# SNMP::Info::IPv6
#
# Copyright (c) 2010 Jeroen van Ingen and Carlos Vicente
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are met:
#
# * Redistributions of source code must retain the above copyright notice,
# this list of conditions and the following disclaimer.
# * Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution.
# * Neither the name of the University of California, Santa Cruz nor the
# names of its contributors may be used to endorse or promote products
# derived from this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
# ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
# LIABLE FOR # ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
# CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
# SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
# INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
# CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
# ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
# POSSIBILITY OF SUCH DAMAGE.
package SNMP::Info::IPv6;
use strict;
use Exporter;
use SNMP::Info;
@SNMP::Info::IPv6::ISA = qw/SNMP::Info Exporter/;
@SNMP::Info::IPv6::EXPORT_OK = qw//;
use vars qw/$VERSION %MIBS %FUNCS %GLOBALS %MUNGE $METHOD/;
use constant {
IPMIB => 1,
CISCO => 2,
IPV6MIB => 3,
};
$VERSION = '3.18';
%MIBS = (
'IP-MIB' => 'ipv6InterfaceTableLastChange',
'IPV6-MIB' => 'ipv6IfTableLastChange',
'CISCO-IETF-IP-MIB' => 'cInetNetToMediaNetAddress',
);
%GLOBALS = ();
%FUNCS = (
'ip_n2p_phys_addr' => 'ipNetToPhysicalPhysAddress', # IP-MIB
'c_inet_phys_addr' => 'cInetNetToMediaPhysAddress', # CISCO-IETF-IP-MIB
'i6_n2p_phys_addr' => 'ipv6NetToMediaPhysAddress', # IPV6-MIB
'ip_n2p_phys_type' => 'ipNetToPhysicalType', # IP-MIB
'c_inet_phys_type' => 'cInetNetToMediaType', # CISCO-IETF-IP-MIB
'i6_n2p_phys_type' => 'ipv6NetToMediaType', # IPV6-MIB
'ip_n2p_phys_state' => 'ipNetToPhysicalState', # IP-MIB
'c_inet_phys_state' => 'cInetNetToMediaState', # CISCO-IETF-IP-MIB
'i6_n2p_phys_state' => 'ipv6NetToMediaState', # IPV6-MIB
'ip_pfx_origin' => 'ipAddressPrefixOrigin', # IP-MIB
'c_pfx_origin' => 'cIpAddressPfxOrigin', # CISCO-IETF-IP-MIB
'ip_addr6_pfx' => 'ipAddressPrefix', # IP-MIB
'c_addr6_pfx' => 'cIpAddressPrefix', # CISCO-IETF-IP-MIB
'ip_addr6_index' => 'ipAddressIfIndex', # IP-MIBw
'c_addr6_index' => 'cIpAddressIfIndex', # CISCO-IETF-IP-MIB
'ip_addr6_type' => 'ipAddressType', # IP-MIB
'c_addr6_type' => 'cIpAddressType', # CISCO-IETF-IP-MIB
);
%MUNGE = (
'ip_n2p_phys_addr' => \&SNMP::Info::munge_mac,
'c_inet_phys_addr' => \&munge_physaddr,
'i6_n2p_phys_addr' => \&SNMP::Info::munge_mac,
);
sub ipv6_n2p_mac {
my $info = shift;
my $return;
my $phys_addr = &_test_methods( $info, {
ip_n2p_phys_addr => IPMIB,
c_inet_phys_addr => CISCO,
i6_n2p_phys_addr => IPV6MIB,
});
return unless defined $phys_addr;
foreach my $row (keys %$phys_addr) {
if ($row =~ /^(\d+)\.(\d+)\.(\d+)\.([\d\.]+)$/) {
my $ifindex = $1; my $addrtype = $2; my $addrsize = $3; my $v6addr = $4;
if ($info::METHOD == IPV6MIB) {
# IPV6-MIB doesn't include the addrtype in the index;
# also, address syntax is IPv6Address (fixed 16 bytes) and not InetAddress (length field followed by address bytes)
$v6addr = join('.', $addrtype, $addrsize, $v6addr);
$addrtype = 2;
}
if (($addrtype == 2) && (defined $phys_addr->{$row})) { # IPv6
$return->{$row} = substr($phys_addr->{$row}, 0, 17);
}
}
}
printf("%s: data comes from %s.\n", &_my_sub_name, $info->_method_used() ) if $info->debug();
return $return;
}
sub ipv6_n2p_addr {
my $info = shift;
my $return;
my $net_addr = &_test_methods( $info, {
ip_n2p_phys_addr => IPMIB,
c_inet_phys_addr => CISCO,
i6_n2p_phys_addr => IPV6MIB,
});
return unless defined $net_addr;
foreach my $row (keys %$net_addr) {
if ($row =~ /^(\d+)\.(\d+)\.(\d+)\.([\d\.]+)$/) {
my $ifindex = $1; my $addrtype = $2; my $addrsize = $3; my $v6addr = $4;
if ($info::METHOD == IPV6MIB) {
# IPV6-MIB doesn't include the addrtype in the index;
# also, address syntax is IPv6Address (fixed 16 bytes) and not InetAddress (length field followed by address bytes)
$v6addr = join('.', $addrtype, $addrsize, $v6addr);
$addrtype = 2;
}
if ($addrtype == 2) { # IPv6
my $v6_packed = pack("C*", split(/\./, $v6addr));
if (length($v6_packed) == 15) {
# Workaround for some some IP-MIB implementations, eg on Cisco Nexus: no explicit addrsize,
# so what we've collected in that variable is actually the first byte of the address.
$v6_packed = pack('C', $addrsize) . $v6_packed;
}
if (length($v6_packed) == 16) {
$v6addr = join(':', map { sprintf("%04x", $_) } unpack("n*", $v6_packed) );
$return->{$row} = $v6addr;
} else {
printf("Invalid size for IPv6 address: expected 16 bytes, got %d (%s = %s)\n", length($v6_packed), $row, $net_addr->{$row});
}
}
}
}
printf("%s: data comes from %s.\n", &_my_sub_name, $info->_method_used() ) if $info->debug();
return $return;
}
sub ipv6_n2p_if {
my $info = shift;
my $return;
my $phys_addr = &_test_methods( $info, {
ip_n2p_phys_addr => IPMIB,
c_inet_phys_addr => CISCO,
i6_n2p_phys_addr => IPV6MIB,
});
return unless defined $phys_addr;
foreach my $row (keys %$phys_addr) {
if ($row =~ /^(\d+)\.(\d+)\.(\d+)\.([\d\.]+)$/) {
my $ifindex = $1; my $addrtype = $2; my $addrsize = $3; my $v6addr = $4;
if ($info::METHOD == IPV6MIB) {
# IPV6-MIB doesn't include the addrtype in the index;
# also, address syntax is IPv6Address (fixed 16 bytes) and not InetAddress (length field followed by address bytes)
$v6addr = join('.', $addrtype, $addrsize, $v6addr);
$addrtype = 2;
}
if ($addrtype == 2) { # IPv6
$return->{$row} = $ifindex;
}
}
}
printf("%s: data comes from %s.\n", &_my_sub_name, $info->_method_used() ) if $info->debug();
return $return;
}
sub ipv6_n2p_type {
my $info = shift;
my $return;
my $phys_type = &_test_methods( $info, {
ip_n2p_phys_type => IPMIB,
c_inet_phys_type => CISCO,
i6_n2p_phys_type => IPV6MIB,
});
return unless defined $phys_type;
foreach my $row (keys %$phys_type) {
if ($row =~ /^(\d+)\.(\d+)\.(\d+)\.([\d\.]+)$/) {
my $ifindex = $1; my $addrtype = $2; my $addrsize = $3; my $v6addr = $4;
if ($info::METHOD == IPV6MIB) {
# IPV6-MIB doesn't include the addrtype in the index;
# also, address syntax is IPv6Address (fixed 16 bytes) and not InetAddress (length field followed by address bytes)
$v6addr = join('.', $addrtype, $addrsize, $v6addr);
$addrtype = 2;
}
if ($addrtype == 2) { # IPv6
$return->{$row} = $phys_type->{$row};
}
}
}
printf("%s: data comes from %s.\n", &_my_sub_name, $info->_method_used() ) if $info->debug();
return $return;
}
sub ipv6_n2p_state {
my $info = shift;
my $return;
my $phys_state = &_test_methods( $info, {
ip_n2p_phys_state => IPMIB,
c_inet_phys_state => CISCO,
i6_n2p_phys_state => IPV6MIB,
});
return unless defined $phys_state;
foreach my $row (keys %$phys_state) {
if ($row =~ /^(\d+)\.(\d+)\.(\d+)\.([\d\.]+)$/) {
my $ifindex = $1; my $addrtype = $2; my $addrsize = $3; my $v6addr = $4;
if ($info::METHOD == IPV6MIB) {
# IPV6-MIB doesn't include the addrtype in the index;
# also, address syntax is IPv6Address (fixed 16 bytes) and not InetAddress (length field followed by address bytes)
$v6addr = join('.', $addrtype, $addrsize, $v6addr);
$addrtype = 2;
}
if ($addrtype == 2) { # IPv6
$return->{$row} = $phys_state->{$row};
}
}
}
printf("%s: data comes from %s.\n", &_my_sub_name, $info->_method_used() ) if $info->debug();
return $return;
}
sub ipv6_index {
my $info = shift;
my $return;
my $ipv6_index = &_test_methods( $info, {
ip_addr6_index => IPMIB,
c_addr6_index => CISCO,
});
return unless defined $ipv6_index;
foreach my $row (keys %$ipv6_index){
if ($row =~ /^(\d+)\.([\d\.]+)$/) {
my $addrtype = $1; my $v6addr = $2;
if ($addrtype == 2) { # IPv6
$return->{$row} = $ipv6_index->{$row};
}
}
}
printf("%s: data comes from %s.\n", &_my_sub_name, $info->_method_used() ) if $info->debug();
return $return;
}
sub ipv6_type {
my $info = shift;
my $return;
my $ipv6_type = &_test_methods( $info, {
ip_addr6_type => IPMIB,
c_addr6_type => CISCO,
});
return unless defined $ipv6_type;
foreach my $row (keys %$ipv6_type){
if ($row =~ /^(\d+)\.([\d\.]+)$/) {
my $addrtype = $1; my $v6addr = $2;
if ($addrtype == 2) { # IPv6
$return->{$row} = $ipv6_type->{$row};
}
}
}
printf("%s: data comes from %s.\n", &_my_sub_name, $info->_method_used() ) if $info->debug();
return $return;
}
sub ipv6_pfx_origin {
my $info = shift;
my $return;
my $ipv6_pfx_origin = &_test_methods( $info, {
ip_pfx_origin => IPMIB,
c_pfx_origin => CISCO,
});
return unless defined $ipv6_pfx_origin;
foreach my $row (keys %$ipv6_pfx_origin){
if ($row =~ /^(\d+)\.(\d+)\.([\d\.]+)\.(\d+)$/) {
my $ifindex = $1; my $type = $2; my $pfx = $3; my $len = $4;
if ($type == 2) { # IPv6
$return->{$row} = $ipv6_pfx_origin->{$row};
}
}
}
printf("%s: data comes from %s.\n", &_my_sub_name, $info->_method_used() ) if $info->debug();
return $return;
}
sub ipv6_addr_prefix {
my $info = shift;
my $return;
my $ipv6_addr_prefix = &_test_methods( $info, {
ip_addr6_pfx => IPMIB,
c_addr6_pfx => CISCO,
});
return unless defined $ipv6_addr_prefix;
foreach my $row (keys %$ipv6_addr_prefix){
if ($row =~ /^(\d+)\.[\d\.]+$/) {
my $type = $1;
if ($type == 2) { # IPv6
# Remove the OID part from the value
my $val = $ipv6_addr_prefix->{$row};
if ( $val =~ /^.+?((?:\d+\.){19}\d+)$/ ){
$val = $1;
$return->{$row} = $val;
}
}
}
}
printf("%s: data comes from %s.\n", &_my_sub_name, $info->_method_used() ) if $info->debug();
return $return;
}
sub _method_used {
my $info = shift;
my $return = 'none of the MIBs';
if (defined $info::METHOD) {
if ($info::METHOD eq IPMIB) {
$return = 'IP-MIB';
} elsif ($info::METHOD eq IPV6MIB) {
$return = 'IPV6-MIB';
} elsif ($info::METHOD eq CISCO) {
$return = 'CISCO-IETF-IP-MIB';
}
}
return $return;
}
sub _test_methods {
my $info = shift;
my $test = shift;
my $return = {};
foreach my $method (sort {$test->{$a} <=> $test->{$b}} keys %$test) {
$return = $info->$method || {};
if (scalar keys %$return) {
$info::METHOD = $test->{$method};
last;
}
}
return $return;
}
sub _my_sub_name {
my @callinfo = caller(1);
return $callinfo[3];
}
sub munge_physaddr {
my $addr = shift;
return unless defined $addr;
return unless length $addr;
$addr = join( ':', map { sprintf "%02x", $_ } unpack( 'C*', $addr ) );
return $addr;
}
1;
__END__
=head1 NAME
SNMP::Info::IPv6 - SNMP Interface for obtaining IPv6 addresses and IPv6
address mappings
=head1 AUTHOR
Jeroen van Ingen and Carlos Vicente
=head1 SYNOPSIS
# Let SNMP::Info determine the correct subclass for you.
my $info = new SNMP::Info(
AutoSpecify => 1,
Debug => 1,
DestHost => 'myswitch',
Community => 'public',
Version => 2
)
or die "Can't connect to DestHost.\n";
my $class = $info->class();
print "SNMP::Info determined this device to fall under subclass : $class\n";
=head1 DESCRIPTION
The SNMP::Info::IPv6 class implements functions to for mapping IPv6 addresses
to MAC addresses, interfaces and more. It will use data from the F<IP-MIB>,
F<IPV6-MIB>, or the F<CISCO-IETF-IP-MIB>, whichever is supported by the
device.
This class is inherited by Info::Layer3 to provide IPv6 node tracking across
device classes.
For debugging purposes you can call this class directly as you would
SNMP::Info
my $info = new SNMP::Info::IPv6 (...);
=head2 Inherited Classes
none.
=head2 Required MIBs
=over
=item F<IP-MIB>
=item F<IPV6-MIB>
=item F<CISCO-IETF-IP-MIB>
=back
=head1 GLOBALS
none.
=head1 TABLE METHODS
These are methods that return tables of information in the form of a reference
to a hash.
=head2 Internet Address Table
=over
=item $info->ipv6_n2p_addr()
=item $info->ipv6_n2p_if()
=item $info->ipv6_n2p_mac()
=item $info->ipv6_n2p_state()
=item $info->ipv6_n2p_type()
=item $info->ipv6_index()
Maps an IPv6 address to an interface C<ifIndex>
=item $info->ipv6_type()
Maps an IPv6 address to its type (unicast, anycast, etc.)
=item $info->ipv6_pfx_origin()
Maps an IPv6 prefix with its origin (manual, well-known, dhcp, etc.)
=item $info->ipv6_addr_prefix()
Maps IPv6 addresses with their prefixes
=back
=head2 Internet Address Translation Table
=over
=item $info->c_inet_phys_address()
Maps an address of type C<cInetNetToMediaNetAddressType> on interface C<ifIndex> to a physical address.
=back
=head1 MUNGES
=over
=item munge_physaddr()
Takes an octet stream (HEX-STRING) and returns a colon separated ASCII hex
string.
=back
=cut