NAME Net::DNS::Dig - dig like methods SYNOPSIS IO methods and functions to return DNS information These functions do not use "SIG_ALRM" and are safe to use in CGI programs. use Net::DNS::Dig qw( :forceEmu ndd_gethostbyaddr ndd_gethostbyname ndd_gethostbyname2 AF_INET AF_INET6 ); $dig = new Net::DNS::Dig(); $dig = new Net::DNS::Dig( %hash ); $dig = new Net::DNS::Dig( \%hash ); $dobj = $dig->for(name, type); $tobj = $dig->to_text(); $array_ptr = $dig->data($section); $array_ptr = $tobj->data($section); $array_ptr = $dig->records($type,$sect); $array_ptr = $tobj->records($type,$sect); $text = $dig->sprintf; $rv = $dig->rcode(true/false); $rdata = $dig->rdata($type,$sect); $rdata = $tobj->rdata($type,$sect; or in array context @array = $dig->data($section); @array = $dig->records($type,$sect); @rdata = $dig->rdata($type,$sect); ($name,$aliases,$addrtype,$length,@addrs) = ndd_gethostbyaddr( naddr_naddr6 ); ($name,$aliases,$addrtype,$length,@addrs) = ndd_gethostbyname( name_ipV4_ipV6 ); ($name,$aliases,$addrtype,$length,@addrs) = ndd_gethostbyname2( name_ipV4_ipV6 AF_family); or in array context $name = ndd_gethostbyaddr(netaddr); $netaddr = ndd_gethostbyname(name_ipV4); $netaddr = ndd_gethostbyname2(name_ipV4_ipV6,AF_family); DESCRIPTION * $dig = new Net::DNS::Dig( # optional parameters Timeout => 15, # default Class => 'IN', # default PeerAddr => host or [name1, name2, ...] default local NS PeerPort => 53, # default Proto => 'UDP', # default Recursion => 1, # default QuesHead => 0, # default, print question header QuesBody => 0, # default, print question body RespHead => 0, # default, print response header RespBody => 0, # default, print response body ); * $dobj = $dig->for(name, type); This method returns a blessed object containing the binary query response object $dobj is $dig filled with the following data input: query name i.e. host name, ip address, etc... type [optional type] A, MX, etc... returns: blessed object of the form... $dobj = { Timeout => input value, Class => input value, PeerAddr => [input value], PeerPort => input value, Proto => input value, Recursion => input value, Errno => posix error number or set to zero ELAPSED => milliseconds, # query time NRECS => number of records, BYTES => number of bytes TEXT => '', # this field is empty SERVER => name, # of query server HEADER => { ID => return value, QR => return value, AA => return value, TC => return value, RD => return value, RA => return value, MBZ => return value, AD => return value, CD => return value, RCODE => return value, OPCODE => return value, QDCOUNT => return value, # question ANCOUNT => return value, # answer NSCOUNT => return value, # authority ARCOUNT => return value, # additional }, QUESTION => [ { NAME => return name, TYPE => return type, CLASS => return class, }, ], ANSWER => [ # for each answer record { NAME => return name, TYPE => return type, CLASS => return class, TTL => return ttl, RDLEN => $n, # octets RDATA => @rdata, # data fields }, ], AUTHORITY => [ # for each authority record { NAME => return name, TYPE => return type, CLASS => return class, TTL => return ttl, RDLEN => $n, # octets RDATA => @rdata, # data fields }, ], ADDITIONAL => [ # for each glue record { NAME => return name, TYPE => return type, CLASS => return class, TTL => return ttl, RDLEN => $n, # octets RDATA => @rdata, # data fields }, ], }; * $tobj = $dig->to_text(); This method returns a blessed object of the same form as dig above with the following fields converted to text: RCODE OPCODE QUESTION ANSWER AUTHORITY ADDITIONAL The TEXT value scalar is filled with a formatted text string like that returned from *NIX "dig" * $array_ptr = $dig->data($section); * $array_ptr = $tobj->data($section); or * @array = $dig->data($section); This method returns a pointer or array in binary or text form from from a $dig or $tobj object pointer, respectively. In scalar context returns a pointer to an array of query response hash's representing each record returned. In array context returns an array of hash's for each query response record. input: section name [optional, default ANSWER] returns: array pr pointer to array of one or more hash's ->[ {}, {}, {}, ...]; where $section if one of: QUESTION, ANSWER, AUTHORITY, ADDITIONAL Each answer hash is of the form described above for: $dig->for(); * $array_ptr = $dig->records($type,$sect); * $array_ptr = $tobj->records($type,$sect); or * @array = $dig->records($type,$sect); This method returns a pointer to or an array of RDATA arrays for each query response record. input: $type [optional record type, A, NS, etc...] not case sensitive, defaults to TYPE of original query $sect [optional section, defaults to ANSWER] returns: array or pointer to array of one or more rdata arrays ->[ [], [], [], ...] ]; where $sect is one of ANSWER, AUTHORITY, ADDITIONAL Each answer array is of the form described above for RDATA in: $dig->for(); * $rdata = $dig->rdata($type,$sect); * $rdata = $tobj->rdata($type,$sect; or * @rdata = $dig->rdata($type,$sect); This method returns the first element or a list of rdata items. See the appropriate RFC's for types such as MX which have two elements per record. i.e. MX rdata => (priority, name) multiple records would be returned as a list of pri, name, pri, name, etc... input: $type [optional record type, A, NS, etc...] not case sensitive, defaults to TYPE of original query $sect [optional section, defaults to ANSWER] returns: a list or its first element * $rv = $dig->rcode(true/false); This method returns the query response code in numeric form if argument is false and the text response code if the argument is true. NOERROR => 0, FORMERR => 1, SERVFAIL => 2, NXDOMAIN => 3, NOTIMP => 4, REFUSED => 5, YXDOMAIN => 6, YXRRSET => 7, NXRRSET => 8, NOTAUTH => 9, NOTZONE => 10, * $text = $dig->sprintf; This method return the dig query response text from either the dig object pointer or a dig text object pointer. "to_text" is called automatically if required. * $netaddr = ndd_gethostbyname($name); or * @array = ndd_gethostbyname($name); ($name,$aliases,$aftype,$len,@addrs) = ndd_gethostbyname($name); * $netaddr = ndd_gethostbyname2($name,$AF_family); or * @array = ndd_gethostbyname2 ($name,$aliases,$aftype,$len,@addrs) = ndd_gethostbyname2($name,$AF_family); * $name = ndd_gethostbyaddr($iaddr,$AF_family); or * @array = ndd_gethostbyaddr ($name,$aliases,$aftype,$len,@addrs) = ndd_gethostbyaddr($iaddr,$AF_family); These functions use or emulate the underlying system calls of the same name, enhancing the capability of Perl to support IPv6 where needed. If the function is present in Perl and/or Socket6, the Perl function is called directly. If "use Net::DNS::Dig qw( :forceEmu )" is loaded with the force emulation tag, the Net::DNS;Dig's version of the function is always used. This is useful when the underlying system "gethostbyname2" and/or "gethostbyaddr" functions are present but broken. NOTE: the emulations do not check NIS or system "hosts" file. Function Net::DNS::Dig (ndd_) gethostbyname input: $name text string or ip address [optional] $timeout seconds ndd_gethostbyname emulates or uses Perl's gethostbyname system call. Function Net::DNS::Dig (ndd_) gethostbyname2 input: $name text string or ip address [optional] $AF_family address family type [optional] $timeout seconds for the emulation ndd_gethostbyname2 provides a fully functional gethostbyname2 implementation that will work on systems that do not support IPv6 or have broken IPv6 socket libraries. If $AF_family is false, ndd_gethostbyname2 will examine the supplied $name to try and determine the appropriate AF_family if the name is an IPv4 address of the form d+.d+.d+.d+ or and IPv6 address in one of the RFC1884 formats it will do the right thing and return a text version of the address. Otherwise, AF_INET is assumed by default and a DNS lookup will be performed. Function Net::DNS::Dig (ndd_) gethostbyaddr input: $naddr network address [optional] $AF_family address family type [optional] $timeout seconds for the emulation If $AF_family is false, ndd_gethostbyaddr will examine the supplied $naddr and determine the appropriate AF_family. Common return, all functions $name text name $aliases space separated list of text names $atype address type - AF_family constant $len length of the address 4 or 16 @addrs array of naddrs in network form * $constant = AF_INET; * $constant = AF_INET6; These two functions return the constant value for the AF_families, respectively, of the underlying operating system. EXAMPLES Example usage of Net::DNS::Dig ########### example 1 retrieving netaddrs use NetAddr::IP::Util qw(inet_ntoa); use Net::DNS::Dig; $name = 'gmail.com'; # return one of the gmail 'A' records $netaddr = Net::DNS::Dig->new()->for($name)->rdata(); print inet_ntoa($netaddr),"\n"; ########### example 2 retrieve many netaddrs use NetAddr::IP::Util qw(inet_ntoa); use Net::DNS::Dig; $name = 'gmail.com'; # return all of the gmail 'A' records @netaddrs = Net::DNS::Dig->new()->for( $name )->rdata(); foreach ( @netaddrs ) { print inet_ntoa( $_ ),"\n"; } ########### example 3 retrieve MX host for email use Net::DNS::Dig; $email = 'john.doe@gmail.com'; ( $name = $email ) =~ s/.+\@(.+)/$1/; # return all of the gmail 'MX' records # records return PRIORITY, HOST, ... # hostnames are unique my %mx_info = reverse Net::DNS::Dig->new()->for( $name,'MX' )->rdata(); my @host_by_priority; foreach ( sort { $mx_info{$a} <=> $mx_info{$b} } keys %mx_info ) { push @host_by_priority, $_; } foreach ( @host_by_priority ) { print "$_\t $mx_info{$_}\n"; } ########### example 4 a simple 'dig' script #!/usr/bin/perl # # example simple 'dig.pl' script # use Net::DNS::Dig; my ($name,$type); while ( $_ = shift @ARGV ) { if ( $_ eq '-t' ) { $type = shift; } else { $name = $_; } } print Net::DNS::Dig->new()->for( $name, $type )->sprintf; # end of script simple dig.pl command prompt > dig.pl -t aaaa arpa.com [response] ; <<>> Net::DNS::Dig 0.01 <<>> -t aaaa arpa.com. ;; ;; Got answer. ;; ->>HEADER<<- opcode: QUERY, status: NOERROR, id: 35979 ;; flags: qr ra; QUERY: 1, ANSWER: 0, AUTHORITY: 8, ADDITIONAL: 8 ;; QUESTION SECTION: ;arpa.com. IN AAAA ;; AUTHORITY SECTION: arpa.com. 79436 IN NS pdns2.ultradns.net. arpa.com. 79436 IN NS pdns1.ultradns.net. arpa.com. 79436 IN NS pdns5.ultradns.info. arpa.com. 79436 IN NS pdns3.ultradns.org. arpa.com. 79436 IN NS udns2.ultradns.net. arpa.com. 79436 IN NS pdns4.ultradns.org. arpa.com. 79436 IN NS udns1.ultradns.net. arpa.com. 79436 IN NS pdns6.ultradns.co.uk. ;; ADDITIONAL SECTION: pdns1.ultradns.net. 54013 IN A 204.74.108.1 pdns2.ultradns.net. 54013 IN A 204.74.109.1 pdns3.ultradns.org. 67699 IN A 199.7.68.1 pdns4.ultradns.org. 67699 IN A 199.7.69.1 pdns5.ultradns.info. 67699 IN A 204.74.114.1 pdns6.ultradns.co.uk. 67699 IN A 204.74.115.1 udns1.ultradns.net. 67698 IN A 204.69.234.1 udns2.ultradns.net. 67698 IN A 204.74.101.1 ;; Query time: 27 ms ;; SERVER: 192.168.1.171# 53(192.168.1.171) ;; WHEN: Mon Oct 10 17:23:39 2011 ;; MSG SIZE rcvd: 365 -- XFR size: 17 records ########### example 5 a complex 'dig' script #!/usr/bin/perl # # example complex 'dig.pl' script # use Net::DNS::Dig qw( ndd_gethostbyname ); my($name, $type, $port, $server, $tcp, $time, $recurse); unless (@ARGV) { print qq|\nusage: $0 [options] name -t [type] a, mx, etc... -p [port number] +tcp use TCP +norecursive +time=[seconds] timeout |; exit; } while ( $_ = shift @ARGV ) { if ( $_ eq '-t' ) { $type = shift; } elsif ( $_ eq '-p' ) { $port = shift; } elsif ( $_ =~ /^\@(.+)/ ) { $server = $1; } elsif ( lc $_ eq '\+tcp' ) { $tcp = 'tcp'; } elsif ( $_ =~ /^\+time=(\d+)/ ) { $time = $1; } elsif ( $_ =~ /^\+norecursive/ ) { $recurse = 1; } else { $name = $_; } } my $config = { Timeout => $time, PeerAddr => $server, PeerPort => $port, Proto => $tcp, Recursion => $recurse, }; print Net::DNS::Dig->new($config)->for($name,$type)->to_text->sprintf; # end of script complex dig.pl EXPORTS_OK :forceEmu ndd_gethostbyaddr ndd_gethostbyname ndd_gethostbyname2 AF_INET AF_INET6 AUTHOR Michael Robinton COPYRIGHT 2011-2014 Michael Robinton All rights reserved. This program is free software; you can redistribute it and/or modify it under the terms of either: a) the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version, or b) the "Artistic License" which comes with this distribution. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See either the GNU General Public License or the Artistic License for more details. You should have received a copy of the Artistic License with this distribution, in the file named "Artistic". If not, I'll be glad to provide one. You should also have received a copy of the GNU General Public License along with this program in the file named "Copying". If not, write to the Free Software Foundation, Inc. 59 Temple Place, Suite 330 Boston, MA 02111-1307, USA or visit their web page on the internet at: http://www.gnu.org/copyleft/gpl.html. See also: Net::DNS::Codes(3), Net::DNS::ToolKit(3), Net::DNS::ToolKit::Utilities(3), NetAddr::IP::Util(3)