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# Copyright: (c) 2018, Jordan Borean (@jborean93) <jborean93@gmail.com> # MIT License (see LICENSE or https://opensource.org/licenses/MIT) import hashlib import hmac import os import struct from ntlm_auth.compute_response import ComputeResponse from ntlm_auth.constants import AvId, AvFlags, MessageTypes, NegotiateFlags, \ NTLM_SIGNATURE from ntlm_auth.rc4 import ARC4 try: from collections import OrderedDict except ImportError: # pragma: no cover from ordereddict import OrderedDict class TargetInfo(object): def __init__(self): self.fields = OrderedDict() def __setitem__(self, key, value): self.fields[key] = value def __getitem__(self, key): return self.fields.get(key, None) def __delitem__(self, key): del self.fields[key] def pack(self): if AvId.MSV_AV_EOL in self.fields: del self[AvId.MSV_AV_EOL] data = b'' for attribute_type, attribute_value in self.fields.items(): data += struct.pack("<HH", attribute_type, len(attribute_value)) data += attribute_value # end with a NTLMSSP_AV_EOL data += struct.pack('<HH', AvId.MSV_AV_EOL, 0) return data def unpack(self, data): attribute_type = None while attribute_type != AvId.MSV_AV_EOL: attribute_type = struct.unpack("<H", data[:2])[0] attribute_length = struct.unpack("<H", data[2:4])[0] self[attribute_type] = data[4:attribute_length + 4] data = data[4 + attribute_length:] class NegotiateMessage(object): EXPECTED_BODY_LENGTH = 40 def __init__(self, negotiate_flags, domain_name, workstation): """ [MS-NLMP] v28.0 2016-07-14 2.2.1.1 NEGOTIATE_MESSAGE The NEGOTIATE_MESSAGE defines an NTLM Negotiate message that is sent from the client to the server. This message allows the client to specify its supported NTLM options to the server. :param negotiate_flags: A NEGOTIATE structure that contains a set of bit flags. These flags are the options the client supports :param domain_name: The domain name of the user to authenticate with, default is None :param workstation: The worksation of the client machine, default is None Attributes: signature: An 8-byte character array that MUST contain the ASCII string 'NTLMSSP\0' message_type: A 32-bit unsigned integer that indicates the message type. This field must be set to 0x00000001 negotiate_flags: A NEGOTIATE structure that contains a set of bit flags. These flags are the options the client supports version: Contains the windows version info of the client. It is used only debugging purposes and are only set when NTLMSSP_NEGOTIATE_VERSION flag is set domain_name: A byte-array that contains the name of the client authentication domain that MUST Be encoded in the negotiated character set workstation: A byte-array that contains the name of the client machine that MUST Be encoded in the negotiated character set """ self.signature = NTLM_SIGNATURE self.message_type = struct.pack('<L', MessageTypes.NTLM_NEGOTIATE) # Check if the domain_name value is set, if it is, make sure the # negotiate_flag is also set if domain_name is None: self.domain_name = '' else: self.domain_name = domain_name negotiate_flags |= \ NegotiateFlags.NTLMSSP_NEGOTIATE_OEM_DOMAIN_SUPPLIED # Check if the workstation value is set, if it is, make sure the # negotiate_flag is also set if workstation is None: self.workstation = '' else: self.workstation = workstation negotiate_flags |= \ NegotiateFlags.NTLMSSP_NEGOTIATE_OEM_WORKSTATION_SUPPLIED # Set the encoding flag to use OEM, remove UNICODE if set as it isn't # support in this message negotiate_flags -= NegotiateFlags.NTLMSSP_NEGOTIATE_UNICODE negotiate_flags |= NegotiateFlags.NTLMSSP_NEGOTIATE_OEM self.domain_name = self.domain_name.encode('ascii') self.workstation = self.workstation.encode('ascii') self.version = get_version(negotiate_flags) self.negotiate_flags = struct.pack('<I', negotiate_flags) def get_data(self): payload_offset = self.EXPECTED_BODY_LENGTH # DomainNameFields - 8 bytes domain_name_len = struct.pack('<H', len(self.domain_name)) domain_name_max_len = struct.pack('<H', len(self.domain_name)) domain_name_buffer_offset = struct.pack('<I', payload_offset) payload_offset += len(self.domain_name) # WorkstationFields - 8 bytes workstation_len = struct.pack('<H', len(self.workstation)) workstation_max_len = struct.pack('<H', len(self.workstation)) workstation_buffer_offset = struct.pack('<I', payload_offset) payload_offset += len(self.workstation) # Payload - variable length payload = self.domain_name payload += self.workstation # Bring the header values together into 1 message msg1 = self.signature msg1 += self.message_type msg1 += self.negotiate_flags msg1 += domain_name_len msg1 += domain_name_max_len msg1 += domain_name_buffer_offset msg1 += workstation_len msg1 += workstation_max_len msg1 += workstation_buffer_offset msg1 += self.version assert self.EXPECTED_BODY_LENGTH == len(msg1),\ "BODY_LENGTH: %d != msg1: %d"\ % (self.EXPECTED_BODY_LENGTH, len(msg1)) # Adding the payload data to the message msg1 += payload return msg1 class ChallengeMessage(object): def __init__(self, msg2): """ [MS-NLMP] v28.0 2016-07-14 2.2.1.2 CHALLENGE_MESSAGE The CHALLENGE_MESSAGE defines an NTLM challenge message that is sent from the server to the client. The CHALLENGE_MESSAGE is used by the server to challenge the client to prove its identity, For connection-oriented requests, the CHALLENGE_MESSAGE generated by the server is in response to the NEGOTIATE_MESSAGE from the client. :param msg2: The CHALLENGE_MESSAGE received from the server after sending our NEGOTIATE_MESSAGE. This has been decoded from a base64 string Attributes signature: An 8-byte character array that MUST contain the ASCII string 'NTLMSSP\0' message_type: A 32-bit unsigned integer that indicates the message type. This field must be set to 0x00000002 negotiate_flags: A NEGOTIATE strucutre that contains a set of bit flags. The server sets flags to indicate options it supports server_challenge: A 64-bit value that contains the NTLM challenge. The challenge is a 64-bit nonce. Used in the AuthenticateMessage message reserved: An 8-byte array whose elements MUST be zero when sent and MUST be ignored on receipt version: When NTLMSSP_NEGOTIATE_VERSION flag is set in negotiate_flags field which contains the windows version info. Used only for debugging purposes target_name: When NTLMSSP_REQUEST_TARGET is set is a byte array that contains the name of the server authentication realm. In a domain environment this is the domain name not server name target_info: When NTLMSSP_NEGOTIATE_TARGET_INFO is set is a byte array that contains a sequence of AV_PAIR structures """ self.data = msg2 # Setting the object values from the raw_challenge_message self.signature = msg2[0:8] self.message_type = struct.unpack("<I", msg2[8:12])[0] self.negotiate_flags = struct.unpack("<I", msg2[20:24])[0] self.server_challenge = msg2[24:32] self.reserved = msg2[32:40] if self.negotiate_flags & \ NegotiateFlags.NTLMSSP_NEGOTIATE_VERSION and \ self.negotiate_flags & \ NegotiateFlags.NTLMSSP_NEGOTIATE_EXTENDED_SESSIONSECURITY and \ len(msg2) > 48: self.version = struct.unpack("<q", msg2[48:56])[0] else: self.version = None if self.negotiate_flags & NegotiateFlags.NTLMSSP_REQUEST_TARGET: target_name_len = struct.unpack("<H", msg2[12:14])[0] target_name_max_len = struct.unpack("<H", msg2[14:16])[0] target_name_offset_mix = struct.unpack("<I", msg2[16:20])[0] target_offset_max = target_name_offset_mix + target_name_len self.target_name = msg2[target_name_offset_mix:target_offset_max] else: self.target_name = None if self.negotiate_flags & NegotiateFlags.NTLMSSP_NEGOTIATE_TARGET_INFO: target_info_len = struct.unpack("<H", msg2[40:42])[0] target_info_max_len = struct.unpack("<H", msg2[42:44])[0] target_info_offset_min = struct.unpack("<I", msg2[44:48])[0] target_info_offset_max = target_info_offset_min + target_info_len target_info_raw = \ msg2[target_info_offset_min:target_info_offset_max] self.target_info = TargetInfo() self.target_info.unpack(target_info_raw) else: self.target_info = None # Verify initial integrity of the message, it matches what should be # there assert self.signature == NTLM_SIGNATURE assert self.message_type == MessageTypes.NTLM_CHALLENGE def get_data(self): return self.data class AuthenticateMessage(object): EXPECTED_BODY_LENGTH = 72 EXPECTED_BODY_LENGTH_WITH_MIC = 88 def __init__(self, user_name, password, domain_name, workstation, challenge_message, ntlm_compatibility, server_certificate_hash=None, cbt_data=None): """ [MS-NLMP] v28.0 2016-07-14 2.2.1.3 AUTHENTICATE_MESSAGE The AUTHENTICATE_MESSAGE defines an NTLM authenticate message that is sent from the client to the server after the CHALLENGE_MESSAGE is processed by the client. :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 challenge_message: A ChallengeMessage object that was received from the server after the negotiate_message :param ntlm_compatibility: The Lan Manager Compatibility Level, used to determine what NTLM auth version to use, see Ntlm in ntlm.py for more details :param server_certificate_hash: Deprecated, used cbt_data instead :param cbt_data: The GssChannelBindingsStruct that contains the CBT data to bind in the auth response Message Attributes (Attributes used to compute the message structure): signature: An 8-byte character array that MUST contain the ASCII string 'NTLMSSP\0' message_type: A 32-bit unsigned integer that indicates the message type. This field must be set to 0x00000003 negotiate_flags: A NEGOTIATE strucutre that contains a set of bit flags. These flags are the choices the client has made from the CHALLENGE_MESSAGE options version: Contains the windows version info of the client. It is used only debugging purposes and are only set when NTLMSSP_NEGOTIATE_VERSION flag is set mic: The message integrity for the NEGOTIATE_MESSAGE, CHALLENGE_MESSAGE and AUTHENTICATE_MESSAGE lm_challenge_response: An LM_RESPONSE of LMv2_RESPONSE structure that contains the computed LM response to the challenge nt_challenge_response: An NTLM_RESPONSE or NTLMv2_RESPONSE structure that contains the computed NT response to the challenge domain_name: The domain or computer name hosting the user account, MUST be encoded in the negotiated character set user_name: The name of the user to be authenticated, MUST be encoded in the negotiated character set workstation: The name of the computer to which the user is logged on, MUST Be encoded in the negotiated character set encrypted_random_session_key: The client's encrypted random session key Non-Message Attributes (Attributes not used in auth message): exported_session_key: A randomly generated session key based on other keys, used to derive the SIGNKEY and SEALKEY target_info: The AV_PAIR structure used in the nt response calculation """ self.signature = NTLM_SIGNATURE self.message_type = struct.pack('<L', MessageTypes.NTLM_AUTHENTICATE) self.negotiate_flags = challenge_message.negotiate_flags self.version = get_version(self.negotiate_flags) self.mic = None if domain_name is None: self.domain_name = '' else: self.domain_name = domain_name if workstation is None: self.workstation = '' else: self.workstation = workstation if self.negotiate_flags & NegotiateFlags.NTLMSSP_NEGOTIATE_UNICODE: self.negotiate_flags -= NegotiateFlags.NTLMSSP_NEGOTIATE_OEM encoding_value = 'utf-16-le' else: encoding_value = 'ascii' self.domain_name = self.domain_name.encode(encoding_value) self.user_name = user_name.encode(encoding_value) self.workstation = self.workstation.encode(encoding_value) compute_response = ComputeResponse(user_name, password, domain_name, challenge_message, ntlm_compatibility) self.lm_challenge_response = \ compute_response.get_lm_challenge_response() self.nt_challenge_response, key_exchange_key, target_info = \ compute_response.get_nt_challenge_response( self.lm_challenge_response, server_certificate_hash, cbt_data) self.target_info = target_info if self.negotiate_flags & NegotiateFlags.NTLMSSP_NEGOTIATE_KEY_EXCH: self.exported_session_key = get_random_export_session_key() rc4_handle = ARC4(key_exchange_key) self.encrypted_random_session_key = \ rc4_handle.update(self.exported_session_key) else: self.exported_session_key = key_exchange_key self.encrypted_random_session_key = b'' self.negotiate_flags = struct.pack('<I', self.negotiate_flags) def get_data(self): if self.mic is None: mic = b'' expected_body_length = self.EXPECTED_BODY_LENGTH else: mic = self.mic expected_body_length = self.EXPECTED_BODY_LENGTH_WITH_MIC payload_offset = expected_body_length # DomainNameFields - 8 bytes domain_name_len = struct.pack('<H', len(self.domain_name)) domain_name_max_len = struct.pack('<H', len(self.domain_name)) domain_name_buffer_offset = struct.pack('<I', payload_offset) payload_offset += len(self.domain_name) # UserNameFields - 8 bytes user_name_len = struct.pack('<H', len(self.user_name)) user_name_max_len = struct.pack('<H', len(self.user_name)) user_name_buffer_offset = struct.pack('<I', payload_offset) payload_offset += len(self.user_name) # WorkstatonFields - 8 bytes workstation_len = struct.pack('<H', len(self.workstation)) workstation_max_len = struct.pack('<H', len(self.workstation)) workstation_buffer_offset = struct.pack('<I', payload_offset) payload_offset += len(self.workstation) # LmChallengeResponseFields - 8 bytes lm_challenge_response_len = \ struct.pack('<H', len(self.lm_challenge_response)) lm_challenge_response_max_len = \ struct.pack('<H', len(self.lm_challenge_response)) lm_challenge_response_buffer_offset = struct.pack('<I', payload_offset) payload_offset += len(self.lm_challenge_response) # NtChallengeResponseFields - 8 bytes nt_challenge_response_len = \ struct.pack('<H', len(self.nt_challenge_response)) nt_challenge_response_max_len = \ struct.pack('<H', len(self.nt_challenge_response)) nt_challenge_response_buffer_offset = struct.pack('<I', payload_offset) payload_offset += len(self.nt_challenge_response) # EncryptedRandomSessionKeyFields - 8 bytes encrypted_random_session_key_len = \ struct.pack('<H', len(self.encrypted_random_session_key)) encrypted_random_session_key_max_len = \ struct.pack('<H', len(self.encrypted_random_session_key)) encrypted_random_session_key_buffer_offset = \ struct.pack('<I', payload_offset) payload_offset += len(self.encrypted_random_session_key) # Payload - variable length payload = self.domain_name payload += self.user_name payload += self.workstation payload += self.lm_challenge_response payload += self.nt_challenge_response payload += self.encrypted_random_session_key msg3 = self.signature msg3 += self.message_type msg3 += lm_challenge_response_len msg3 += lm_challenge_response_max_len msg3 += lm_challenge_response_buffer_offset msg3 += nt_challenge_response_len msg3 += nt_challenge_response_max_len msg3 += nt_challenge_response_buffer_offset msg3 += domain_name_len msg3 += domain_name_max_len msg3 += domain_name_buffer_offset msg3 += user_name_len msg3 += user_name_max_len msg3 += user_name_buffer_offset msg3 += workstation_len msg3 += workstation_max_len msg3 += workstation_buffer_offset msg3 += encrypted_random_session_key_len msg3 += encrypted_random_session_key_max_len msg3 += encrypted_random_session_key_buffer_offset msg3 += self.negotiate_flags msg3 += self.version msg3 += mic # Adding the payload data to the message msg3 += payload return msg3 def add_mic(self, negotiate_message, challenge_message): if self.target_info is not None: av_flags = self.target_info[AvId.MSV_AV_FLAGS] if av_flags is not None and av_flags == \ struct.pack("<L", AvFlags.MIC_PROVIDED): self.mic = struct.pack("<IIII", 0, 0, 0, 0) negotiate_data = negotiate_message.get_data() challenge_data = challenge_message.get_data() authenticate_data = self.get_data() hmac_data = negotiate_data + challenge_data + authenticate_data mic = hmac.new(self.exported_session_key, hmac_data, digestmod=hashlib.md5).digest() self.mic = mic def get_version(negotiate_flags): # Check the negotiate_flag version is set, if it is make sure the version # info is added to the data if negotiate_flags & NegotiateFlags.NTLMSSP_NEGOTIATE_VERSION: # TODO: Get the major and minor version of Windows instead of using # default values product_major_version = struct.pack('<B', 6) product_minor_version = struct.pack('<B', 1) product_build = struct.pack('<H', 7601) version_reserved = b'\x00' * 3 ntlm_revision_current = struct.pack('<B', 15) version = product_major_version version += product_minor_version version += product_build version += version_reserved version += ntlm_revision_current else: version = b'\x00' * 8 return version def get_random_export_session_key(): return os.urandom(16)