Net::DNS::Nameserver - DNS server class
use Net::DNS::Nameserver; $nameserver = new Net::DNS::Nameserver( LocalAddr => ['::1' , '127.0.0.1' ], LocalPort => "5353", ReplyHandler => \&reply_handler, Verbose => 1, Truncate => 0 );
Instances of the Net::DNS::Nameserver class represent DNS server objects. See "EXAMPLE" for an example.
Net::DNS::Nameserver
my $ns = new Net::DNS::Nameserver( LocalAddr => "10.1.2.3", LocalPort => "5353", ReplyHandler => \&reply_handler, Verbose => 1 ); my $ns = new Net::DNS::Nameserver( LocalAddr => ['::1' , '127.0.0.1' ], LocalPort => "5353", ReplyHandler => \&reply_handler, Verbose => 1, Truncate => 0 );
Returns a Net::DNS::Nameserver object, or undef if the object could not be created.
Attributes are:
LocalAddr IP address on which to listen. Defaults to INADDR_ANY. LocalPort Port on which to listen. Defaults to 53. ReplyHandler Reference to reply-handling subroutine Required. NotifyHandler Reference to reply-handling subroutine for queries with opcode NOTIFY (RFC1996) UpdateHandler Reference to reply-handling subroutine for queries with opcode UPDATE (RFC2136) Verbose Print info about received queries. Defaults to 0 (off). Truncate Truncates UDP packets that are too big for the reply Defaults to 1 (on) IdleTimeout TCP clients are disconnected if they are idle longer than this duration. Defaults to 120 (secs)
The LocalAddr attribute may alternatively be specified as a list of IP addresses to listen to.
If IO::Socket::INET6 and Socket6 are available on the system you can also list IPv6 addresses and the default is '0' (listen on all interfaces on IPv6 and IPv4);
The ReplyHandler subroutine is passed the query name, query class, query type and optionally an argument containing the peerhost, the incoming query, and the name of the incoming socket (sockethost). It must either return the response code and references to the answer, authority, and additional sections of the response, or undef to leave the query unanswered. Common response codes are:
NOERROR No error FORMERR Format error SERVFAIL Server failure NXDOMAIN Non-existent domain (name doesn't exist) NOTIMP Not implemented REFUSED Query refused
For advanced usage it may also contain a headermask containing an hashref with the settings for the aa, ra, and ad header bits. The argument is of the form { ad => 1, aa => 0, ra => 1 }.
aa
ra
ad
{ ad => 1, aa => 0, ra => 1 }
See RFC 1035 and the IANA dns-parameters file for more information:
ftp://ftp.rfc-editor.org/in-notes/rfc1035.txt http://www.isi.edu/in-notes/iana/assignments/dns-parameters
The nameserver will listen for both UDP and TCP connections. On Unix-like systems, the program will probably have to run as root to listen on the default port, 53. A non-privileged user should be able to listen on ports 1024 and higher.
UDP reply truncation functionality was introduced in VERSION 830. The size limit is determined by the EDNS0 size advertised in the query, otherwise 512 is used. If you want to do packet truncation yourself you should set Truncate to 0 and truncate the reply packet in the code of the ReplyHandler.
Truncate
See "EXAMPLE" for an example.
$ns->main_loop;
Start accepting queries. Calling main_loop never returns.
$ns->loop_once( [TIMEOUT_IN_SECONDS] );
Start accepting queries, but returns. If called without a parameter, the call will not return until a request has been received (and replied to). Otherwise, the parameter specifies the maximum time to wait for a request. A zero timeout forces an immediate return if there is nothing to do.
Handling a request and replying obviously depends on the speed of ReplyHandler. Assuming a fast ReplyHandler, loop_once should spend just a fraction of a second, if called with a timeout value of 0.0 seconds. One exception is when an AXFR has requested a huge amount of data that the OS is not ready to receive in full. In that case, it will remain in a loop (while servicing new requests) until the reply has been sent.
In case loop_once accepted a TCP connection it will immediately check if there is data to be read from the socket. If not it will return and you will have to call loop_once() again to check if there is any data waiting on the socket to be processed. In most cases you will have to count on calling "loop_once" twice.
A code fragment like:
$ns->loop_once(10); while( $ns->get_open_tcp() ){ $ns->loop_once(0); }
Would wait for 10 seconds for the initial connection and would then process all TCP sockets until none is left.
In scalar context returns the number of TCP connections for which state is maintained. In array context it returns IO::Socket objects, these could be useful for troubleshooting but be careful using them.
The following example will listen on port 5353 and respond to all queries for A records with the IP address 10.1.2.3. All other queries will be answered with NXDOMAIN. Authority and additional sections are left empty. The $peerhost variable catches the IP address of the peer host, so that additional filtering on its basis may be applied.
#!/usr/bin/perl use strict; use warnings; use Net::DNS::Nameserver; sub reply_handler { my ($qname, $qclass, $qtype, $peerhost,$query,$conn) = @_; my ($rcode, @ans, @auth, @add); print "Received query from $peerhost to ". $conn->{sockhost}. "\n"; $query->print; if ($qtype eq "A" && $qname eq "foo.example.com" ) { my ($ttl, $rdata) = (3600, "10.1.2.3"); my $rr = new Net::DNS::RR("$qname $ttl $qclass $qtype $rdata"); push @ans, $rr; $rcode = "NOERROR"; }elsif( $qname eq "foo.example.com" ) { $rcode = "NOERROR"; }else{ $rcode = "NXDOMAIN"; } # mark the answer as authoritative (by setting the 'aa' flag return ($rcode, \@ans, \@auth, \@add, { aa => 1 }); } my $ns = new Net::DNS::Nameserver( LocalPort => 5353, ReplyHandler => \&reply_handler, Verbose => 1 ) || die "couldn't create nameserver object\n"; $ns->main_loop;
Limitations in perl 5.8.6 makes it impossible to guarantee that replies to UDP queries from Net::DNS::Nameserver are sent from the IP-address they were received on. This is a problem for machines with multiple IP-addresses and causes violation of RFC2181 section 4. Thus a UDP socket created listening to INADDR_ANY (all available IP-addresses) will reply not necessarily with the source address being the one to which the request was sent, but rather with the address that the operating system chooses. This is also often called "the closest address". This should really only be a problem on a server which has more than one IP-address (besides localhost - any experience with IPv6 complications here, would be nice). If this is a problem for you, a work-around would be to not listen to INADDR_ANY but to specify each address that you want this module to listen on. A separate set of sockets will then be created for each IP-address.
Copyright (c)2000 Michael Fuhr.
Portions Copyright (c)2002-2004 Chris Reinhardt.
Portions Copyright (c)2005 Robert Martin-Legene.
Portions Copyright (c)2005-2009 O.M, Kolkman, RIPE NCC.
All rights reserved.
Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the name of the author not be used in advertising or publicity pertaining to distribution of the software without specific prior written permission.
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.
perl, Net::DNS, Net::DNS::Resolver, Net::DNS::Packet, Net::DNS::Update, Net::DNS::Header, Net::DNS::Question, Net::DNS::RR, RFC 1035
To install Net::DNS, copy and paste the appropriate command in to your terminal.
cpanm
cpanm Net::DNS
CPAN shell
perl -MCPAN -e shell install Net::DNS
For more information on module installation, please visit the detailed CPAN module installation guide.