# $Id: Resolver.pm,v 1.3 2005/02/14 22:06:08 msergeant Exp $ package Danga::DNS::Resolver; use base qw(Danga::Socket); use fields qw(res dst id_to_asker id_to_query timeout cache cache_timeout); use Net::DNS; use Socket; use strict; our $last_cleanup = 0; sub trace { my $level = shift; print ("$::DEBUG/$level [$$] dns lookup: @_") if $::DEBUG >= $level; } sub new { my Danga::DNS::Resolver $self = shift; $self = fields::new($self) unless ref $self; my $res = Net::DNS::Resolver->new; my $sock = IO::Socket::INET->new( Proto => 'udp', LocalAddr => $res->{'srcaddr'}, LocalPort => ($res->{'srcport'} || undef), ) || die "Cannot create socket: $!"; IO::Handle::blocking($sock, 0); trace(2, "Using nameserver $res->{nameservers}->[0]:$res->{port}\n"); my $dst_sockaddr = sockaddr_in($res->{'port'}, inet_aton($res->{'nameservers'}->[0])); #my $dst_sockaddr = sockaddr_in($res->{'port'}, inet_aton('127.0.0.1')); #my $dst_sockaddr = sockaddr_in($res->{'port'}, inet_aton('10.2.1.20')); $self->{res} = $res; $self->{dst} = $dst_sockaddr; $self->{id_to_asker} = {}; $self->{id_to_query} = {}; $self->{timeout} = {}; $self->{cache} = {}; $self->{cache_timeout} = {}; $self->SUPER::new($sock); $self->watch_read(1); return $self; } sub pending { my Danga::DNS::Resolver $self = shift; return keys(%{$self->{id_to_asker}}); } sub _query { my Danga::DNS::Resolver $self = shift; my ($asker, $host, $type, $now) = @_; if ($ENV{NODNS}) { $asker->run_callback("NXDNS", $host); return 1; } if (exists $self->{cache}{$type}{$host}) { # print "CACHE HIT!\n"; $asker->run_callback($self->{cache}{$type}{$host}, $host); return 1; } my $packet = $self->{res}->make_query_packet($host, $type); my $packet_data = $packet->data; my $h = $packet->header; my $id = $h->id; if (!$self->sock->send($packet_data, 0, $self->{dst})) { return; } trace(2, "Query: $host ($id)\n"); $self->{id_to_asker}->{$id} = $asker; $self->{id_to_query}->{$id} = $host; $self->{timeout}->{$id} = $now; return 1; } sub query_txt { my Danga::DNS::Resolver $self = shift; my ($asker, @hosts) = @_; my $now = time(); trace(2, "[" . keys(%{$self->{id_to_asker}}) . "] trying to resolve TXT: @hosts\n"); foreach my $host (@hosts) { $self->_query($asker, $host, 'TXT', $now) || return; } # run cleanup every 5 seconds if ($now - 5 > $last_cleanup) { $last_cleanup = $now; $self->_do_cleanup($now); } #print "+Pending queries: " . keys(%{$self->{id_to_asker}}) . # " / Cache Size: " . keys(%{$self->{cache}}) . "\n"; return 1; } sub query_mx { my Danga::DNS::Resolver $self = shift; my ($asker, @hosts) = @_; my $now = time(); trace(2, "[" . keys(%{$self->{id_to_asker}}) . "] trying to resolve MX: @hosts\n"); foreach my $host (@hosts) { $self->_query($asker, $host, 'MX', $now) || return; } # run cleanup every 5 seconds if ($now - 5 > $last_cleanup) { $last_cleanup = $now; $self->_do_cleanup($now); } #print "+Pending queries: " . keys(%{$self->{id_to_asker}}) . # " / Cache Size: " . keys(%{$self->{cache}}) . "\n"; return 1; } sub query { my Danga::DNS::Resolver $self = shift; my ($asker, @hosts) = @_; my $now = time(); trace(2, "[" . keys(%{$self->{id_to_asker}}) . "] trying to resolve A/PTR: @hosts\n"); foreach my $host (@hosts) { $self->_query($asker, $host, 'A', $now) || return; } # run cleanup every 5 seconds if ($now - 5 > $last_cleanup) { $last_cleanup = $now; $self->_do_cleanup($now); } #print "+Pending queries: " . keys(%{$self->{id_to_asker}}) . # " / Cache Size: " . keys(%{$self->{cache}}) . "\n"; return 1; } sub ticker { my Danga::DNS::Resolver $self = shift; my $now = time; # run cleanup every 5 seconds if ($now - 5 > $last_cleanup) { $last_cleanup = $now; $self->_do_cleanup($now); } } sub _do_cleanup { my Danga::DNS::Resolver $self = shift; my $now = shift; my $idle = $self->max_idle_time; my @to_delete; while (my ($id, $t) = each(%{$self->{timeout}})) { if ($t < ($now - $idle)) { push @to_delete, $id; } } foreach my $id (@to_delete) { delete $self->{timeout}{$id}; my $asker = delete $self->{id_to_asker}{$id}; my $query = delete $self->{id_to_query}{$id}; $asker->run_callback("NXDOMAIN", $query); } foreach my $type ('A', 'TXT') { @to_delete = (); while (my ($query, $t) = each(%{$self->{cache_timeout}{$type}})) { if ($t < $now) { push @to_delete, $query; } } foreach my $q (@to_delete) { delete $self->{cache_timeout}{$type}{$q}; delete $self->{cache}{$type}{$q}; } } } # seconds max timeout! sub max_idle_time { 30 } # Danga::DNS sub event_err { shift->close("dns socket error") } sub event_hup { shift->close("dns socket error") } sub event_read { my Danga::DNS::Resolver $self = shift; while (my $packet = $self->{res}->bgread($self->sock)) { my $err = $self->{res}->errorstring; my $answers = 0; my $header = $packet->header; my $id = $header->id; my $asker = delete $self->{id_to_asker}->{$id}; my $query = delete $self->{id_to_query}->{$id}; delete $self->{timeout}{$id}; #print "-Pending queries: " . keys(%{$self->{id_to_asker}}) . # " / Cache Size: " . keys(%{$self->{cache}}) . "\n"; if (!$asker) { trace(1, "No asker for id: $id\n"); return; } my $now = time(); my @questions = $packet->question; #print STDERR "response to ", $questions[0]->string, "\n"; foreach my $rr ($packet->answer) { # my $q = shift @questions; if ($rr->type eq "PTR") { my $rdns = $rr->ptrdname; if ($query) { # NB: Cached as an "A" lookup as there's no overlap and they # go through the same query() function above $self->{cache}{A}{$query} = $rdns; $self->{cache_timeout}{A}{$query} = $now + 60; # should use $rr->ttl but that would cache for too long } $asker->run_callback($rdns, $query); } elsif ($rr->type eq "A") { my $ip = $rr->address; if ($query) { $self->{cache}{A}{$query} = $ip; $self->{cache_timeout}{A}{$query} = $now + 60; # should use $rr->ttl but that would cache for too long } $asker->run_callback($ip, $query); } elsif ($rr->type eq "TXT") { my $txt = $rr->txtdata; if ($query) { $self->{cache}{TXT}{$query} = $txt; $self->{cache_timeout}{TXT}{$query} = $now + 60; # should use $rr->ttl but that would cache for too long } $asker->run_callback($txt, $query); } else { # came back, but not a PTR or A record $asker->run_callback("unknown", $query); } $answers++; } if (!$answers) { if ($err eq "NXDOMAIN") { # trace("found => NXDOMAIN\n"); $asker->run_callback("NXDOMAIN", $query); } elsif ($err eq "SERVFAIL") { # try again??? print "SERVFAIL looking for $query (Pending: " . keys(%{$self->{id_to_asker}}) . ")\n"; #$self->query($asker, $query); $asker->run_callback($err, $query); #$self->{id_to_asker}->{$id} = $asker; #$self->{id_to_query}->{$id} = $query; #$self->{timeout}{$id} = time(); } elsif($err) { print("error: $err\n"); $asker->run_callback($err, $query); } else { # trace("no answers\n"); $asker->run_callback("NXDOMAIN", $query); } } } } use Carp qw(confess); sub close { my Danga::DNS::Resolver $self = shift; $self->SUPER::close(shift); confess "Danga::DNS::Resolver socket should never be closed!"; } 1; =head1 NAME Danga::DNS::Resolver - an asynchronous DNS resolver class =head1 SYNOPSIS my $res = Danga::DNS::Resolver->new(); $res->query($obj, @hosts); # $obj implements $obj->run_callback() =head1 DESCRIPTION This is a low level DNS resolver class that works within the Danga::Socket asynchronous I/O framework. Do not attempt to use this class standalone - use the C class instead. =cut