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pyopenssl.py
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""" Module for using pyOpenSSL as a TLS backend. This module was relevant before the standard library ``ssl`` module supported SNI, but now that we've dropped support for Python 2.7 all relevant Python versions support SNI so **this module is no longer recommended**. This needs the following packages installed: * `pyOpenSSL`_ (tested with 16.0.0) * `cryptography`_ (minimum 1.3.4, from pyopenssl) * `idna`_ (minimum 2.0) However, pyOpenSSL depends on cryptography, so while we use all three directly here we end up having relatively few packages required. You can install them with the following command: .. code-block:: bash $ python -m pip install pyopenssl cryptography idna To activate certificate checking, call :func:`~urllib3.contrib.pyopenssl.inject_into_urllib3` from your Python code before you begin making HTTP requests. This can be done in a ``sitecustomize`` module, or at any other time before your application begins using ``urllib3``, like this: .. code-block:: python try: import urllib3.contrib.pyopenssl urllib3.contrib.pyopenssl.inject_into_urllib3() except ImportError: pass .. _pyopenssl: https://www.pyopenssl.org .. _cryptography: https://cryptography.io .. _idna: https://github.com/kjd/idna """ from __future__ import annotations import OpenSSL.SSL # type: ignore[import-untyped] from cryptography import x509 try: from cryptography.x509 import UnsupportedExtension # type: ignore[attr-defined] except ImportError: # UnsupportedExtension is gone in cryptography >= 2.1.0 class UnsupportedExtension(Exception): # type: ignore[no-redef] pass import logging import ssl import typing from io import BytesIO from socket import socket as socket_cls from socket import timeout from .. import util if typing.TYPE_CHECKING: from OpenSSL.crypto import X509 # type: ignore[import-untyped] __all__ = ["inject_into_urllib3", "extract_from_urllib3"] # Map from urllib3 to PyOpenSSL compatible parameter-values. _openssl_versions: dict[int, int] = { util.ssl_.PROTOCOL_TLS: OpenSSL.SSL.SSLv23_METHOD, # type: ignore[attr-defined] util.ssl_.PROTOCOL_TLS_CLIENT: OpenSSL.SSL.SSLv23_METHOD, # type: ignore[attr-defined] ssl.PROTOCOL_TLSv1: OpenSSL.SSL.TLSv1_METHOD, } if hasattr(ssl, "PROTOCOL_TLSv1_1") and hasattr(OpenSSL.SSL, "TLSv1_1_METHOD"): _openssl_versions[ssl.PROTOCOL_TLSv1_1] = OpenSSL.SSL.TLSv1_1_METHOD if hasattr(ssl, "PROTOCOL_TLSv1_2") and hasattr(OpenSSL.SSL, "TLSv1_2_METHOD"): _openssl_versions[ssl.PROTOCOL_TLSv1_2] = OpenSSL.SSL.TLSv1_2_METHOD _stdlib_to_openssl_verify = { ssl.CERT_NONE: OpenSSL.SSL.VERIFY_NONE, ssl.CERT_OPTIONAL: OpenSSL.SSL.VERIFY_PEER, ssl.CERT_REQUIRED: OpenSSL.SSL.VERIFY_PEER + OpenSSL.SSL.VERIFY_FAIL_IF_NO_PEER_CERT, } _openssl_to_stdlib_verify = {v: k for k, v in _stdlib_to_openssl_verify.items()} # The SSLvX values are the most likely to be missing in the future # but we check them all just to be sure. _OP_NO_SSLv2_OR_SSLv3: int = getattr(OpenSSL.SSL, "OP_NO_SSLv2", 0) | getattr( OpenSSL.SSL, "OP_NO_SSLv3", 0 ) _OP_NO_TLSv1: int = getattr(OpenSSL.SSL, "OP_NO_TLSv1", 0) _OP_NO_TLSv1_1: int = getattr(OpenSSL.SSL, "OP_NO_TLSv1_1", 0) _OP_NO_TLSv1_2: int = getattr(OpenSSL.SSL, "OP_NO_TLSv1_2", 0) _OP_NO_TLSv1_3: int = getattr(OpenSSL.SSL, "OP_NO_TLSv1_3", 0) _openssl_to_ssl_minimum_version: dict[int, int] = { ssl.TLSVersion.MINIMUM_SUPPORTED: _OP_NO_SSLv2_OR_SSLv3, ssl.TLSVersion.TLSv1: _OP_NO_SSLv2_OR_SSLv3, ssl.TLSVersion.TLSv1_1: _OP_NO_SSLv2_OR_SSLv3 | _OP_NO_TLSv1, ssl.TLSVersion.TLSv1_2: _OP_NO_SSLv2_OR_SSLv3 | _OP_NO_TLSv1 | _OP_NO_TLSv1_1, ssl.TLSVersion.TLSv1_3: ( _OP_NO_SSLv2_OR_SSLv3 | _OP_NO_TLSv1 | _OP_NO_TLSv1_1 | _OP_NO_TLSv1_2 ), ssl.TLSVersion.MAXIMUM_SUPPORTED: ( _OP_NO_SSLv2_OR_SSLv3 | _OP_NO_TLSv1 | _OP_NO_TLSv1_1 | _OP_NO_TLSv1_2 ), } _openssl_to_ssl_maximum_version: dict[int, int] = { ssl.TLSVersion.MINIMUM_SUPPORTED: ( _OP_NO_SSLv2_OR_SSLv3 | _OP_NO_TLSv1 | _OP_NO_TLSv1_1 | _OP_NO_TLSv1_2 | _OP_NO_TLSv1_3 ), ssl.TLSVersion.TLSv1: ( _OP_NO_SSLv2_OR_SSLv3 | _OP_NO_TLSv1_1 | _OP_NO_TLSv1_2 | _OP_NO_TLSv1_3 ), ssl.TLSVersion.TLSv1_1: _OP_NO_SSLv2_OR_SSLv3 | _OP_NO_TLSv1_2 | _OP_NO_TLSv1_3, ssl.TLSVersion.TLSv1_2: _OP_NO_SSLv2_OR_SSLv3 | _OP_NO_TLSv1_3, ssl.TLSVersion.TLSv1_3: _OP_NO_SSLv2_OR_SSLv3, ssl.TLSVersion.MAXIMUM_SUPPORTED: _OP_NO_SSLv2_OR_SSLv3, } # OpenSSL will only write 16K at a time SSL_WRITE_BLOCKSIZE = 16384 orig_util_SSLContext = util.ssl_.SSLContext log = logging.getLogger(__name__) def inject_into_urllib3() -> None: "Monkey-patch urllib3 with PyOpenSSL-backed SSL-support." _validate_dependencies_met() util.SSLContext = PyOpenSSLContext # type: ignore[assignment] util.ssl_.SSLContext = PyOpenSSLContext # type: ignore[assignment] util.IS_PYOPENSSL = True util.ssl_.IS_PYOPENSSL = True def extract_from_urllib3() -> None: "Undo monkey-patching by :func:`inject_into_urllib3`." util.SSLContext = orig_util_SSLContext util.ssl_.SSLContext = orig_util_SSLContext util.IS_PYOPENSSL = False util.ssl_.IS_PYOPENSSL = False def _validate_dependencies_met() -> None: """ Verifies that PyOpenSSL's package-level dependencies have been met. Throws `ImportError` if they are not met. """ # Method added in `cryptography==1.1`; not available in older versions from cryptography.x509.extensions import Extensions if getattr(Extensions, "get_extension_for_class", None) is None: raise ImportError( "'cryptography' module missing required functionality. " "Try upgrading to v1.3.4 or newer." ) # pyOpenSSL 0.14 and above use cryptography for OpenSSL bindings. The _x509 # attribute is only present on those versions. from OpenSSL.crypto import X509 x509 = X509() if getattr(x509, "_x509", None) is None: raise ImportError( "'pyOpenSSL' module missing required functionality. " "Try upgrading to v0.14 or newer." ) def _dnsname_to_stdlib(name: str) -> str | None: """ Converts a dNSName SubjectAlternativeName field to the form used by the standard library on the given Python version. Cryptography produces a dNSName as a unicode string that was idna-decoded from ASCII bytes. We need to idna-encode that string to get it back, and then on Python 3 we also need to convert to unicode via UTF-8 (the stdlib uses PyUnicode_FromStringAndSize on it, which decodes via UTF-8). If the name cannot be idna-encoded then we return None signalling that the name given should be skipped. """ def idna_encode(name: str) -> bytes | None: """ Borrowed wholesale from the Python Cryptography Project. It turns out that we can't just safely call `idna.encode`: it can explode for wildcard names. This avoids that problem. """ import idna try: for prefix in ["*.", "."]: if name.startswith(prefix): name = name[len(prefix) :] return prefix.encode("ascii") + idna.encode(name) return idna.encode(name) except idna.core.IDNAError: return None # Don't send IPv6 addresses through the IDNA encoder. if ":" in name: return name encoded_name = idna_encode(name) if encoded_name is None: return None return encoded_name.decode("utf-8") def get_subj_alt_name(peer_cert: X509) -> list[tuple[str, str]]: """ Given an PyOpenSSL certificate, provides all the subject alternative names. """ cert = peer_cert.to_cryptography() # We want to find the SAN extension. Ask Cryptography to locate it (it's # faster than looping in Python) try: ext = cert.extensions.get_extension_for_class(x509.SubjectAlternativeName).value except x509.ExtensionNotFound: # No such extension, return the empty list. return [] except ( x509.DuplicateExtension, UnsupportedExtension, x509.UnsupportedGeneralNameType, UnicodeError, ) as e: # A problem has been found with the quality of the certificate. Assume # no SAN field is present. log.warning( "A problem was encountered with the certificate that prevented " "urllib3 from finding the SubjectAlternativeName field. This can " "affect certificate validation. The error was %s", e, ) return [] # We want to return dNSName and iPAddress fields. We need to cast the IPs # back to strings because the match_hostname function wants them as # strings. # Sadly the DNS names need to be idna encoded and then, on Python 3, UTF-8 # decoded. This is pretty frustrating, but that's what the standard library # does with certificates, and so we need to attempt to do the same. # We also want to skip over names which cannot be idna encoded. names = [ ("DNS", name) for name in map(_dnsname_to_stdlib, ext.get_values_for_type(x509.DNSName)) if name is not None ] names.extend( ("IP Address", str(name)) for name in ext.get_values_for_type(x509.IPAddress) ) return names class WrappedSocket: """API-compatibility wrapper for Python OpenSSL's Connection-class.""" def __init__( self, connection: OpenSSL.SSL.Connection, socket: socket_cls, suppress_ragged_eofs: bool = True, ) -> None: self.connection = connection self.socket = socket self.suppress_ragged_eofs = suppress_ragged_eofs self._io_refs = 0 self._closed = False def fileno(self) -> int: return self.socket.fileno() # Copy-pasted from Python 3.5 source code def _decref_socketios(self) -> None: if self._io_refs > 0: self._io_refs -= 1 if self._closed: self.close() def recv(self, *args: typing.Any, **kwargs: typing.Any) -> bytes: try: data = self.connection.recv(*args, **kwargs) except OpenSSL.SSL.SysCallError as e: if self.suppress_ragged_eofs and e.args == (-1, "Unexpected EOF"): return b"" else: raise OSError(e.args[0], str(e)) from e except OpenSSL.SSL.ZeroReturnError: if self.connection.get_shutdown() == OpenSSL.SSL.RECEIVED_SHUTDOWN: return b"" else: raise except OpenSSL.SSL.WantReadError as e: if not util.wait_for_read(self.socket, self.socket.gettimeout()): raise timeout("The read operation timed out") from e else: return self.recv(*args, **kwargs) # TLS 1.3 post-handshake authentication except OpenSSL.SSL.Error as e: raise ssl.SSLError(f"read error: {e!r}") from e else: return data # type: ignore[no-any-return] def recv_into(self, *args: typing.Any, **kwargs: typing.Any) -> int: try: return self.connection.recv_into(*args, **kwargs) # type: ignore[no-any-return] except OpenSSL.SSL.SysCallError as e: if self.suppress_ragged_eofs and e.args == (-1, "Unexpected EOF"): return 0 else: raise OSError(e.args[0], str(e)) from e except OpenSSL.SSL.ZeroReturnError: if self.connection.get_shutdown() == OpenSSL.SSL.RECEIVED_SHUTDOWN: return 0 else: raise except OpenSSL.SSL.WantReadError as e: if not util.wait_for_read(self.socket, self.socket.gettimeout()): raise timeout("The read operation timed out") from e else: return self.recv_into(*args, **kwargs) # TLS 1.3 post-handshake authentication except OpenSSL.SSL.Error as e: raise ssl.SSLError(f"read error: {e!r}") from e def settimeout(self, timeout: float) -> None: return self.socket.settimeout(timeout) def _send_until_done(self, data: bytes) -> int: while True: try: return self.connection.send(data) # type: ignore[no-any-return] except OpenSSL.SSL.WantWriteError as e: if not util.wait_for_write(self.socket, self.socket.gettimeout()): raise timeout() from e continue except OpenSSL.SSL.SysCallError as e: raise OSError(e.args[0], str(e)) from e def sendall(self, data: bytes) -> None: total_sent = 0 while total_sent < len(data): sent = self._send_until_done( data[total_sent : total_sent + SSL_WRITE_BLOCKSIZE] ) total_sent += sent def shutdown(self) -> None: # FIXME rethrow compatible exceptions should we ever use this self.connection.shutdown() def close(self) -> None: self._closed = True if self._io_refs <= 0: self._real_close() def _real_close(self) -> None: try: return self.connection.close() # type: ignore[no-any-return] except OpenSSL.SSL.Error: return def getpeercert( self, binary_form: bool = False ) -> dict[str, list[typing.Any]] | None: x509 = self.connection.get_peer_certificate() if not x509: return x509 # type: ignore[no-any-return] if binary_form: return OpenSSL.crypto.dump_certificate(OpenSSL.crypto.FILETYPE_ASN1, x509) # type: ignore[no-any-return] return { "subject": ((("commonName", x509.get_subject().CN),),), # type: ignore[dict-item] "subjectAltName": get_subj_alt_name(x509), } def version(self) -> str: return self.connection.get_protocol_version_name() # type: ignore[no-any-return] WrappedSocket.makefile = socket_cls.makefile # type: ignore[attr-defined] class PyOpenSSLContext: """ I am a wrapper class for the PyOpenSSL ``Context`` object. I am responsible for translating the interface of the standard library ``SSLContext`` object to calls into PyOpenSSL. """ def __init__(self, protocol: int) -> None: self.protocol = _openssl_versions[protocol] self._ctx = OpenSSL.SSL.Context(self.protocol) self._options = 0 self.check_hostname = False self._minimum_version: int = ssl.TLSVersion.MINIMUM_SUPPORTED self._maximum_version: int = ssl.TLSVersion.MAXIMUM_SUPPORTED @property def options(self) -> int: return self._options @options.setter def options(self, value: int) -> None: self._options = value self._set_ctx_options() @property def verify_mode(self) -> int: return _openssl_to_stdlib_verify[self._ctx.get_verify_mode()] @verify_mode.setter def verify_mode(self, value: ssl.VerifyMode) -> None: self._ctx.set_verify(_stdlib_to_openssl_verify[value], _verify_callback) def set_default_verify_paths(self) -> None: self._ctx.set_default_verify_paths() def set_ciphers(self, ciphers: bytes | str) -> None: if isinstance(ciphers, str): ciphers = ciphers.encode("utf-8") self._ctx.set_cipher_list(ciphers) def load_verify_locations( self, cafile: str | None = None, capath: str | None = None, cadata: bytes | None = None, ) -> None: if cafile is not None: cafile = cafile.encode("utf-8") # type: ignore[assignment] if capath is not None: capath = capath.encode("utf-8") # type: ignore[assignment] try: self._ctx.load_verify_locations(cafile, capath) if cadata is not None: self._ctx.load_verify_locations(BytesIO(cadata)) except OpenSSL.SSL.Error as e: raise ssl.SSLError(f"unable to load trusted certificates: {e!r}") from e def load_cert_chain( self, certfile: str, keyfile: str | None = None, password: str | None = None, ) -> None: try: self._ctx.use_certificate_chain_file(certfile) if password is not None: if not isinstance(password, bytes): password = password.encode("utf-8") # type: ignore[assignment] self._ctx.set_passwd_cb(lambda *_: password) self._ctx.use_privatekey_file(keyfile or certfile) except OpenSSL.SSL.Error as e: raise ssl.SSLError(f"Unable to load certificate chain: {e!r}") from e def set_alpn_protocols(self, protocols: list[bytes | str]) -> None: protocols = [util.util.to_bytes(p, "ascii") for p in protocols] return self._ctx.set_alpn_protos(protocols) # type: ignore[no-any-return] def wrap_socket( self, sock: socket_cls, server_side: bool = False, do_handshake_on_connect: bool = True, suppress_ragged_eofs: bool = True, server_hostname: bytes | str | None = None, ) -> WrappedSocket: cnx = OpenSSL.SSL.Connection(self._ctx, sock) # If server_hostname is an IP, don't use it for SNI, per RFC6066 Section 3 if server_hostname and not util.ssl_.is_ipaddress(server_hostname): if isinstance(server_hostname, str): server_hostname = server_hostname.encode("utf-8") cnx.set_tlsext_host_name(server_hostname) cnx.set_connect_state() while True: try: cnx.do_handshake() except OpenSSL.SSL.WantReadError as e: if not util.wait_for_read(sock, sock.gettimeout()): raise timeout("select timed out") from e continue except OpenSSL.SSL.Error as e: raise ssl.SSLError(f"bad handshake: {e!r}") from e break return WrappedSocket(cnx, sock) def _set_ctx_options(self) -> None: self._ctx.set_options( self._options | _openssl_to_ssl_minimum_version[self._minimum_version] | _openssl_to_ssl_maximum_version[self._maximum_version] ) @property def minimum_version(self) -> int: return self._minimum_version @minimum_version.setter def minimum_version(self, minimum_version: int) -> None: self._minimum_version = minimum_version self._set_ctx_options() @property def maximum_version(self) -> int: return self._maximum_version @maximum_version.setter def maximum_version(self, maximum_version: int) -> None: self._maximum_version = maximum_version self._set_ctx_options() def _verify_callback( cnx: OpenSSL.SSL.Connection, x509: X509, err_no: int, err_depth: int, return_code: int, ) -> bool: return err_no == 0