# Copyright, 2009, 2012, by Samuel G. D. Williams. # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files (the "Software"), to deal # in the Software without restriction, including without limitation the rights # to use, copy, modify, merge, publish, distribute, sublicense, and/or sell # copies of the Software, and to permit persons to whom the Software is # furnished to do so, subject to the following conditions: # # The above copyright notice and this permission notice shall be included in # all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN # THE SOFTWARE. require 'celluloid/io' require_relative 'transaction' require_relative 'logger' module RubyDNS class UDPSocketWrapper < Celluloid::IO::UDPSocket def initialize(socket) @socket = socket end end class TCPServerWrapper < Celluloid::IO::TCPServer def initialize(server) @server = server end end class Server include Celluloid::IO finalizer :shutdown # The default server interfaces DEFAULT_INTERFACES = [[:udp, "0.0.0.0", 53], [:tcp, "0.0.0.0", 53]] # Instantiate a server with a block # # server = Server.new do # match(/server.mydomain.com/, IN::A) do |transaction| # transaction.respond!("1.2.3.4") # end # end # def initialize(options = {}) @handlers = [] @logger = options[:logger] || Celluloid.logger @interfaces = options[:listen] || DEFAULT_INTERFACES end attr_accessor :logger # Fire the named event as part of running the server. def fire(event_name) end def shutdown fire(:stop) end # Give a name and a record type, try to match a rule and use it for processing the given arguments. def process(name, resource_class, transaction) raise NotImplementedError.new end # Process an incoming DNS message. Returns a serialized message to be sent back to the client. def process_query(query, options = {}, &block) start_time = Time.now # Setup response response = Resolv::DNS::Message::new(query.id) response.qr = 1 # 0 = Query, 1 = Response response.opcode = query.opcode # Type of Query; copy from query response.aa = 1 # Is this an authoritative response: 0 = No, 1 = Yes response.rd = query.rd # Is Recursion Desired, copied from query response.ra = 0 # Does name server support recursion: 0 = No, 1 = Yes response.rcode = 0 # Response code: 0 = No errors transaction = nil begin query.question.each do |question, resource_class| @logger.debug {"<#{query.id}> Processing question #{question} #{resource_class}..."} transaction = Transaction.new(self, query, question, resource_class, response, options) transaction.process end rescue Celluloid::ResumableError raise rescue StandardError => error @logger.error "<#{query.id}> Exception thrown while processing #{transaction}!" RubyDNS.log_exception(@logger, error) response.rcode = Resolv::DNS::RCode::ServFail end end_time = Time.now @logger.debug {"<#{query.id}> Time to process request: #{end_time - start_time}s"} return response end # # By default the server runs on port 53, both TCP and UDP, which is usually a priviledged port and requires root access to bind. You can change this by specifying `options[:listen]` which should contain an array of `[protocol, interface address, port]` specifications. # # INTERFACES = [[:udp, "0.0.0.0", 5300]] # RubyDNS::run_server(:listen => INTERFACES) do # ... # end # # You can specify already connected sockets if need be: # # socket = UDPSocket.new; socket.bind("0.0.0.0", 53) # Process::Sys.setuid(server_uid) # INTERFACES = [socket] # def run @logger.info "Starting RubyDNS server (v#{RubyDNS::VERSION})..." fire(:setup) # Setup server sockets @interfaces.each do |spec| if spec.is_a?(BasicSocket) spec.do_not_reverse_lookup protocol = spec.getsockopt(Socket::SOL_SOCKET, Socket::SO_TYPE).unpack("i")[0] ip = spec.local_address.ip_address port = spec.local_address.ip_port case protocol when Socket::SOCK_DGRAM @logger.info "<> Attaching to pre-existing UDP socket #{ip}:#{port}" link UDPSocketHandler.new(self, UDPSocketWrapper.new(spec)) when Socket::SOCK_STREAM @logger.info "<> Attaching to pre-existing TCP socket #{ip}:#{port}" link TCPSocketHandler.new(self, TCPServerWrapper.new(spec)) else raise ArgumentError.new("Unknown socket protocol: #{protocol}") end elsif spec[0] == :udp @logger.info "<> Listening on #{spec.join(':')}" link UDPHandler.new(self, spec[1], spec[2]) elsif spec[0] == :tcp @logger.info "<> Listening on #{spec.join(':')}" link TCPHandler.new(self, spec[1], spec[2]) else raise ArgumentError.new("Invalid connection specification: #{spec.inspect}") end end fire(:start) end end # Provides the core of the RubyDNS domain-specific language (DSL). It contains a list of rules which are used to match against incoming DNS questions. These rules are used to generate responses which are either DNS resource records or failures. class RuleBasedServer < Server # Represents a single rule in the server. class Rule def initialize(pattern, callback) @pattern = pattern @callback = callback end # Returns true if the name and resource_class are sufficient: def match(name, resource_class) # If the pattern doesn't specify any resource classes, we implicitly pass this test: return true if @pattern.size < 2 # Otherwise, we try to match against some specific resource classes: if Class === @pattern[1] @pattern[1] == resource_class else @pattern[1].include?(resource_class) rescue false end end # Invoke the rule, if it matches the incoming request, it is evaluated and returns `true`, otherwise returns `false`. def call(server, name, resource_class, transaction) unless match(name, resource_class) server.logger.debug "<#{transaction.query.id}> Resource class #{resource_class} failed to match #{@pattern[1].inspect}!" return false end # Does this rule match against the supplied name? case @pattern[0] when Regexp match_data = @pattern[0].match(name) if match_data server.logger.debug "<#{transaction.query.id}> Regexp pattern matched with #{match_data.inspect}." @callback[transaction, match_data] return true end when String if @pattern[0] == name server.logger.debug "<#{transaction.query.id}> String pattern matched." @callback[transaction] return true end else if (@pattern[0].call(name, resource_class) rescue false) server.logger.debug "<#{transaction.query.id}> Callable pattern matched." @callback[transaction] return true end end server.logger.debug "<#{transaction.query.id}> No pattern matched." # We failed to match the pattern. return false end def to_s @pattern.inspect end end # Don't wrap the block going into initialize. execute_block_on_receiver :initialize # Instantiate a server with a block # # server = Server.new do # match(/server.mydomain.com/, IN::A) do |transaction| # transaction.respond!("1.2.3.4") # end # end # def initialize(options = {}, &block) super(options) @events = {} @rules = [] @otherwise = nil if block_given? instance_eval &block end end attr_accessor :logger # This function connects a pattern with a block. A pattern is either a String or a Regex instance. Optionally, a second argument can be provided which is either a String, Symbol or Array of resource record types which the rule matches against. # # match("www.google.com") # match("gmail.com", IN::MX) # match(/g?mail.(com|org|net)/, [IN::MX, IN::A]) # def match(*pattern, &block) @rules << Rule.new(pattern, block) end # Register a named event which may be invoked later using #fire # # on(:start) do |server| # Process::Daemon::Permissions.change_user(RUN_AS) # end def on(event_name, &block) @events[event_name] = block end # Fire the named event, which must have been registered using on. def fire(event_name) callback = @events[event_name] if callback callback.call(self) end end # Specify a default block to execute if all other rules fail to match. This block is typially used to pass the request on to another server (i.e. recursive request). # # otherwise do |transaction| # transaction.passthrough!($R) # end # def otherwise(&block) @otherwise = block end # If you match a rule, but decide within the rule that it isn't the correct one to use, you can call `next!` to evaluate the next rule - in other words, to continue falling down through the list of rules. def next! throw :next end # Give a name and a record type, try to match a rule and use it for processing the given arguments. def process(name, resource_class, transaction) @logger.debug {"<#{transaction.query.id}> Searching for #{name} #{resource_class.name}"} @rules.each do |rule| @logger.debug {"<#{transaction.query.id}> Checking rule #{rule}..."} catch (:next) do # If the rule returns true, we assume that it was successful and no further rules need to be evaluated. return if rule.call(self, name, resource_class, transaction) end end if @otherwise @otherwise.call(transaction) else @logger.warn "<#{transaction.query.id}> Failed to handle #{name} #{resource_class.name}!" end end end end