snmp-info/lib/SNMP/Info/Layer2/Airespace.pm

# SNMP::Info::Layer2::Airespace
#
# Copyright (c) 2008 Eric Miller
#
# 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::Airespace;

use strict;
use warnings;
use Exporter;
use SNMP::Info::Bridge;
use SNMP::Info::CDP;
use SNMP::Info::Airespace;

@SNMP::Info::Layer2::Airespace::ISA
    = qw/SNMP::Info::Airespace SNMP::Info::CDP SNMP::Info::Bridge Exporter/;
@SNMP::Info::Layer2::Airespace::EXPORT_OK = qw//;

our ($VERSION, %FUNCS, %GLOBALS, %MIBS, %MUNGE);

$VERSION = '3.83';

%MIBS = (
    %SNMP::Info::MIBS,      %SNMP::Info::Bridge::MIBS,
    %SNMP::Info::CDP::MIBS, %SNMP::Info::Airespace::MIBS,
    'CISCO-LWAPP-DOT11-CLIENT-MIB' => 'cldcClientCurrentTxRateSet',
    'CISCO-LWAPP-DOT11-MIB'        => 'cldHtDot11nChannelBandwidth',
    'CISCO-LWAPP-AP-MIB'           => 'cLApIfMacAddress',
);

%GLOBALS = (
    %SNMP::Info::GLOBALS,      %SNMP::Info::Bridge::GLOBALS,
    %SNMP::Info::CDP::GLOBALS, %SNMP::Info::Airespace::GLOBALS,
);

%FUNCS = (
    %SNMP::Info::FUNCS,      %SNMP::Info::Bridge::FUNCS,
    %SNMP::Info::CDP::FUNCS, %SNMP::Info::Airespace::FUNCS,
    # CISCO-LWAPP-AP-MIB::cLApTable
    'ap_if_mac'        => 'cLApIfMacAddress',
    # CISCO-LWAPP-DOT11-CLIENT-MIB::cldcClientTable
    'client_txrate'    => 'cldcClientCurrentTxRateSet',
    'cd11_proto'       => 'cldcClientProtocol',
    'cd11_rateset'     => 'cldcClientDataRateSet',
    # CISCO-LWAPP-DOT11-MIB::cldHtMacOperationsTable
    'cd11n_ch_bw'      => 'cldHtDot11nChannelBandwidth',

);

%MUNGE = (
    %SNMP::Info::MUNGE,      %SNMP::Info::Bridge::MUNGE,
    %SNMP::Info::CDP::MUNGE, %SNMP::Info::Airespace::MUNGE,
    'ap_if_mac'         => \&SNMP::Info::munge_mac,
    'cd11n_ch_bw'       => \&munge_cd11n_ch_bw,
    'cd11_rateset'      => \&munge_cd11_rateset,
    'cd11_proto'        => \&munge_cd11_proto,
);

# 802.11n Modulation and Coding Scheme (MCS)
my $mcs_index = {
    20 => {
	m0  => '6.5',
	m1  => '13',
	m2  => '19.5',
	m3  => '26',
	m4  => '39',
	m5  => '52',
	m6  => '58.5',
	m7  => '65',
	m8  => '13',
	m9  => '26',
	m10 => '39',
	m11 => '52',
	m12 => '78',
	m13 => '104',
	m14 => '117',
	m15 => '130',
	m16 => '19.5',
	m17 => '39',
	m18 => '58.5',
	m19 => '78',
	m20 => '117',
	m21 => '156',
	m22 => '175.5',
	m23 => '195',
	# This is a cheat for 802.11a bonded
	m108 => '108',
    },
    40 => {
	m0  => '15',
	m1  => '30',
	m2  => '45',
	m3  => '60',
	m4  => '90',
	m5  => '120',
	m6  => '135',
	m7  => '157.5',
	m8  => '30',
	m9  => '60',
	m10 => '90',
	m11 => '120',
	m12 => '180',
	m13 => '240',
	m14 => '270',
	m15 => '300',
	m16 => '45',
	m17 => '90',
	m18 => '135',
	m19 => '180',
	m20 => '270',
	m21 => '360',
	m22 => '405',
	m23 => '450',
    }
};

sub os {
    return 'cisco';
}

sub vendor {
    return 'cisco';
}

sub model {
    my $airespace = shift;
    my $model     = $airespace->airespace_model();
    return unless defined $model;

    return $model;
}

sub cd11_mac {
    my $airespace = shift;
    my $cd11_sigstrength = $airespace->cd11_sigstrength();

    my $ret = {};
    foreach my $idx ( keys %$cd11_sigstrength ) {
	my $mac = join( ":", map { sprintf "%02x", $_ } split /\./, $idx );
	$ret->{$idx} = $mac
    }
    return $ret;
}

sub cd11_txrate {
    my $airespace = shift;

    my $rates  = $airespace->client_txrate() || {};
    my $protos = $airespace->cd11_proto()    || {};
    my $bws    = $airespace->cd11n_ch_bw()   || {};

    my $cd11_txrate = {};
    foreach my $idx ( keys %$rates ) {
	my $rate = $rates->{$idx} || '0.0';
	
	if ( $rate =~ /^\d+/ ) {
            $cd11_txrate->{$idx} = [ $rate * 1.0 ];
	}
	elsif ( $rate =~ /^m/ ) {
	    my $band = $protos->{$idx};
	    my $bw   = $bws->{$band};
	    # FIXME throw some kind of error if we get an index/rate that we haven't implemented yet? Now we simply return "0.0"...
	    $cd11_txrate->{$idx} = [ $mcs_index->{$bw}->{$rate} || '0.0' ];
	}
	else {
	    $cd11_txrate->{$idx} = [ $rate ];
	}
    }
    return $cd11_txrate;
}

sub munge_cd11n_ch_bw {
    my $bw = shift;

    if ( $bw =~ /forty/ ) {
	return 40;
    }
    return 20;
}

sub munge_cd11_proto {
    my $bw = shift;

    return 2 if ( $bw eq 'dot11n5' );

    return 1;
}

sub munge_cd11_rateset {
    my $rates = shift;
    return [ map { $_ * 1.0 } split /,/, $rates ];
}

# Cisco provides the AP's Ethernet MAC via
# CISCO-LWAPP-AP-MIB::cLApIfMacAddress this was not available pre-Cisco
sub i_mac {
    my $airespace = shift;
    my $partial   = shift;

    my $i_index = $airespace->i_index($partial)  || {};
    my $ap_mac  = $airespace->ap_if_mac()        || {};

    my $i_mac = $airespace->SUPER::i_mac() || {};
    foreach my $iid ( keys %$i_index ) {
	my $index = $i_index->{$iid};
	next unless defined $index;

	if ( $index =~ /(?:[0-9A-Fa-f]{2}:){5}[0-9A-Fa-f]{2}/ ) {
	    $index =~ s/\.\d+$//;
	    next unless defined $index;
	    my $sys_mac = join( '.', map { hex($_) } split( ':', $index ) );
	    my $mac = $ap_mac->{$sys_mac};
	    $i_mac->{$iid} = $mac;
	}
    }
    return $i_mac;
}

1;
__END__

=head1 NAME

SNMP::Info::Layer2::Airespace - SNMP Interface to Cisco (Airespace) Wireless
Controllers

=head1 AUTHOR

Eric Miller

=head1 SYNOPSIS

    #Let SNMP::Info determine the correct subclass for you.

    my $airespace = new SNMP::Info(
                          AutoSpecify => 1,
                          Debug       => 1,
                          DestHost    => 'myswitch',
                          Community   => 'public',
                          Version     => 2
                        )

    or die "Can't connect to DestHost.\n";

    my $class = $airespace->class();
    print " Using device sub class : $class\n";

=head1 DESCRIPTION

Provides abstraction to the configuration information obtainable from
Cisco (Airespace) Wireless Controllers through SNMP.

=head2 Inherited Classes

=over

=item SNMP::Info::Airespace

=item SNMP::Info::CDP

=item SNMP::Info::Bridge

=back

=head2 Required MIBs

=over

=item F<CISCO-LWAPP-DOT11-CLIENT-MIB>

=item F<CISCO-LWAPP-DOT11-MIB>

=item F<CISCO-LWAPP-AP-MIB>

=item Inherited Classes' MIBs

See L<SNMP::Info::Airespace/"Required MIBs"> for its own MIB requirements.

See L<SNMP::Info::CDP/"Required MIBs"> for its own MIB requirements.

See L<SNMP::Info::Bridge/"Required MIBs"> for its own MIB requirements.

=back

=head1 GLOBALS

These are methods that return scalar value from SNMP

=over

=item $airespace->vendor()

Returns 'cisco'

=item $airespace->os()

Returns 'cisco'

=item $airespace->model()

(C<agentInventoryMachineModel>)

=back

=head2 Global Methods imported from SNMP::Info::Airespace

See documentation in L<SNMP::Info::Airespace/"GLOBALS"> for details.

=head2 Global Methods imported from SNMP::Info::CDP

See documentation in L<SNMP::Info::CDP/"GLOBALS"> for details.

=head2 Globals imported from SNMP::Info::Bridge

See documentation in L<SNMP::Info::Bridge/"GLOBALS"> for details.

=head1 TABLE METHODS

These are methods that return tables of information in the form of a reference
to a hash.

=over

=item cd11_mac()

Returns client radio interface MAC addresses.

=item cd11_txrate()

Returns client transmission speed in Mbs.

=back

=head2 Overrides

=over

=item i_mac()

Adds AP Ethernet MAC as port mac on radio ports from C<CISCO-LWAPP-AP-MIB>.

=back

=head2 Table Methods imported from SNMP::Info::Airespace

See documentation in L<SNMP::Info::Airespace/"TABLE METHODS"> for details.

=head2 Table Methods imported from SNMP::Info::CDP

See documentation in L<SNMP::Info::CDP/"TABLE METHODS"> for details.

=head2 Table Methods imported from SNMP::Info::Bridge

See documentation in L<SNMP::Info::Bridge/"TABLE METHODS"> for details.

=head1 Data Munging Callback Subroutines

=over

=item munge_cd11n_ch_bw()

Converts 802.11n channel bandwidth to either 20 or 40.

=item munge_cd11_proto()

Converts 802.11n 2.4Ghz to 1 and 5Ghz to 2 to correspond to the
(C<cldHtMacOperationsTable>) index.

=item munge_cd11_rateset()

Converts rate set to array.

=back

=cut