class NtlmContext(object): def __init__(self, username, password, domain=None, workstation=None, cbt_data=None, ntlm_compatibility=3): r""" Initialises a NTLM context to use when authenticating using the NTLM protocol. Initialises the NTLM context to use when sending and receiving messages to and from the server. You should be using this object as it supports NTLMv2 authenticate and it easier to use than before. It also brings in the ability to use signing and sealing with session_security and generate a MIC structure. :param username: The username to authenticate with :param password: The password for the username :param domain: The domain part of the username (None if n/a) :param workstation: The localworkstation (None if n/a) :param cbt_data: A GssChannelBindingsStruct or None to bind channel data with the auth process :param ntlm_compatibility: (Default 3) The Lan Manager Compatibility Level to use with the auth message This is set by an Administrator in the registry key 'HKLM\SYSTEM\CurrentControlSet\Control\Lsa\LmCompatibilityLevel' The values correspond to the following; 0 : LM and NTLMv1 1 : LM, NTLMv1 and NTLMv1 with Extended Session Security 2 : NTLMv1 and NTLMv1 with Extended Session Security 3-5 : NTLMv2 Only Note: Values 3 to 5 are no different from a client perspective """ self.username = username self.password = password self.domain = domain self.workstation = workstation self.cbt_data = cbt_data self._server_certificate_hash = None # deprecated for backwards compat self.ntlm_compatibility = ntlm_compatibility self.complete = False # Setting up our flags so the challenge message returns the target info # block if supported self.negotiate_flags = NegotiateFlags.NTLMSSP_NEGOTIATE_TARGET_INFO | \ NegotiateFlags.NTLMSSP_NEGOTIATE_128 | \ NegotiateFlags.NTLMSSP_NEGOTIATE_56 | \ NegotiateFlags.NTLMSSP_NEGOTIATE_UNICODE | \ NegotiateFlags.NTLMSSP_NEGOTIATE_VERSION | \ NegotiateFlags.NTLMSSP_NEGOTIATE_KEY_EXCH | \ NegotiateFlags.NTLMSSP_NEGOTIATE_ALWAYS_SIGN | \ NegotiateFlags.NTLMSSP_NEGOTIATE_SIGN | \ NegotiateFlags.NTLMSSP_NEGOTIATE_SEAL # Setting the message types based on the ntlm_compatibility level self._set_ntlm_compatibility_flags(self.ntlm_compatibility) self._negotiate_message = None self._challenge_message = None self._authenticate_message = None self._session_security = None @property def mic_present(self): if self._authenticate_message: return bool(self._authenticate_message.mic) return False @property def session_key(self): if self._authenticate_message: return self._authenticate_message.exported_session_key def reset_rc4_state(self, outgoing=True): """ Resets the signing cipher for the incoming or outgoing cipher. For SPNEGO for calculating mechListMIC. """ if self._session_security: self._session_security.reset_rc4_state(outgoing=outgoing) def step(self, input_token=None): if self._negotiate_message is None: self._negotiate_message = NegotiateMessage(self.negotiate_flags, self.domain, self.workstation) return self._negotiate_message.get_data() else: self._challenge_message = ChallengeMessage(input_token) self._authenticate_message = AuthenticateMessage( self.username, self.password, self.domain, self.workstation, self._challenge_message, self.ntlm_compatibility, server_certificate_hash=self._server_certificate_hash, cbt_data=self.cbt_data ) self._authenticate_message.add_mic(self._negotiate_message, self._challenge_message) flag_bytes = self._authenticate_message.negotiate_flags flags = struct.unpack("<I", flag_bytes)[0] if flags & NegotiateFlags.NTLMSSP_NEGOTIATE_SEAL or \ flags & NegotiateFlags.NTLMSSP_NEGOTIATE_SIGN: self._session_security = SessionSecurity( flags, self.session_key ) self.complete = True return self._authenticate_message.get_data() def sign(self, data): return self._session_security.get_signature(data) def verify(self, data, signature): self._session_security.verify_signature(data, signature) def wrap(self, data): if self._session_security is None: raise NoAuthContextError("Cannot wrap data as no security context " "has been established") data, header = self._session_security.wrap(data) return header + data def unwrap(self, data): if self._session_security is None: raise NoAuthContextError("Cannot unwrap data as no security " "context has been established") header = data[0:16] data = data[16:] message = self._session_security.unwrap(data, header) return message def _set_ntlm_compatibility_flags(self, ntlm_compatibility): if (ntlm_compatibility >= 0) and (ntlm_compatibility <= 5): if ntlm_compatibility == 0: self.negotiate_flags |= \ NegotiateFlags.NTLMSSP_NEGOTIATE_NTLM | \ NegotiateFlags.NTLMSSP_NEGOTIATE_LM_KEY elif ntlm_compatibility == 1: self.negotiate_flags |= \ NegotiateFlags.NTLMSSP_NEGOTIATE_NTLM | \ NegotiateFlags.NTLMSSP_NEGOTIATE_EXTENDED_SESSIONSECURITY else: self.negotiate_flags |= \ NegotiateFlags.NTLMSSP_NEGOTIATE_EXTENDED_SESSIONSECURITY else: raise Exception("Unknown ntlm_compatibility level - " "expecting value between 0 and 5")
class Ntlm(object): def __init__(self, ntlm_compatibility=3): """ Initialises the NTLM context to use when sending and receiving messages to and from the server. You should be using this object as it supports NTLMv2 authenticate and it easier to use than before. It also brings in the ability to use signing and sealing with session_security and generate a MIC structure. :param ntlm_compatibility: (Default 3) The Lan Manager Compatibility Level to use with the auth message This is set by an Administrator in the registry key 'HKLM\SYSTEM\CurrentControlSet\Control\Lsa\LmCompatibilityLevel' The values correspond to the following; 0 : LM and NTLMv1 1 : LM, NTLMv1 and NTLMv1 with Extended Session Security 2 : NTLMv1 and NTLMv1 with Extended Session Security 3-5 : NTLMv2 Only Note: Values 3 to 5 are no different from a client perspective Attributes: negotiate_flags: A NEGOTIATE structure that contains a set of bit flags. These flags are the options the client supports and are sent in the negotiate_message ntlm_compatibility: The Lan Manager Compatibility Level, same as the input if supplied negotiate_message: A NegotiateMessage object that is sent to the server challenge_message: A ChallengeMessage object that has been created from the server response authenticate_message: An AuthenticateMessage object that is sent to the server based on the ChallengeMessage session_security: A SessionSecurity structure that can be used to sign and seal messages sent after the authentication challenge """ self.ntlm_compatibility = ntlm_compatibility # Setting up our flags so the challenge message returns the target info # block if supported self.negotiate_flags = NegotiateFlags.NTLMSSP_NEGOTIATE_TARGET_INFO | \ NegotiateFlags.NTLMSSP_NEGOTIATE_128 | \ NegotiateFlags.NTLMSSP_NEGOTIATE_56 | \ NegotiateFlags.NTLMSSP_NEGOTIATE_UNICODE | \ NegotiateFlags.NTLMSSP_NEGOTIATE_VERSION | \ NegotiateFlags.NTLMSSP_NEGOTIATE_KEY_EXCH | \ NegotiateFlags.NTLMSSP_NEGOTIATE_ALWAYS_SIGN | \ NegotiateFlags.NTLMSSP_NEGOTIATE_SIGN | \ NegotiateFlags.NTLMSSP_NEGOTIATE_SEAL # Setting the message types based on the ntlm_compatibility level self._set_ntlm_compatibility_flags(self.ntlm_compatibility) self.negotiate_message = None self.challenge_message = None self.authenticate_message = None self.session_security = None def create_negotiate_message(self, domain_name=None, workstation=None): """ Create an NTLM NEGOTIATE_MESSAGE :param domain_name: The domain name of the user account we are authenticating with, default is None :param worksation: The workstation we are using to authenticate with, default is None :return: A base64 encoded string of the NEGOTIATE_MESSAGE """ self.negotiate_message = NegotiateMessage(self.negotiate_flags, domain_name, workstation) return base64.b64encode(self.negotiate_message.get_data()) def parse_challenge_message(self, msg2): """ Parse the NTLM CHALLENGE_MESSAGE from the server and add it to the Ntlm context fields :param msg2: A base64 encoded string of the CHALLENGE_MESSAGE """ msg2 = base64.b64decode(msg2) self.challenge_message = ChallengeMessage(msg2) def create_authenticate_message(self, user_name, password, domain_name=None, workstation=None, server_certificate_hash=None): """ Create an NTLM AUTHENTICATE_MESSAGE based on the Ntlm context and the previous messages sent and received :param user_name: The user name of the user we are trying to authenticate with :param password: The password of the user we are trying to authenticate with :param domain_name: The domain name of the user account we are authenticated with, default is None :param workstation: The workstation we are using to authenticate with, default is None :param server_certificate_hash: The SHA256 hash string of the server certificate (DER encoded) NTLM is authenticating to. Used for Channel Binding Tokens. If nothing is supplied then the CBT hash will not be sent. See messages.py AuthenticateMessage for more details :return: A base64 encoded string of the AUTHENTICATE_MESSAGE """ self.authenticate_message = \ AuthenticateMessage(user_name, password, domain_name, workstation, self.challenge_message, self.ntlm_compatibility, server_certificate_hash) self.authenticate_message.add_mic(self.negotiate_message, self.challenge_message) # Setups up the session_security context used to sign and seal messages # if wanted if self.negotiate_flags & NegotiateFlags.NTLMSSP_NEGOTIATE_SEAL or \ self.negotiate_flags & NegotiateFlags.NTLMSSP_NEGOTIATE_SIGN: flags = self.authenticate_message.negotiate_flags flag_bytes = struct.unpack("<I", flags)[0] self.session_security = \ SessionSecurity(flag_bytes, self.authenticate_message.exported_session_key) return base64.b64encode(self.authenticate_message.get_data()) def _set_ntlm_compatibility_flags(self, ntlm_compatibility): if (ntlm_compatibility >= 0) and (ntlm_compatibility <= 5): if ntlm_compatibility == 0: self.negotiate_flags |= \ NegotiateFlags.NTLMSSP_NEGOTIATE_NTLM | \ NegotiateFlags.NTLMSSP_NEGOTIATE_LM_KEY elif ntlm_compatibility == 1: self.negotiate_flags |= \ NegotiateFlags.NTLMSSP_NEGOTIATE_NTLM | \ NegotiateFlags.NTLMSSP_NEGOTIATE_EXTENDED_SESSIONSECURITY else: self.negotiate_flags |= \ NegotiateFlags.NTLMSSP_NEGOTIATE_EXTENDED_SESSIONSECURITY else: raise Exception("Unknown ntlm_compatibility level - " "expecting value between 0 and 5")
class Ntlm(object): """ Initialises the NTLM context to use when sending and receiving messages to and from the server. You should be using this object as it supports NTLMv2 authenticate and it easier to use than before. It also brings in the ability to use signing and sealing with session_security and generate a MIC structure. :param ntlm_compatibility: The Lan Manager Compatibility Level to use withe the auth message - Default 3 This is set by an Administrator in the registry key 'HKLM\SYSTEM\CurrentControlSet\Control\Lsa\LmCompatibilityLevel' The values correspond to the following; 0 : LM and NTLMv1 1 : LM, NTLMv1 and NTLMv1 with Extended Session Security 2 : NTLMv1 and NTLMv1 with Extended Session Security 3-5 : NTLMv2 Only Note: Values 3 to 5 are no different as the client supports the same types Attributes: negotiate_flags: A NEGOTIATE structure that contains a set of bit flags. These flags are the options the client supports and are sent in the negotiate_message ntlm_compatibility: The Lan Manager Compatibility Level, same as the input if supplied negotiate_message: A NegotiateMessage object that is sent to the server challenge_message: A ChallengeMessage object that has been created from the server response authenticate_message: An AuthenticateMessage object that is sent to the server based on the ChallengeMessage session_security: A SessionSecurity structure that can be used to sign and seal messages sent after the authentication challenge """ def __init__(self, ntlm_compatibility=3): self.ntlm_compatibility = ntlm_compatibility # Setting up our flags so the challenge message returns the target info block if supported self.negotiate_flags = NegotiateFlags.NTLMSSP_NEGOTIATE_TARGET_INFO | \ NegotiateFlags.NTLMSSP_NEGOTIATE_128 | \ NegotiateFlags.NTLMSSP_NEGOTIATE_56 | \ NegotiateFlags.NTLMSSP_NEGOTIATE_UNICODE | \ NegotiateFlags.NTLMSSP_NEGOTIATE_VERSION | \ NegotiateFlags.NTLMSSP_NEGOTIATE_KEY_EXCH | \ NegotiateFlags.NTLMSSP_NEGOTIATE_ALWAYS_SIGN | \ NegotiateFlags.NTLMSSP_NEGOTIATE_SIGN | \ NegotiateFlags.NTLMSSP_NEGOTIATE_SEAL # Setting the message types based on the ntlm_compatibility level self._set_ntlm_compatibility_flags(self.ntlm_compatibility) self.negotiate_message = None self.challenge_message = None self.authenticate_message = None self.session_security = None def create_negotiate_message(self, domain_name=None, workstation=None): """ Create an NTLM NEGOTIATE_MESSAGE :param domain_name: The domain name of the user account we are authenticating with, default is None :param worksation: The workstation we are using to authenticate with, default is None :return: A base64 encoded string of the NEGOTIATE_MESSAGE """ self.negotiate_message = NegotiateMessage(self.negotiate_flags, domain_name, workstation) return base64.b64encode(self.negotiate_message.get_data()) def parse_challenge_message(self, msg2): """ Parse the NTLM CHALLENGE_MESSAGE from the server and add it to the Ntlm context fields :param msg2: A base64 encoded string of the CHALLENGE_MESSAGE """ msg2 = base64.b64decode(msg2) self.challenge_message = ChallengeMessage(msg2) def create_authenticate_message(self, user_name, password, domain_name=None, workstation=None, server_certificate_hash=None): """ Create an NTLM AUTHENTICATE_MESSAGE based on the Ntlm context and the previous messages sent and received :param user_name: The user name of the user we are trying to authenticate with :param password: The password of the user we are trying to authenticate with :param domain_name: The domain name of the user account we are authenticated with, default is None :param workstation: The workstation we are using to authenticate with, default is None :param server_certificate_hash: The SHA256 hash string of the server certificate (DER encoded) NTLM is authenticating to. Used for Channel Binding Tokens. If nothing is supplied then the CBT hash will not be sent. See messages.py AuthenticateMessage for more details :return: A base64 encoded string of the AUTHENTICATE_MESSAGE """ self.authenticate_message = AuthenticateMessage(user_name, password, domain_name, workstation, self.challenge_message, self.ntlm_compatibility, server_certificate_hash) self.authenticate_message.add_mic(self.negotiate_message, self.challenge_message) # Setups up the session_security context used to sign and seal messages if wanted if self.negotiate_flags & NegotiateFlags.NTLMSSP_NEGOTIATE_SEAL or self.negotiate_flags & NegotiateFlags.NTLMSSP_NEGOTIATE_SIGN: self.session_security = SessionSecurity(struct.unpack("<I", self.authenticate_message.negotiate_flags)[0], self.authenticate_message.exported_session_key) return base64.b64encode(self.authenticate_message.get_data()) def _set_ntlm_compatibility_flags(self, ntlm_compatibility): if (ntlm_compatibility >= 0) and (ntlm_compatibility <= 5): if ntlm_compatibility == 0: self.negotiate_flags |= NegotiateFlags.NTLMSSP_NEGOTIATE_NTLM | \ NegotiateFlags.NTLMSSP_NEGOTIATE_LM_KEY elif ntlm_compatibility == 1: self.negotiate_flags |= NegotiateFlags.NTLMSSP_NEGOTIATE_NTLM | \ NegotiateFlags.NTLMSSP_NEGOTIATE_EXTENDED_SESSIONSECURITY else: self.negotiate_flags |= NegotiateFlags.NTLMSSP_NEGOTIATE_EXTENDED_SESSIONSECURITY else: raise Exception("Unknown ntlm_compatibility level - expecting value between 0 and 5")