# -*- coding: binary -*- require 'logger' require 'net/dns/names/names' require 'net/dns/dns' require 'net/dns/header' require 'net/dns/question' require 'net/dns/rr' module Net # :nodoc: module DNS # =Name # # Net::DNS::Packet - DNS packet object class # # =Synopsis # # require 'net/dns/packet' # # =Description # # The Net::DNS::Packet class represents an entire DNS packet, # divided in his main section: # # * Header (instance of Net::DNS::Header) # * Question (array of Net::DNS::Question objects) # * Answer, Authority, Additional (each formed by an array of Net::DNS::RR # objects) # # You can use this class whenever you need to create a DNS packet, whether # in an user application, in a resolver instance (have a look, for instance, # at the Net::DNS::Resolver#send method) or for a nameserver. # # Some example: # # # Create a packet # packet = Net::DNS::Packet.new("www.example.com") # mx = Net::DNS::Packet.new("example.com", Net::DNS::MX) # # # Getting packet binary data, suitable for network transmission # data = packet.data # # A packet object can be created from binary data too, like an # answer packet just received from a network stream: # # packet = Net::DNS::Packet::parse(data) # # Each part of a packet can be gotten by the right accessors: # # header = packet.header # Instance of Net::DNS::Header class # question = packet.question # Instance of Net::DNS::Question class # # # Iterate over additional RRs # packet.additional.each do |rr| # puts "Got an #{rr.type} record" # end # # Some iterators have been written to easy the access of those RRs, # which are often the most important. So instead of doing: # # packet.answer.each do |rr| # if rr.type == Net::DNS::RR::Types::A # # do something with +rr.address+ # end # end # # we can do: # # packet.each_address do |ip| # # do something with +ip+ # end # # Be sure you don't miss all the iterators in the class documentation. # # =Logging facility # # As Net::DNS::Resolver class, Net::DNS::Packet class has its own logging # facility too. It work in the same way the other one do, so you can # maybe want to override it or change the file descriptor. # # packet = Net::DNS::Packet.new("www.example.com") # packet.logger = $stderr # # # or even # packet.logger = Logger.new("/tmp/packet.log") # # If the Net::DNS::Packet class is directly instantiated by the Net::DNS::Resolver # class, like the great majority of the time, it will use the same logger facility. # # Logger level will be set to Logger::Debug if $DEBUG variable is set. # # =Error classes # # Some error classes has been defined for the Net::DNS::Packet class, # which are listed here to keep a light and browsable main documentation. # We have: # # * PacketArgumentError: Generic argument error for class Net::DNS::Packet # * PacketError: Generic Packet error # # =Copyright # # Copyright (c) 2006 Marco Ceresa # # All rights reserved. This program is free software; you may redistribute # it and/or modify it under the same terms as Ruby itself. # class Packet include Names attr_reader :header, :question, :answer, :authority, :additional attr_reader :answerfrom, :answersize # Create a new instance of Net::DNS::Packet class. Arguments are the # canonical name of the resourse, an optional type field and an optional # class field. The record type and class can be omitted; they default # to +A+ and +IN+. # # packet = Net::DNS::Packet.new("www.example.com") # packet = Net::DNS::Packet.new("example.com", Net::DNS::MX) # packet = Net::DNS::Packet.new("example.com",Net::DNS::TXT,Net::DNS::CH) # # This class no longer instantiate object from binary data coming from # network streams. Please use Net::DNS::Packet.new_from_data instead. # def initialize(name,type=Net::DNS::A,cls=Net::DNS::IN) @header = Net::DNS::Header.new(:qdCount => 1) @question = [Net::DNS::Question.new(name,type,cls)] @answer = [] @authority = [] @additional = [] @logger = Logger.new $stdout @logger.level = $DEBUG ? Logger::DEBUG : Logger::WARN end # Create a new instance of Net::DNS::Packet class from binary data, taken # out by a network stream. For example: # # # udp_socket is an UDPSocket waiting for a response # ans = udp_socket.recvfrom(1500) # packet = Net::DNS::Packet::parse(ans) # # An optional +from+ argument can be used to specify the information # of the sender. If data is passed as is from a Socket#recvfrom call, # the method will accept it. # # Be sure that your network data is clean from any UDP/TCP header, # expecially when using RAW sockets. # def Packet.parse(*args) o = allocate o.send(:new_from_data, *args) o end # Checks if the packet is a QUERY packet def query? @header.opCode == Net::DNS::Header::QUERY end # Return the packet object in binary data, suitable # for sending across a network stream. # # packet_data = packet.data # puts "Packet is #{packet_data.size} bytes long" # def data qdcount=ancount=nscount=arcount=0 data = @header.data headerlength = data.length @question.each do |question| data += question.data qdcount += 1 end @answer.each do |rr| data += rr.data#(data.length) ancount += 1 end @authority.each do |rr| data += rr.data#(data.length) nscount += 1 end @additional.each do |rr| data += rr.data#(data.length) arcount += 1 end @header.qdCount = qdcount @header.anCount = ancount @header.nsCount = nscount @header.arCount = arcount @header.data + data[Net::DNS::HFIXEDSZ..data.size] end # Same as Net::DNS::Packet#data, but implements name compression # (see RFC1025) for a considerable save of bytes. # # packet = Net::DNS::Packet.new("www.example.com") # puts "Size normal is #{packet.data.size} bytes" # puts "Size compressed is #{packet.data_comp.size} bytes" # def data_comp offset = 0 compnames = {} qdcount=ancount=nscount=arcount=0 data = @header.data headerlength = data.length @question.each do |question| str,offset,names = question.data data += str compnames.update(names) qdcount += 1 end @answer.each do |rr| str,offset,names = rr.data(offset,compnames) data += str compnames.update(names) ancount += 1 end @authority.each do |rr| str,offset,names = rr.data(offset,compnames) data += str compnames.update(names) nscount += 1 end @additional.each do |rr| str,offset,names = rr.data(offset,compnames) data += str compnames.update(names) arcount += 1 end @header.qdCount = qdcount @header.anCount = ancount @header.nsCount = nscount @header.arCount = arcount @header.data + data[Net::DNS::HFIXEDSZ..data.size] end # Inspect method def inspect retval = "" if @answerfrom != "0.0.0.0:0" and @answerfrom retval << ";; Answer received from #@answerfrom (#{@answersize} bytes)\n;;\n" end retval << ";; HEADER SECTION\n" retval << @header.inspect retval << "\n" section = (@header.opCode == "UPDATE") ? "ZONE" : "QUESTION" retval << ";; #{section} SECTION (#{@header.qdCount} record#{@header.qdCount == 1 ? '' : 's'}):\n" @question.each do |qr| retval << ";; " + qr.inspect + "\n" end unless @answer.size == 0 retval << "\n" section = (@header.opCode == "UPDATE") ? "PREREQUISITE" : "ANSWER" retval << ";; #{section} SECTION (#{@header.anCount} record#{@header.anCount == 1 ? '' : 's'}):\n" @answer.each do |rr| retval << rr.inspect + "\n" end end unless @authority.size == 0 retval << "\n" section = (@header.opCode == "UPDATE") ? "UPDATE" : "AUTHORITY" retval << ";; #{section} SECTION (#{@header.nsCount} record#{@header.nsCount == 1 ? '' : 's'}):\n" @authority.each do |rr| retval << rr.inspect + "\n" end end unless @additional.size == 0 retval << "\n" retval << ";; ADDITIONAL SECTION (#{@header.arCount} record#{@header.arCount == 1 ? '' : 's'}):\n" @additional.each do |rr| retval << rr.inspect + "\n" end end retval end # Wrapper to Header#truncated? # def truncated? @header.truncated? end # Assing a Net::DNS::Header object to a Net::DNS::Packet # instance. # def header=(object) if object.kind_of? Net::DNS::Header @header = object else raise PacketArgumentError, "Argument must be a Net::DNS::Header object" end end # Assign a Net::DNS::Question object, or an array of # Questions objects, to a Net::DNS::Packet instance. # def question=(object) case object when Array if object.all? {|x| x.kind_of? Net::DNS::Question} @question = object else raise PacketArgumentError, "Some of the elements is not an Net::DNS::Question object" end when Net::DNS::Question @question = [object] else raise PacketArgumentError, "Invalid argument, not a Question object nor an array of objects" end end # Assign a Net::DNS::RR object, or an array of # RR objects, to a Net::DNS::Packet instance answer # section. # def answer=(object) case object when Array if object.all? {|x| x.kind_of? Net::DNS::RR} @answer = object else raise PacketArgumentError, "Some of the elements is not an Net::DNS::RR object" end when Net::DNS::RR @answer = [object] else raise PacketArgumentError, "Invalid argument, not a RR object nor an array of objects" end end # Assign a Net::DNS::RR object, or an array of # RR objects, to a Net::DNS::Packet instance additional # section. # def additional=(object) case object when Array if object.all? {|x| x.kind_of? Net::DNS::RR} @additional = object else raise PacketArgumentError, "Some of the elements is not an Net::DNS::RR object" end when Net::DNS::RR @additional = [object] else raise PacketArgumentError, "Invalid argument, not a RR object nor an array of objects" end end # Assign a Net::DNS::RR object, or an array of # RR objects, to a Net::DNS::Packet instance authority # section. # def authority=(object) case object when Array if object.all? {|x| x.kind_of? Net::DNS::RR} @authority = object else raise PacketArgumentError, "Some of the elements is not an Net::DNS::RR object" end when Net::DNS::RR @authority = [object] else raise PacketArgumentError, "Invalid argument, not a RR object nor an array of objects" end end # Iterate for every address in the +answer+ section of a # Net::DNS::Packet object. # # packet.each_address do |ip| # ping ip.to_s # end # # As you can see in the documentation for Net::DNS::RR::A class, # the address returned is an instance of IPAddr class. # def each_address @answer.each do |elem| next unless elem.class == Net::DNS::RR::A yield elem.address end end # Iterate for every nameserver in the +answer+ section of a # Net::DNS::Packet object. # # packet.each_nameserver do |ns| # puts "Nameserver found: #{ns}" # end # def each_nameserver @answer.each do |elem| next unless elem.class == Net::DNS::RR::NS yield elem.nsdname end end # Iterate for every exchange record in the +answer+ section # of a Net::DNS::Packet object. # # packet.each_mx do |pref,name| # puts "Mail exchange #{name} has preference #{pref}" # end # def each_mx @answer.each do |elem| next unless elem.class == Net::DNS::RR::MX yield elem.preference,elem.exchange end end # Iterate for every canonical name in the +answer+ section # of a Net::DNS::Packet object. # # packet.each_cname do |cname| # puts "Canonical name: #{cname}" # end # def each_cname @answer.each do |elem| next unless elem.class == Net::DNS::RR::CNAME yield elem.cname end end # Iterate for every pointer in the +answer+ section of a # Net::DNS::Packet object. # # packet.each_ptr do |ptr| # puts "Pointer for resource: #{ptr}" # end # def each_ptr @answer.each do |elem| next unless elem.class == Net::DNS::RR::PTR yield elem.ptrdname end end # Chacks whether a query has returned a NXDOMAIN error, # meaning the domain name queried doesn't exists. # # %w[a.com google.com ibm.com d.com].each do |domain| # response = Net::DNS::Resolver.new.send(domain) # puts "#{domain} doesn't exist" if response.nxdomain? # end # #=> a.com doesn't exist # #=> d.com doesn't exist # def nxdomain? header.rCode == Net::DNS::Header::NAME end private # New packet from binary data def new_from_data(data, from = nil) unless from if data.kind_of? Array data,from = data else from = [0,0,"0.0.0.0","unknown"] end end @answerfrom = from[2] + ":" + from[1].to_s @answersize = data.size @logger = Logger.new $stdout @logger.level = $DEBUG ? Logger::DEBUG : Logger::WARN #------------------------------------------------------------ # Header section #------------------------------------------------------------ offset = Net::DNS::HFIXEDSZ @header = Net::DNS::Header.parse(data[0..offset-1]) @logger.debug ";; HEADER SECTION" @logger.debug @header.inspect #------------------------------------------------------------ # Question section #------------------------------------------------------------ section = @header.opCode == "UPDATE" ? "ZONE" : "QUESTION" @logger.debug ";; #{section} SECTION (#{@header.qdCount} record#{@header.qdCount == 1 ? '': 's'})" @question = [] @header.qdCount.times do qobj,offset = parse_question(data,offset) @question << qobj @logger.debug ";; #{qobj.inspect}" end #------------------------------------------------------------ # Answer/prerequisite section #------------------------------------------------------------ section = @header.opCode == "UPDATE" ? "PREREQUISITE" : "ANSWER" @logger.debug ";; #{section} SECTION (#{@header.qdCount} record#{@header.qdCount == 1 ? '': 's'})" @answer = [] @header.anCount.times do rrobj,offset = Net::DNS::RR.parse_packet(data,offset) @answer << rrobj @logger.debug rrobj.inspect end #------------------------------------------------------------ # Authority/update section #------------------------------------------------------------ section = @header.opCode == "UPDATE" ? "UPDATE" : "AUTHORITY" @logger.debug ";; #{section} SECTION (#{@header.nsCount} record#{@header.nsCount == 1 ? '': 's'})" @authority = [] @header.nsCount.times do rrobj,offset = Net::DNS::RR.parse_packet(data,offset) @authority << rrobj @logger.debug rrobj.inspect end #------------------------------------------------------------ # Additional section #------------------------------------------------------------ @logger.debug ";; ADDITIONAL SECTION (#{@header.arCount} record#{@header.arCount == 1 ? '': 's'})" @additional = [] @header.arCount.times do rrobj,offset = Net::DNS::RR.parse_packet(data,offset) @additional << rrobj @logger.debug rrobj.inspect end end # new_from_data # Parse question section def parse_question(data,offset) size = (dn_expand(data,offset)[1]-offset) + 2*Net::DNS::INT16SZ return [Net::DNS::Question.parse(data[offset,size]), offset+size] rescue StandardError => err raise PacketError, "Caught exception, maybe packet malformed => #{err}" end end # class Packet end # module DNS end # module Net class PacketError < StandardError # :nodoc: end class PacketArgumentError < ArgumentError # :nodoc: end