# SNMP::Info::Layer2::Baystack # $Id$ # # Copyright (c) 2008 Max Baker changes from version 0.8 and beyond. # 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::Baystack; use strict; use Exporter; use SNMP::Info::SONMP; use SNMP::Info::NortelStack; use SNMP::Info::RapidCity; use SNMP::Info::LLDP; use SNMP::Info::Layer3; @SNMP::Info::Layer2::Baystack::ISA = qw/SNMP::Info::SONMP SNMP::Info::NortelStack SNMP::Info::RapidCity SNMP::Info::LLDP SNMP::Info::Layer3 Exporter/; @SNMP::Info::Layer2::Baystack::EXPORT_OK = qw//; use vars qw/$VERSION %FUNCS %GLOBALS %MIBS %MUNGE/; $VERSION = '3.32'; %MIBS = ( %SNMP::Info::Layer3::MIBS, %SNMP::Info::LLDP::MIBS, %SNMP::Info::RapidCity::MIBS, %SNMP::Info::NortelStack::MIBS, %SNMP::Info::SONMP::MIBS, 'BAY-STACK-PETH-EXT-MIB' => 'bspePethPsePortExtMeasuredPower', ); %GLOBALS = ( %SNMP::Info::Layer3::GLOBALS, %SNMP::Info::LLDP::GLOBALS, %SNMP::Info::RapidCity::GLOBALS, %SNMP::Info::NortelStack::GLOBALS, %SNMP::Info::SONMP::GLOBALS, ); %FUNCS = ( %SNMP::Info::Layer3::FUNCS, %SNMP::Info::LLDP::FUNCS, %SNMP::Info::RapidCity::FUNCS, %SNMP::Info::NortelStack::FUNCS, %SNMP::Info::SONMP::FUNCS, 'peth_port_power' => 'bspePethPsePortExtMeasuredPower', ); # 450's report full duplex as speed = 20mbps?! $SNMP::Info::SPEED_MAP{20_000_000} = '10 Mbps'; $SNMP::Info::SPEED_MAP{200_000_000} = '100 Mbps'; $SNMP::Info::SPEED_MAP{2_000_000_000} = '1.0 Gbps'; %MUNGE = ( %SNMP::Info::Layer3::MUNGE, %SNMP::Info::LLDP::MUNGE, %SNMP::Info::RapidCity::MUNGE, %SNMP::Info::NortelStack::MUNGE, %SNMP::Info::SONMP::MUNGE, ); sub os { my $baystack = shift; my $descr = $baystack->description() || ""; my $model = $baystack->model() || ""; if ( $descr =~ /Business Ethernet Switch.*SW:v/i ) { return 'bes'; } if ( ( ( $model =~ /(420|425|BPS)/ ) and ( $descr =~ m/SW:v[1-2]/i ) ) or ( ( $model =~ /(410|450|380)/ ) ) ) { return 'baystack'; } if ( $model =~ /VSP/ ) { return 'vsp'; } return 'boss'; } sub os_bin { my $baystack = shift; my $descr = $baystack->description(); return unless defined $descr; # 303 / 304 if ( $descr =~ m/Rev: \d+\.(\d+\.\d+\.\d+)-\d+\.\d+\.\d+\.\d+/ ) { return $1; } # 450 if ( $descr =~ m/FW:V(\d+\.\d+)/ ) { return $1; } if ( $descr =~ m/FW:(\d+\.\d+\.\d+\.\d+)/i ) { return $1; } return; } sub vendor { return 'avaya'; } sub model { my $baystack = shift; my $id = $baystack->id(); return unless defined $id; my $model = &SNMP::translateObj($id); return $id unless defined $model; my $descr = $baystack->description(); return '303' if ( defined $descr and $descr =~ /\D303\D/ ); return '304' if ( defined $descr and $descr =~ /\D304\D/ ); return 'BPS' if ( $model =~ /BPS2000/i ); # Pull sreg- from all $model =~ s/^sreg-//; # Strip ES/ERS/BayStack etc. from those families $model =~ s/^(E(R)?S|BayStack|Ethernet(Routing)?Switch)-?//; $model =~ s/-ethSwitchNMM//; return $model; } sub interfaces { my $baystack = shift; my $partial = shift; my $i_index = $baystack->i_index($partial) || {}; my $index_factor = $baystack->index_factor(); my $slot_offset = $baystack->slot_offset(); my %if; foreach my $iid ( keys %$i_index ) { my $index = $i_index->{$iid}; next unless defined $index; # Ignore cascade ports next if $index > $index_factor * 8; my $port = ( $index % $index_factor ); my $slot = ( int( $index / $index_factor ) ) + $slot_offset; my $slotport = "$slot.$port"; $if{$iid} = $slotport; } return \%if; } sub i_mac { my $baystack = shift; my $partial = shift; my $i_mac = $baystack->orig_i_mac($partial) || {}; my %i_mac; # Baystack 303's with a hw rev < 2.11.4.5 report the mac as all zeros foreach my $iid ( keys %$i_mac ) { my $mac = $i_mac->{$iid}; next unless defined $mac; next if $mac eq '00:00:00:00:00:00'; $i_mac{$iid} = $mac; } return \%i_mac; } sub i_name { my $baystack = shift; my $partial = shift; my $i_index = $baystack->i_index($partial) || {}; my $i_alias = $baystack->i_alias($partial) || {}; my $i_name2 = $baystack->orig_i_name($partial) || {}; my %i_name; foreach my $iid ( keys %$i_name2 ) { my $name = $i_name2->{$iid}; my $alias = $i_alias->{$iid}; $i_name{$iid} = ( defined $alias and $alias !~ /^\s*$/ ) ? $alias : $name; } return \%i_name; } sub index_factor { my $baystack = shift; my $model = $baystack->model() || ""; my $os = $baystack->os(); my $os_ver = $baystack->os_ver(); my $op_mode = $baystack->ns_op_mode(); $op_mode = 'pure' unless defined $op_mode; if ( $os_ver =~ m/^(\d+)\./ ) { $os_ver = $1; } else { $os_ver = 1; } my $index_factor = 32; $index_factor = 64 if ( ( $model =~ /(470)/ ) or ( $os =~ m/(boss|bes)/ ) and ( $op_mode eq 'pure' ) ); $index_factor = 128 if ( ( $model =~ /(5[56]\d\d)|VSP/ ) and ( $os_ver >= 6 ) ); return $index_factor; } # Newer devices support ENTITY-MIB, use if available otherwise use proprietary # methods. sub e_index { my $stack = shift; my $partial = shift; return $stack->SUPER::e_index($partial) || $stack->ns_e_index($partial); } sub e_class { my $stack = shift; my $partial = shift; return $stack->SUPER::e_class($partial) || $stack->ns_e_class($partial); } sub e_descr { my $stack = shift; my $partial = shift; return $stack->SUPER::e_descr($partial) || $stack->ns_e_descr($partial); } sub e_name { my $stack = shift; my $partial = shift; return $stack->SUPER::e_name($partial) || $stack->ns_e_name($partial); } sub e_fwver { my $stack = shift; my $partial = shift; return $stack->SUPER::e_fwver($partial) || $stack->ns_e_fwver($partial); } sub e_hwver { my $stack = shift; my $partial = shift; return $stack->SUPER::e_hwver($partial) || $stack->ns_e_hwver($partial); } sub e_parent { my $stack = shift; my $partial = shift; return $stack->SUPER::e_parent($partial) || $stack->ns_e_parent($partial); } sub e_pos { my $stack = shift; my $partial = shift; return $stack->SUPER::e_pos($partial) || $stack->ns_e_pos($partial); } sub e_serial { my $stack = shift; my $partial = shift; return $stack->SUPER::e_serial($partial) || $stack->ns_e_serial($partial); } sub e_swver { my $stack = shift; my $partial = shift; return $stack->SUPER::e_swver($partial) || $stack->ns_e_swver($partial); } sub e_type { my $stack = shift; my $partial = shift; return $stack->SUPER::e_type($partial) || $stack->ns_e_type($partial); } sub e_vendor { my $stack = shift; my $partial = shift; return $stack->SUPER::e_vendor($partial) || $stack->ns_e_vendor($partial); } # fix for stack of switches without POE on module 1 # https://sourceforge.net/tracker/?func=detail&aid=3317739&group_id=70362&atid=527529 sub peth_port_ifindex { my $stack = shift; my $partial = shift; my %peth_port_ifindex = (); my $poe_port_st = $stack->peth_port_status($partial); my $if_index = $stack->interfaces($partial); foreach my $i (keys %$if_index) { next unless defined $poe_port_st->{$if_index->{$i}}; $peth_port_ifindex{$if_index->{$i}} = $i; } return \%peth_port_ifindex; } # Currently only ERS 4800 v5.8+ support the rcBridgeSpbmMacTable # which holds the FDB for a SPBM edge deployment. # # Q-BRIDGE still holds some entries when the rcBridgeSpbmMacTable is in use # so we merge hash entries. sub fw_mac { my $rapidcity = shift; my $qb = $rapidcity->SUPER::fw_mac() || {}; my $spbm = $rapidcity->rc_spbm_fw_mac() || {}; my $fw_mac = { %$qb, %$spbm }; return $fw_mac; } sub fw_port { my $rapidcity = shift; my $qb = $rapidcity->SUPER::fw_port() || {}; my $spbm = $rapidcity->rc_spbm_fw_port() || {}; my $fw_port = { %$qb, %$spbm }; return $fw_port; } sub fw_status { my $rapidcity = shift; my $qb = $rapidcity->SUPER::fw_status() || {}; my $spbm = $rapidcity->rc_spbm_fw_status() || {}; my $fw_status = { %$qb, %$spbm }; return $fw_status; } sub qb_fw_vlan { my $rapidcity = shift; my $qb = $rapidcity->SUPER::qb_fw_vlan() || {}; my $spbm = $rapidcity->rc_spbm_fw_vlan() || {}; my $qb_fw_vlan = { %$qb, %$spbm }; return $qb_fw_vlan; } # Baystack uses S5-AGENT-MIB (loaded in NortelStack) versus RAPID-CITY sub stp_ver { my $rapidcity = shift; return $rapidcity->s5AgSysSpanningTreeOperMode() || $rapidcity->SUPER::stp_ver(); } 1; __END__ =head1 NAME SNMP::Info::Layer2::Baystack - SNMP Interface to Avaya Ethernet Switch (Baystack) and VSP 7000 series switches =head1 AUTHOR Eric Miller =head1 SYNOPSIS # Let SNMP::Info determine the correct subclass for you. my $baystack = new SNMP::Info( AutoSpecify => 1, Debug => 1, DestHost => 'myswitch', Community => 'public', Version => 2 ) or die "Can't connect to DestHost.\n"; my $class = $baystack->class(); print "SNMP::Info determined this device to fall under subclass : $class\n"; =head1 DESCRIPTION Provides abstraction to the configuration information obtainable from an Avaya Ethernet Switch (formerly Nortel/Bay Baystack) and VSP 7000 series 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 $baystack = new SNMP::Info::Layer2::Baystack(...); =head2 Inherited Classes =over =item SNMP::Info::SONMP =item SNMP::Info::NortelStack =item SNMP::Info::RapidCity =item SNMP::Info::LLDP =item SNMP::Info::Layer3 =back =head2 Required MIBs =over =item F =back =head2 Inherited MIBs See L for its MIB requirements. See L for its MIB requirements. 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 $baystack->vendor() Returns 'avaya' =item $baystack->model() Cross references $baystack->id() to the F and returns the results. 303s and 304s have the same ID, so we have a hack to return depending on which it is. Returns BPS for Business Policy Switch For others extracts and returns the switch numeric designation. =item $baystack->os() Returns 'baystack' or 'boss' depending on software version. =item $baystack->os_bin() Returns the firmware version extracted from C. =item $baystack->stp_ver() Returns the particular STP version running on this device. Values: C, C, C, C, C (C) =back =head2 Overrides =over =item $baystack->index_factor() Required by SNMP::Info::SONMP. Number representing the number of ports reserved per slot within the device MIB. Index factor on the Baystack switches are determined by the formula: Index Factor = 64 if (model = 470 or (os eq 'boss' and operating in pure mode)) or else Index factor = 32. Returns either 32 or 64 based upon the formula. =back =head2 Global Methods imported from SNMP::Info::SONMP See L for details. =head2 Globals imported from SNMP::Info::NortelStack See L for details. =head2 Global Methods imported from SNMP::Info::RapidCity See L for details. =head2 Globals imported from SNMP::Info::LLDP See documentation in L for details. =head2 Globals imported from SNMP::Info::Layer3 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 $baystack->interfaces() Returns reference to the map between IID and physical Port. Slot and port numbers on the Baystack switches are determined by the formula: port = (Interface index % Index factor) slot = (int(Interface index / Index factor)) + Slot offset The physical port name is returned as slot.port. =item $baystack->i_ignore() Returns reference to hash of IIDs to ignore. =item $baystack->i_mac() Returns the C table entries. Removes all entries matching '00:00:00:00:00:00' -- Certain revisions of Baystack firmware report all zeros for each port mac. =item $baystack->i_name() Crosses C with C and returns the human set port name if exists. =item $baystack->peth_port_ifindex() Maps the C to C by way of the F. =item $baystack->peth_port_power() Power supplied by PoE ports, in milliwatts (C) =back =head2 F Information For older devices which do not support F, these methods emulate Physical Table methods using F. See L for details on ns_e_* methods. =over =item $baystack->e_index() If the device doesn't support C, this will try ns_e_index(). Note that this is based on C due to implementation details of SNMP::Info::Entity::e_index(). =item $baystack->e_class() If the device doesn't support C, this will try ns_e_class(). =item $baystack->e_descr() If the device doesn't support C, this will try ns_e_descr(). =item $baystack->e_name() If the device doesn't support C, this will try ns_e_name(). =item $baystack->e_fwver() If the device doesn't support C, this will try ns_e_fwver(). =item $baystack->e_hwver() If the device doesn't support C, this will try ns_e_hwver(). =item $baystack->e_parent() If the device doesn't support C, this will try ns_e_parent(). =item $baystack->e_pos() If the device doesn't support C, this will try ns_e_pos(). =item $baystack->e_serial() If the device doesn't support C, this will try ns_e_serial(). =item $baystack->e_swver() If the device doesn't support C, this will try ns_e_swver(). =item $baystack->e_type() If the device doesn't support C, this will try ns_e_type(). =item $baystack->e_vendor() If the device doesn't support C, this will try ns_e_vendor(). =back =head2 Layer 2 Forwarding Database These methods try to obtain the layer 2 forwarding database entries via the normal bridge methods as well as SPBM entries via rapid city methods. =over =item $baystack->fw_mac() Returns reference to hash of forwarding table MAC Addresses =item $baystack->fw_port() Returns reference to hash of forwarding table entries port interface identifier (iid) =item $baystack->qb_fw_vlan() Returns reference to hash of forwarding table entries VLAN ID =item $baystack->fw_status() Returns reference to hash of forwarding table entries status =back =head2 Table Methods imported from SNMP::Info::SONMP See L for details. =head2 Table Methods imported from SNMP::Info::NortelStack See L for details. =head2 Table Methods imported from SNMP::Info::RapidCity See L for details. =head2 Table Methods imported from SNMP::Info::LLDP See documentation in L for details. =head2 Table Methods imported from SNMP::Info::Layer3 See L for details. =cut