# $Id: server.rb 12471 2011-04-29 22:58:55Z scriptjunkie $ require 'rex/socket' require 'rex/proto/dhcp' module Rex module Proto module DHCP ## # # DHCP Server class # not completely configurable - written specifically for a PXE server # - scriptjunkie # # extended to support testing/exploiting CVE-2011-0997 # - apconole@yahoo.com ## class Server include Rex::Socket def initialize(hash, context = {}) self.listen_host = '0.0.0.0' # clients don't already have addresses. Needs to be 0.0.0.0 self.listen_port = 67 # mandatory (bootps) self.context = context self.sock = nil @shutting_down = false self.myfilename = hash['FILENAME'] || "" self.myfilename << ("\x00" * (128 - self.myfilename.length)) source = hash['SRVHOST'] || Rex::Socket.source_address self.ipstring = Rex::Socket.addr_aton(source) ipstart = hash['DHCPIPSTART'] if ipstart self.start_ip = Rex::Socket.addr_atoi(ipstart) else # Use the first 3 octects of the server's IP to construct the # default range of x.x.x.32-254 self.start_ip = "#{self.ipstring[0..2]}\x20".unpack("N").first end self.current_ip = start_ip ipend = hash['DHCPIPEND'] if ipend self.end_ip = Rex::Socket.addr_atoi(ipend) else # Use the first 3 octects of the server's IP to construct the # default range of x.x.x.32-254 self.end_ip = "#{self.ipstring[0..2]}\xfe".unpack("N").first end # netmask netmask = hash['NETMASK'] || "255.255.255.0" self.netmaskn = Rex::Socket.addr_aton(netmask) # router router = hash['ROUTER'] || source self.router = Rex::Socket.addr_aton(router) # dns dnsserv = hash['DNSSERVER'] || source self.dnsserv = Rex::Socket.addr_aton(dnsserv) # broadcast if hash['BROADCAST'] self.broadcasta = Rex::Socket.addr_aton(hash['BROADCAST']) else self.broadcasta = Rex::Socket.addr_itoa( self.start_ip | (Rex::Socket.addr_ntoi(self.netmaskn) ^ 0xffffffff) ) end self.served = {} if (hash['SERVEONCE']) self.serveOnce = true else self.serveOnce = false end if (hash['PXE']) self.servePXE = true else self.servePXE = false end # Always assume we don't give out hostnames ... self.give_hostname = false self.served_over = 0 if (hash['HOSTNAME']) self.give_hostname = true self.served_hostname = hash['HOSTNAME'] if ( hash['HOSTSTART'] ) self.served_over = hash['HOSTSTART'].to_i end end self.leasetime = 600 self.relayip = "\x00\x00\x00\x00" # relay ip - not currently suported self.pxeconfigfile = "update2" self.pxepathprefix = "" self.pxereboottime = 2000 end # Start the DHCP server def start self.sock = Rex::Socket::Udp.create( 'LocalHost' => listen_host, 'LocalPort' => listen_port, 'Context' => context ) self.thread = Rex::ThreadFactory.spawn("DHCPServerMonitor", false) { monitor_socket } end # Stop the DHCP server def stop @shutting_down = true self.thread.kill self.sock.close rescue nil end # Set an option def set_option(opts) allowed_options = [ :serveOnce, :servePXE, :relayip, :leasetime, :dnsserv, :pxeconfigfile, :pxepathprefix, :pxereboottime, :router, :give_hostname, :served_hostname, :served_over ] opts.each_pair { |k,v| next if not v if allowed_options.include?(k) self.instance_variable_set("@#{k}", v) end } end # Send a single packet to the specified host def send_packet(ip, pkt) port = 68 # bootpc if ip self.sock.sendto( pkt, ip, port ) else if not self.sock.sendto( pkt, '255.255.255.255', port ) self.sock.sendto( pkt, self.broadcasta, port ) end end end attr_accessor :listen_host, :listen_port, :context, :leasetime, :relayip, :router, :dnsserv attr_accessor :sock, :thread, :myfilename, :ipstring, :served, :serveOnce attr_accessor :current_ip, :start_ip, :end_ip, :broadcasta, :netmaskn attr_accessor :servePXE, :pxeconfigfile, :pxepathprefix, :pxereboottime attr_accessor :give_hostname, :served_hostname, :served_over protected # See if there is anything to do.. If so, dispatch it. def monitor_socket while true rds = [@sock] wds = [] eds = [@sock] r,w,e = ::IO.select(rds,wds,eds,1) if (r != nil and r[0] == self.sock) buf,host,port = self.sock.recvfrom(65535) # Lame compatabilitiy :-/ from = [host, port] dispatch_request(from, buf) end end end def dhcpoption(type, val = nil) ret = '' ret << [type].pack('C') if val ret << [val.length].pack('C') + val end ret end # Dispatch a packet that we received def dispatch_request(from, buf) type = buf.unpack('C').first if (type != Request) #dlog("Unknown DHCP request type: #{type}") return end # parse out the members hwtype = buf[1,1] hwlen = buf[2,1].unpack("C").first hops = buf[3,1] txid = buf[4..7] elapsed = buf[8..9] flags = buf[10..11] clientip = buf[12..15] givenip = buf[16..19] nextip = buf[20..23] relayip = buf[24..27] clienthwaddr = buf[28..(27+hwlen)] servhostname = buf[44..107] filename = buf[108..235] magic = buf[236..239] if (magic != DHCPMagic) #dlog("Invalid DHCP request - bad magic.") return end messageType = 0 pxeclient = false # options parsing loop spot = 240 while (spot < buf.length - 3) optionType = buf[spot,1].unpack("C").first break if optionType == 0xff optionLen = buf[spot + 1,1].unpack("C").first optionValue = buf[(spot + 2)..(spot + optionLen + 1)] spot = spot + optionLen + 2 if optionType == 53 messageType = optionValue.unpack("C").first elsif optionType == 150 pxeclient = true end end if pxeclient == false && self.servePXE == true #dlog ("No tftp server request; ignoring (probably not PXE client)") return end # prepare response pkt = [Response].pack('C') pkt << buf[1..7] #hwtype, hwlen, hops, txid pkt << "\x00\x00\x00\x00" #elapsed, flags pkt << clientip if messageType == DHCPDiscover # give next ip address (not super reliable high volume but it should work for a basic server) self.current_ip += 1 if self.current_ip > self.end_ip self.current_ip = self.start_ip end end pkt << Rex::Socket.addr_iton(self.current_ip) pkt << self.ipstring #next server ip pkt << self.relayip pkt << buf[28..43] #client hw address pkt << servhostname pkt << self.myfilename pkt << magic pkt << "\x35\x01" #Option if messageType == DHCPDiscover #DHCP Discover - send DHCP Offer pkt << [DHCPOffer].pack('C') # check if already served based on hw addr (MAC address) if self.serveOnce == true && self.served.has_key?(buf[28..43]) #dlog ("Already served; allowing normal boot") return end elsif messageType == DHCPRequest #DHCP Request - send DHCP ACK pkt << [DHCPAck].pack('C') # now we ignore their discovers (but we'll respond to requests in case a packet was lost) self.served.merge!( buf[28..43] => true ) if ( self.served_over != 0 ) # NOTE: this is sufficient for low-traffic net # for high-traffic, this will probably lead to # hostname collision self.served_over += 1 end else #dlog("ignoring unknown DHCP request - type #{messageType}") return end # Options! pkt << dhcpoption(OpDHCPServer, self.ipstring) pkt << dhcpoption(OpLeaseTime, [self.leasetime].pack('N')) pkt << dhcpoption(OpSubnetMask, self.netmaskn) pkt << dhcpoption(OpRouter, self.router) pkt << dhcpoption(OpDns, self.dnsserv) pkt << dhcpoption(OpPXEMagic, PXEMagic) pkt << dhcpoption(OpPXEConfigFile, self.pxeconfigfile) pkt << dhcpoption(OpPXEPathPrefix, self.pxepathprefix) pkt << dhcpoption(OpPXERebootTime, [self.pxereboottime].pack('N')) if ( self.give_hostname == true ) send_hostname = self.served_hostname if ( self.served_over != 0 ) # NOTE : see above comments for the 'uniqueness' # of this value send_hostname += self.served_over.to_s end pkt << dhcpoption(OpHostname, send_hostname) end pkt << dhcpoption(OpEnd) pkt << ("\x00" * 32) #padding send_packet(nil, pkt) end end end end end