#!/usr/bin/perl # Copyright (C) Internet Systems Consortium, Inc. ("ISC") # # SPDX-License-Identifier: MPL-2.0 # # This Source Code Form is subject to the terms of the Mozilla Public # License, v. 2.0. If a copy of the MPL was not distributed with this # file, you can obtain one at https://mozilla.org/MPL/2.0/. # # See the COPYRIGHT file distributed with this work for additional # information regarding copyright ownership. # This is a TCP-only DNS server whose aim is to facilitate testing how dig # copes with prematurely closed TCP connections. # # This server can be configured (through a separate control socket) with a # series of responses to send for subsequent incoming TCP DNS queries. Only # one query is handled before closing each connection. In order to keep things # simple, the server is not equipped with any mechanism for handling malformed # queries. # # Available response types are defined in the %response_types hash in the # getAnswerSection() function below. Each RR returned is generated dynamically # based on the QNAME found in the incoming query. use IO::File; use Net::DNS; use Net::DNS::Packet; use strict; # Ignore SIGPIPE so we won't fail if peer closes a TCP socket early local $SIG{PIPE} = 'IGNORE'; # Flush logged output after every line local $| = 1; my $server_addr = "10.53.0.5"; if (@ARGV > 0) { $server_addr = @ARGV[0]; } my $mainport = int($ENV{'PORT'}); if (!$mainport) { $mainport = 5300; } my $ctrlport = int($ENV{'EXTRAPORT1'}); if (!$ctrlport) { $ctrlport = 5301; } my $ctlsock = IO::Socket::INET->new(LocalAddr => "$server_addr", LocalPort => $ctrlport, Proto => "tcp", Listen => 5, Reuse => 1) or die "$!"; my $tcpsock = IO::Socket::INET->new(LocalAddr => "$server_addr", LocalPort => $mainport, Proto => "tcp", Listen => 5, Reuse => 1) or die "$!"; my $pidf = new IO::File "ans.pid", "w" or die "cannot open pid file: $!"; print $pidf "$$\n" or die "cannot write pid file: $!"; $pidf->close or die "cannot close pid file: $!";; sub rmpid { unlink "ans.pid"; exit 1; }; $SIG{INT} = \&rmpid; $SIG{TERM} = \&rmpid; my @response_sequence = ("complete_axfr"); my $connection_counter = 0; # Return the next answer type to send, incrementing the connection counter and # making sure the latter does not exceed the size of the array holding the # configured response sequence. sub getNextResponseType { my $response_type = $response_sequence[$connection_counter]; $connection_counter++; $connection_counter %= scalar(@response_sequence); return $response_type; } # Return an array of resource records comprising the answer section of a given # response type. sub getAnswerSection { my ($response_type, $qname) = @_; my %response_types = ( no_response => [], partial_axfr => [ Net::DNS::RR->new("$qname 300 IN SOA . . 0 0 0 0 300"), Net::DNS::RR->new("$qname NS ."), ], complete_axfr => [ Net::DNS::RR->new("$qname 300 IN SOA . . 0 0 0 0 300"), Net::DNS::RR->new("$qname NS ."), Net::DNS::RR->new("$qname 300 IN SOA . . 0 0 0 0 300"), ], ); return $response_types{$response_type}; } # Generate a Net::DNS::Packet containing the response to send on the current # TCP connection. If the answer section of the response is determined to be # empty, no data will be sent on the connection at all (immediate EOF). sub generateResponse { my ($buf) = @_; my $request; if ($Net::DNS::VERSION > 0.68) { $request = new Net::DNS::Packet(\$buf, 0); $@ and die $@; } else { my $err; ($request, $err) = new Net::DNS::Packet(\$buf, 0); $err and die $err; } my @questions = $request->question; my $qname = $questions[0]->qname; my $qtype = $questions[0]->qtype; my $qclass = $questions[0]->qclass; my $id = $request->header->id; my $packet = new Net::DNS::Packet($qname, $qtype, $qclass); $packet->header->qr(1); $packet->header->aa(1); $packet->header->id($id); my $response_type = getNextResponseType(); my $answers = getAnswerSection($response_type, $qname); for my $rr (@$answers) { $packet->push("answer", $rr); } print " Sending \"$response_type\" response\n"; return $packet->data if @$answers; } my $rin; my $rout; for (;;) { $rin = ''; vec($rin, fileno($ctlsock), 1) = 1; vec($rin, fileno($tcpsock), 1) = 1; select($rout = $rin, undef, undef, undef); if (vec($rout, fileno($ctlsock), 1)) { my $conn = $ctlsock->accept; @response_sequence = split(' ', $conn->getline); $connection_counter = 0; print "Response sequence set to: @response_sequence\n"; $conn->close; } elsif (vec($rout, fileno($tcpsock), 1)) { my $buf; my $lenbuf; my $conn = $tcpsock->accept; my $n = $conn->sysread($lenbuf, 2); die unless $n == 2; my $len = unpack("n", $lenbuf); $n = $conn->sysread($buf, $len); die unless $n == $len; print "TCP request\n"; my $response = generateResponse($buf); if ($response) { $len = length($response); $n = $conn->syswrite(pack("n", $len), 2); $n = $conn->syswrite($response, $len); print " Sent: $n chars via TCP\n"; } else { print " No response sent\n"; } $conn->close; } }