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# Copyright (C) 2003-2007 Robey Pointer <robeypointer@gmail.com> # # This file is part of paramiko. # # Paramiko is free software; you can redistribute it and/or modify it under the # terms of the GNU Lesser General Public License as published by the Free # Software Foundation; either version 2.1 of the License, or (at your option) # any later version. # # Paramiko is distributed in the hope that it will be useful, but WITHOUT ANY # WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR # A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more # details. # # You should have received a copy of the GNU Lesser General Public License # along with Paramiko; if not, write to the Free Software Foundation, Inc., # 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. """ `.AuthHandler` """ import weakref import time import re from paramiko.common import ( cMSG_SERVICE_REQUEST, cMSG_DISCONNECT, DISCONNECT_SERVICE_NOT_AVAILABLE, DISCONNECT_NO_MORE_AUTH_METHODS_AVAILABLE, cMSG_USERAUTH_REQUEST, cMSG_SERVICE_ACCEPT, DEBUG, AUTH_SUCCESSFUL, INFO, cMSG_USERAUTH_SUCCESS, cMSG_USERAUTH_FAILURE, AUTH_PARTIALLY_SUCCESSFUL, cMSG_USERAUTH_INFO_REQUEST, WARNING, AUTH_FAILED, cMSG_USERAUTH_PK_OK, cMSG_USERAUTH_INFO_RESPONSE, MSG_SERVICE_REQUEST, MSG_SERVICE_ACCEPT, MSG_USERAUTH_REQUEST, MSG_USERAUTH_SUCCESS, MSG_USERAUTH_FAILURE, MSG_USERAUTH_BANNER, MSG_USERAUTH_INFO_REQUEST, MSG_USERAUTH_INFO_RESPONSE, cMSG_USERAUTH_GSSAPI_RESPONSE, cMSG_USERAUTH_GSSAPI_TOKEN, cMSG_USERAUTH_GSSAPI_MIC, MSG_USERAUTH_GSSAPI_RESPONSE, MSG_USERAUTH_GSSAPI_TOKEN, MSG_USERAUTH_GSSAPI_ERROR, MSG_USERAUTH_GSSAPI_ERRTOK, MSG_USERAUTH_GSSAPI_MIC, MSG_NAMES, cMSG_USERAUTH_BANNER, ) from paramiko.message import Message from paramiko.py3compat import b, u from paramiko.ssh_exception import ( SSHException, AuthenticationException, BadAuthenticationType, PartialAuthentication, ) from paramiko.server import InteractiveQuery from paramiko.ssh_gss import GSSAuth, GSS_EXCEPTIONS class AuthHandler(object): """ Internal class to handle the mechanics of authentication. """ def __init__(self, transport): self.transport = weakref.proxy(transport) self.username = None self.authenticated = False self.auth_event = None self.auth_method = "" self.banner = None self.password = None self.private_key = None self.interactive_handler = None self.submethods = None # for server mode: self.auth_username = None self.auth_fail_count = 0 # for GSSAPI self.gss_host = None self.gss_deleg_creds = True def _log(self, *args): return self.transport._log(*args) def is_authenticated(self): return self.authenticated def get_username(self): if self.transport.server_mode: return self.auth_username else: return self.username def auth_none(self, username, event): self.transport.lock.acquire() try: self.auth_event = event self.auth_method = "none" self.username = username self._request_auth() finally: self.transport.lock.release() def auth_publickey(self, username, key, event): self.transport.lock.acquire() try: self.auth_event = event self.auth_method = "publickey" self.username = username self.private_key = key self._request_auth() finally: self.transport.lock.release() def auth_password(self, username, password, event): self.transport.lock.acquire() try: self.auth_event = event self.auth_method = "password" self.username = username self.password = password self._request_auth() finally: self.transport.lock.release() def auth_interactive(self, username, handler, event, submethods=""): """ response_list = handler(title, instructions, prompt_list) """ self.transport.lock.acquire() try: self.auth_event = event self.auth_method = "keyboard-interactive" self.username = username self.interactive_handler = handler self.submethods = submethods self._request_auth() finally: self.transport.lock.release() def auth_gssapi_with_mic(self, username, gss_host, gss_deleg_creds, event): self.transport.lock.acquire() try: self.auth_event = event self.auth_method = "gssapi-with-mic" self.username = username self.gss_host = gss_host self.gss_deleg_creds = gss_deleg_creds self._request_auth() finally: self.transport.lock.release() def auth_gssapi_keyex(self, username, event): self.transport.lock.acquire() try: self.auth_event = event self.auth_method = "gssapi-keyex" self.username = username self._request_auth() finally: self.transport.lock.release() def abort(self): if self.auth_event is not None: self.auth_event.set() # ...internals... def _request_auth(self): m = Message() m.add_byte(cMSG_SERVICE_REQUEST) m.add_string("ssh-userauth") self.transport._send_message(m) def _disconnect_service_not_available(self): m = Message() m.add_byte(cMSG_DISCONNECT) m.add_int(DISCONNECT_SERVICE_NOT_AVAILABLE) m.add_string("Service not available") m.add_string("en") self.transport._send_message(m) self.transport.close() def _disconnect_no_more_auth(self): m = Message() m.add_byte(cMSG_DISCONNECT) m.add_int(DISCONNECT_NO_MORE_AUTH_METHODS_AVAILABLE) m.add_string("No more auth methods available") m.add_string("en") self.transport._send_message(m) self.transport.close() def _get_key_type_and_bits(self, key): """ Given any key, return its type/algorithm & bits-to-sign. Intended for input to or verification of, key signatures. """ # Use certificate contents, if available, plain pubkey otherwise if key.public_blob: return key.public_blob.key_type, key.public_blob.key_blob else: return key.get_name(), key def _get_session_blob(self, key, service, username, algorithm): m = Message() m.add_string(self.transport.session_id) m.add_byte(cMSG_USERAUTH_REQUEST) m.add_string(username) m.add_string(service) m.add_string("publickey") m.add_boolean(True) _, bits = self._get_key_type_and_bits(key) m.add_string(algorithm) m.add_string(bits) return m.asbytes() def wait_for_response(self, event): max_ts = None if self.transport.auth_timeout is not None: max_ts = time.time() + self.transport.auth_timeout while True: event.wait(0.1) if not self.transport.is_active(): e = self.transport.get_exception() if (e is None) or issubclass(e.__class__, EOFError): e = AuthenticationException("Authentication failed.") raise e if event.is_set(): break if max_ts is not None and max_ts <= time.time(): raise AuthenticationException("Authentication timeout.") if not self.is_authenticated(): e = self.transport.get_exception() if e is None: e = AuthenticationException("Authentication failed.") # this is horrible. Python Exception isn't yet descended from # object, so type(e) won't work. :( if issubclass(e.__class__, PartialAuthentication): return e.allowed_types raise e return [] def _parse_service_request(self, m): service = m.get_text() if self.transport.server_mode and (service == "ssh-userauth"): # accepted m = Message() m.add_byte(cMSG_SERVICE_ACCEPT) m.add_string(service) self.transport._send_message(m) banner, language = self.transport.server_object.get_banner() if banner: m = Message() m.add_byte(cMSG_USERAUTH_BANNER) m.add_string(banner) m.add_string(language) self.transport._send_message(m) return # dunno this one self._disconnect_service_not_available() def _generate_key_from_request(self, algorithm, keyblob): # For use in server mode. options = self.transport.preferred_pubkeys if algorithm.replace("-cert-v01@openssh.com", "") not in options: err = ( "Auth rejected: pubkey algorithm '{}' unsupported or disabled" ) self._log(INFO, err.format(algorithm)) return None return self.transport._key_info[algorithm](Message(keyblob)) def _finalize_pubkey_algorithm(self, key_type): # Short-circuit for non-RSA keys if "rsa" not in key_type: return key_type self._log( DEBUG, "Finalizing pubkey algorithm for key of type {!r}".format( key_type ), ) # NOTE re #2017: When the key is an RSA cert and the remote server is # OpenSSH 7.7 or earlier, always use ssh-rsa-cert-v01@openssh.com. # Those versions of the server won't support rsa-sha2 family sig algos # for certs specifically, and in tandem with various server bugs # regarding server-sig-algs, it's impossible to fit this into the rest # of the logic here. if key_type.endswith("-cert-v01@openssh.com") and re.search( r"-OpenSSH_(?:[1-6]|7\.[0-7])", self.transport.remote_version ): pubkey_algo = "ssh-rsa-cert-v01@openssh.com" self.transport._agreed_pubkey_algorithm = pubkey_algo self._log(DEBUG, "OpenSSH<7.8 + RSA cert = forcing ssh-rsa!") self._log( DEBUG, "Agreed upon {!r} pubkey algorithm".format(pubkey_algo) ) return pubkey_algo # Normal attempts to handshake follow from here. # Only consider RSA algos from our list, lest we agree on another! my_algos = [x for x in self.transport.preferred_pubkeys if "rsa" in x] self._log(DEBUG, "Our pubkey algorithm list: {}".format(my_algos)) # Short-circuit negatively if user disabled all RSA algos (heh) if not my_algos: raise SSHException( "An RSA key was specified, but no RSA pubkey algorithms are configured!" # noqa ) # Check for server-sig-algs if supported & sent server_algo_str = u( self.transport.server_extensions.get("server-sig-algs", b("")) ) pubkey_algo = None if server_algo_str: server_algos = server_algo_str.split(",") self._log( DEBUG, "Server-side algorithm list: {}".format(server_algos) ) # Only use algos from our list that the server likes, in our own # preference order. (NOTE: purposefully using same style as in # Transport...expect to refactor later) agreement = list(filter(server_algos.__contains__, my_algos)) if agreement: pubkey_algo = agreement[0] self._log( DEBUG, "Agreed upon {!r} pubkey algorithm".format(pubkey_algo), ) else: self._log(DEBUG, "No common pubkey algorithms exist! Dying.") # TODO: MAY want to use IncompatiblePeer again here but that's # technically for initial key exchange, not pubkey auth. err = "Unable to agree on a pubkey algorithm for signing a {!r} key!" # noqa raise AuthenticationException(err.format(key_type)) else: # Fallback: first one in our (possibly tweaked by caller) list pubkey_algo = my_algos[0] msg = "Server did not send a server-sig-algs list; defaulting to our first preferred algo ({!r})" # noqa self._log(DEBUG, msg.format(pubkey_algo)) self._log( DEBUG, "NOTE: you may use the 'disabled_algorithms' SSHClient/Transport init kwarg to disable that or other algorithms if your server does not support them!", # noqa ) if key_type.endswith("-cert-v01@openssh.com"): pubkey_algo += "-cert-v01@openssh.com" self.transport._agreed_pubkey_algorithm = pubkey_algo return pubkey_algo def _parse_service_accept(self, m): service = m.get_text() if service == "ssh-userauth": # TODO 3.0: this message sucks ass. change it to something more # obvious. it always appears to mean "we already authed" but no! it # just means "we are allowed to TRY authing!" self._log(DEBUG, "userauth is OK") m = Message() m.add_byte(cMSG_USERAUTH_REQUEST) m.add_string(self.username) m.add_string("ssh-connection") m.add_string(self.auth_method) if self.auth_method == "password": m.add_boolean(False) password = b(self.password) m.add_string(password) elif self.auth_method == "publickey": m.add_boolean(True) key_type, bits = self._get_key_type_and_bits(self.private_key) algorithm = self._finalize_pubkey_algorithm(key_type) m.add_string(algorithm) m.add_string(bits) blob = self._get_session_blob( self.private_key, "ssh-connection", self.username, algorithm, ) sig = self.private_key.sign_ssh_data(blob, algorithm) m.add_string(sig) elif self.auth_method == "keyboard-interactive": m.add_string("") m.add_string(self.submethods) elif self.auth_method == "gssapi-with-mic": sshgss = GSSAuth(self.auth_method, self.gss_deleg_creds) m.add_bytes(sshgss.ssh_gss_oids()) # send the supported GSSAPI OIDs to the server self.transport._send_message(m) ptype, m = self.transport.packetizer.read_message() if ptype == MSG_USERAUTH_BANNER: self._parse_userauth_banner(m) ptype, m = self.transport.packetizer.read_message() if ptype == MSG_USERAUTH_GSSAPI_RESPONSE: # Read the mechanism selected by the server. We send just # the Kerberos V5 OID, so the server can only respond with # this OID. mech = m.get_string() m = Message() m.add_byte(cMSG_USERAUTH_GSSAPI_TOKEN) try: m.add_string( sshgss.ssh_init_sec_context( self.gss_host, mech, self.username ) ) except GSS_EXCEPTIONS as e: return self._handle_local_gss_failure(e) self.transport._send_message(m) while True: ptype, m = self.transport.packetizer.read_message() if ptype == MSG_USERAUTH_GSSAPI_TOKEN: srv_token = m.get_string() try: next_token = sshgss.ssh_init_sec_context( self.gss_host, mech, self.username, srv_token, ) except GSS_EXCEPTIONS as e: return self._handle_local_gss_failure(e) # After this step the GSSAPI should not return any # token. If it does, we keep sending the token to # the server until no more token is returned. if next_token is None: break else: m = Message() m.add_byte(cMSG_USERAUTH_GSSAPI_TOKEN) m.add_string(next_token) self.transport.send_message(m) else: raise SSHException( "Received Package: {}".format(MSG_NAMES[ptype]) ) m = Message() m.add_byte(cMSG_USERAUTH_GSSAPI_MIC) # send the MIC to the server m.add_string(sshgss.ssh_get_mic(self.transport.session_id)) elif ptype == MSG_USERAUTH_GSSAPI_ERRTOK: # RFC 4462 says we are not required to implement GSS-API # error messages. # See RFC 4462 Section 3.8 in # http://www.ietf.org/rfc/rfc4462.txt raise SSHException("Server returned an error token") elif ptype == MSG_USERAUTH_GSSAPI_ERROR: maj_status = m.get_int() min_status = m.get_int() err_msg = m.get_string() m.get_string() # Lang tag - discarded raise SSHException( """GSS-API Error: Major Status: {} Minor Status: {} Error Message: {} """.format( maj_status, min_status, err_msg ) ) elif ptype == MSG_USERAUTH_FAILURE: self._parse_userauth_failure(m) return else: raise SSHException( "Received Package: {}".format(MSG_NAMES[ptype]) ) elif ( self.auth_method == "gssapi-keyex" and self.transport.gss_kex_used ): kexgss = self.transport.kexgss_ctxt kexgss.set_username(self.username) mic_token = kexgss.ssh_get_mic(self.transport.session_id) m.add_string(mic_token) elif self.auth_method == "none": pass else: raise SSHException( 'Unknown auth method "{}"'.format(self.auth_method) ) self.transport._send_message(m) else: self._log( DEBUG, 'Service request "{}" accepted (?)'.format(service) ) def _send_auth_result(self, username, method, result): # okay, send result m = Message() if result == AUTH_SUCCESSFUL: self._log(INFO, "Auth granted ({}).".format(method)) m.add_byte(cMSG_USERAUTH_SUCCESS) self.authenticated = True else: self._log(INFO, "Auth rejected ({}).".format(method)) m.add_byte(cMSG_USERAUTH_FAILURE) m.add_string( self.transport.server_object.get_allowed_auths(username) ) if result == AUTH_PARTIALLY_SUCCESSFUL: m.add_boolean(True) else: m.add_boolean(False) self.auth_fail_count += 1 self.transport._send_message(m) if self.auth_fail_count >= 10: self._disconnect_no_more_auth() if result == AUTH_SUCCESSFUL: self.transport._auth_trigger() def _interactive_query(self, q): # make interactive query instead of response m = Message() m.add_byte(cMSG_USERAUTH_INFO_REQUEST) m.add_string(q.name) m.add_string(q.instructions) m.add_string(bytes()) m.add_int(len(q.prompts)) for p in q.prompts: m.add_string(p[0]) m.add_boolean(p[1]) self.transport._send_message(m) def _parse_userauth_request(self, m): if not self.transport.server_mode: # er, uh... what? m = Message() m.add_byte(cMSG_USERAUTH_FAILURE) m.add_string("none") m.add_boolean(False) self.transport._send_message(m) return if self.authenticated: # ignore return username = m.get_text() service = m.get_text() method = m.get_text() self._log( DEBUG, "Auth request (type={}) service={}, username={}".format( method, service, username ), ) if service != "ssh-connection": self._disconnect_service_not_available() return if (self.auth_username is not None) and ( self.auth_username != username ): self._log( WARNING, "Auth rejected because the client attempted to change username in mid-flight", # noqa ) self._disconnect_no_more_auth() return self.auth_username = username # check if GSS-API authentication is enabled gss_auth = self.transport.server_object.enable_auth_gssapi() if method == "none": result = self.transport.server_object.check_auth_none(username) elif method == "password": changereq = m.get_boolean() password = m.get_binary() try: password = password.decode("UTF-8") except UnicodeError: # some clients/servers expect non-utf-8 passwords! # in this case, just return the raw byte string. pass if changereq: # always treated as failure, since we don't support changing # passwords, but collect the list of valid auth types from # the callback anyway self._log(DEBUG, "Auth request to change passwords (rejected)") newpassword = m.get_binary() try: newpassword = newpassword.decode("UTF-8", "replace") except UnicodeError: pass result = AUTH_FAILED else: result = self.transport.server_object.check_auth_password( username, password ) elif method == "publickey": sig_attached = m.get_boolean() # NOTE: server never wants to guess a client's algo, they're # telling us directly. No need for _finalize_pubkey_algorithm # anywhere in this flow. algorithm = m.get_text() keyblob = m.get_binary() try: key = self._generate_key_from_request(algorithm, keyblob) except SSHException as e: self._log(INFO, "Auth rejected: public key: {}".format(str(e))) key = None except Exception as e: msg = ( "Auth rejected: unsupported or mangled public key ({}: {})" ) # noqa self._log(INFO, msg.format(e.__class__.__name__, e)) key = None if key is None: self._disconnect_no_more_auth() return # first check if this key is okay... if not, we can skip the verify result = self.transport.server_object.check_auth_publickey( username, key ) if result != AUTH_FAILED: # key is okay, verify it if not sig_attached: # client wants to know if this key is acceptable, before it # signs anything... send special "ok" message m = Message() m.add_byte(cMSG_USERAUTH_PK_OK) m.add_string(algorithm) m.add_string(keyblob) self.transport._send_message(m) return sig = Message(m.get_binary()) blob = self._get_session_blob( key, service, username, algorithm ) if not key.verify_ssh_sig(blob, sig): self._log(INFO, "Auth rejected: invalid signature") result = AUTH_FAILED elif method == "keyboard-interactive": submethods = m.get_string() result = self.transport.server_object.check_auth_interactive( username, submethods ) if isinstance(result, InteractiveQuery): # make interactive query instead of response self._interactive_query(result) return elif method == "gssapi-with-mic" and gss_auth: sshgss = GSSAuth(method) # Read the number of OID mechanisms supported by the client. # OpenSSH sends just one OID. It's the Kerveros V5 OID and that's # the only OID we support. mechs = m.get_int() # We can't accept more than one OID, so if the SSH client sends # more than one, disconnect. if mechs > 1: self._log( INFO, "Disconnect: Received more than one GSS-API OID mechanism", ) self._disconnect_no_more_auth() desired_mech = m.get_string() mech_ok = sshgss.ssh_check_mech(desired_mech) # if we don't support the mechanism, disconnect. if not mech_ok: self._log( INFO, "Disconnect: Received an invalid GSS-API OID mechanism", ) self._disconnect_no_more_auth() # send the Kerberos V5 GSSAPI OID to the client supported_mech = sshgss.ssh_gss_oids("server") # RFC 4462 says we are not required to implement GSS-API error # messages. See section 3.8 in http://www.ietf.org/rfc/rfc4462.txt m = Message() m.add_byte(cMSG_USERAUTH_GSSAPI_RESPONSE) m.add_bytes(supported_mech) self.transport.auth_handler = GssapiWithMicAuthHandler( self, sshgss ) self.transport._expected_packet = ( MSG_USERAUTH_GSSAPI_TOKEN, MSG_USERAUTH_REQUEST, MSG_SERVICE_REQUEST, ) self.transport._send_message(m) return elif method == "gssapi-keyex" and gss_auth: mic_token = m.get_string() sshgss = self.transport.kexgss_ctxt if sshgss is None: # If there is no valid context, we reject the authentication result = AUTH_FAILED self._send_auth_result(username, method, result) try: sshgss.ssh_check_mic( mic_token, self.transport.session_id, self.auth_username ) except Exception: result = AUTH_FAILED self._send_auth_result(username, method, result) raise result = AUTH_SUCCESSFUL self.transport.server_object.check_auth_gssapi_keyex( username, result ) else: result = self.transport.server_object.check_auth_none(username) # okay, send result self._send_auth_result(username, method, result) def _parse_userauth_success(self, m): self._log( INFO, "Authentication ({}) successful!".format(self.auth_method) ) self.authenticated = True self.transport._auth_trigger() if self.auth_event is not None: self.auth_event.set() def _parse_userauth_failure(self, m): authlist = m.get_list() partial = m.get_boolean() if partial: self._log(INFO, "Authentication continues...") self._log(DEBUG, "Methods: " + str(authlist)) self.transport.saved_exception = PartialAuthentication(authlist) elif self.auth_method not in authlist: for msg in ( "Authentication type ({}) not permitted.".format( self.auth_method ), "Allowed methods: {}".format(authlist), ): self._log(DEBUG, msg) self.transport.saved_exception = BadAuthenticationType( "Bad authentication type", authlist ) else: self._log( INFO, "Authentication ({}) failed.".format(self.auth_method) ) self.authenticated = False self.username = None if self.auth_event is not None: self.auth_event.set() def _parse_userauth_banner(self, m): banner = m.get_string() self.banner = banner self._log(INFO, "Auth banner: {}".format(banner)) # who cares. def _parse_userauth_info_request(self, m): if self.auth_method != "keyboard-interactive": raise SSHException("Illegal info request from server") title = m.get_text() instructions = m.get_text() m.get_binary() # lang prompts = m.get_int() prompt_list = [] for i in range(prompts): prompt_list.append((m.get_text(), m.get_boolean())) response_list = self.interactive_handler( title, instructions, prompt_list ) m = Message() m.add_byte(cMSG_USERAUTH_INFO_RESPONSE) m.add_int(len(response_list)) for r in response_list: m.add_string(r) self.transport._send_message(m) def _parse_userauth_info_response(self, m): if not self.transport.server_mode: raise SSHException("Illegal info response from server") n = m.get_int() responses = [] for i in range(n): responses.append(m.get_text()) result = self.transport.server_object.check_auth_interactive_response( responses ) if isinstance(result, InteractiveQuery): # make interactive query instead of response self._interactive_query(result) return self._send_auth_result( self.auth_username, "keyboard-interactive", result ) def _handle_local_gss_failure(self, e): self.transport.saved_exception = e self._log(DEBUG, "GSSAPI failure: {}".format(e)) self._log(INFO, "Authentication ({}) failed.".format(self.auth_method)) self.authenticated = False self.username = None if self.auth_event is not None: self.auth_event.set() return # TODO: do the same to the other tables, in Transport. # TODO 3.0: MAY make sense to make these tables into actual # classes/instances that can be fed a mode bool or whatever. Or, # alternately (both?) make the message types small classes or enums that # embed this info within themselves (which could also then tidy up the # current 'integer -> human readable short string' stuff in common.py). # TODO: if we do that, also expose 'em publicly. # Messages which should be handled _by_ servers (sent by clients) _server_handler_table = { MSG_SERVICE_REQUEST: _parse_service_request, MSG_USERAUTH_REQUEST: _parse_userauth_request, MSG_USERAUTH_INFO_RESPONSE: _parse_userauth_info_response, } # Messages which should be handled _by_ clients (sent by servers) _client_handler_table = { MSG_SERVICE_ACCEPT: _parse_service_accept, MSG_USERAUTH_SUCCESS: _parse_userauth_success, MSG_USERAUTH_FAILURE: _parse_userauth_failure, MSG_USERAUTH_BANNER: _parse_userauth_banner, MSG_USERAUTH_INFO_REQUEST: _parse_userauth_info_request, } # NOTE: prior to the fix for #1283, this was a static dict instead of a # property. Should be backwards compatible in most/all cases. @property def _handler_table(self): if self.transport.server_mode: return self._server_handler_table else: return self._client_handler_table class GssapiWithMicAuthHandler(object): """A specialized Auth handler for gssapi-with-mic During the GSSAPI token exchange we need a modified dispatch table, because the packet type numbers are not unique. """ method = "gssapi-with-mic" def __init__(self, delegate, sshgss): self._delegate = delegate self.sshgss = sshgss def abort(self): self._restore_delegate_auth_handler() return self._delegate.abort() @property def transport(self): return self._delegate.transport @property def _send_auth_result(self): return self._delegate._send_auth_result @property def auth_username(self): return self._delegate.auth_username @property def gss_host(self): return self._delegate.gss_host def _restore_delegate_auth_handler(self): self.transport.auth_handler = self._delegate def _parse_userauth_gssapi_token(self, m): client_token = m.get_string() # use the client token as input to establish a secure # context. sshgss = self.sshgss try: token = sshgss.ssh_accept_sec_context( self.gss_host, client_token, self.auth_username ) except Exception as e: self.transport.saved_exception = e result = AUTH_FAILED self._restore_delegate_auth_handler() self._send_auth_result(self.auth_username, self.method, result) raise if token is not None: m = Message() m.add_byte(cMSG_USERAUTH_GSSAPI_TOKEN) m.add_string(token) self.transport._expected_packet = ( MSG_USERAUTH_GSSAPI_TOKEN, MSG_USERAUTH_GSSAPI_MIC, MSG_USERAUTH_REQUEST, ) self.transport._send_message(m) def _parse_userauth_gssapi_mic(self, m): mic_token = m.get_string() sshgss = self.sshgss username = self.auth_username self._restore_delegate_auth_handler() try: sshgss.ssh_check_mic( mic_token, self.transport.session_id, username ) except Exception as e: self.transport.saved_exception = e result = AUTH_FAILED self._send_auth_result(username, self.method, result) raise # TODO: Implement client credential saving. # The OpenSSH server is able to create a TGT with the delegated # client credentials, but this is not supported by GSS-API. result = AUTH_SUCCESSFUL self.transport.server_object.check_auth_gssapi_with_mic( username, result ) # okay, send result self._send_auth_result(username, self.method, result) def _parse_service_request(self, m): self._restore_delegate_auth_handler() return self._delegate._parse_service_request(m) def _parse_userauth_request(self, m): self._restore_delegate_auth_handler() return self._delegate._parse_userauth_request(m) __handler_table = { MSG_SERVICE_REQUEST: _parse_service_request, MSG_USERAUTH_REQUEST: _parse_userauth_request, MSG_USERAUTH_GSSAPI_TOKEN: _parse_userauth_gssapi_token, MSG_USERAUTH_GSSAPI_MIC: _parse_userauth_gssapi_mic, } @property def _handler_table(self): # TODO: determine if we can cut this up like we did for the primary # AuthHandler class. return self.__handler_table