NAME
Net::DNS::Packet - DNS protocol packet
SYNOPSIS
use Net::DNS::Packet;
$query = Net::DNS::Packet->new( 'example.com', 'MX', 'IN' );
$reply = $resolver->send( $query );
DESCRIPTION
A Net::DNS::Packet object represents a DNS protocol packet.
METHODS
new
$packet = Net::DNS::Packet->new( 'example.com' );
$packet = Net::DNS::Packet->new( 'example.com', 'MX', 'IN' );
$packet = Net::DNS::Packet->new();
If passed a domain, type, and class, new() creates a Net::DNS::Packet
object which is suitable for making a DNS query for the specified
information. The type and class may be omitted; they default to A
and IN.
If called with an empty argument list, new() creates an empty packet.
decode
$packet = Net::DNS::Packet->decode( \$data );
$packet = Net::DNS::Packet->decode( \$data, 1 ); # debug
$packet = Net::DNS::Packet->new( \$data ... );
A new packet object is created by decoding the DNS packet data
contained in the scalar referenced by the first argument.
The optional second boolean argument enables debugging output.
Returns undef if unable to create a packet object.
Decoding errors, including data corruption and truncation, are
collected in the $@ ($EVAL_ERROR) variable.
( $packet, $length ) = Net::DNS::Packet->decode( \$data );
If called in array context, returns a packet object and the number
of octets successfully decoded.
Note that the number of RRs in each section of the packet may differ
from the corresponding header value if the data has been truncated
or corrupted during transmission.
encode
$data = $packet->encode;
$data = $packet->encode( $size );
Returns the packet data in binary format, suitable for sending as a
query or update request to a nameserver.
Truncation may be specified using a non-zero optional size argument.
header
$header = $packet->header;
Constructor method which returns a Net::DNS::Header object which
represents the header section of the packet.
edns
$version = $packet->edns->version;
$UDPsize = $packet->edns->size;
Auxiliary function which provides access to the EDNS protocol
extension OPT RR.
reply
$reply = $query->reply( $UDPmax );
Constructor method which returns a new reply packet.
The optional UDPsize argument is the maximum UDP packet size which
can be reassembled by the local network stack, and is advertised in
response to an EDNS query.
question, zone
@question = $packet->question;
Returns a list of Net::DNS::Question objects representing the
question section of the packet.
In dynamic update packets, this section is known as zone() and
specifies the DNS zone to be updated.
answer, pre, prerequisite
@answer = $packet->answer;
Returns a list of Net::DNS::RR objects representing the answer
section of the packet.
In dynamic update packets, this section is known as pre() or
prerequisite() and specifies the RRs or RRsets which must or must
not preexist.
authority, update
@authority = $packet->authority;
Returns a list of Net::DNS::RR objects representing the authority
section of the packet.
In dynamic update packets, this section is known as update() and
specifies the RRs or RRsets to be added or deleted.
additional
@additional = $packet->additional;
Returns a list of Net::DNS::RR objects representing the additional
section of the packet.
print
$packet->print;
Prints the entire packet to the currently selected output filehandle
using the master file format mandated by RFC1035.
string
print $packet->string;
Returns a string representation of the packet.
from
print "packet received from ", $packet->from, "\n";
Returns the IP address from which this packet was received.
This method will return undef for user-created packets.
size
print "packet size: ", $packet->size, " octets\n";
Returns the size of the packet in octets as it was received from a
nameserver. This method will return undef for user-created packets
(use length($packet->data) instead).
push
$ancount = $packet->push( prereq => $rr );
$nscount = $packet->push( update => $rr );
$arcount = $packet->push( additional => $rr );
$nscount = $packet->push( update => $rr1, $rr2, $rr3 );
$nscount = $packet->push( update => @rr );
Adds RRs to the specified section of the packet.
Returns the number of resource records in the specified section.
Section names may be abbreviated to the first three characters.
unique_push
$ancount = $packet->unique_push( prereq => $rr );
$nscount = $packet->unique_push( update => $rr );
$arcount = $packet->unique_push( additional => $rr );
$nscount = $packet->unique_push( update => $rr1, $rr2, $rr3 );
$nscount = $packet->unique_push( update => @rr );
Adds RRs to the specified section of the packet provided that the
RRs are not already present in the same section.
Returns the number of resource records in the specified section.
Section names may be abbreviated to the first three characters.
pop
my $rr = $packet->pop( 'pre' );
my $rr = $packet->pop( 'update' );
my $rr = $packet->pop( 'additional' );
Removes a single RR from the specified section of the packet.
sign_tsig
$query = Net::DNS::Packet->new( 'www.example.com', 'A' );
$query->sign_tsig(
$keyfile,
fudge => 60
);
$reply = $res->send( $query );
$reply->verify( $query ) || die $reply->verifyerr;
Attaches a TSIG resource record object, which will be used to sign
the packet (see RFC 2845).
The TSIG record can be customised by optional additional arguments to
sign_tsig() or by calling the appropriate Net::DNS::RR::TSIG methods.
If you wish to create a TSIG record using a non-standard algorithm,
you will have to create it yourself. In all cases, the TSIG name
must uniquely identify the key shared between the parties, and the
algorithm name must identify the signing function to be used with the
specified key.
$tsig = Net::DNS::RR->new(
name => 'tsig.example',
type => 'TSIG',
algorithm => 'custom-algorithm',
key => '',
sig_function => sub {
my ($key, $data) = @_;
...
}
);
$query->sign_tsig( $tsig );
The response to an inbound request is signed by presenting the request
in place of the key parameter.
$response = $request->reply;
$response->sign_tsig( $request, @options );
Multi-packet transactions are signed by chaining the sign_tsig()
calls together as follows:
$opaque = $packet1->sign_tsig( 'Kexample.+165+13281.private' );
$opaque = $packet2->sign_tsig( $opaque );
$opaque = $packet3->sign_tsig( $opaque );
The opaque intermediate object references returned during multi-packet
signing are not intended to be accessed by the end-user application.
Any such access is expressly forbidden.
Note that a TSIG record is added to every packet; this implementation
does not support the suppressed signature scheme described in RFC2845.
verify and verifyerr
$reply->verify($query) || die $reply->verifyerr;
Verify TSIG signature of a reply to the corresponding query.
$opaque = $packet1->verify( $query ) || die $packet1->verifyerr;
$opaque = $packet2->verify( $opaque );
$verifed = $packet3->verify( $opaque ) || die $packet3->verifyerr;
Verify TSIG signature of a multi-packet reply to the corresponding query.
The opaque intermediate object references returned by verify() at each
stage will be undefined (Boolean false) if verification fails.
Testing at every stage is not necessary, which produces a BADSIG error
on the final packet in the absence of more specific information.
Access to the objects themselves, if they exist, is expressly forbidden.
sign_sig0
SIG0 support is provided through the Net::DNS::RR::SIG class.
The requisite cryptographic components are not integrated into
Net::DNS but reside in the Net::DNS::SEC distribution available
from CPAN.
$update = Net::DNS::Update->new('example.com');
$update->push( update => rr_add('foo.example.com A 10.1.2.3'));
$update->sign_sig0('Kexample.com+003+25317.private');
Execution will be terminated if Net::DNS::SEC is not available.
verify SIG0
$packet->verify( $keyrr ) || die $packet->verifyerr;
$packet->verify( [$keyrr, ...] ) || die $packet->verifyerr;
Verify SIG0 packet signature against one or more specified KEY RRs.
sigrr
$sigrr = $packet->sigrr() || die 'unsigned packet';
The sigrr method returns the signature RR from a signed packet
or undefined if the signature is absent.
truncate
The truncate method takes a maximum length as argument and then tries
to truncate the packet and set the TC bit according to the rules of
RFC2181 Section 9.
The smallest length limit that is honoured is 512 octets.
COPYRIGHT
Copyright (c)1997-2000 Michael Fuhr.
Portions Copyright (c)2002-2004 Chris Reinhardt.
Portions Copyright (c)2002-2009 Olaf Kolkman
Portions Copyright (c)2007-2019 Dick Franks
All rights reserved.
LICENSE
Permission to use, copy, modify, and distribute this software and its
documentation for any purpose and without fee is hereby granted, provided
that the original copyright notices appear in all copies and that both
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.
SEE ALSO
perl Net::DNS Net::DNS::Header
Net::DNS::Question Net::DNS::RR Net::DNS::RR::TSIG
RFC1035(4.1)
RFC2136
RFC8490
RFC8945
