Server IP : 85.214.239.14 / Your IP : 3.21.12.41 Web Server : Apache/2.4.62 (Debian) System : Linux h2886529.stratoserver.net 4.9.0 #1 SMP Tue Jan 9 19:45:01 MSK 2024 x86_64 User : www-data ( 33) PHP Version : 7.4.18 Disable Function : pcntl_alarm,pcntl_fork,pcntl_waitpid,pcntl_wait,pcntl_wifexited,pcntl_wifstopped,pcntl_wifsignaled,pcntl_wifcontinued,pcntl_wexitstatus,pcntl_wtermsig,pcntl_wstopsig,pcntl_signal,pcntl_signal_get_handler,pcntl_signal_dispatch,pcntl_get_last_error,pcntl_strerror,pcntl_sigprocmask,pcntl_sigwaitinfo,pcntl_sigtimedwait,pcntl_exec,pcntl_getpriority,pcntl_setpriority,pcntl_async_signals,pcntl_unshare, MySQL : OFF | cURL : OFF | WGET : ON | Perl : ON | Python : ON | Sudo : ON | Pkexec : OFF Directory : /proc/self/root/proc/2/root/proc/3/cwd/lib/python3/dist-packages/requests_kerberos/ |
Upload File : |
try: import kerberos except ImportError: import winkerberos as kerberos import logging import re import sys import warnings from cryptography import x509 from cryptography.hazmat.backends import default_backend from cryptography.hazmat.primitives import hashes from cryptography.exceptions import UnsupportedAlgorithm from requests.auth import AuthBase from requests.models import Response from requests.compat import urlparse, StringIO from requests.structures import CaseInsensitiveDict from requests.cookies import cookiejar_from_dict from requests.packages.urllib3 import HTTPResponse from .exceptions import MutualAuthenticationError, KerberosExchangeError log = logging.getLogger(__name__) # Different types of mutual authentication: # with mutual_authentication set to REQUIRED, all responses will be # authenticated with the exception of errors. Errors will have their contents # and headers stripped. If a non-error response cannot be authenticated, a # MutualAuthenticationError exception will be raised. # with mutual_authentication set to OPTIONAL, mutual authentication will be # attempted if supported, and if supported and failed, a # MutualAuthenticationError exception will be raised. Responses which do not # support mutual authentication will be returned directly to the user. # with mutual_authentication set to DISABLED, mutual authentication will not be # attempted, even if supported. REQUIRED = 1 OPTIONAL = 2 DISABLED = 3 class NoCertificateRetrievedWarning(Warning): pass class UnknownSignatureAlgorithmOID(Warning): pass class SanitizedResponse(Response): """The :class:`Response <Response>` object, which contains a server's response to an HTTP request. This differs from `requests.models.Response` in that it's headers and content have been sanitized. This is only used for HTTP Error messages which do not support mutual authentication when mutual authentication is required.""" def __init__(self, response): super(SanitizedResponse, self).__init__() self.status_code = response.status_code self.encoding = response.encoding self.raw = response.raw self.reason = response.reason self.url = response.url self.request = response.request self.connection = response.connection self._content_consumed = True self._content = "" self.cookies = cookiejar_from_dict({}) self.headers = CaseInsensitiveDict() self.headers['content-length'] = '0' for header in ('date', 'server'): if header in response.headers: self.headers[header] = response.headers[header] def _negotiate_value(response): """Extracts the gssapi authentication token from the appropriate header""" if hasattr(_negotiate_value, 'regex'): regex = _negotiate_value.regex else: # There's no need to re-compile this EVERY time it is called. Compile # it once and you won't have the performance hit of the compilation. regex = re.compile('(?:.*,)*\s*Negotiate\s*([^,]*),?', re.I) _negotiate_value.regex = regex authreq = response.headers.get('www-authenticate', None) if authreq: match_obj = regex.search(authreq) if match_obj: return match_obj.group(1) return None def _get_certificate_hash(certificate_der): # https://tools.ietf.org/html/rfc5929#section-4.1 cert = x509.load_der_x509_certificate(certificate_der, default_backend()) try: hash_algorithm = cert.signature_hash_algorithm except UnsupportedAlgorithm as ex: warnings.warn("Failed to get signature algorithm from certificate, " "unable to pass channel bindings: %s" % str(ex), UnknownSignatureAlgorithmOID) return None # if the cert signature algorithm is either md5 or sha1 then use sha256 # otherwise use the signature algorithm if hash_algorithm.name in ['md5', 'sha1']: digest = hashes.Hash(hashes.SHA256(), default_backend()) else: digest = hashes.Hash(hash_algorithm, default_backend()) digest.update(certificate_der) certificate_hash = digest.finalize() return certificate_hash def _get_channel_bindings_application_data(response): """ https://tools.ietf.org/html/rfc5929 4. The 'tls-server-end-point' Channel Binding Type Gets the application_data value for the 'tls-server-end-point' CBT Type. This is ultimately the SHA256 hash of the certificate of the HTTPS endpoint appended onto tls-server-end-point. This value is then passed along to the kerberos library to bind to the auth response. If the socket is not an SSL socket or the raw HTTP object is not a urllib3 HTTPResponse then None will be returned and the Kerberos auth will use GSS_C_NO_CHANNEL_BINDINGS :param response: The original 401 response from the server :return: byte string used on the application_data.value field on the CBT struct """ application_data = None raw_response = response.raw if isinstance(raw_response, HTTPResponse): try: if sys.version_info > (3, 0): socket = raw_response._fp.fp.raw._sock else: socket = raw_response._fp.fp._sock except AttributeError: warnings.warn("Failed to get raw socket for CBT; has urllib3 impl changed", NoCertificateRetrievedWarning) else: try: server_certificate = socket.getpeercert(True) except AttributeError: pass else: certificate_hash = _get_certificate_hash(server_certificate) application_data = b'tls-server-end-point:' + certificate_hash else: warnings.warn( "Requests is running with a non urllib3 backend, cannot retrieve server certificate for CBT", NoCertificateRetrievedWarning) return application_data class HTTPKerberosAuth(AuthBase): """Attaches HTTP GSSAPI/Kerberos Authentication to the given Request object.""" def __init__( self, mutual_authentication=REQUIRED, service="HTTP", delegate=False, force_preemptive=False, principal=None, hostname_override=None, sanitize_mutual_error_response=True, send_cbt=True): self.context = {} self.mutual_authentication = mutual_authentication self.delegate = delegate self.pos = None self.service = service self.force_preemptive = force_preemptive self.principal = principal self.hostname_override = hostname_override self.sanitize_mutual_error_response = sanitize_mutual_error_response self.auth_done = False self.winrm_encryption_available = hasattr(kerberos, 'authGSSWinRMEncryptMessage') # Set the CBT values populated after the first response self.send_cbt = send_cbt self.cbt_binding_tried = False self.cbt_struct = None def generate_request_header(self, response, host, is_preemptive=False): """ Generates the GSSAPI authentication token with kerberos. If any GSSAPI step fails, raise KerberosExchangeError with failure detail. """ # Flags used by kerberos module. gssflags = kerberos.GSS_C_MUTUAL_FLAG | kerberos.GSS_C_SEQUENCE_FLAG if self.delegate: gssflags |= kerberos.GSS_C_DELEG_FLAG try: kerb_stage = "authGSSClientInit()" # contexts still need to be stored by host, but hostname_override # allows use of an arbitrary hostname for the kerberos exchange # (eg, in cases of aliased hosts, internal vs external, CNAMEs # w/ name-based HTTP hosting) kerb_host = self.hostname_override if self.hostname_override is not None else host kerb_spn = "{0}@{1}".format(self.service, kerb_host) result, self.context[host] = kerberos.authGSSClientInit(kerb_spn, gssflags=gssflags, principal=self.principal) if result < 1: raise EnvironmentError(result, kerb_stage) # if we have a previous response from the server, use it to continue # the auth process, otherwise use an empty value negotiate_resp_value = '' if is_preemptive else _negotiate_value(response) kerb_stage = "authGSSClientStep()" # If this is set pass along the struct to Kerberos if self.cbt_struct: result = kerberos.authGSSClientStep(self.context[host], negotiate_resp_value, channel_bindings=self.cbt_struct) else: result = kerberos.authGSSClientStep(self.context[host], negotiate_resp_value) if result < 0: raise EnvironmentError(result, kerb_stage) kerb_stage = "authGSSClientResponse()" gss_response = kerberos.authGSSClientResponse(self.context[host]) return "Negotiate {0}".format(gss_response) except kerberos.GSSError as error: log.exception( "generate_request_header(): {0} failed:".format(kerb_stage)) log.exception(error) raise KerberosExchangeError("%s failed: %s" % (kerb_stage, str(error.args))) except EnvironmentError as error: # ensure we raised this for translation to KerberosExchangeError # by comparing errno to result, re-raise if not if error.errno != result: raise message = "{0} failed, result: {1}".format(kerb_stage, result) log.error("generate_request_header(): {0}".format(message)) raise KerberosExchangeError(message) def authenticate_user(self, response, **kwargs): """Handles user authentication with gssapi/kerberos""" host = urlparse(response.url).hostname try: auth_header = self.generate_request_header(response, host) except KerberosExchangeError: # GSS Failure, return existing response return response log.debug("authenticate_user(): Authorization header: {0}".format( auth_header)) response.request.headers['Authorization'] = auth_header # Consume the content so we can reuse the connection for the next # request. response.content response.raw.release_conn() _r = response.connection.send(response.request, **kwargs) _r.history.append(response) log.debug("authenticate_user(): returning {0}".format(_r)) return _r def handle_401(self, response, **kwargs): """Handles 401's, attempts to use gssapi/kerberos authentication""" log.debug("handle_401(): Handling: 401") if _negotiate_value(response) is not None: _r = self.authenticate_user(response, **kwargs) log.debug("handle_401(): returning {0}".format(_r)) return _r else: log.debug("handle_401(): Kerberos is not supported") log.debug("handle_401(): returning {0}".format(response)) return response def handle_other(self, response): """Handles all responses with the exception of 401s. This is necessary so that we can authenticate responses if requested""" log.debug("handle_other(): Handling: %d" % response.status_code) if self.mutual_authentication in (REQUIRED, OPTIONAL) and not self.auth_done: is_http_error = response.status_code >= 400 if _negotiate_value(response) is not None: log.debug("handle_other(): Authenticating the server") if not self.authenticate_server(response): # Mutual authentication failure when mutual auth is wanted, # raise an exception so the user doesn't use an untrusted # response. log.error("handle_other(): Mutual authentication failed") raise MutualAuthenticationError("Unable to authenticate " "{0}".format(response)) # Authentication successful log.debug("handle_other(): returning {0}".format(response)) self.auth_done = True return response elif is_http_error or self.mutual_authentication == OPTIONAL: if not response.ok: log.error("handle_other(): Mutual authentication unavailable " "on {0} response".format(response.status_code)) if(self.mutual_authentication == REQUIRED and self.sanitize_mutual_error_response): return SanitizedResponse(response) else: return response else: # Unable to attempt mutual authentication when mutual auth is # required, raise an exception so the user doesn't use an # untrusted response. log.error("handle_other(): Mutual authentication failed") raise MutualAuthenticationError("Unable to authenticate " "{0}".format(response)) else: log.debug("handle_other(): returning {0}".format(response)) return response def authenticate_server(self, response): """ Uses GSSAPI to authenticate the server. Returns True on success, False on failure. """ log.debug("authenticate_server(): Authenticate header: {0}".format( _negotiate_value(response))) host = urlparse(response.url).hostname try: # If this is set pass along the struct to Kerberos if self.cbt_struct: result = kerberos.authGSSClientStep(self.context[host], _negotiate_value(response), channel_bindings=self.cbt_struct) else: result = kerberos.authGSSClientStep(self.context[host], _negotiate_value(response)) except kerberos.GSSError: log.exception("authenticate_server(): authGSSClientStep() failed:") return False if result < 1: log.error("authenticate_server(): authGSSClientStep() failed: " "{0}".format(result)) return False log.debug("authenticate_server(): returning {0}".format(response)) return True def handle_response(self, response, **kwargs): """Takes the given response and tries kerberos-auth, as needed.""" num_401s = kwargs.pop('num_401s', 0) # Check if we have already tried to get the CBT data value if not self.cbt_binding_tried and self.send_cbt: # If we haven't tried, try getting it now cbt_application_data = _get_channel_bindings_application_data(response) if cbt_application_data: # Only the latest version of pykerberos has this method available try: self.cbt_struct = kerberos.channelBindings(application_data=cbt_application_data) except AttributeError: # Using older version set to None self.cbt_struct = None # Regardless of the result, set tried to True so we don't waste time next time self.cbt_binding_tried = True if self.pos is not None: # Rewind the file position indicator of the body to where # it was to resend the request. response.request.body.seek(self.pos) if response.status_code == 401 and num_401s < 2: # 401 Unauthorized. Handle it, and if it still comes back as 401, # that means authentication failed. _r = self.handle_401(response, **kwargs) log.debug("handle_response(): returning %s", _r) log.debug("handle_response() has seen %d 401 responses", num_401s) num_401s += 1 return self.handle_response(_r, num_401s=num_401s, **kwargs) elif response.status_code == 401 and num_401s >= 2: # Still receiving 401 responses after attempting to handle them. # Authentication has failed. Return the 401 response. log.debug("handle_response(): returning 401 %s", response) return response else: _r = self.handle_other(response) log.debug("handle_response(): returning %s", _r) return _r def deregister(self, response): """Deregisters the response handler""" response.request.deregister_hook('response', self.handle_response) def wrap_winrm(self, host, message): if not self.winrm_encryption_available: raise NotImplementedError("WinRM encryption is not available on the installed version of pykerberos") return kerberos.authGSSWinRMEncryptMessage(self.context[host], message) def unwrap_winrm(self, host, message, header): if not self.winrm_encryption_available: raise NotImplementedError("WinRM encryption is not available on the installed version of pykerberos") return kerberos.authGSSWinRMDecryptMessage(self.context[host], message, header) def __call__(self, request): if self.force_preemptive and not self.auth_done: # add Authorization header before we receive a 401 # by the 401 handler host = urlparse(request.url).hostname auth_header = self.generate_request_header(None, host, is_preemptive=True) log.debug("HTTPKerberosAuth: Preemptive Authorization header: {0}".format(auth_header)) request.headers['Authorization'] = auth_header request.register_hook('response', self.handle_response) try: self.pos = request.body.tell() except AttributeError: # In the case of HTTPKerberosAuth being reused and the body # of the previous request was a file-like object, pos has # the file position of the previous body. Ensure it's set to # None. self.pos = None return request