# SNMP::Info::Layer3::Extreme - SNMP Interface to Extreme devices
# $Id$
#
# Copyright (c) 2008 Eric Miller
#
# Copyright (c) 2002,2003 Regents of the University of California
# 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::Layer3::Extreme;
use strict;
use Exporter;
use SNMP::Info::Layer3;
use SNMP::Info::MAU;
use SNMP::Info::LLDP;
use SNMP::Info::EDP;
@SNMP::Info::Layer3::Extreme::ISA
= qw/SNMP::Info::Layer3 SNMP::Info::MAU SNMP::Info::LLDP
SNMP::Info::EDP Exporter/;
@SNMP::Info::Layer3::Extreme::EXPORT_OK = qw//;
use vars qw/$VERSION %GLOBALS %FUNCS %MIBS %MUNGE/;
$VERSION = '2.11';
%MIBS = (
%SNMP::Info::Layer3::MIBS,
%SNMP::Info::MAU::MIBS,
%SNMP::Info::LLDP::MIBS,
%SNMP::Info::EDP::MIBS,
'EXTREME-BASE-MIB' => 'extremeAgent',
'EXTREME-SYSTEM-MIB' => 'extremeSystem',
'EXTREME-FDB-MIB' => 'extremeSystem',
'EXTREME-VLAN-MIB' => 'extremeVlan',
'EXTREME-POE-MIB' => 'extremePethSystemAdminEnable',
);
%GLOBALS = (
%SNMP::Info::Layer3::GLOBALS,
%SNMP::Info::MAU::GLOBALS,
%SNMP::Info::LLDP::GLOBALS,
%SNMP::Info::EDP::GLOBALS,
'serial1' => 'extremeSystemID.0',
'temp' => 'extremeCurrentTemperature',
'ps1_status_old' => 'extremePrimaryPowerOperational.0',
'ps1_status_new' => 'extremePowerSupplyStatus.1',
'ps2_status_old' => 'extremeRedundantPowerStatus.0',
'ps2_status_new' => 'extremePowerSupplyStatus.2',
'mac' => 'dot1dBaseBridgeAddress',
);
%FUNCS = (
%SNMP::Info::Layer3::FUNCS,
%SNMP::Info::MAU::FUNCS,
%SNMP::Info::LLDP::FUNCS,
%SNMP::Info::EDP::FUNCS,
'fan_state' => 'extremeFanOperational',
# EXTREME-FDB-MIB:extremeFdbMacFdbTable
'ex_fw_mac' => 'extremeFdbMacFdbMacAddress',
'ex_fw_port' => 'extremeFdbMacFdbPortIfIndex',
'ex_fw_status' => 'extremeFdbMacFdbStatus',
# EXTREME-VLAN-MIB:extremeVlanIfTable
'ex_vlan_descr' => 'extremeVlanIfDescr',
'ex_vlan_global_id' => 'extremeVlanIfGlobalIdentifier',
# EXTREME-VLAN-MIB:extremeVlanEncapsIfTable
'ex_vlan_encap_tag' => 'extremeVlanEncapsIfTag',
'peth_port_power' => 'extremePethPortMeasuredPower',
);
%MUNGE = (
# Inherit all the built in munging
%SNMP::Info::Layer3::MUNGE,
%SNMP::Info::MAU::MUNGE,
%SNMP::Info::LLDP::MUNGE,
%SNMP::Info::EDP::MUNGE,
'ex_fw_mac' => \&SNMP::Info::munge_mac,
'ps1_status_old' => \&munge_true_ok,
'ps1_status_new' => \&munge_power_stat,
'ps2_status_old' => \&munge_power_stat,
'ps2_status_new' => \&munge_power_stat,
'fan_state' => \&munge_true_ok,
);
# Method OverRides
*SNMP::Info::Layer3::Extreme::i_duplex = \&SNMP::Info::MAU::mau_i_duplex;
*SNMP::Info::Layer3::Extreme::i_duplex_admin
= \&SNMP::Info::MAU::mau_i_duplex_admin;
sub model {
my $extreme = shift;
my $id = $extreme->id();
unless ( defined $id ) {
print
" SNMP::Info::Layer3::Extreme::model() - Device does not support sysObjectID\n"
if $extreme->debug();
return;
}
my $model = &SNMP::translateObj($id);
return $id unless defined $model;
return $model;
}
sub vendor {
return 'extreme';
}
sub os {
my $extreme = shift;
my $desc = $extreme->description();
if ($desc =~ /xos/i) {
return 'xos';
}
return 'extremeware';
}
sub os_ver {
my $extreme = shift;
my $descr = $extreme->description();
return unless defined $descr;
if ( $descr =~ m/Version\s+([^ ]+)/ ) {
return $1;
}
return;
}
#
# ifName is a nice concise port name on Extreme devices.
# Layer3.pm defaults to i_description, which is verbose
# and has spaces. However, ifName has the IP address
# assigned for router interfaces, so we use ifDescr
# for those.
sub interfaces {
my $extreme = shift;
my $partial = shift;
my $i_name = $extreme->orig_i_name($partial);
my $i_description = $extreme->orig_i_description($partial);
my $interfaces = {};
foreach my $idx ( keys %$i_name ) {
if ( $i_name->{$idx} =~ /\([0-9.]+\)/ ) {
$interfaces->{$idx} = $i_description->{$idx};
}
else {
$interfaces->{$idx} = $i_name->{$idx};
}
}
return $interfaces;
}
#
# Ignore VLAN meta-interfaces and loopback
sub i_ignore {
my $extreme = shift;
my $partial = shift;
my $i_description = $extreme->i_description($partial) || {};
my %i_ignore;
foreach my $if ( keys %$i_description ) {
if ( $i_description->{$if}
=~ /^(802.1Q Encapsulation Tag \d+|VLAN \d+|lo\d+)/i )
{
$i_ignore{$if}++;
}
}
return \%i_ignore;
}
# When we use the extreme_fw_* objects, we're not using BRIDGE-MIB.
# Either way, Extreme uses a 1:1 mapping of bridge interface ID to
# ifIndex.
sub bp_index {
my $extreme = shift;
my $if_index = $extreme->i_index();
my %bp_index;
foreach my $iid ( keys %$if_index ) {
$bp_index{$iid} = $iid;
}
return \%bp_index;
}
sub munge_true_ok {
my $val = shift;
return unless defined($val);
return "OK" if ( $val eq 'true' );
return "Not OK" if ( $val eq 'false' );
return $val;
}
sub munge_power_stat {
my $val = shift;
return unless defined($val);
$val =~ s/^present//;
$val =~ s/^not/Not /i;
return $val;
}
sub ps1_status {
my $extreme = shift;
my $ps1_status = $extreme->ps1_status_new();
return $ps1_status || $extreme->ps1_status_old();
}
sub ps2_status {
my $extreme = shift;
my $ps2_status = $extreme->ps2_status_new();
return $ps2_status || $extreme->ps2_status_old();
}
sub fan {
my $extreme = shift;
my $fan_state = $extreme->fan_state();
my $ret = "";
my $s = "";
foreach my $i ( sort { $a <=> $b } keys %$fan_state ) {
$ret .= $s . $i . ": " . $fan_state->{$i};
$s = ", ";
}
return if ( $s eq "" );
return $ret;
}
# Newer versions of the Extreme firmware have vendor-specific tables
# for this; those are ex_fw_*(). Older firmware versions don't have
# these tables, so we use the BRIDGE-MIB tables.
sub fw_mac {
my $extreme = shift;
my $fw_mac = $extreme->ex_fw_mac;
return $fw_mac if defined($fw_mac);
return $extreme->orig_fw_mac();
}
sub fw_port {
my $extreme = shift;
my $fw_port = $extreme->ex_fw_port;
return $fw_port if defined($fw_port);
return $extreme->orig_fw_port();
}
sub fw_status {
my $extreme = shift;
my $fw_status = $extreme->ex_fw_status;
return $fw_status if defined($fw_status);
return $extreme->orig_fw_status();
}
# Mapping the virtual VLAN interfaces:
# The virtual VLAN interfaces in extremeVlanIfTable
# are the higher layer above the interfaces that are
# untagged, and also above an interface in
# extremeVlanEncapsIfTable that does the encapsulation.
# Note that it's possible to have a VLAN defined that
# does not have a tag, if it has all native interfaces.
# To represent this, we use a negative version of the
# internal VLAN ID (the deprecated extremeVlanIfGlobalIdentifier)
sub _if2tag {
my $extreme = shift;
my $partial = shift;
my $stack = shift || $extreme->ifStackStatus($partial);
my $encap_tag = $extreme->ex_vlan_encap_tag();
my $vlan_descr = $extreme->ex_vlan_descr();
my $stackmap = {};
foreach my $idx ( keys %$stack ) {
my ( $higher, $lower ) = split( /\./, $idx );
$stackmap->{$higher}->{$lower} = $stack->{$idx};
}
my %if2tag = ();
my $missed = 0;
foreach my $if ( keys %$vlan_descr ) {
$if2tag{$if} = -1;
foreach my $tagif ( keys %$encap_tag ) {
if ( defined( $stackmap->{$if}->{$tagif} )
&& $stackmap->{$if}->{$tagif} eq 'active' )
{
$if2tag{$if} = $encap_tag->{$tagif};
}
}
if ( $if2tag{$if} == -1 ) {
$missed++;
}
}
if ($missed) {
my $global_id = $extreme->ex_vlan_global_id();
foreach my $if ( keys %if2tag ) {
$if2tag{$if} = -$global_id->{$if}
if ( $if2tag{$if} == -1 && defined( $global_id->{$if} ) );
}
}
return \%if2tag;
}
# No partial support in v_name or v_index, because the obivous partial
# is the VLAN ID and the index here is the ifIndex of
# the VLAN interface.
sub v_name {
my $extreme = shift;
return $extreme->ex_vlan_descr();
}
sub v_index {
my $extreme = shift;
return $extreme->_if2tag();
}
sub i_vlan {
my $extreme = shift;
my $partial = shift;
my $stack = $extreme->ifStackStatus($partial);
my $encap_tag = $extreme->ex_vlan_encap_tag();
my $vlan_descr = $extreme->ex_vlan_descr();
my $stackmap = {};
foreach my $idx ( keys %$stack ) {
my ( $higher, $lower ) = split( /\./, $idx );
$stackmap->{$higher}->{$lower} = $stack->{$idx};
}
my $if2tag = $extreme->_if2tag( $partial, $stack );
#
# Now that we've done all that mapping work, we can map the
# ifStack indexes.
my %i_vlan = ();
foreach my $if ( keys %$if2tag ) {
foreach my $lowif ( keys %{ $stackmap->{$if} } ) {
$i_vlan{$lowif} = $if2tag->{$if};
}
}
return \%i_vlan;
}
sub i_vlan_membership {
my $extreme = shift;
my $partial = shift;
my $stack = $extreme->ifStackStatus($partial);
my $encap_tag = $extreme->ex_vlan_encap_tag();
my $vlan_descr = $extreme->ex_vlan_descr();
my $stackmap = {};
foreach my $idx ( keys %$stack ) {
my ( $higher, $lower ) = split( /\./, $idx );
$stackmap->{$higher}->{$lower} = $stack->{$idx};
}
my $if2tag = $extreme->_if2tag( $partial, $stack );
#
# Now that we've done all that mapping work, we can map the
# ifStack indexes.
my %i_vlan_membership = ();
foreach my $if ( keys %$if2tag ) {
foreach my $lowif ( keys %{ $stackmap->{$if} } ) {
push( @{ $i_vlan_membership{$lowif} }, $if2tag->{$if} );
}
}
#
# Now add all the tagged ports.
foreach my $if ( keys %$encap_tag ) {
foreach my $lowif ( keys %{ $stackmap->{$if} } ) {
push( @{ $i_vlan_membership{$lowif} }, $encap_tag->{$if} );
}
}
return \%i_vlan_membership;
}
# VLAN management.
# See extreme-vlan.mib for a detailed description of
# Extreme's use of ifStackTable and EXTREME-VLAN-MIB.
sub set_i_vlan {
my $extreme = shift;
return $extreme->_extreme_set_i_vlan( 0, @_ );
}
sub set_i_pvid {
my $extreme = shift;
return $extreme->_extreme_set_i_vlan( 1, @_ );
}
# set_i_vlan implicitly turns off any encapsulation
# set_i_pvid retains any encapsulation
# otherwise they do the same: set the unencapsulated
# vlan ID.
# First arg to _set_i_vlan is whether or not to turn
# off any encapsulation.
sub _extreme_set_i_vlan {
my $extreme = shift;
my ( $is_pvid, $vlan_id, $ifindex ) = @_;
my $encap_tag = $extreme->ex_vlan_encap_tag();
# The inverted stack MIB would make this easier, since
# we need to find the vlan interface
# that's stacked above $ifindex.
my $cur_stack = $extreme->ifStackStatus();
#
# create inverted stack
my $invstack;
foreach my $idx ( keys %$cur_stack ) {
my ( $higher, $lower ) = split( /\./, $idx );
$invstack->{$lower}->{$higher} = $cur_stack->{$idx};
}
# create vlan tag -> encap interface map
my %encapif = reverse %$encap_tag;
# now find encap interface from tag
my $encapidx = $encapif{$vlan_id};
if ( !defined($encapidx) ) {
$extreme->error_throw(
"can't map $vlan_id to encapsulation interface");
return;
}
# now find vlan interface stacked above encap
my @abovevlan = keys %{ $invstack->{$encapidx} };
if ( @abovevlan != 1 ) {
$extreme->error_throw(
"can't map encap interface $encapidx for $vlan_id to encapsulation interface"
);
return;
}
my $vlanidx = $abovevlan[0];
my $rv;
# Delete old VLAN mapping
foreach my $oldidx ( keys %{ $invstack->{$ifindex} } ) {
if ( $is_pvid && defined( $encap_tag->{$oldidx} ) ) {
next; # Don't delete tagged mappings
}
$rv = $extreme->set_ifStackStatus( "destroy",
$oldidx . "." . $ifindex );
unless ($rv) {
$extreme->error_throw(
"Unable to remove $ifindex from old VLAN index $oldidx");
return;
}
}
# Add new VLAN mapping
$rv = $extreme->set_ifStackStatus( "createAndGo",
$vlanidx . "." . $ifindex );
unless ($rv) {
$extreme->error_throw(
"Unable to add new VLAN index $vlanidx to ifIndex $ifindex");
return;
}
# XXX invalidate cache of ifstack?
# XXX Info.pm library function for this?
# XXX set_ should do invalidation?
# $store = $extreme->store(); delete $store->{ifStackStatus}; $extreme->store($store);
# $extreme->{_ifStackStatus} = 0;
return $rv;
}
sub set_remove_i_vlan_tagged {
my $extreme = shift;
my ( $vlan_id, $ifindex ) = @_;
my $encap_tag = $extreme->ex_vlan_encap_tag();
# create vlan tag -> encap interface map
my %encapif = reverse %$encap_tag;
# now find encap interface from tag
my $encapidx = $encapif{$vlan_id};
if ( !defined($encapidx) ) {
$extreme->error_throw(
"can't map $vlan_id to encapsulation interface");
return;
}
my $rv = $extreme->set_ifStackStatus( "destroy",
$encapidx . "." . $ifindex );
unless ($rv) {
$extreme->error_throw(
"Unable to delete VLAN encap ifIndex $encapidx for VLAN $vlan_id from ifIndex $ifindex"
);
return;
}
# invalidate cache of ifstack?
return $rv;
}
sub set_add_i_vlan_tagged {
my $extreme = shift;
my ( $vlan_id, $ifindex ) = @_;
my $encap_tag = $extreme->ex_vlan_encap_tag();
# create vlan tag -> encap interface map
my %encapif = reverse %$encap_tag;
# now find encap interface from tag
my $encapidx = $encapif{$vlan_id};
if ( !defined($encapidx) ) {
$extreme->error_throw(
"can't map $vlan_id to encapsulation interface");
return;
}
my $rv = $extreme->set_ifStackStatus( "createAndGo",
$encapidx . "." . $ifindex );
unless ($rv) {
$extreme->error_throw(
"Unable to add VLAN encap ifIndex $encapidx for VLAN $vlan_id to ifIndex $ifindex"
);
return;
}
# invalidate cache of ifstack?
return $rv;
}
# Use EDP and/or LLDP
sub hasCDP {
my $extreme = shift;
return $extreme->hasLLDP() || $extreme->hasEDP();
}
sub c_ip {
my $extreme = shift;
my $partial = shift;
my $edp = $extreme->edp_ip() || {};
my $lldp = $extreme->lldp_ip($partial) || {};
my %c_ip;
foreach my $iid ( keys %$edp ) {
my $ip = $edp->{$iid};
next unless defined $ip;
$c_ip{$iid} = $ip;
}
foreach my $iid ( keys %$lldp ) {
my $ip = $lldp->{$iid};
next unless defined $ip;
$c_ip{$iid} = $ip;
}
return \%c_ip;
}
sub c_if {
my $extreme = shift;
my $partial = shift;
my $lldp = $extreme->lldp_if($partial) || {};
my $edp = $extreme->edp_if() || {};
my %c_if;
foreach my $iid ( keys %$edp ) {
my $if = $edp->{$iid};
next unless defined $if;
$c_if{$iid} = $if;
}
foreach my $iid ( keys %$lldp ) {
my $if = $lldp->{$iid};
next unless defined $if;
$c_if{$iid} = $if;
}
return \%c_if;
}
sub c_port {
my $extreme = shift;
my $partial = shift;
my $lldp = $extreme->lldp_port($partial) || {};
my $edp = $extreme->edp_port() || {};
my %c_port;
foreach my $iid ( keys %$edp ) {
my $port = $edp->{$iid};
next unless defined $port;
$c_port{$iid} = $port;
}
foreach my $iid ( keys %$lldp ) {
my $port = $lldp->{$iid};
next unless defined $port;
$c_port{$iid} = $port;
}
return \%c_port;
}
sub c_id {
my $extreme = shift;
my $partial = shift;
my $lldp = $extreme->lldp_id($partial) || {};
my $edp = $extreme->edp_id() || {};
my %c_id;
foreach my $iid ( keys %$edp ) {
my $id = $edp->{$iid};
next unless defined $id;
$c_id{$iid} = $id;
}
foreach my $iid ( keys %$lldp ) {
my $id = $lldp->{$iid};
next unless defined $id;
$c_id{$iid} = $id;
}
return \%c_id;
}
sub c_platform {
my $extreme = shift;
my $partial = shift;
my $lldp = $extreme->lldp_rem_sysdesc($partial) || {};
my %c_platform;
foreach my $iid ( keys %$lldp ) {
my $platform = $lldp->{$iid};
next unless defined $platform;
$c_platform{$iid} = $platform;
}
return \%c_platform;
}
1;
__END__
=head1 NAME
SNMP::Info::Layer3::Extreme - Perl5 Interface to Extreme Network Devices
=head1 AUTHOR
Eric Miller, Bill Fenner
=head1 SYNOPSIS
# Let SNMP::Info determine the correct subclass for you.
my $extreme = new SNMP::Info(
AutoSpecify => 1,
Debug => 1,
DestHost => 'myswitch',
Community => 'public',
Version => 1
)
or die "Can't connect to DestHost.\n";
my $class = $extreme->class();
print "SNMP::Info determined this device to fall under subclass : $class\n";
=head1 DESCRIPTION
Provides abstraction to the configuration information obtainable from an
Extreme device through SNMP.
For speed or debugging purposes you can call the subclass directly, but not
after determining a more specific class using the method above.
my $extreme = new SNMP::Info::Layer3::Extreme(...);
=head2 Inherited Classes
=over
=item SNMP::Info::Layer3
=item SNMP::Info::MAU
=item SNMP::Info::LLDP
=item SNMP::Info::EDP
=back
=head2 Required MIBs
=over
=item F<EXTREME-BASE-MIB>
=item F<EXTREME-SYSTEM-MIB>
=item F<EXTREME-FDB-MIB>
=item F<EXTREME-VLAN-MIB>
=item F<EXTREME-POE-MIB>
=item Inherited Classes' MIBs
See classes listed above for their required MIBs.
=back
=head1 GLOBALS
These are methods that return scalar value from SNMP
=over
=item $extreme->model()
Returns model type. Checks $extreme->id() against the F<EXTREME-BASE-MIB>.
=item $extreme->vendor()
Returns extreme
=item $extreme->os()
Returns extreme
=item $extreme->os_ver()
Parses device operating system version from description()
=item $extreme->serial()
Returns serial number
(C<extremeSystemID>)
=item $extreme->temp()
Returns system temperature
(C<extremeCurrentTemperature>)
=item $extreme->ps1_status()
Returns status of power supply 1
(C<extremePowerSupplyStatus.1>)
=item $extreme->ps2_status()
Returns status of power supply 2
(C<extremePowerSupplyStatus.2>)
=item $extreme->fan()
Returns fan status
(C<extremeFanOperational.1>)
=item $extreme->mac()
Returns base mac
(C<dot1dBaseBridgeAddress>)
=back
=head2 Globals imported from SNMP::Info::Layer3
See documentation in L<SNMP::Info::Layer3/"GLOBALS"> for details.
=head2 Globals imported from SNMP::Info::MAU
See documentation in L<SNMP::Info::MAU/"GLOBALS"> for details.
=head2 Globals imported from SNMP::Info::LLDP
See documentation in L<SNMP::Info::LLDP/"GLOBALS"> for details.
=head2 Globals imported from SNMP::Info::EDP
See documentation in L<SNMP::Info::EDP/"GLOBALS"> for details.
=head1 TABLE METHODS
These are methods that return tables of information in the form of a reference
to a hash.
=head2 Overrides
=over
=item $extreme->interfaces()
Returns a mapping between the Interface Table Index (iid) and the physical
port name.
=item $extreme->i_duplex()
Parses mau_index and mau_link to return the duplex information for
interfaces.
=item $extreme->i_duplex_admin()
Parses C<mac_index>,C<mau_autostat>,C<mau_type_admin> in
order to find the admin duplex setting for all the interfaces.
Returns either (auto,full,half).
=item $extreme->i_ignore()
Returns reference to hash. Increments value of IID if port is to be ignored.
Ignores VLAN meta interfaces and loopback
=item $extreme->fw_mac()
(C<extremeFdbMacFdbMacAddress>)
=item $extreme->fw_port()
(C<extremeFdbMacFdbPortIfIndex>)
=item $extreme->fw_status()
(C<extremeFdbMacFdbStatus>)
=item $extreme->i_vlan()
Returns a mapping between C<ifIndex> and the VLAN.
=item $extreme->i_vlan_membership()
Returns reference to hash of arrays: key = C<ifIndex>, value = array of VLAN
IDs. These are the VLANs which are members of the egress list for the port.
Example:
my $interfaces = $extreme->interfaces();
my $vlans = $extreme->i_vlan_membership();
foreach my $iid (sort keys %$interfaces) {
my $port = $interfaces->{$iid};
my $vlan = join(',', sort(@{$vlans->{$iid}}));
print "Port: $port VLAN: $vlan\n";
}
=item $extreme->v_index()
Returns VLAN IDs
=item $extreme->v_name()
Returns VLAN names
(C<extremeVlanIfDescr>)
=item $extreme->bp_index()
Returns reference to hash of bridge port table entries map back to interface
identifier (iid)
Returns (C<ifIndex>) for both key and value since we're using
F<EXTREME-FDB-MIB> rather than F<BRIDGE-MIB>.
=item $extreme->peth_port_power()
Power supplied by PoE ports, in milliwatts
("extremePethPortMeasuredPower")
=back
=head2 Topology information
Based upon the firmware version Extreme devices may support Extreme Discovery
Protocol (EDP), Link Layer Discovery Protocol (LLDP), or both. These methods
will query both and return the combination of all information. As a result,
there may be identical topology information returned from the two protocols
causing duplicate entries. It is the calling program's responsibility to
identify any duplicate entries and remove duplicates if necessary.
=over
=item $extreme->hasCDP()
Returns true if the device is running either EDP or LLDP.
=item $extreme->c_if()
Returns reference to hash. Key: iid Value: local device port (interfaces)
=item $extreme->c_ip()
Returns reference to hash. Key: iid Value: remote IPv4 address
If multiple entries exist with the same local port, c_if(), with the same IPv4
address, c_ip(), it may be a duplicate entry.
With EDP multiple entries may exist with the same local port, c_if(), and
different IPv4 addresses, c_ip(), as EDP reports addresses for each VLAN
transported across the trunk. In the case of LLDP with multiple addresses
there is either a non-LLDP device in between two or more devices or multiple
devices which are not directly connected.
Use the data from the Layer2 Topology Table below to dig deeper.
=item $extreme->c_port()
Returns reference to hash. Key: iid Value: remote port (interfaces)
=item $extreme->c_id()
Returns reference to hash. Key: iid Value: string value used to identify the
chassis component associated with the remote system.
=item $extreme->c_platform()
Returns reference to hash. Key: iid Value: Remote Device Type
This information is only available from LLDP. EDP does not provide an
equivalent.
=back
=head2 Table Methods imported from SNMP::Info::Layer3
See documentation in L<SNMP::Info::Layer3/"TABLE METHODS"> for details.
=head2 Table Methods imported from SNMP::Info::MAU
See documentation in L<SNMP::Info::MAU/"TABLE METHODS"> for details.
=head2 Table Methods imported from SNMP::Info::LLDP
See documentation in L<SNMP::Info::LLDP/"TABLE METHODS"> for details.
=head2 Table Methods imported from SNMP::Info::EDP
See documentation in L<SNMP::Info::EDP/"TABLE METHODS"> for details.
=head1 SET METHODS
These are methods that provide SNMP set functionality for overridden methods
or provide a simpler interface to complex set operations. See
L<SNMP::Info/"SETTING DATA VIA SNMP"> for general information on set
operations.
=over
=item $extreme->set_i_vlan ( vlan, ifIndex )
Changes an access (untagged) port VLAN, must be supplied with the numeric
VLAN ID and port C<ifIndex>. This method should only be used on end station
(non-trunk) ports.
Example:
my %if_map = reverse %{$extreme->interfaces()};
$extreme->set_i_vlan('2', $if_map{'FastEthernet0/1'})
or die "Couldn't change port VLAN. ",$extreme->error(1);
=item $extreme->set_i_pvid ( pvid, ifIndex )
Sets port default VLAN, must be supplied with the numeric VLAN ID and
port C<ifIndex>. This method should only be used on trunk ports.
Example:
my %if_map = reverse %{$extreme->interfaces()};
$extreme->set_i_pvid('2', $if_map{'FastEthernet0/1'})
or die "Couldn't change port default VLAN. ",$extreme->error(1);
=item $extreme->set_add_i_vlan_tagged ( vlan, ifIndex )
Adds the VLAN to the enabled VLANs list of the port, must be supplied with the
numeric VLAN ID and port C<ifIndex>.
Example:
my %if_map = reverse %{$extreme->interfaces()};
$extreme->set_add_i_vlan_tagged('2', $if_map{'FastEthernet0/1'})
or die "Couldn't add port to egress list. ",$extreme->error(1);
=item $extreme->set_remove_i_vlan_tagged ( vlan, ifIndex )
Removes the VLAN from the enabled VLANs list of the port, must be supplied
with the numeric VLAN ID and port C<ifIndex>.
Example:
my %if_map = reverse %{$extreme->interfaces()};
$extreme->set_remove_i_vlan_tagged('2', $if_map{'FastEthernet0/1'})
or die "Couldn't add port to egress list. ",$extreme->error(1);
=back
=head1 Data Munging Callback Subroutines
=over
=item $extreme->munge_power_stat()
Removes 'present' and changes 'not' to 'Not' in the front of a string.
=item $extreme->munge_true_ok()
Replaces 'true' with "OK" and 'false' with "Not OK".
=back
=cut