module Rex module Proto module DCERPC class Client require 'rex/proto/dcerpc/uuid' require 'rex/proto/dcerpc/response' require 'rex/proto/dcerpc/exceptions' require 'rex/text' require 'rex/proto/smb/exceptions' attr_accessor :handle, :socket, :options, :last_response, :context, :no_bind, :ispipe, :smb # initialize a DCE/RPC Function Call def initialize(handle, socket, useroptions = Hash.new) self.handle = handle self.socket = socket self.options = { 'smb_user' => '', 'smb_pass' => '', 'smb_pipeio' => 'rw' } self.options.merge!(useroptions) # If the caller passed us a smb_client object, use it and # and skip the connect/login/ipc$ stages of the setup if (self.options['smb_client']) self.smb = self.options['smb_client'] end # we must have a valid handle, regardless of everything else raise ArgumentError, 'handle is not a Rex::Proto::DCERPC::Handle' if !self.handle.is_a?(Rex::Proto::DCERPC::Handle) # we do this in case socket needs setup first, ie, socket = nil if !self.options['no_socketsetup'] self.socket_check() end raise ArgumentError, 'socket can not read' if !self.socket.respond_to?(:read) raise ArgumentError, 'socket can not write' if !self.socket.respond_to?(:write) if !self.options['no_autobind'] self.bind() end end def socket_check() if self.socket == nil self.socket_setup() end case self.handle.protocol when 'ncacn_ip_tcp' if self.socket.type? != 'tcp' raise "ack, #{self.handle.protocol} requires socket type tcp, not #{self.socket.type?}!" end when 'ncacn_np' if self.socket.class == Rex::Proto::SMB::SimpleClient::OpenPipe self.ispipe = 1 elsif self.socket.type? == 'tcp' self.smb_connect() else raise "ack, #{self.handle.protocol} requires socket type tcp, not #{self.socket.type?}!" end # don't support ncacn_ip_udp yet ## when 'ncacn_ip_udp' ## if self.socket.type? != 'udp' ## raise "ack, #{self.handle.protocol} requires socket type tcp, not #{self.socket.type?}!" ## end else raise "Unsupported protocol : #{self.handle.protocol}" end end # Create the appropriate socket based on protocol def socket_setup() ctx = { 'Msf' => options['Msf'], 'MsfExploit' => options['MsfExploit'] } self.socket = case self.handle.protocol when 'ncacn_ip_tcp' then Rex::Socket.create_tcp('PeerHost' => self.handle.address, 'PeerPort' => self.handle.options[0], 'Context' => ctx) when 'ncacn_np' then begin socket = '' begin timeout(10) { socket = Rex::Socket.create_tcp('PeerHost' => self.handle.address, 'PeerPort' => 445, 'Context' => ctx) } rescue Timeout::Error, Rex::ConnectionRefused socket = Rex::Socket.create_tcp('PeerHost' => self.handle.address, 'PeerPort' => 139, 'Context' => ctx) end socket end else nil end # Add this socket to the exploit's list of open sockets options['MsfExploit'].add_socket(self.socket) if (options['MsfExploit']) end def smb_connect() require 'rex/proto/smb/simpleclient' if(not self.smb) if self.socket.peerport == 139 smb = Rex::Proto::SMB::SimpleClient.new(self.socket) else smb = Rex::Proto::SMB::SimpleClient.new(self.socket, true) end smb.login('*SMBSERVER', self.options['smb_user'], self.options['smb_pass']) smb.connect('IPC$') self.smb = smb p "CREATED NEW SMB!!!!" end f = self.smb.create_pipe(self.handle.options[0]) f.mode = self.options['smb_pipeio'] self.socket = f end def read() raw_response = '' if self.socket.class == Rex::Proto::SMB::SimpleClient::OpenPipe begin if self.options['segment_read'] while(true) data = self.socket.read((rand(20)+5), rand(1024)+1) last if ! data.length raw_response += data end else raw_response = self.socket.read() end rescue Rex::Proto::SMB::Exceptions::NoReply # I don't care if I didn't get a reply... rescue Rex::Proto::SMB::Exceptions::ErrorCode => exception if exception.error_code != 0xC000014B raise exception end end else # must be a regular socket if self.socket.type? == 'tcp' if self.options['segment_read'] while (true) data = self.socket.get_once(rand(5)+5, 10) break if data == nil break if ! data.length raw_response << data end else raw_response = self.socket.get_once(-1, 5) end else raw_response = self.socket.read(0xFFFFFFFF / 2 - 1) # read max data end end raw_response end def write(data) if (! self.options['segment_write'] or (self.handle.protocol == 'ncacn_np')) self.socket.write(data) else while (data.length > 0) len = self.socket.write( data.slice!(0, (rand(20)+5)) ) end end data.length end def bind() require 'rex/proto/dcerpc/packet' bind = '' context = '' if self.options['fake_multi_bind'] args = [ self.handle.uuid[0], self.handle.uuid[1] ] if (self.options['fake_multi_bind_prepend']) args << self.options['fake_multi_bind_prepend'] end if (self.options['fake_multi_bind_append']) args << self.options['fake_multi_bind_append'] end bind, context = Rex::Proto::DCERPC::Packet.make_bind_fake_multi(*args) else bind, context = Rex::Proto::DCERPC::Packet.make_bind(self.handle.uuid[0], self.handle.uuid[1]) end raise 'make_bind failed' if !bind self.write(bind) raw_response = self.read() response = Rex::Proto::DCERPC::Response.new(raw_response) self.last_response = response if response.type == 12 or response.type == 15 if self.last_response.ack_result[context] == 2 raise "Could not bind to #{self.handle}" end self.context = context else raise "Could not bind to #{self.handle}" end end # Perform a DCE/RPC Function Call def call(function, data) frag_size = data.length if options['frag_size'] frag_size = options['frag_size'] end object_id = '' if options['object_call'] object_id = self.handle.uuid[0] end if options['random_object_id'] object_id = Rex::Proto::DCERPC::UUID.uuid_unpack(Rex::Text.rand_text(16)) end call_packets = Rex::Proto::DCERPC::Packet.make_request(function, data, frag_size, self.context, object_id) call_packets.each { |packet| self.write(packet) } raw_response = self.read() if (raw_response == nil or raw_response.length == 0) raise Rex::Proto::DCERPC::Exceptions::NoResponse end self.last_response = Rex::Proto::DCERPC::Response.new(raw_response) if self.last_response.type == 3 e = Rex::Proto::DCERPC::Exceptions::Fault.new e.fault = self.last_response.status raise e end self.last_response.stub_data end # Process a DCERPC response packet from a socket def self.read_response (socket, timeout=5) data = socket.get_once(-1, timeout) # We need at least 10 bytes to find the FragLen if (! data or data.length() < 10) return end # Pass the first 10 bytes to the constructor resp = Rex::Proto::DCERPC::Response.new(data.slice!(0, 10)) # Something went wrong in the parser... if (! resp.frag_len) return resp end # Do we need to read more data? if (resp.frag_len > (data.length + 10)) begin data << socket.timed_read(resp.frag_len - data.length - 10, timeout) rescue Timeout::Error end end # Still missing some data... if (data.length() != resp.frag_len - 10) $stderr.puts "Truncated DCERPC response :-(" return resp end resp.parse(data) return resp end end end end end