hostname, ssl_context=context, tls_in_tls=tls_in_tls, ) try: if assert_fingerprint: _assert_fingerprint( ssl_sock.getpeercert(binary_form=True), assert_fingerprint ) elif ( context.verify_mode != ssl.CERT_NONE and not context.check_hostname and assert_hostname is not False ): cert: _TYPE_PEER_CERT_RET_DICT = ssl_sock.getpeercert() # type: ignore[assignment] # Need to signal to our match_hostname whether to use 'commonName' or not. # If we're using our own constructed SSLContext we explicitly set 'False' # because PyPy hard-codes 'True' from SSLContext.hostname_checks_common_name. if default_ssl_context: hostname_checks_common_name = False else: hostname_checks_common_name = ( getattr(context, "hostname_checks_common_name", False) or False ) _match_hostname( cert, assert_hostname or server_hostname, # type: ignore[arg-type] hostname_checks_common_name, ) return _WrappedAndVerifiedSocket( socket=ssl_sock, is_verified=context.verify_mode == ssl.CERT_REQUIRED or bool(assert_fingerprint), ) except BaseException: ssl_sock.close() raise def _match_hostname( cert: _TYPE_PEER_CERT_RET_DICT | None, asserted_hostname: str, hostname_checks_common_name: bool = False, ) -> None: # Our upstream implementation of ssl.match_hostname() # only applies this normalization to IP addresses so it doesn't # match DNS SANs so we do the same thing! stripped_hostname = asserted_hostname.strip("[]") if is_ipaddress(stripped_hostname): asserted_hostname = stripped_hostname try: match_hostname(cert, asserted_hostname, hostname_checks_common_name) except CertificateError as e: log.warning( "Certificate did not match expected hostname: %s. Certificate: %s", asserted_hostname, cert, ) # Add cert to exception and reraise so client code can inspect # the cert when catching the exception, if they want to e._peer_cert = cert # type: ignore[attr-defined] raise def _wrap_proxy_error(err: Exception, proxy_scheme: str | None) -> ProxyError: # Look for the phrase 'wrong version number', if found # then we should warn the user that we're very sure that # this proxy is HTTP-only and they have a configuration issue. error_normalized = " ".join(re.split("[^a-z]", str(err).lower())) is_likely_http_proxy = ( "wrong version number" in error_normalized or "unknown protocol" in error_normalized or "record layer failure" in error_normalized ) http_proxy_warning = ( ". Your proxy appears to only use HTTP and not HTTPS, " "try changing your proxy URL to be HTTP. See: " "https://urllib3.readthedocs.io/en/latest/advanced-usage.html" "#https-proxy-error-http-proxy" ) new_err = ProxyError( f"Unable to connect to proxy" f"{http_proxy_warning if is_likely_http_proxy and proxy_scheme == 'https' else ''}", err, ) new_err.__cause__ = err return new_err def _get_default_user_agent() -> str: return f"python-urllib3/{__version__}" class DummyConnection: """Used to detect a failed ConnectionCls import.""" if not ssl: HTTPSConnection = DummyConnection # type: ignore[misc, assignment] # noqa: F811 VerifiedHTTPSConnection = HTTPSConnection def _url_from_connection( conn: HTTPConnection | HTTPSConnection, path: str | None = None ) -> str: """Returns the URL from a given connection. This is mainly used for testing and logging.""" scheme = "https" if isinstance(conn, HTTPSConnection) else "http" return Url(scheme=scheme, host=conn.host, port=conn.port, path=path).url
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