# SNMP::Info::Layer1::Bayhub # # Copyright (c) 2008 Eric Miller, Max Baker # 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::Layer1::Bayhub; use strict; use warnings; use Exporter; use SNMP::Info::SONMP; use SNMP::Info::NortelStack; use SNMP::Info::Layer2; @SNMP::Info::Layer1::Bayhub::ISA = qw/SNMP::Info::SONMP SNMP::Info::NortelStack SNMP::Info::Layer2 Exporter/; @SNMP::Info::Layer1::Bayhub::EXPORT_OK = qw//; our ($VERSION, %FUNCS, %GLOBALS, %MIBS, %MUNGE); $VERSION = '3.70'; %MIBS = ( %SNMP::Info::Layer2::MIBS, %SNMP::Info::NortelStack::MIBS, %SNMP::Info::SONMP::MIBS, 'S5-ETHERNET-COMMON-MIB' => 's5EnPortTable', 'S5-COMMON-STATS-MIB' => 's5CmStat', ); %GLOBALS = ( %SNMP::Info::Layer2::GLOBALS, %SNMP::Info::NortelStack::GLOBALS, %SNMP::Info::SONMP::GLOBALS, ); %FUNCS = ( %SNMP::Info::Layer2::FUNCS, %SNMP::Info::NortelStack::FUNCS, %SNMP::Info::SONMP::FUNCS, # S5-ETHERNET-COMMON-MIB::s5EnPortTable 'bayhub_pb_index' => 's5EnPortBrdIndx', 'bayhub_pp_index' => 's5EnPortIndx', 'bayhub_up_admin' => 's5EnPortPartStatus', 'bayhub_up' => 's5EnPortLinkStatus', # S5-ETHERNET-COMMON-MIB::s5EnPortExtTable 'bayhub_p_speed' => 's5EnPortExtActiveSpeed', 'bayhub_p_cap' => 's5EnPortExtHwCapability', 'bayhub_p_adv' => 's5EnPortExtAutoNegAdv', # S5-COMMON-STATS-MIB::s5CmSNodeTable 'bayhub_nb_index' => 's5CmSNodeBrdIndx', 'bayhub_np_index' => 's5CmSNodePortIndx', 'fw_mac' => 's5CmSNodeMacAddr', ); %MUNGE = ( %SNMP::Info::Layer2::MUNGE, %SNMP::Info::NortelStack::MUNGE, %SNMP::Info::SONMP::MUNGE, ); sub layers { return '00000011'; } sub os { return 'bay_hub'; } sub vendor { return 'avaya'; } sub model { my $bayhub = shift; my $id = $bayhub->id(); return unless defined $id; my $model = &SNMP::translateObj($id); return $id unless defined $model; $model =~ s/^sreg-//i; return 'Baystack Hub' if ( $model =~ /BayStack/ ); return '5000' if ( $model =~ /5000/ ); return '5005' if ( $model =~ /5005/ ); return $model; } # Hubs do not support ifMIB requirements for get MAC # and port status sub i_index { my $bayhub = shift; my $partial = shift; my $b_index = $bayhub->bayhub_pb_index($partial) || {}; my $p_index = $bayhub->bayhub_pp_index($partial) || {}; my $model = $bayhub->model() || 'Baystack Hub'; my %i_index; foreach my $iid ( keys %$b_index ) { my $board = $b_index->{$iid}; next unless defined $board; my $port = $p_index->{$iid} || 0; if ( $model eq 'Baystack Hub' ) { my $comidx = $board; if ( !( $comidx % 5 ) ) { $board = ( $board / 5 ); } elsif ( $comidx =~ /[16]$/ ) { $board = int( $board / 5 ); $port = 25; } elsif ( $comidx =~ /[27]$/ ) { $board = int( $board / 5 ); $port = 26; } } my $index = ( $board * 256 ) + $port; $i_index{$iid} = $index; } return \%i_index; } # Partials don't really help in this class, but implemented # for consistency sub interfaces { my $bayhub = shift; my $partial = shift; my $i_index = $bayhub->i_index() || {}; my %if; foreach my $iid ( keys %$i_index ) { my $index = $i_index->{$iid}; next unless defined $index; next if ( defined $partial and $index !~ /^$partial$/ ); # Index numbers are deterministic slot * 256 + port my $port = $index % 256; my $slot = int( $index / 256 ); my $slotport = "$slot.$port"; $if{$index} = $slotport; } return \%if; } sub i_duplex { my $bayhub = shift; my $partial = shift; my $port_index = $bayhub->i_index() || {}; my %i_duplex; foreach my $iid ( keys %$port_index ) { my $index = $port_index->{$iid}; next unless defined $index; next if ( defined $partial and $index !~ /^$partial$/ ); my $duplex = 'half'; $i_duplex{$index} = $duplex; } return \%i_duplex; } sub i_duplex_admin { my $bayhub = shift; my $partial = shift; my $port_index = $bayhub->i_index() || {}; my %i_duplex_admin; foreach my $iid ( keys %$port_index ) { my $index = $port_index->{$iid}; next unless defined $index; next if ( defined $partial and $index !~ /^$partial$/ ); my $duplex = 'half'; $i_duplex_admin{$index} = $duplex; } return \%i_duplex_admin; } sub i_speed { my $bayhub = shift; my $partial = shift; my $port_index = $bayhub->i_index() || {}; my $port_speed = $bayhub->bayhub_p_speed() || {}; my %i_speed; foreach my $iid ( keys %$port_index ) { my $index = $port_index->{$iid}; next unless defined $index; next if ( defined $partial and $index !~ /^$partial$/ ); my $speed = $port_speed->{$iid} || '10 Mbps'; $speed = '10 Mbps' if $speed =~ /bps10M/i; $speed = '100 Mbps' if $speed =~ /bps100M/i; $i_speed{$index} = $speed; } return \%i_speed; } sub i_up { my $bayhub = shift; my $partial = shift; my $port_index = $bayhub->i_index() || {}; my $link_stat = $bayhub->bayhub_up() || {}; my %i_up; foreach my $iid ( keys %$port_index ) { my $index = $port_index->{$iid}; next unless defined $index; next if ( defined $partial and $index !~ /^$partial$/ ); my $link_stat = $link_stat->{$iid}; next unless defined $link_stat; $link_stat = 'up' if $link_stat =~ /on/i; $link_stat = 'down' if $link_stat =~ /off/i; $i_up{$index} = $link_stat; } return \%i_up; } sub i_up_admin { my $bayhub = shift; my $partial = shift; my $i_index = $bayhub->i_index() || {}; my $link_stat = $bayhub->bayhub_up_admin() || {}; my %i_up_admin; foreach my $iid ( keys %$i_index ) { my $index = $i_index->{$iid}; next unless defined $index; next if ( defined $partial and $index !~ /^$partial$/ ); my $link_stat = $link_stat->{$iid}; next unless defined $link_stat; $i_up_admin{$index} = $link_stat; } return \%i_up_admin; } sub set_i_up_admin { # map setting to those the hub will understand my %setting = qw/up 2 down 3/; my $bayhub = shift; my ( $setting, $iid ) = @_; my $i_index = $bayhub->i_index() || {}; my %reverse_i_index = reverse %$i_index; $setting = lc($setting); return 0 unless defined $setting{$setting}; $iid = $reverse_i_index{$iid}; return $bayhub->set_bayhub_up_admin( $setting{$setting}, $iid ); } # Hubs do not support the standard Bridge MIB sub bp_index { my $bayhub = shift; my $partial = shift; my $b_index = $bayhub->bayhub_nb_index() || {}; my $p_index = $bayhub->bayhub_np_index() || {}; my $model = $bayhub->model() || 'Baystack Hub'; my %bp_index; foreach my $iid ( keys %$b_index ) { my $board = $b_index->{$iid}; next unless defined $board; my $port = $p_index->{$iid} || 0; if ( $model eq 'Baystack Hub' ) { my $comidx = $board; if ( !( $comidx % 5 ) ) { $board = ( $board / 5 ); } elsif ( $comidx =~ /[16]$/ ) { $board = int( $board / 5 ); $port = 25; } elsif ( $comidx =~ /[27]$/ ) { $board = int( $board / 5 ); $port = 26; } } my $index = ( $board * 256 ) + $port; next if ( defined $partial and $index !~ /^$partial$/ ); $bp_index{$index} = $index; } return \%bp_index; } sub fw_mac { my $bayhub = shift; my $partial = shift; return $bayhub->SUPER::fw_mac($partial); } sub fw_port { my $bayhub = shift; my $partial = shift; my $b_index = $bayhub->bayhub_nb_index($partial) || {}; my $p_index = $bayhub->bayhub_np_index($partial) || {}; my $model = $bayhub->model() || 'Baystack Hub'; my %fw_port; foreach my $iid ( keys %$b_index ) { my $board = $b_index->{$iid}; next unless defined $board; my $port = $p_index->{$iid} || 0; if ( $model eq 'Baystack Hub' ) { my $comidx = $board; if ( !( $comidx % 5 ) ) { $board = ( $board / 5 ); } elsif ( $comidx =~ /[16]$/ ) { $board = int( $board / 5 ); $port = 25; } elsif ( $comidx =~ /[27]$/ ) { $board = int( $board / 5 ); $port = 26; } } my $index = ( $board * 256 ) + $port; $fw_port{$iid} = $index; } return \%fw_port; } sub index_factor { return 256; } sub slot_offset { return 0; } # Devices do not support ENTITY-MIB use proprietary methods. sub e_index { my $stack = shift; my $partial = shift; return $stack->ns_e_index($partial); } sub e_class { my $stack = shift; my $partial = shift; return $stack->ns_e_class($partial); } sub e_descr { my $stack = shift; my $partial = shift; return $stack->ns_e_descr($partial); } sub e_name { my $stack = shift; my $partial = shift; return $stack->ns_e_name($partial); } sub e_fwver { my $stack = shift; my $partial = shift; return $stack->ns_e_fwver($partial); } sub e_hwver { my $stack = shift; my $partial = shift; return $stack->ns_e_hwver($partial); } sub e_parent { my $stack = shift; my $partial = shift; return $stack->ns_e_parent($partial); } sub e_pos { my $stack = shift; my $partial = shift; return $stack->ns_e_pos($partial); } sub e_serial { my $stack = shift; my $partial = shift; return $stack->ns_e_serial($partial); } sub e_swver { my $stack = shift; my $partial = shift; return $stack->ns_e_swver($partial); } sub e_type { my $stack = shift; my $partial = shift; return $stack->ns_e_type($partial); } sub e_vendor { my $stack = shift; my $partial = shift; return $stack->ns_e_vendor($partial); } 1; __END__ =head1 NAME SNMP::Info::Layer1::Bayhub - SNMP Interface to Bay/Nortel/Avaya Hubs =head1 AUTHOR Eric Miller =head1 SYNOPSIS #Let SNMP::Info determine the correct subclass for you. my $bayhub = new SNMP::Info( AutoSpecify => 1, Debug => 1, DestHost => 'myswitch', Community => 'public', Version => 2 ) or die "Can't connect to DestHost.\n"; my $class = $bayhub->class(); print "SNMP::Info determined this device to fall under subclass : $class\n"; =head1 DESCRIPTION Provides abstraction to the configuration information obtainable from a Bay hub device through SNMP. Also provides device MAC to port mapping through the proprietary MIB. =head2 Inherited Classes =over =item SNMP::Info::Layer2 =item SNMP::Info::NortelStack =item SNMP::Info::SONMP =back =head2 Required MIBs =over =item F =item F =back =head2 Inherited MIBs See L for its MIB requirements. See L for its MIB requirements. See L for its MIB requirements. =head1 GLOBALS These are methods that return scalar value from SNMP =over =item $bayhub->vendor() Returns 'avaya' =item $bayhub->os() Returns 'bay_hub' =item $bayhub->model() Cross references $bayhub->id() to the F and returns the results. Removes either Baystack Hub, 5000, or 5005 depending on the model. =back =head2 Overrides =over =item $bayhub->layers() Returns 00000011. Class emulates Layer 2 functionality through proprietary MIBs. =item $bayhub->index_factor() Required by SNMP::Info::SONMP. Number representing the number of ports reserved per slot within the device MIB. Returns 256. =item $bayhub->slot_offset() Required by SNMP::Info::SONMP. Offset if slot numbering does not start at 0. Returns 0. =back =head2 Globals imported from SNMP::Info::Layer2 See L for details. =head2 Global Methods imported from SNMP::Info::NortelStack See L for details. =head2 Global Methods imported from SNMP::Info::SONMP See L 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 $bayhub->i_index() Returns reference to map of IIDs to Interface index. Since hubs do not support C, the interface index is created using the formula (board * 256 + port). =item $bayhub->interfaces() Returns reference to map of IIDs to physical ports. =item $bayhub->i_duplex() Returns half, hubs do not support full duplex. =item $bayhub->i_duplex_admin() Returns half, hubs do not support full duplex. =item $bayhub->i_speed() Returns interface speed. =item $bayhub->i_up() Returns (C) for each port. Translates on/off to up/down. =item $bayhub->i_up_admin() Returns (C) for each port. =item $bayhub->set_i_up_admin(state, ifIndex) Sets port state, must be supplied with state and port C State choices are 'up' or 'down' Example: my %if_map = reverse %{$bayhub->interfaces()}; $bayhub->set_i_up_admin('down', $if_map{'1.1'}) or die "Couldn't change port state. ",$bayhub->error(1); =item $bayhub->bp_index() Simulates bridge MIB by returning reference to a hash containing the index for both the keys and values. =item $bayhub->fw_port() Returns reference to map of IIDs of the C to the Interface index. =item $bayhub->fw_mac() (C) =back =head2 Pseudo F Information These devices do not support F. These methods emulate Physical Table methods using F. See L for details. =over =item $bayhub->e_index() Returns ns_e_index(). =item $bayhub->e_class() Returns ns_e_class(). =item $bayhub->e_descr() Returns ns_e_descr(). =item $bayhub->e_name() Returns ns_e_name(). =item $bayhub->e_fwver() Returns ns_e_fwver(). =item $bayhub->e_hwver() Returns ns_e_hwver(). =item $bayhub->e_parent() Returns ns_e_parent(). =item $bayhub->e_pos() Returns ns_e_pos(). =item $bayhub->e_serial() Returns ns_e_serial(). =item $bayhub->e_swver() Returns ns_e_swver(). =item $bayhub->e_type() Returns ns_e_type(). =item $bayhub->e_vendor() Returns ns_e_vendor(). =back =head2 Table Methods imported from SNMP::Info::Layer2 See L for details. =head2 Table Methods imported from SNMP::Info::NortelStack See L for details. =head2 Table Methods imported from SNMP::Info::SONMP See L for details. =cut