module Rex module Proto module SMB class Client require 'rex/text' require 'rex/struct2' require 'rex/proto/smb/constants' require 'rex/proto/smb/exceptions' require 'rex/proto/smb/evasions' require 'rex/proto/smb/crypt' require 'rex/proto/smb/utils' # Some short-hand class aliases CONST = Rex::Proto::SMB::Constants CRYPT = Rex::Proto::SMB::Crypt UTILS = Rex::Proto::SMB::Utils XCEPT = Rex::Proto::SMB::Exceptions EVADE = Rex::Proto::SMB::Evasions def initialize(socket) self.socket = socket self.native_os = 'Windows 2000 2195' self.native_lm = 'Windows 2000 5.0' self.encrypt_passwords = true self.extended_security = false self.multiplex_id = rand(0xffff) self.process_id = rand(0xffff) self.read_timeout = 10 self.evasion_opts = { # Padding is performed between packet headers and data 'pad_data' => EVADE::EVASION_NONE, # File path padding is performed on all open/create calls 'pad_file' => EVADE::EVASION_NONE, # Modify the \PIPE\ string in trans_named_pipe calls 'obscure_trans_pipe' => EVADE::EVASION_NONE, } end # Read a SMB packet from the socket def smb_recv data = socket.timed_read(4, self.read_timeout) if (data.nil? or data.length < 4) raise XCEPT::NoReply end recv_len = data[2,2].unpack('n')[0] if (recv_len == 0) return data end recv_len += 4 while (data.length != recv_len) buff = '' begin buff << self.socket.timed_read(recv_len - data.length, self.read_timeout) rescue Timeout::Error rescue raise XCEPT::ReadPacket end if (buff.nil? or buff.length == 0) raise XCEPT::ReadPacket end data << buff end return data end # Send a SMB packet down the socket def smb_send(data, evasion_level=0) # evasion_level is ignored, since real evasion happens # in the actual socket layer size = 0 wait = 0 begin # Just send the packet and return if (size == 0 or size >= data.length) return self.socket.put(data) end # Break the packet up into chunks and wait between them ret = 0 while ( (chunk = data.slice!(0, size)).length > 0 ) ret = self.socket.put(chunk) if (wait > 0) ::IO.select(nil, nil, nil, wait) end end return ret end end # Set the SMB parameters to some reasonable defaults def smb_defaults(packet) packet.v['MultiplexID'] = self.multiplex_id.to_i packet.v['TreeID'] = self.last_tree_id.to_i packet.v['UserID'] = self.auth_user_id.to_i packet.v['ProcessID'] = self.process_id.to_i end # The main dispatcher for all incoming SMB packets def smb_recv_parse(expected_type, ignore_errors = false) # This will throw an exception if it fails to read the whole packet data = self.smb_recv pkt = CONST::SMB_BASE_PKT.make_struct pkt.from_s(data) res = pkt begin case pkt['Payload']['SMB'].v['Command'] when CONST::SMB_COM_NEGOTIATE res = smb_parse_negotiate(pkt, data) when CONST::SMB_COM_SESSION_SETUP_ANDX res = smb_parse_session_setup(pkt, data) when CONST::SMB_COM_TREE_CONNECT_ANDX res = smb_parse_tree_connect(pkt, data) when CONST::SMB_COM_TREE_DISCONNECT res = smb_parse_tree_disconnect(pkt, data) when CONST::SMB_COM_NT_CREATE_ANDX res = smb_parse_create(pkt, data) when CONST::SMB_COM_TRANSACTION, CONST::SMB_COM_TRANSACTION2 res = smb_parse_trans(pkt, data) when CONST::SMB_COM_NT_TRANSACT res = smb_parse_nttrans(pkt, data) when CONST::SMB_COM_NT_TRANSACT_SECONDARY res = smb_parse_nttrans(pkt, data) when CONST::SMB_COM_OPEN_ANDX res = smb_parse_open(pkt, data) when CONST::SMB_COM_WRITE_ANDX res = smb_parse_write(pkt, data) when CONST::SMB_COM_READ_ANDX res = smb_parse_read(pkt, data) when CONST::SMB_COM_CLOSE res = smb_parse_close(pkt, data) when CONST::SMB_COM_DELETE res = smb_parse_delete(pkt, data) else raise XCEPT::InvalidCommand end if (pkt['Payload']['SMB'].v['Command'] != expected_type) raise XCEPT::InvalidType end if (ignore_errors == false and pkt['Payload']['SMB'].v['ErrorClass'] != 0) raise XCEPT::ErrorCode end rescue XCEPT::InvalidWordCount, XCEPT::InvalidCommand, XCEPT::InvalidType, XCEPT::ErrorCode $!.word_count = pkt['Payload']['SMB'].v['WordCount'] $!.command = pkt['Payload']['SMB'].v['Command'] $!.error_code = pkt['Payload']['SMB'].v['ErrorClass'] raise $! end return res end # Process incoming SMB_COM_NEGOTIATE packets def smb_parse_negotiate(pkt, data) #Process NTLM negotiate responses if (pkt['Payload']['SMB'].v['WordCount'] == 17) res = CONST::SMB_NEG_RES_NT_PKT.make_struct res.from_s(data) return res end # Process LANMAN negotiate responses if (pkt['Payload']['SMB'].v['WordCount'] == 13) res = CONST::SMB_NEG_RES_LM_PKT.make_struct res.from_s(data) return res end # Process ERROR negotiate responses if (pkt['Payload']['SMB'].v['WordCount'] == 1) res = CONST::SMB_NEG_RES_ERR_PKT.make_struct res.from_s(data) return res end # Process SMB error responses if (pkt['Payload']['SMB'].v['WordCount'] == 0) return pkt end raise XCEPT::InvalidWordCount end # Process incoming SMB_COM_SESSION_SETUP_ANDX packets def smb_parse_session_setup(pkt, data) # Process NTLMv2 negotiate responses if (pkt['Payload']['SMB'].v['WordCount'] == 4) res = CONST::SMB_SETUP_NTLMV2_RES_PKT.make_struct res.from_s(data) return res end # Process NTLMv1 and LANMAN responses if (pkt['Payload']['SMB'].v['WordCount'] == 3) res = CONST::SMB_SETUP_RES_PKT.make_struct res.from_s(data) return res end # Process SMB error responses if (pkt['Payload']['SMB'].v['WordCount'] == 0) return pkt end raise XCEPT::InvalidWordCount end # Process incoming SMB_COM_TREE_CONNECT_ANDX packets def smb_parse_tree_connect(pkt, data) if (pkt['Payload']['SMB'].v['WordCount'] == 3) res = CONST::SMB_TREE_CONN_RES_PKT.make_struct res.from_s(data) return res end # Process SMB error responses if (pkt['Payload']['SMB'].v['WordCount'] == 0) return pkt end raise XCEPT::InvalidWordCount end # Process incoming SMB_COM_TREE_DISCONNECT packets def smb_parse_tree_disconnect(pkt, data) # Process SMB responses if (pkt['Payload']['SMB'].v['WordCount'] == 0) res = CONST::SMB_TREE_DISCONN_RES_PKT.make_struct res.from_s(data) return res end raise XCEPT::InvalidWordCount end # Process incoming SMB_COM_NT_CREATE_ANDX packets def smb_parse_create(pkt, data) # Windows says 42, but Samba says 34, same structure :-/ if (pkt['Payload']['SMB'].v['WordCount'] == 42) res = CONST::SMB_CREATE_RES_PKT.make_struct res.from_s(data) return res end if (pkt['Payload']['SMB'].v['WordCount'] == 34) res = CONST::SMB_CREATE_RES_PKT.make_struct res.from_s(data) return res end # Process SMB error responses if (pkt['Payload']['SMB'].v['WordCount'] == 0) return pkt end raise XCEPT::InvalidWordCount end # Process incoming SMB_COM_TRANSACTION packets def smb_parse_trans(pkt, data) if (pkt['Payload']['SMB'].v['WordCount'] == 10) res = CONST::SMB_TRANS_RES_PKT.make_struct res.from_s(data) return res end # Process SMB error responses if (pkt['Payload']['SMB'].v['WordCount'] == 0) return pkt end raise XCEPT::InvalidWordCount end # Process incoming SMB_COM_NT_TRANSACT packets def smb_parse_nttrans(pkt, data) # Process SMB error responses if (pkt['Payload']['SMB'].v['WordCount'] == 0) return pkt end if (pkt['Payload']['SMB'].v['WordCount'] >= 18) res = CONST::SMB_NTTRANS_RES_PKT.make_struct res.from_s(data) return res end raise XCEPT::InvalidWordCount end # Process incoming SMB_COM_OPEN_ANDX packets def smb_parse_open(pkt, data) # Process open responses if (pkt['Payload']['SMB'].v['WordCount'] == 15) res = CONST::SMB_OPEN_RES_PKT.make_struct res.from_s(data) return res end # Process SMB error responses if (pkt['Payload']['SMB'].v['WordCount'] == 0) return pkt end raise XCEPT::InvalidWordCount end # Process incoming SMB_COM_WRITE_ANDX packets def smb_parse_write(pkt, data) # Process write responses if (pkt['Payload']['SMB'].v['WordCount'] == 6) res = CONST::SMB_WRITE_RES_PKT.make_struct res.from_s(data) return res end # Process SMB error responses if (pkt['Payload']['SMB'].v['WordCount'] == 0) return pkt end raise XCEPT::InvalidWordCount end # Process incoming SMB_COM_READ_ANDX packets def smb_parse_read(pkt, data) # Process read responses if (pkt['Payload']['SMB'].v['WordCount'] == 12) res = CONST::SMB_READ_RES_PKT.make_struct res.from_s(data) return res end # Process SMB error responses if (pkt['Payload']['SMB'].v['WordCount'] == 0) return pkt end raise XCEPT::InvalidWordCount end # Process incoming SMB_COM_CLOSE packets def smb_parse_close(pkt, data) # Process SMB error responses if (pkt['Payload']['SMB'].v['WordCount'] == 0) return pkt end raise XCEPT::InvalidWordCount end # Process incoming SMB_COM_DELETE packets def smb_parse_delete(pkt, data) # Process SMB error responses if (pkt['Payload']['SMB'].v['WordCount'] == 0) res = CONST::SMB_DELETE_RES_PKT.make_struct res.from_s(data) return res end raise XCEPT::InvalidWordCount end # Request a SMB session over NetBIOS def session_request(name = '*SMBSERVER', do_recv = true) name ||= '*SMBSERVER' data = '' data << "\x20" + UTILS.nbname_encode(name) + "\x00" data << "\x20" + CONST::NETBIOS_REDIR + "\x00" pkt = CONST::NBRAW_PKT.make_struct pkt.v['Type'] = 0x81 pkt['Payload'].v['Payload'] = data # Most SMB implementations can't handle this being fragmented ret = self.smb_send(pkt.to_s, EVADE::EVASION_NONE) return ret if not do_recv res = self.smb_recv ack = CONST::NBRAW_PKT.make_struct ack.from_s(res) if (ack.v['Type'] != 130) raise XCEPT::NetbiosSessionFailed end return ack end # Negotiate a SMB dialect def negotiate(extended=true, do_recv = true) dialects = ['LANMAN1.0', 'LM1.2X002' ] if (self.encrypt_passwords) dialects.push('NT LANMAN 1.0', 'NT LM 0.12') end data = dialects.collect { |dialect| "\x02" + dialect + "\x00" }.join('') pkt = CONST::SMB_NEG_PKT.make_struct self.smb_defaults(pkt['Payload']['SMB']) pkt['Payload']['SMB'].v['Command'] = CONST::SMB_COM_NEGOTIATE pkt['Payload']['SMB'].v['Flags1'] = 0x18 if(extended) pkt['Payload']['SMB'].v['Flags2'] = 0x2801 else pkt['Payload']['SMB'].v['Flags2'] = 0xc001 end pkt['Payload'].v['Payload'] = data ret = self.smb_send(pkt.to_s) return ret if not do_recv ack = self.smb_recv_parse(CONST::SMB_COM_NEGOTIATE) idx = ack['Payload'].v['Dialect'] # Check for failed dialect selection if (idx < 0 or idx >= dialects.length) return nil end # Set the selected dialect self.dialect = dialects[idx] # Does the server support extended security negotiation? if (ack['Payload'].v['Capabilities'] & 0x80000000 != 0) self.extended_security = true end # Set the security mode self.security_mode = ack['Payload'].v['SecurityMode'] # Set the challenge key if (ack['Payload'].v['EncryptionKey'] != nil) self.challenge_key = ack['Payload'].v['EncryptionKey'] else # Handle Windows NT 4.0 responses if (ack['Payload'].v['KeyLength'] > 0) self.challenge_key = ack['Payload'].v['Payload'][0, ack['Payload'].v['KeyLength']] end end # Set the session identifier if (ack['Payload'].v['SessionKey'] != nil) self.session_id = ack['Payload'].v['SessionKey'] end # Extract the payload (GUID/SecurityBlob) buf = ack['Payload'].v['Payload'] || '' # Set the server GUID if (self.extended_security and buf.length >= 16) self.server_guid = buf[0,16] end # Set the server SecurityBlob if (self.extended_security and buf.length > 16) # buf[16, buf.length - 16] end # The number of 100-nanosecond intervals that have elapsed since January 1, 1601, in # Coordinated Universal Time (UTC) format. # We convert it to a friendly Time object here self.system_time = UTILS.time_smb_to_unix(ack['Payload'].v['SystemTimeHigh'],ack['Payload'].v['SystemTimeLow']) self.system_time = ::Time.at( self.system_time ) # A signed 16-bit signed integer that represents the server's time zone, in minutes, # from UTC. The time zone of the server MUST be expressed in minutes, plus or minus, # from UTC. # NOTE: althought the spec says +/- it doesn't say that it should be inverted :-/ system_zone = ack['Payload'].v['ServerTimeZone'] # Convert the ServerTimeZone to _seconds_ and back into a signed integer :-/ if (system_zone & 0x8000) == 0x8000 system_zone = (( (~system_zone) & 0x0FFF ) + 1 ) else system_zone *= -1 end self.system_zone = system_zone * 60 # XXX: this is being commented out because ruby prior to 1.9.2 doesn't # seem to support representing non-utc or local times (eg, a time in # another timezone) If you know a way to do it in pre-1.9.2 please # tell us! =begin # Adjust the system_time object to reflect the remote timezone self.system_time = self.system_time.utc.localtime(system_zone) =end return ack end # Authenticate and establish a session def session_setup(*args) if (self.dialect =~ /^(NT LANMAN 1.0|NT LM 0.12)$/) if (self.challenge_key) return self.session_setup_ntlmv1(*args) end if ( self.extended_security ) return self.session_setup_ntlmv2(*args) end end return self.session_setup_clear(*args) end # Authenticate using clear-text passwords def session_setup_clear(user = '', pass = '', domain = '', do_recv = true) data = [ pass, user, domain, self.native_os, self.native_lm ].collect{ |a| a + "\x00" }.join(''); pkt = CONST::SMB_SETUP_LANMAN_PKT.make_struct self.smb_defaults(pkt['Payload']['SMB']) pkt['Payload']['SMB'].v['Command'] = CONST::SMB_COM_SESSION_SETUP_ANDX pkt['Payload']['SMB'].v['Flags1'] = 0x18 pkt['Payload']['SMB'].v['Flags2'] = 0x2001 pkt['Payload']['SMB'].v['WordCount'] = 10 pkt['Payload'].v['AndX'] = 255 pkt['Payload'].v['MaxBuff'] = 0xffdf pkt['Payload'].v['MaxMPX'] = 2 pkt['Payload'].v['VCNum'] = 1 pkt['Payload'].v['PasswordLen'] = pass.length + 1 pkt['Payload'].v['Capabilities'] = 64 pkt['Payload'].v['SessionKey'] = self.session_id pkt['Payload'].v['Payload'] = data ret = self.smb_send(pkt.to_s) return ret if not do_recv ack = self.smb_recv_parse(CONST::SMB_COM_SESSION_SETUP_ANDX) if (ack['Payload'].v['Action'] != 1 and user.length > 0) self.auth_user = user end self.auth_user_id = ack['Payload']['SMB'].v['UserID'] info = ack['Payload'].v['Payload'].split(/\x00/) self.peer_native_os = info[0] self.peer_native_lm = info[1] self.default_domain = info[2] return ack end # Authenticate using NTLMv1 def session_setup_ntlmv1(user = '', pass = '', domain = '', do_recv = true) raise XCEPT::NTLM1MissingChallenge if not self.challenge_key if (pass.length == 65) hash_lm = CRYPT.e_p24( [ pass.upcase()[0,32] ].pack('H42'), self.challenge_key) hash_nt = CRYPT.e_p24( [ pass.upcase()[33,65] ].pack('H42'), self.challenge_key) else hash_lm = pass.length > 0 ? CRYPT.lanman_des(pass, self.challenge_key) : '' hash_nt = pass.length > 0 ? CRYPT.ntlm_md4(pass, self.challenge_key) : '' end data = '' data << hash_lm data << hash_nt data << user + "\x00" data << domain + "\x00" data << self.native_os + "\x00" data << self.native_lm + "\x00" pkt = CONST::SMB_SETUP_NTLMV1_PKT.make_struct self.smb_defaults(pkt['Payload']['SMB']) pkt['Payload']['SMB'].v['Command'] = CONST::SMB_COM_SESSION_SETUP_ANDX pkt['Payload']['SMB'].v['Flags1'] = 0x18 pkt['Payload']['SMB'].v['Flags2'] = 0x2001 pkt['Payload']['SMB'].v['WordCount'] = 13 pkt['Payload'].v['AndX'] = 255 pkt['Payload'].v['MaxBuff'] = 0xffdf pkt['Payload'].v['MaxMPX'] = 2 pkt['Payload'].v['VCNum'] = 1 pkt['Payload'].v['PasswordLenLM'] = hash_lm.length pkt['Payload'].v['PasswordLenNT'] = hash_nt.length pkt['Payload'].v['Capabilities'] = 64 pkt['Payload'].v['SessionKey'] = self.session_id pkt['Payload'].v['Payload'] = data ret = self.smb_send(pkt.to_s) return ret if not do_recv ack = self.smb_recv_parse(CONST::SMB_COM_SESSION_SETUP_ANDX) if (ack['Payload'].v['Action'] != 1 and user.length > 0) self.auth_user = user end self.auth_user_id = ack['Payload']['SMB'].v['UserID'] info = ack['Payload'].v['Payload'].split(/\x00/) self.peer_native_os = info[0] self.peer_native_lm = info[1] self.default_domain = info[2] return ack end # Authenticate using NTLMv1 with a precomputed hash pair def session_setup_ntlmv1_prehash(user, domain, hash_lm, hash_nt, do_recv = true) data = '' data << hash_lm data << hash_nt data << user + "\x00" data << domain + "\x00" data << self.native_os + "\x00" data << self.native_lm + "\x00" pkt = CONST::SMB_SETUP_NTLMV1_PKT.make_struct self.smb_defaults(pkt['Payload']['SMB']) pkt['Payload']['SMB'].v['Command'] = CONST::SMB_COM_SESSION_SETUP_ANDX pkt['Payload']['SMB'].v['Flags1'] = 0x18 pkt['Payload']['SMB'].v['Flags2'] = 0x2001 pkt['Payload']['SMB'].v['WordCount'] = 13 pkt['Payload'].v['AndX'] = 255 pkt['Payload'].v['MaxBuff'] = 0xffdf pkt['Payload'].v['MaxMPX'] = 2 pkt['Payload'].v['VCNum'] = 1 pkt['Payload'].v['PasswordLenLM'] = hash_lm.length pkt['Payload'].v['PasswordLenNT'] = hash_nt.length pkt['Payload'].v['Capabilities'] = 64 pkt['Payload'].v['SessionKey'] = self.session_id pkt['Payload'].v['Payload'] = data ret = self.smb_send(pkt.to_s) return ret if not do_recv ack = self.smb_recv_parse(CONST::SMB_COM_SESSION_SETUP_ANDX) if (ack['Payload'].v['Action'] != 1 and user.length > 0) self.auth_user = user end self.auth_user_id = ack['Payload']['SMB'].v['UserID'] info = ack['Payload'].v['Payload'].split(/\x00/) self.peer_native_os = info[0] self.peer_native_lm = info[1] self.default_domain = info[2] return ack end # Authenticate using extended security negotiation (NTLMv2) def session_setup_ntlmv2(user = '', pass = '', domain = '', name = nil, do_recv = true) if (name == nil) name = Rex::Text.rand_text_alphanumeric(16) end blob = UTILS.make_ntlmv2_secblob_init(domain, name) native_data = '' native_data << self.native_os + "\x00" native_data << self.native_lm + "\x00" pkt = CONST::SMB_SETUP_NTLMV2_PKT.make_struct self.smb_defaults(pkt['Payload']['SMB']) pkt['Payload']['SMB'].v['Command'] = CONST::SMB_COM_SESSION_SETUP_ANDX pkt['Payload']['SMB'].v['Flags1'] = 0x18 pkt['Payload']['SMB'].v['Flags2'] = 0x2801 pkt['Payload']['SMB'].v['WordCount'] = 12 pkt['Payload'].v['AndX'] = 255 pkt['Payload'].v['MaxBuff'] = 0xffdf pkt['Payload'].v['MaxMPX'] = 2 pkt['Payload'].v['VCNum'] = 1 pkt['Payload'].v['SecurityBlobLen'] = blob.length pkt['Payload'].v['Capabilities'] = 0x8000d05c pkt['Payload'].v['SessionKey'] = self.session_id pkt['Payload'].v['Payload'] = blob + native_data ret = self.smb_send(pkt.to_s) return ret if not do_recv ack = self.smb_recv_parse(CONST::SMB_COM_SESSION_SETUP_ANDX, true) # The server doesn't know about NTLM_NEGOTIATE, try ntlmv1 if (ack['Payload']['SMB'].v['ErrorClass'] == 0x00020002) return session_setup_ntlmv1(user, pass, domain) end # Make sure the error code tells us to continue processing if (ack['Payload']['SMB'].v['ErrorClass'] != 0xc0000016) failure = XCEPT::ErrorCode.new failure.word_count = ack['Payload']['SMB'].v['WordCount'] failure.command = ack['Payload']['SMB'].v['Command'] failure.error_code = ack['Payload']['SMB'].v['ErrorClass'] raise failure end # Extract the SecurityBlob from the response data = ack['Payload'].v['Payload'] blob = data.slice!(0, ack['Payload'].v['SecurityBlobLen']) # Extract the native lanman and os strings info = data.split(/\x00/) self.peer_native_os = info[0] self.peer_native_lm = info[1] # Save the temporary UserID for use in the next request temp_user_id = ack['Payload']['SMB'].v['UserID'] # Extract the NTLM challenge key the lazy way cidx = blob.index("NTLMSSP\x00\x02\x00\x00\x00") if (cidx == -1) raise XCEPT::NTLM2MissingChallenge end # Store the challenge key self.challenge_key = blob[cidx + 24, 8] # Extract the address list from the blob alist_len,alist_mlen,alist_off = blob[cidx + 40, 8].unpack("vvV") alist_buf = blob[cidx + alist_off, alist_len] while(alist_buf.length > 0) atype, alen = alist_buf.slice!(0,4).unpack('vv') break if atype == 0x00 addr = alist_buf.slice!(0, alen) case atype when 1 self.default_name = addr.gsub("\x00", '') when 2 self.default_domain = addr.gsub("\x00", '') when 3 self.dns_host_name = addr.gsub("\x00", '') when 4 self.dns_domain_name = addr.gsub("\x00", '') when 5 # unknown when 7 # client time end end # Generate a random client-side challenge client_challenge = Rex::Text.rand_text(8) # Generate the nonce nonce = CRYPT.md5_hash(self.challenge_key + client_challenge) # Generate the NTLM hash if (pass.length == 65) resp_ntlm = CRYPT.e_p24( [ pass.upcase()[33,65] ].pack('H42'), nonce[0, 8]) else resp_ntlm = CRYPT.ntlm_md4(pass, nonce[0, 8]) end # Generate the fake LANMAN hash resp_lmv2 = client_challenge + ("\x00" * 16) # Create the ntlmv2 security blob data blob = UTILS.make_ntlmv2_secblob_auth(domain, name, user, resp_lmv2, resp_ntlm) pkt = CONST::SMB_SETUP_NTLMV2_PKT.make_struct self.smb_defaults(pkt['Payload']['SMB']) pkt['Payload']['SMB'].v['Command'] = CONST::SMB_COM_SESSION_SETUP_ANDX pkt['Payload']['SMB'].v['Flags1'] = 0x18 pkt['Payload']['SMB'].v['Flags2'] = 0x2801 pkt['Payload']['SMB'].v['WordCount'] = 12 pkt['Payload']['SMB'].v['UserID'] = temp_user_id pkt['Payload'].v['AndX'] = 255 pkt['Payload'].v['MaxBuff'] = 0xffdf pkt['Payload'].v['MaxMPX'] = 2 pkt['Payload'].v['VCNum'] = 1 pkt['Payload'].v['SecurityBlobLen'] = blob.length pkt['Payload'].v['Capabilities'] = 0x8000d05c pkt['Payload'].v['SessionKey'] = self.session_id pkt['Payload'].v['Payload'] = blob + native_data # NOTE: if do_recv is set to false, we cant reach here... self.smb_send(pkt.to_s) ack = self.smb_recv_parse(CONST::SMB_COM_SESSION_SETUP_ANDX, true) # Make sure that authentication succeeded if (ack['Payload']['SMB'].v['ErrorClass'] != 0) if (user.length == 0) return self.session_setup_ntlmv1(user, pass, domain) end failure = XCEPT::ErrorCode.new failure.word_count = ack['Payload']['SMB'].v['WordCount'] failure.command = ack['Payload']['SMB'].v['Command'] failure.error_code = ack['Payload']['SMB'].v['ErrorClass'] raise failure end self.auth_user_id = ack['Payload']['SMB'].v['UserID'] if (ack['Payload'].v['Action'] != 1 and user.length > 0) self.auth_user = user end return ack end # An exploit helper function for sending arbitrary SPNEGO blobs def session_setup_ntlmv2_blob(blob = '', do_recv = true) native_data = '' native_data << self.native_os + "\x00" native_data << self.native_lm + "\x00" pkt = CONST::SMB_SETUP_NTLMV2_PKT.make_struct self.smb_defaults(pkt['Payload']['SMB']) pkt['Payload']['SMB'].v['Command'] = CONST::SMB_COM_SESSION_SETUP_ANDX pkt['Payload']['SMB'].v['Flags1'] = 0x18 pkt['Payload']['SMB'].v['Flags2'] = 0x2801 pkt['Payload']['SMB'].v['WordCount'] = 12 pkt['Payload']['SMB'].v['UserID'] = 0 pkt['Payload'].v['AndX'] = 255 pkt['Payload'].v['MaxBuff'] = 0xffdf pkt['Payload'].v['MaxMPX'] = 2 pkt['Payload'].v['VCNum'] = 1 pkt['Payload'].v['SecurityBlobLen'] = blob.length pkt['Payload'].v['Capabilities'] = 0x8000d05c pkt['Payload'].v['SessionKey'] = self.session_id pkt['Payload'].v['Payload'] = blob + native_data ret = self.smb_send(pkt.to_s) return ret if not do_recv self.smb_recv_parse(CONST::SMB_COM_SESSION_SETUP_ANDX, false) end # Authenticate using extended security negotiation (NTLMv2), but stop half-way, using the temporary ID def session_setup_ntlmv2_temp(domain = '', name = nil, do_recv = true) if (name == nil) name = Rex::Text.rand_text_alphanumeric(16) end blob = UTILS.make_ntlmv2_secblob_init(domain, name) native_data = '' native_data << self.native_os + "\x00" native_data << self.native_lm + "\x00" pkt = CONST::SMB_SETUP_NTLMV2_PKT.make_struct self.smb_defaults(pkt['Payload']['SMB']) pkt['Payload']['SMB'].v['Command'] = CONST::SMB_COM_SESSION_SETUP_ANDX pkt['Payload']['SMB'].v['Flags1'] = 0x18 pkt['Payload']['SMB'].v['Flags2'] = 0x2801 pkt['Payload']['SMB'].v['WordCount'] = 12 pkt['Payload'].v['AndX'] = 255 pkt['Payload'].v['MaxBuff'] = 0xffdf pkt['Payload'].v['MaxMPX'] = 2 pkt['Payload'].v['VCNum'] = 1 pkt['Payload'].v['SecurityBlobLen'] = blob.length pkt['Payload'].v['Capabilities'] = 0x8000d05c pkt['Payload'].v['SessionKey'] = self.session_id pkt['Payload'].v['Payload'] = blob + native_data ret = self.smb_send(pkt.to_s) return ret if not do_recv ack = self.smb_recv_parse(CONST::SMB_COM_SESSION_SETUP_ANDX, true) # The server doesn't know about NTLM_NEGOTIATE, try ntlmv1 if (ack['Payload']['SMB'].v['ErrorClass'] == 0x00020002) return session_setup_ntlmv1(user, pass, domain) end # Make sure the error code tells us to continue processing if (ack['Payload']['SMB'].v['ErrorClass'] != 0xc0000016) failure = XCEPT::ErrorCode.new failure.word_count = ack['Payload']['SMB'].v['WordCount'] failure.command = ack['Payload']['SMB'].v['Command'] failure.error_code = ack['Payload']['SMB'].v['ErrorClass'] raise failure end # Extract the SecurityBlob from the response data = ack['Payload'].v['Payload'] blob = data.slice!(0, ack['Payload'].v['SecurityBlobLen']) # Extract the native lanman and os strings info = data.split(/\x00/) self.peer_native_os = info[0] self.peer_native_lm = info[1] # Save the temporary UserID for use in the next request self.auth_user_id = ack['Payload']['SMB'].v['UserID'] # Extract the NTLM challenge key the lazy way cidx = blob.index("NTLMSSP\x00\x02\x00\x00\x00") if (cidx == -1) raise XCEPT::NTLM2MissingChallenge end # Store the challenge key self.challenge_key = blob[cidx + 24, 8] return ack end # Connect to a specified share with an optional password def tree_connect(share = 'IPC$', pass = '', do_recv = true) data = [ pass, share, '?????' ].collect{ |a| a + "\x00" }.join(''); pkt = CONST::SMB_TREE_CONN_PKT.make_struct self.smb_defaults(pkt['Payload']['SMB']) pkt['Payload']['SMB'].v['Command'] = CONST::SMB_COM_TREE_CONNECT_ANDX pkt['Payload']['SMB'].v['Flags1'] = 0x18 pkt['Payload']['SMB'].v['Flags2'] = 0x2001 pkt['Payload']['SMB'].v['WordCount'] = 4 pkt['Payload'].v['AndX'] = 255 pkt['Payload'].v['PasswordLen'] = pass.length + 1 pkt['Payload'].v['Capabilities'] = 64 pkt['Payload'].v['Payload'] = data ret = self.smb_send(pkt.to_s) return ret if not do_recv ack = self.smb_recv_parse(CONST::SMB_COM_TREE_CONNECT_ANDX) self.last_tree_id = ack['Payload']['SMB'].v['TreeID'] # why bother? # info = ack['Payload'].v['Payload'].split(/\x00/) return ack end # Disconnect from the current tree def tree_disconnect(tree_id = self.last_tree_id, do_recv = true) pkt = CONST::SMB_TREE_DISCONN_PKT.make_struct self.smb_defaults(pkt['Payload']['SMB']) pkt['Payload']['SMB'].v['Command'] = CONST::SMB_COM_TREE_DISCONNECT pkt['Payload']['SMB'].v['Flags1'] = 0x18 pkt['Payload']['SMB'].v['Flags2'] = 0x2001 pkt['Payload']['SMB'].v['WordCount'] = 0 pkt['Payload']['SMB'].v['TreeID'] = tree_id ret = self.smb_send(pkt.to_s) return ret if not do_recv ack = self.smb_recv_parse(CONST::SMB_COM_TREE_DISCONNECT) if (tree_id == self.last_tree_id) self.last_tree_id = 0 end return ack end # Returns a SMB_CREATE_RES response for a given named pipe def create_pipe(filename, disposition = 1, impersonation = 2) self.create(filename) end # Creates a file or opens an existing pipe def create(filename, disposition = 1, impersonation = 2, do_recv = true) pkt = CONST::SMB_CREATE_PKT.make_struct self.smb_defaults(pkt['Payload']['SMB']) pkt['Payload']['SMB'].v['Command'] = CONST::SMB_COM_NT_CREATE_ANDX pkt['Payload']['SMB'].v['Flags1'] = 0x18 pkt['Payload']['SMB'].v['Flags2'] = 0x2001 pkt['Payload']['SMB'].v['WordCount'] = 24 pkt['Payload'].v['AndX'] = 255 pkt['Payload'].v['FileNameLen'] = filename.length pkt['Payload'].v['CreateFlags'] = 0x16 pkt['Payload'].v['AccessMask'] = 0x02000000 # Maximum Allowed pkt['Payload'].v['ShareAccess'] = 7 pkt['Payload'].v['CreateOptions'] = 0 pkt['Payload'].v['Impersonation'] = impersonation pkt['Payload'].v['Disposition'] = disposition pkt['Payload'].v['Payload'] = filename + "\x00" ret = self.smb_send(pkt.to_s) return ret if not do_recv ack = self.smb_recv_parse(CONST::SMB_COM_NT_CREATE_ANDX) # Save off the FileID if (ack['Payload'].v['FileID'] > 0) self.last_file_id = ack['Payload'].v['FileID'] end return ack end # Deletes a file from a share def delete(filename, tree_id = self.last_tree_id, do_recv = true) pkt = CONST::SMB_DELETE_PKT.make_struct self.smb_defaults(pkt['Payload']['SMB']) pkt['Payload']['SMB'].v['Command'] = CONST::SMB_COM_DELETE pkt['Payload']['SMB'].v['Flags1'] = 0x18 pkt['Payload']['SMB'].v['Flags2'] = 0x2001 pkt['Payload']['SMB'].v['TreeID'] = tree_id pkt['Payload']['SMB'].v['WordCount'] = 1 pkt['Payload'].v['SearchAttributes'] = 0x06 pkt['Payload'].v['BufferFormat'] = 4 pkt['Payload'].v['Payload'] = filename + "\x00" ret = self.smb_send(pkt.to_s) return ret if not do_recv ack = self.smb_recv_parse(CONST::SMB_COM_DELETE) return ack end # Opens an existing file or creates a new one def open(filename, mode = 0x12, access = 0x42, do_recv = true) pkt = CONST::SMB_OPEN_PKT.make_struct self.smb_defaults(pkt['Payload']['SMB']) pkt['Payload']['SMB'].v['Command'] = CONST::SMB_COM_OPEN_ANDX pkt['Payload']['SMB'].v['Flags1'] = 0x18 pkt['Payload']['SMB'].v['Flags2'] = 0x2001 pkt['Payload']['SMB'].v['WordCount'] = 15 pkt['Payload'].v['AndX'] = 255 pkt['Payload'].v['Access'] = access pkt['Payload'].v['SearchAttributes'] = 0x06 pkt['Payload'].v['OpenFunction'] = mode pkt['Payload'].v['Payload'] = filename + "\x00" ret = self.smb_send(pkt.to_s) return ret if not do_recv ack = self.smb_recv_parse(CONST::SMB_COM_OPEN_ANDX) # Save off the FileID if (ack['Payload'].v['FileID'] > 0) self.last_file_id = ack['Payload'].v['FileID'] end return ack end # Closes an open file handle def close(file_id = self.last_file_id, tree_id = self.last_tree_id, do_recv = true) pkt = CONST::SMB_CLOSE_PKT.make_struct self.smb_defaults(pkt['Payload']['SMB']) pkt['Payload']['SMB'].v['Command'] = CONST::SMB_COM_CLOSE pkt['Payload']['SMB'].v['Flags1'] = 0x18 pkt['Payload']['SMB'].v['Flags2'] = 0x2001 pkt['Payload']['SMB'].v['TreeID'] = tree_id pkt['Payload']['SMB'].v['WordCount'] = 3 pkt['Payload'].v['FileID'] = file_id pkt['Payload'].v['LastWrite'] = -1 ret = self.smb_send(pkt.to_s) return ret if not do_recv ack = self.smb_recv_parse(CONST::SMB_COM_CLOSE) return ack end # Writes data to an open file handle def write(file_id = self.last_file_id, offset = 0, data = '', do_recv = true) pkt = CONST::SMB_WRITE_PKT.make_struct self.smb_defaults(pkt['Payload']['SMB']) data_offset = pkt.to_s.length - 4 filler = EVADE.make_offset_filler(evasion_opts['pad_data'], 4096 - data.length - data_offset) pkt['Payload']['SMB'].v['Command'] = CONST::SMB_COM_WRITE_ANDX pkt['Payload']['SMB'].v['Flags1'] = 0x18 pkt['Payload']['SMB'].v['Flags2'] = 0x2001 pkt['Payload']['SMB'].v['WordCount'] = 14 pkt['Payload'].v['AndX'] = 255 pkt['Payload'].v['FileID'] = file_id pkt['Payload'].v['Offset'] = offset pkt['Payload'].v['Reserved2'] = -1 pkt['Payload'].v['WriteMode'] = 8 pkt['Payload'].v['Remaining'] = data.length # pkt['Payload'].v['DataLenHigh'] = (data.length / 65536).to_i pkt['Payload'].v['DataLenLow'] = (data.length % 65536).to_i pkt['Payload'].v['DataOffset'] = data_offset + filler.length pkt['Payload'].v['Payload'] = filler + data ret = self.smb_send(pkt.to_s) return ret if not do_recv ack = self.smb_recv_parse(CONST::SMB_COM_WRITE_ANDX) return ack end # Reads data from an open file handle def read(file_id = self.last_file_id, offset = 0, data_length = 64000, do_recv = true) pkt = CONST::SMB_READ_PKT.make_struct self.smb_defaults(pkt['Payload']['SMB']) pkt['Payload']['SMB'].v['Command'] = CONST::SMB_COM_READ_ANDX pkt['Payload']['SMB'].v['Flags1'] = 0x18 pkt['Payload']['SMB'].v['Flags2'] = 0x2001 pkt['Payload']['SMB'].v['WordCount'] = 10 pkt['Payload'].v['AndX'] = 255 pkt['Payload'].v['FileID'] = file_id pkt['Payload'].v['Offset'] = offset # pkt['Payload'].v['MaxCountHigh'] = (data_length / 65536).to_i pkt['Payload'].v['MaxCountLow'] = (data_length % 65536).to_i pkt['Payload'].v['MinCount'] = data_length pkt['Payload'].v['Reserved2'] = -1 ret = self.smb_send(pkt.to_s) return ret if not do_recv ack = self.smb_recv_parse(CONST::SMB_COM_READ_ANDX, true) err = ack['Payload']['SMB'].v['ErrorClass'] # Catch some non-fatal error codes if (err != 0 && err != CONST::SMB_ERROR_BUFFER_OVERFLOW) failure = XCEPT::ErrorCode.new failure.word_count = ack['Payload']['SMB'].v['WordCount'] failure.command = ack['Payload']['SMB'].v['Command'] failure.error_code = ack['Payload']['SMB'].v['ErrorClass'] raise failure end return ack end # Perform a transaction against a named pipe def trans_named_pipe(file_id, data = '', no_response = nil) pipe = EVADE.make_trans_named_pipe_name(evasion_opts['pad_file']) self.trans(pipe, '', data, 2, [0x26, file_id].pack('vv'), no_response) end # Perform a mailslot write over SMB # Warning: This can kill srv.sys unless MS06-035 is applied def trans_mailslot (name, data = '') # Setup data must be: # Operation: 1 (write) # Priority: 0 # Class: Reliable self.trans_maxzero(name, '', data, 3, [1, 0, 1].pack('vvv'), true ) end # Perform a transaction against a given pipe name def trans(pipe, param = '', body = '', setup_count = 0, setup_data = '', no_response = false, do_recv = true) # Null-terminate the pipe parameter if needed if (pipe[-1,1] != "\x00") pipe << "\x00" end pkt = CONST::SMB_TRANS_PKT.make_struct self.smb_defaults(pkt['Payload']['SMB']) # Packets larger than mlen will cause XP SP2 to disconnect us ;-( mlen = 4200 # Figure out how much space is taken up by our current arguments xlen = pipe.length + param.length + body.length filler1 = '' filler2 = '' # Fill any available space depending on the evasion settings if (xlen < mlen) filler1 = EVADE.make_offset_filler(evasion_opts['pad_data'], (mlen-xlen)/2) filler2 = EVADE.make_offset_filler(evasion_opts['pad_data'], (mlen-xlen)/2) end # Squish the whole thing together data = pipe + filler1 + param + filler2 + body # Throw some form of a warning out? if (data.length > mlen) # XXX This call will more than likely fail :-( end # Calculate all of the offsets base_offset = pkt.to_s.length + (setup_count * 2) - 4 param_offset = base_offset + pipe.length + filler1.length data_offset = param_offset + filler2.length + param.length pkt['Payload']['SMB'].v['Command'] = CONST::SMB_COM_TRANSACTION pkt['Payload']['SMB'].v['Flags1'] = 0x18 pkt['Payload']['SMB'].v['Flags2'] = 0x2001 pkt['Payload']['SMB'].v['WordCount'] = 14 + setup_count pkt['Payload'].v['ParamCountTotal'] = param.length pkt['Payload'].v['DataCountTotal'] = body.length pkt['Payload'].v['ParamCountMax'] = 1024 pkt['Payload'].v['DataCountMax'] = 65504 pkt['Payload'].v['ParamCount'] = param.length pkt['Payload'].v['ParamOffset'] = param_offset pkt['Payload'].v['DataCount'] = body.length pkt['Payload'].v['DataOffset'] = data_offset pkt['Payload'].v['SetupCount'] = setup_count pkt['Payload'].v['SetupData'] = setup_data pkt['Payload'].v['Payload'] = data if no_response pkt['Payload'].v['Flags'] = 2 end ret = self.smb_send(pkt.to_s) return ret if no_response or not do_recv self.smb_recv_parse(CONST::SMB_COM_TRANSACTION) end # Perform a transaction against a given pipe name # Difference from trans: sets MaxParam/MaxData to zero # This is required to trigger mailslot bug :-( def trans_maxzero(pipe, param = '', body = '', setup_count = 0, setup_data = '', no_response = false, do_recv = true) # Null-terminate the pipe parameter if needed if (pipe[-1] != 0) pipe << "\x00" end pkt = CONST::SMB_TRANS_PKT.make_struct self.smb_defaults(pkt['Payload']['SMB']) # Packets larger than mlen will cause XP SP2 to disconnect us ;-( mlen = 4200 # Figure out how much space is taken up by our current arguments xlen = pipe.length + param.length + body.length filler1 = '' filler2 = '' # Fill any available space depending on the evasion settings if (xlen < mlen) filler1 = EVADE.make_offset_filler(evasion_opts['pad_data'], (mlen-xlen)/2) filler2 = EVADE.make_offset_filler(evasion_opts['pad_data'], (mlen-xlen)/2) end # Squish the whole thing together data = pipe + filler1 + param + filler2 + body # Throw some form of a warning out? if (data.length > mlen) # XXX This call will more than likely fail :-( end # Calculate all of the offsets base_offset = pkt.to_s.length + (setup_count * 2) - 4 param_offset = base_offset + pipe.length + filler1.length data_offset = param_offset + filler2.length + param.length pkt['Payload']['SMB'].v['Command'] = CONST::SMB_COM_TRANSACTION pkt['Payload']['SMB'].v['Flags1'] = 0x18 pkt['Payload']['SMB'].v['Flags2'] = 0x2001 pkt['Payload']['SMB'].v['WordCount'] = 14 + setup_count pkt['Payload'].v['ParamCountTotal'] = param.length pkt['Payload'].v['DataCountTotal'] = body.length pkt['Payload'].v['ParamCountMax'] = 0 pkt['Payload'].v['DataCountMax'] = 0 pkt['Payload'].v['ParamCount'] = param.length pkt['Payload'].v['ParamOffset'] = param_offset pkt['Payload'].v['DataCount'] = body.length pkt['Payload'].v['DataOffset'] = data_offset pkt['Payload'].v['SetupCount'] = setup_count pkt['Payload'].v['SetupData'] = setup_data pkt['Payload'].v['Payload'] = data if no_response pkt['Payload'].v['Flags'] = 2 end ret = self.smb_send(pkt.to_s) return ret if no_response or not do_recv self.smb_recv_parse(CONST::SMB_COM_TRANSACTION) end # Perform a transaction against a given pipe name (no null terminator) def trans_nonull(pipe, param = '', body = '', setup_count = 0, setup_data = '', no_response = false, do_recv = true) pkt = CONST::SMB_TRANS_PKT.make_struct self.smb_defaults(pkt['Payload']['SMB']) # Packets larger than mlen will cause XP SP2 to disconnect us ;-( mlen = 4200 # Figure out how much space is taken up by our current arguments xlen = pipe.length + param.length + body.length filler1 = '' filler2 = '' # Fill any available space depending on the evasion settings if (xlen < mlen) filler1 = EVADE.make_offset_filler(evasion_opts['pad_data'], (mlen-xlen)/2) filler2 = EVADE.make_offset_filler(evasion_opts['pad_data'], (mlen-xlen)/2) end # Squish the whole thing together data = pipe + filler1 + param + filler2 + body # Throw some form of a warning out? if (data.length > mlen) # XXX This call will more than likely fail :-( end # Calculate all of the offsets base_offset = pkt.to_s.length + (setup_count * 2) - 4 param_offset = base_offset + pipe.length + filler1.length data_offset = param_offset + filler2.length + param.length pkt['Payload']['SMB'].v['Command'] = CONST::SMB_COM_TRANSACTION pkt['Payload']['SMB'].v['Flags1'] = 0x18 pkt['Payload']['SMB'].v['Flags2'] = 0x2001 pkt['Payload']['SMB'].v['WordCount'] = 14 + setup_count pkt['Payload'].v['ParamCountTotal'] = param.length pkt['Payload'].v['DataCountTotal'] = body.length pkt['Payload'].v['ParamCountMax'] = 0 pkt['Payload'].v['DataCountMax'] = 0 pkt['Payload'].v['ParamCount'] = param.length pkt['Payload'].v['ParamOffset'] = param_offset pkt['Payload'].v['DataCount'] = body.length pkt['Payload'].v['DataOffset'] = data_offset pkt['Payload'].v['SetupCount'] = setup_count pkt['Payload'].v['SetupData'] = setup_data pkt['Payload'].v['Payload'] = data if no_response pkt['Payload'].v['Flags'] = 2 end ret = self.smb_send(pkt.to_s) return ret if no_response or not do_recv self.smb_recv_parse(CONST::SMB_COM_TRANSACTION) end # Perform a transaction2 request using the specified subcommand, parameters, and data def trans2(subcommand, param = '', body = '', do_recv = true) setup_count = 1 setup_data = [subcommand].pack('v') data = param + body pkt = CONST::SMB_TRANS2_PKT.make_struct self.smb_defaults(pkt['Payload']['SMB']) base_offset = pkt.to_s.length + (setup_count * 2) - 4 param_offset = base_offset data_offset = param_offset + param.length pkt['Payload']['SMB'].v['Command'] = CONST::SMB_COM_TRANSACTION2 pkt['Payload']['SMB'].v['Flags1'] = 0x18 pkt['Payload']['SMB'].v['Flags2'] = 0x2001 pkt['Payload']['SMB'].v['WordCount'] = 14 + setup_count pkt['Payload'].v['ParamCountTotal'] = param.length pkt['Payload'].v['DataCountTotal'] = body.length pkt['Payload'].v['ParamCountMax'] = 1024 pkt['Payload'].v['DataCountMax'] = 65504 pkt['Payload'].v['ParamCount'] = param.length pkt['Payload'].v['ParamOffset'] = param_offset pkt['Payload'].v['DataCount'] = body.length pkt['Payload'].v['DataOffset'] = data_offset pkt['Payload'].v['SetupCount'] = setup_count pkt['Payload'].v['SetupData'] = setup_data pkt['Payload'].v['Payload'] = data ret = self.smb_send(pkt.to_s) return ret if not do_recv ack = self.smb_recv_parse(CONST::SMB_COM_TRANSACTION2) return ack end # Perform a nttransaction request using the specified subcommand, parameters, and data def nttrans(subcommand, param = '', body = '', setup_count = 0, setup_data = '', do_recv = true) data = param + body pkt = CONST::SMB_NTTRANS_PKT.make_struct self.smb_defaults(pkt['Payload']['SMB']) base_offset = pkt.to_s.length + (setup_count * 2) - 4 param_offset = base_offset data_offset = param_offset + param.length pkt['Payload']['SMB'].v['Command'] = CONST::SMB_COM_NT_TRANSACT pkt['Payload']['SMB'].v['Flags1'] = 0x18 pkt['Payload']['SMB'].v['Flags2'] = 0x2001 pkt['Payload']['SMB'].v['WordCount'] = 19 + setup_count pkt['Payload'].v['ParamCountTotal'] = param.length pkt['Payload'].v['DataCountTotal'] = body.length pkt['Payload'].v['ParamCountMax'] = 1024 pkt['Payload'].v['DataCountMax'] = 65504 pkt['Payload'].v['ParamCount'] = param.length pkt['Payload'].v['ParamOffset'] = param_offset pkt['Payload'].v['DataCount'] = body.length pkt['Payload'].v['DataOffset'] = data_offset pkt['Payload'].v['SetupCount'] = setup_count pkt['Payload'].v['SetupData'] = setup_data pkt['Payload'].v['Subcommand'] = subcommand pkt['Payload'].v['Payload'] = data ret = self.smb_send(pkt.to_s) return ret if not do_recv ack = self.smb_recv_parse(CONST::SMB_COM_NT_TRANSACT) return ack end # Perform a nttransaction request using the specified subcommand, parameters, and data def nttrans_secondary(param = '', body = '', do_recv = true) data = param + body pkt = CONST::SMB_NTTRANS_SECONDARY_PKT.make_struct self.smb_defaults(pkt['Payload']['SMB']) base_offset = pkt.to_s.length - 4 param_offset = base_offset data_offset = param_offset + param.length pkt['Payload']['SMB'].v['Command'] = CONST::SMB_COM_NT_TRANSACT_SECONDARY pkt['Payload']['SMB'].v['Flags1'] = 0x18 pkt['Payload']['SMB'].v['Flags2'] = 0x2001 pkt['Payload']['SMB'].v['WordCount'] = 18 pkt['Payload'].v['ParamCountTotal'] = param.length pkt['Payload'].v['DataCountTotal'] = body.length pkt['Payload'].v['ParamCount'] = param.length pkt['Payload'].v['ParamOffset'] = param_offset pkt['Payload'].v['DataCount'] = body.length pkt['Payload'].v['DataOffset'] = data_offset pkt['Payload'].v['Payload'] = data ret = self.smb_send(pkt.to_s) return ret if not do_recv ack = self.smb_recv_parse(CONST::SMB_COM_NT_TRANSACT_SECONDARY) return ack end def queryfs(level) parm = [level].pack('v') begin resp = trans2(CONST::TRANS2_QUERY_FS_INFO, parm, '') pcnt = resp['Payload'].v['ParamCount'] dcnt = resp['Payload'].v['DataCount'] poff = resp['Payload'].v['ParamOffset'] doff = resp['Payload'].v['DataOffset'] # Get the raw packet bytes resp_rpkt = resp.to_s # Remove the NetBIOS header resp_rpkt.slice!(0, 4) resp_parm = resp_rpkt[poff, pcnt] resp_data = resp_rpkt[doff, dcnt] return resp_data rescue ::Exception raise $! end end def symlink(src,dst) parm = [513, 0x00000000].pack('vV') + src + "\x00" begin resp = trans2(CONST::TRANS2_SET_PATH_INFO, parm, dst + "\x00") pcnt = resp['Payload'].v['ParamCount'] dcnt = resp['Payload'].v['DataCount'] poff = resp['Payload'].v['ParamOffset'] doff = resp['Payload'].v['DataOffset'] # Get the raw packet bytes resp_rpkt = resp.to_s # Remove the NetBIOS header resp_rpkt.slice!(0, 4) resp_parm = resp_rpkt[poff, pcnt] resp_data = resp_rpkt[doff, dcnt] return resp_data rescue ::Exception raise $! end end # Obtains allocation information on the mounted tree def queryfs_info_allocation data = queryfs(CONST::SMB_INFO_ALLOCATION) head = %w{fs_id sectors_per_unit unit_total units_available bytes_per_sector} vals = data.unpack('VVVVv') info = { } head.each_index {|i| info[head[i]]=vals[i]} return info end # Obtains volume information on the mounted tree def queryfs_info_volume data = queryfs(CONST::SMB_INFO_VOLUME) vals = data.unpack('VCA*') return { 'serial' => vals[0], 'label' => vals[2][0,vals[1]].gsub("\x00", '') } end # Obtains file system volume information on the mounted tree def queryfs_fs_volume data = queryfs(CONST::SMB_QUERY_FS_VOLUME_INFO) vals = data.unpack('VVVVCCA*') return { 'create_time' => (vals[1] << 32) + vals[0], 'serial' => vals[2], 'label' => vals[6][0,vals[3]].gsub("\x00", '') } end # Obtains file system size information on the mounted tree def queryfs_fs_size data = queryfs(CONST::SMB_QUERY_FS_SIZE_INFO) vals = data.unpack('VVVVVV') return { 'total_alloc_units' => (vals[1] << 32) + vals[0], 'total_free_units' => (vals[3] << 32) + vals[2], 'sectors_per_unit' => vals[4], 'bytes_per_sector' => vals[5] } end # Obtains file system device information on the mounted tree def queryfs_fs_device data = queryfs(CONST::SMB_QUERY_FS_DEVICE_INFO) vals = data.unpack('VV') return { 'device_type' => vals[0], 'device_chars' => vals[1], } end # Obtains file system attribute information on the mounted tree def queryfs_fs_attribute data = queryfs(CONST::SMB_QUERY_FS_ATTRIBUTE_INFO) vals = data.unpack('VVVA*') return { 'fs_attributes' => vals[0], 'max_file_name' => vals[1], 'fs_name' => vals[3][0, vals[2]].gsub("\x00", '') } end # Enumerates a specific path on the mounted tree def find_first(path) files = { } parm = [ 26, # Search for ALL files 512, # Maximum search count 6, # Resume and Close on End of Search 260, # Level of interest 0, # Storage type is zero ].pack('vvvvV') + path + "\x00" begin resp = trans2(CONST::TRANS2_FIND_FIRST2, parm, '') pcnt = resp['Payload'].v['ParamCount'] dcnt = resp['Payload'].v['DataCount'] poff = resp['Payload'].v['ParamOffset'] doff = resp['Payload'].v['DataOffset'] # Get the raw packet bytes resp_rpkt = resp.to_s # Remove the NetBIOS header resp_rpkt.slice!(0, 4) resp_parm = resp_rpkt[poff, pcnt] resp_data = resp_rpkt[doff, dcnt] # search id, search count, end of search, error offset, last name offset sid, scnt, eos, eoff, loff = resp_parm.unpack('v5') didx = 0 while (didx < resp_data.length) info_buff = resp_data[didx, 70] break if info_buff.length != 70 info = info_buff.unpack( 'V'+ # Next Entry Offset 'V'+ # File Index 'VV'+ # Time Create 'VV'+ # Time Last Access 'VV'+ # Time Last Write 'VV'+ # Time Change 'VV'+ # End of File 'VV'+ # Allocation Size 'V'+ # File Attributes 'V'+ # File Name Length 'V'+ # Extended Attr List Length 'C'+ # Short File Name Length 'C' # Reserved ) name = resp_data[didx + 70 + 24, info[15]].sub!(/\x00+$/, '') files[name] = { 'type' => (info[14] & 0x10) ? 'D' : 'F', 'attr' => info[14], 'info' => info } break if info[0] == 0 didx += info[0] end last_search_id = sid rescue ::Exception raise $! end return files end # TODO: Finish this method... requires search_id, resume_key, and filename from first =begin def find_next(path, sid = last_search_id) parm = [ sid, # Search ID 512, # Maximum search count 260, # Level of interest 0, # Resume key from previous 1, # Close search if end of search ].pack('vvvVv') + path + "\x00" return files end =end # Creates a new directory on the mounted tree def create_directory(name) files = { } parm = [0].pack('V') + name + "\x00" resp = trans2(CONST::TRANS2_CREATE_DIRECTORY, parm, '') end # public read/write methods attr_accessor :native_os, :native_lm, :encrypt_passwords, :extended_security, :read_timeout, :evasion_opts attr_accessor :system_time, :system_zone # public read methods attr_reader :dialect, :session_id, :challenge_key, :peer_native_lm, :peer_native_os attr_reader :default_domain, :default_name, :auth_user, :auth_user_id attr_reader :multiplex_id, :last_tree_id, :last_file_id, :process_id, :last_search_id attr_reader :dns_host_name, :dns_domain_name attr_reader :security_mode, :server_guid # private methods attr_writer :dialect, :session_id, :challenge_key, :peer_native_lm, :peer_native_os attr_writer :default_domain, :default_name, :auth_user, :auth_user_id attr_writer :dns_host_name, :dns_domain_name attr_writer :multiplex_id, :last_tree_id, :last_file_id, :process_id, :last_search_id attr_writer :security_mode, :server_guid attr_accessor :socket end end end end