Code Index:

package SNMP::Info::Layer2::Aironet
- vendor
- interfaces
- description
- i_duplex
- _aironet_special
- _aironet_breakout_dot11idx
- fw_mac
- fw_port
- bp_index
- v_name
- v_index
- i_vlan
- munge_cd11_txrate
- cd11_port
- cd11_ssid
- cd11_mac
- _vlan_map_n_stack
- i_mac
- i_ssidlist
- i_ssidbcast
__END__
EOF

NAME

SNMP::Info::Layer2::Aironet - SNMP Interface to Cisco Aironet devices running IOS.

AUTHOR

Max Baker

SYNOPSIS

 # Let SNMP::Info determine the correct subclass for you. 
 my $aironet = new SNMP::Info(
                          AutoSpecify => 1,
                          Debug       => 1,
                          DestHost    => 'myswitch',
                          Community   => 'public',
                          Version     => 2
                        ) 
    or die "Can't connect to DestHost.\n";

 my $class      = $aironet->class();
 print "SNMP::Info determined this device to fall under subclass : $class\n";

DESCRIPTION

Provides interface to SNMP Data available on newer Aironet devices running Cisco IOS.

Note there are two classes for Aironet devices :

SNMP::Info::Layer3::Aironet: This class is for devices running Aironet software (older)
SNMP::Info::Layer2::Aironet: This class is for devices running Cisco IOS software (newer)

For speed or debugging purposes you can call the subclass directly, but not after determining a more specific class using the method above.

my $aironet = new SNMP::Info::Layer2::Aironet(...);

Inherited Classes

SNMP::Info::Layer2
SNMP::Info::Entity
SNMP::Info::EtherLike
SNMP::Info::CiscoStats
SNMP::Info::CiscoConfig

Required MIBs

Inherited Classes: MIBs required by the inherited classes listed above.

GLOBALS

These are methods that return scalar value from SNMP

$aironet->discription(): Adds info from method e_descr() from SNMP::Info::Entity
$aironet->vendor(): Returns 'cisco'
$aironet->description(): System description

Globals imported from SNMP::Info::Layer2

See documentation in "GLOBALS" in SNMP::Info::Layer2 for details.

Globals imported from SNMP::Info::Entity

See documentation in "GLOBALS" in SNMP::Info::Entity for details.

Globals imported from SNMP::Info::EtherLike

See documentation in "GLOBALS" in SNMP::Info::EtherLike for details.

TABLE METHODS

$aironet->cd11_port(): Returns radio interfaces.
$aironet->cd11_mac(): Returns radio interface MAC addresses.
$aironet->cd11_ssid(): Returns radio interface ssid.
$aironet->dot11_cur_tx_pwr_mw(): Current transmit power, in milliwatts, of the radio interface.

Overrides

$aironet->interfaces(): Uses the i_description() field.
$aironet->i_mac(): MAC address of the interface. Note this is just the MAC of the port, not anything connected to it.
$aironet->i_duplex(): Crosses information from SNMP::Info::EtherLike to get duplex info for interfaces.
$aironet->bp_index(): Returns reference to hash of bridge port table entries map back to interface identifier (iid)
$aironet->fw_mac(): Returns reference to hash of forwarding table MAC Addresses
$aironet->fw_port(): Returns reference to hash of forwarding table entries port interface identifier (iid)
$aironet->i_vlan(): Returns a mapping between ifIndex and the PVID or default VLAN.
$aironet->v_index(): Returns VLAN IDs
$aironet->v_name(): Returns VLAN names
$aironet->i_ssidlist(): Returns a list of SSIDs associated with interfaces. This function is MBSSID aware, so when using MBSSID can map SSIDs to the sub-interface to which they belong.
$aironet->i_ssidbcast(): With the same keys as i_ssidlist, returns whether the given SSID is being broadcast.

Table Methods imported from SNMP::Info::Layer2

See documentation in "TABLE METHODS" in SNMP::Info::Layer2 for details.

Table Methods imported from SNMP::Info::Entity

See documentation in "TABLE METHODS" in SNMP::Info::Entity for details.

Table Methods imported from SNMP::Info::EtherLike

See documentation in "TABLE METHODS" in SNMP::Info::EtherLike for details.

Data Munging Callback Subroutines

$aironet->munge_cd11_txrate(): Converts units of half a megabit to human readable string.

# SNMP::Info::Layer2::Aironet # $Id$ # # Copyright (c) 2008-2009 Max Baker changes from version 0.8 and beyond. # # Copyright (c) 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::Layer2::Aironet; use strict; use Exporter; use SNMP::Info::Layer2; use SNMP::Info::Entity; use SNMP::Info::EtherLike; use SNMP::Info::CiscoStats; use SNMP::Info::CiscoConfig; use SNMP::Info::CDP; use SNMP::Info::IEEE802dot11; @SNMP::Info::Layer2::Aironet::ISA = qw/SNMP::Info::Layer2 SNMP::Info::Entity SNMP::Info::EtherLike SNMP::Info::CiscoStats SNMP::Info::CiscoConfig SNMP::Info::CDP Exporter/; @SNMP::Info::Layer2::Aironet::EXPORT_OK = qw//; use vars qw/$VERSION %FUNCS %GLOBALS %MIBS %MUNGE/; $VERSION = '2.05'; %GLOBALS = ( %SNMP::Info::IEEE802dot11::GLOBALS, %SNMP::Info::Layer2::GLOBALS, %SNMP::Info::Entity::GLOBALS, %SNMP::Info::EtherLike::GLOBALS, %SNMP::Info::CiscoStats::GLOBALS, %SNMP::Info::CiscoConfig::GLOBALS, %SNMP::Info::CDP::GLOBALS, 'serial' => 'entPhysicalSerialNum.1', 'descr' => 'sysDescr' ); %FUNCS = ( %SNMP::Info::IEEE802dot11::FUNCS, %SNMP::Info::Layer2::FUNCS, %SNMP::Info::Entity::FUNCS, %SNMP::Info::EtherLike::FUNCS, %SNMP::Info::CiscoStats::FUNCS, %SNMP::Info::CiscoConfig::FUNCS, %SNMP::Info::CDP::FUNCS, 'i_80211channel' => 'cd11IfPhyDsssCurrentChannel', 'c_dot11subif' => 'cDot11ClientSubIfIndex', 'cd11_rateset' => 'cDot11ClientDataRateSet', 'cd11_txrate' => 'cDot11ClientCurrentTxRateSet', 'cd11_uptime' => 'cDot11ClientUpTime', 'cd11_sigstrength' => 'cDot11ClientSignalStrength', 'cd11_sigqual' => 'cDot11ClientSigQuality', 'cd11_rxpkt' => 'cDot11ClientPacketsReceived', 'cd11_txpkt' => 'cDot11ClientPacketsSent', 'cd11_rxbyte' => 'cDot11ClientBytesReceived', 'cd11_txbyte' => 'cDot11ClientBytesSent', 'mbss_mac_addr' => 'cdot11MbssidIfMacAddress', ); %MIBS = ( %SNMP::Info::IEEE802dot11::MIBS, %SNMP::Info::Layer2::MIBS, %SNMP::Info::Entity::MIBS, %SNMP::Info::EtherLike::MIBS, %SNMP::Info::CiscoStats::MIBS, %SNMP::Info::CiscoConfig::MIBS, %SNMP::Info::CDP::MIBS, 'CISCO-DOT11-IF-MIB' => 'cd11IfAuxSsid', 'CISCO-DOT11-ASSOCIATION-MIB' => 'cDot11ClientSubIfIndex', 'CISCO-DOT11-SSID-SECURITY-MIB' => 'cdot11SecVlanNameId', 'CISCO-VLAN-IFTABLE-RELATIONSHIP-MIB' => 'cviRoutedVlanIfIndex', ); %MUNGE = ( %SNMP::Info::IEEE802dot11::MUNGE, %SNMP::Info::Layer2::MUNGE, %SNMP::Info::Entity::MUNGE, %SNMP::Info::EtherLike::MUNGE, %SNMP::Info::CiscoStats::MUNGE, %SNMP::Info::CiscoConfig::MUNGE, %SNMP::Info::CDP::MUNGE, 'cd11_txrate' => \&munge_cd11_txrate, 'cd11_rateset' => \&munge_cd11_txrate, 'mbss_mac_addr' => \&SNMP::Info::munge_mac, ); # Use 802.11 power level without putting IEEE802dot11 in @ISA *SNMP::Info::Layer2::Aironet::dot11_cur_tx_pwr_mw = \&SNMP::Info::IEEE802dot11::dot11_cur_tx_pwr_mw; sub vendor { # Sorry, but it's true. return 'cisco'; } sub interfaces { my $aironet = shift; my $partial = shift; my $i_description = $aironet->i_description($partial); return $i_description; } # Tag on e_descr.1 sub description { my $aironet = shift; my $descr = $aironet->descr(); my $e_descr = $aironet->e_descr(); $descr = "$e_descr->{1} $descr" if defined $e_descr->{1}; return $descr; } # Fetch duplex from EtherLike sub i_duplex { my $aironet = shift; my $partial = shift; my $el_duplex = $aironet->el_duplex($partial); my %i_duplex; foreach my $d ( keys %$el_duplex ) { my $val = $el_duplex->{$d}; next unless defined $val; $i_duplex{$d} = 'full' if $val =~ /full/i; $i_duplex{$d} = 'half' if $val =~ /half/i; } return \%i_duplex; } # # IOS 12.3 introduces the cDot11ClientSubIfIndex in the # cDot11ClientConfigInfoTable, which supplies the ifIndex # of the VLAN Subinterface if one exists, or of the primary # interface if there are not subinterfaces. 12.2 used the # Q-BRIDGE-MIB dot1qTpFdbTable but that was removed in 12.3. sub _aironet_special { my $aironet = shift; my $os_ver = $aironet->os_ver(); if ( defined($os_ver) && $os_ver =~ /^(\d+)\.(\d+)(\D|$)/ && ( ( $1 == 12 && $2 >= 3 ) || $1 > 12 ) ) { return 1; } } # # INDEX { ifIndex, cd11IfAuxSsid, cDot11ClientAddress } sub _aironet_breakout_dot11idx { my $oid = shift; my @parts = split( /\./, $oid ); my $ifindex = shift(@parts); my $ssidlen = shift(@parts); my $ssid = pack( "C*", splice( @parts, 0, $ssidlen ) ); my $mac = join( ":", map { sprintf "%02x", $_ } @parts ); return ( $ifindex, $ssid, $mac ); } sub fw_mac { my $aironet = shift; return $aironet->qb_fw_mac() unless _aironet_special($aironet); my $c_dot11subif = $aironet->c_dot11subif(); my $fw_mac = {}; foreach my $i ( keys %$c_dot11subif ) { my ( $ifindex, $ssid, $mac ) = _aironet_breakout_dot11idx($i); $fw_mac->{$i} = $mac; } return $fw_mac; } sub fw_port { my $aironet = shift; return $aironet->qb_fw_port() unless _aironet_special($aironet); my $c_dot11subif = $aironet->c_dot11subif(); my $fw_port = {}; foreach my $i ( keys %$c_dot11subif ) { my ( $ifindex, $ssid, $mac ) = _aironet_breakout_dot11idx($i); $fw_port->{$i} = $c_dot11subif->{$i} || $ifindex; } return $fw_port; } sub bp_index { my $aironet = shift; return $aironet->orig_bp_index() unless _aironet_special($aironet); my $c_dot11subif = $aironet->c_dot11subif(); my $bp_index = {}; foreach my $i ( keys %$c_dot11subif ) { my ( $ifindex, $ssid, $mac ) = _aironet_breakout_dot11idx($i); my ($i) = $c_dot11subif->{$i} || $ifindex; $bp_index->{$i} = $i; } return $bp_index; } ### # # VLAN support # sub v_name { my $aironet = shift; my $v_name = {}; my $vlan_nameid = $aironet->cdot11SecVlanNameId(); foreach my $i ( keys %$vlan_nameid ) { my @parts = split( /\./, $i ); my $namelen = shift(@parts); my $name = pack( "C*", @parts ); $v_name->{$i} = $name; } return $v_name; } sub v_index { my $aironet = shift; return $aironet->cdot11SecVlanNameId(); } sub i_vlan { my $aironet = shift; my $i_vlan = {}; my $idxmap = $aironet->cviRoutedVlanIfIndex(); foreach my $i ( keys %$idxmap ) { my @parts = split( /\./, $i ); $i_vlan->{ $idxmap->{$i} } = $parts[0]; } return $i_vlan; } # The MIB reports in units of half a megabit, e.g., # 5.5Mbps is reported as 11. sub munge_cd11_txrate { my $txrates = shift; my @units = unpack( "C*", $txrates ); my @rates = map { my $unit = $_; $unit *= 0.5; } @units; return \@rates; } # cd11 INDEX sub cd11_port { my $aironet = shift; my $cd11_sigstrength = $aironet->cd11_sigstrength(); my $interfaces = $aironet->interfaces(); my %ret; foreach ( keys %$cd11_sigstrength ) { my ( $ifindex, $ssid, $mac ) = _aironet_breakout_dot11idx($_); $ret{$_} = $interfaces->{$ifindex}; } return \%ret; } sub cd11_ssid { my $aironet = shift; my $cd11_sigstrength = $aironet->cd11_sigstrength(); my %ret; foreach ( keys %$cd11_sigstrength ) { my ( $ifindex, $ssid, $mac ) = _aironet_breakout_dot11idx($_); $ret{$_} = $ssid; } return \%ret; } sub cd11_mac { my $aironet = shift; my $cd11_sigstrength = $aironet->cd11_sigstrength(); my %ret; foreach ( keys %$cd11_sigstrength ) { my ( $ifindex, $ssid, $mac ) = _aironet_breakout_dot11idx($_); $ret{$_} = $mac; } return \%ret; } # Map VLAN N on interface I to its actual ifIndex. sub _vlan_map_n_stack { my $aironet = shift; my $vlan_idx = $aironet->cviRoutedVlanIfIndex(); my $vlan_map = {}; foreach my $idx ( keys %$vlan_idx ) { my ( $vlan, $num ) = split( /\./, $idx ); $vlan_map->{$vlan}->{$num} = $vlan_idx->{$idx}; } return $vlan_map; } # When using MBSS, the ifTable reports the # base MAC address, but the actual association is # with a different MAC address for MBSS. # This convoluted path seems to be necessary # to get the right overrides. sub i_mac { my $aironet = shift; # no partial is possible due to the levels # of indirection. # Start with the ifPhysAddress, and override my $mbss_mac = $aironet->orig_i_mac(); my $mbss_mac_addr = $aironet->mbss_mac_addr(); my $ssid_vlan = $aironet->cdot11SecAuxSsidVlan(); my $vlan_map = $aironet->cviRoutedVlanIfIndex(); my $ifstack = $aironet->ifStackStatus(); my $vlan_list = {}; foreach my $idx ( keys %$vlan_map ) { my ( $vlan, $num ) = split( /\./, $idx ); push( @{ $vlan_list->{$vlan} }, $vlan_map->{$idx} ); } my $stack = {}; foreach my $idx ( keys %$ifstack ) { my ( $upper, $lower ) = split( /\./, $idx ); $stack->{$upper}->{$lower} = $ifstack->{$idx}; } # mbss_mac_addr index is (radio, ssid). # ssid_vlan maps ssid->vlan. # vlan_map maps vlan->[list of interfaces] # ifstack allows us to pick the right interface foreach my $idx ( keys %$mbss_mac_addr ) { my ( $interface, @ssid ) = split( /\./, $idx ); my $vlan = $ssid_vlan->{ join( ".", scalar(@ssid), @ssid ) }; next unless defined($vlan); foreach my $vlanif ( @{ $vlan_list->{$vlan} } ) { if ( defined( $stack->{$vlanif}->{$interface} ) ) { $mbss_mac->{$vlanif} = $mbss_mac_addr->{$idx}; } } } return $mbss_mac; } sub i_ssidlist { my $aironet = shift; # no partial is possible due to the levels # of indirection. my $ssid_row = $aironet->cdot11SecInterfSsidRowStatus(); my $ssid_vlan = $aironet->cdot11SecAuxSsidVlan(); if ( !defined($ssid_row) || !defined($ssid_vlan) ) { return $aironet->cd11IfAuxSsid(); } my $ssidlist = {}; my $if_ssidcount = {}; my $vlan_map = $aironet->_vlan_map_n_stack(); foreach my $idx ( keys %$ssid_row ) { next unless $ssid_row->{$idx} eq 'active'; # ssid_row index is radio.ssid my ( $interface, $ssid ) = split( /\./, $idx, 2 ); my ( $len, @ssidt ) = split( /\./, $ssid ); my $mappedintf = $vlan_map->{ $ssid_vlan->{$ssid} }->{$interface}; next unless $mappedintf; if ( !$if_ssidcount->{$mappedintf} ) { $if_ssidcount->{$mappedintf} = 1; } my $ssidlist_idx = sprintf( "%s.%d", $mappedintf, $if_ssidcount->{$mappedintf} ); $ssidlist->{$ssidlist_idx} = pack( "C*", @ssidt ); $if_ssidcount->{$mappedintf}++; } return $ssidlist; } sub i_ssidbcast { my $aironet = shift; my $partial = shift; my $mbss_bcast = $aironet->cdot11SecAuxSsidMbssidBroadcast(); if ( !defined($mbss_bcast) ) { return $aironet->cd11IfAuxSsidBroadcastSsid($partial); } my $map = {}; foreach my $key ( keys %$mbss_bcast ) { my (@idx) = split( /\./, $key ); my $len = shift(@idx); $map->{ pack( "C*", @idx ) } = $mbss_bcast->{$key}; } # This needs to return the same indexes as i_ssidlist. # mbss_bcast maps ssid -> broadcasting # so we just replace the i_ssidlist values with the mbss_bcast ones. my $i_ssidlist = $aironet->i_ssidlist(); my $i_ssidbcast = {}; foreach my $key ( keys %$i_ssidlist ) { $i_ssidbcast->{$key} = $map->{ $i_ssidlist->{$key} }; } return $i_ssidbcast; } 1; __END__