# SNMP::Info::Layer3::AlteonAD # # Copyright (c) 2008 Eric Miller # 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::AlteonAD; use strict; use warnings; use Exporter; use SNMP::Info::Layer3; @SNMP::Info::Layer3::AlteonAD::ISA = qw/SNMP::Info::Layer3 Exporter/; @SNMP::Info::Layer3::AlteonAD::EXPORT_OK = qw//; our ($VERSION, %GLOBALS, %FUNCS, %MIBS, %MUNGE); $VERSION = '3.70'; %MIBS = ( %SNMP::Info::Layer3::MIBS, 'ALTEON-ROOT-MIB' => 'aceswitch184', 'ALTEON-TIGON-SWITCH-MIB' => 'hwPowerSupplyStatus', 'ALTEON-CHEETAH-SWITCH-MIB' => 'hwFanStatus', 'ALTEON-TS-PHYSICAL-MIB' => 'agPortTableMaxEnt', 'ALTEON-CS-PHYSICAL-MIB' => 'vlanCurCfgLearn', 'ALTEON-TS-NETWORK-MIB' => 'ripCurCfgSupply', 'ALTEON-CHEETAH-NETWORK-MIB' => 'ripCurCfgIntfSupply', ); %GLOBALS = ( %SNMP::Info::Layer3::GLOBALS, 'old_sw_ver' => 'ALTEON_TIGON_SWITCH_MIB__agSoftwareVersion', 'new_sw_ver' => 'ALTEON_CHEETAH_SWITCH_MIB__agSoftwareVersion', 'old_tftp_action' => 'ALTEON_TIGON_SWITCH_MIB__agTftpAction', 'new_tftp_action' => 'ALTEON_CHEETAH_SWITCH_MIB__agTftpAction', 'old_tftp_host' => 'ALTEON_TIGON_SWITCH_MIB__agTftpServer', 'new_tftp_host' => 'ALTEON_CHEETAH_SWITCH_MIB__agTftpServer', 'old_tftp_file' => 'ALTEON_TIGON_SWITCH_MIB__agTftpCfgFileName', 'new_tftp_file' => 'ALTEON_CHEETAH_SWITCH_MIB__agTftpCfgFileName', 'old_tftp_result' => 'ALTEON_TIGON_SWITCH_MIB__agTftpLastActionStatus', 'new_tftp_result' => 'ALTEON_CHEETAH_SWITCH_MIB__agTftpLastActionStatus', 'old_ip_max' => 'ALTEON_TS_NETWORK_MIB__ipInterfaceTableMax', 'new_ip_max' => 'ALTEON_CHEETAH_NETWORK_MIB__ipInterfaceTableMax', 'fan' => 'ALTEON_CHEETAH_SWITCH_MIB__hwFanStatus', 'old_ps1_stat' => 'ALTEON_TIGON_SWITCH_MIB__hwPowerSupplyStatus', 'old_ps2_stat' => 'ALTEON_TIGON_SWITCH_MIB__hwRedundantPSStatus', 'new_ps_stat' => 'ALTEON_CHEETAH_SWITCH_MIB__hwPowerSupplyStatus', ); %FUNCS = ( %SNMP::Info::Layer3::FUNCS, # From agPortCurCfgTable 'old_ag_p_cfg_idx' => 'ALTEON_TS_PHYSICAL_MIB__agPortCurCfgIndx', 'new_ag_p_cfg_idx' => 'ALTEON_CHEETAH_SWITCH_MIB__agPortCurCfgIndx', 'old_ag_p_cfg_pref' => 'agPortCurCfgPrefLink', 'new_ag_p_cfg_pref' => 'agPortCurCfgPreferred', 'old_ag_p_cfg_pvid' => 'ALTEON_TS_PHYSICAL_MIB__agPortCurCfgPVID', 'new_ag_p_cfg_pvid' => 'ALTEON_CHEETAH_SWITCH_MIB__agPortCurCfgPVID', 'old_ag_p_cfg_fe_auto' => 'ALTEON_TS_PHYSICAL_MIB__agPortCurCfgFastEthAutoNeg', 'new_ag_p_cfg_fe_auto' => 'ALTEON_CHEETAH_SWITCH_MIB__agPortCurCfgFastEthAutoNeg', 'old_ag_p_cfg_fe_mode' => 'ALTEON_TS_PHYSICAL_MIB__agPortCurCfgFastEthMode', 'new_ag_p_cfg_fe_mode' => 'ALTEON_CHEETAH_SWITCH_MIB__agPortCurCfgFastEthMode', 'old_ag_p_cfg_ge_auto' => 'ALTEON_TS_PHYSICAL_MIB__agPortCurCfgGigEthAutoNeg', 'new_ag_p_cfg_ge_auto' => 'ALTEON_CHEETAH_SWITCH_MIB__agPortCurCfgGigEthAutoNeg', 'old_ag_p_cfg_name' => 'ALTEON_TS_PHYSICAL_MIB__agPortCurCfgPortName', 'new_ag_p_cfg_name' => 'ALTEON_CHEETAH_SWITCH_MIB__agPortCurCfgPortName', # From portInfoTable 'old_p_info_idx' => 'ALTEON_TS_PHYSICAL_MIB__portInfoIndx', 'new_p_info_idx' => 'ALTEON_CHEETAH_SWITCH_MIB__portInfoIndx', 'old_p_info_mode' => 'ALTEON_TS_PHYSICAL_MIB__portInfoMode', 'new_p_info_mode' => 'ALTEON_CHEETAH_SWITCH_MIB__portInfoMode', # From ipCurCfgIntfTable 'old_ip_cfg_vlan' => 'ALTEON_TS_NETWORK_MIB__ipCurCfgIntfVlan', 'new_ip_cfg_vlan' => 'ALTEON_CHEETAH_NETWORK_MIB__ipCurCfgIntfVlan', # From vlanCurCfgTable 'old_vlan_id' => 'ALTEON_TS_PHYSICAL_MIB__vlanCurCfgVlanId', 'new_vlan_id' => 'ALTEON_CS_PHYSICAL_MIB__vlanCurCfgVlanId', 'old_vlan_state' => 'ALTEON_TS_PHYSICAL_MIB__vlanCurCfgState', 'new_vlan_state' => 'ALTEON_CS_PHYSICAL_MIB__vlanCurCfgState', 'old_vlan_name' => 'ALTEON_TS_PHYSICAL_MIB__vlanCurCfgVlanName', 'new_vlan_name' => 'ALTEON_CS_PHYSICAL_MIB__vlanCurCfgVlanName', 'old_vlan_ports' => 'ALTEON_TS_PHYSICAL_MIB__vlanCurCfgPorts', 'new_vlan_ports' => 'ALTEON_CS_PHYSICAL_MIB__vlanCurCfgPorts', ); %MUNGE = ( %SNMP::Info::Layer3::MUNGE, ); sub model { my $alteon = shift; my $id = $alteon->id(); unless ( defined $id ) { print " SNMP::Info::Layer3::AlteonAD::model() - Device does not support sysObjectID\n" if $alteon->debug(); return; } my $model = &SNMP::translateObj($id); return $id unless defined $model; $model =~ s/^(aceswitch|aws|ods)//; $model =~ s/^acedirector/AD/; $model =~ s/^(copper|fiber)Module/BladeCenter GbESM/; return $model; } sub vendor { return 'radware'; } sub os { return 'alteon'; } sub os_ver { my $alteon = shift; my $version = $alteon->new_sw_ver() || $alteon->old_sw_ver(); return unless defined $version; return $version; } sub ps1_status { my $alteon = shift; my $old_ps = $alteon->old_ps1_stat(); my $new_ps = $alteon->new_ps_stat(); return $old_ps if $old_ps; if ($new_ps) { return 'ok' if ($new_ps eq 'singlePowerSupplyOk'); return 'failed' if ($new_ps eq 'firstPowerSupplyFailed'); } return; } sub ps2_status { my $alteon = shift; my $old_ps = $alteon->old_ps2_stat(); my $new_ps = $alteon->new_ps_stat(); return $old_ps if $old_ps; if ($new_ps) { return 'ok' if ($new_ps eq 'doublePowerSupplyOk'); return 'failed' if ($new_ps eq 'secondPowerSupplyFailed'); } return; } sub interfaces { my $alteon = shift; my $interfaces = $alteon->i_index(); my $descriptions = $alteon->i_description(); my $ip_max = $alteon->new_ip_max() || $alteon->old_ip_max(); my %interfaces = (); foreach my $iid ( keys %$interfaces ) { my $desc = $descriptions->{$iid}; next unless defined $desc; if ( $desc =~ /(^net\d+)/ ) { $desc = $1; } # IP interfaces are first followed by physical, number possible # varies by switch model elsif ( defined $ip_max and $iid > $ip_max ) { $desc = ( $iid % $ip_max ); $desc = 'mgmt' if $desc == 231; } $interfaces{$iid} = $desc; } return \%interfaces; } sub i_duplex { my $alteon = shift; my $p_mode = $alteon->new_p_info_mode() || $alteon->old_p_info_mode() || {}; my $ip_max = $alteon->new_ip_max() || $alteon->old_ip_max(); my %i_duplex; foreach my $if ( keys %$p_mode ) { my $duplex = $p_mode->{$if}; next unless defined $duplex; $duplex = 'half' if $duplex =~ /half/i; $duplex = 'full' if $duplex =~ /full/i; my $idx; $idx = $if + $ip_max if ( defined $ip_max ); $i_duplex{$idx} = $duplex; } return \%i_duplex; } sub i_duplex_admin { my $alteon = shift; my $ag_pref = $alteon->new_ag_p_cfg_pref() || $alteon->old_ag_p_cfg_pref() || {}; my $ag_fe_auto = $alteon->new_ag_p_cfg_fe_auto() || $alteon->old_ag_p_cfg_fe_auto() || {}; my $ag_fe_mode = $alteon->new_ag_p_cfg_fe_mode() || $alteon->old_ag_p_cfg_fe_mode() || {}; my $ag_ge_auto = $alteon->new_ag_p_cfg_ge_auto() || $alteon->old_ag_p_cfg_ge_auto() || {}; my $ip_max = $alteon->new_ip_max() || $alteon->old_ip_max(); my $i_speed = $alteon->i_speed() || {}; my %i_duplex_admin; foreach my $if ( keys %$ag_ge_auto ) { my $pref = $ag_pref->{$if} || ''; my $speed = $i_speed->{$if} || ''; my $ge_auto = $ag_ge_auto->{$if} || ''; my $fe_auto = $ag_fe_auto->{$if} || ''; my $fe_mode = $ag_fe_mode->{$if} || ''; # Default to auto my $string = 'auto'; if ( $ge_auto =~ /off/i && ( $pref =~ /gigabit/i || $speed eq '1.0 Gbps' ) ) { $string = 'full'; } if ( $fe_auto =~ /off/i && ( $pref =~ /fast/i || $speed =~ /100?\sMbps/ ) ) { $string = 'half' if ( $fe_mode =~ /half/i ); $string = 'full' if ( $fe_mode =~ /full/i ); } my $idx; $idx = $if + $ip_max if ( defined $ip_max ); $i_duplex_admin{$idx} = $string; } return \%i_duplex_admin; } sub i_name { my $alteon = shift; my $p_name = $alteon->new_ag_p_cfg_name() || $alteon->old_ag_p_cfg_name() || {}; my $ip_max = $alteon->new_ip_max() || $alteon->old_ip_max(); my %i_name; foreach my $iid ( keys %$p_name ) { my $name = $p_name->{$iid}; next unless defined $name; my $idx; $idx = $iid + $ip_max if ( defined $ip_max ); $i_name{$idx} = $name; } return \%i_name; } sub v_index { my $alteon = shift; my $partial = shift; return $alteon->new_vlan_id($partial) || $alteon->old_vlan_id($partial); } sub v_name { my $alteon = shift; my $partial = shift; return $alteon->new_vlan_name($partial) || $alteon->old_vlan_name($partial); } sub i_vlan { my $alteon = shift; my $ag_vlans = $alteon->new_ag_p_cfg_pvid() || $alteon->old_ag_p_cfg_pvid() || {}; my $ip_vlans = $alteon->new_ip_cfg_vlan() || $alteon->old_ip_cfg_vlan() || {}; my $ip_max = $alteon->new_ip_max() || $alteon->old_ip_max(); my %i_vlan; foreach my $if ( keys %$ip_vlans ) { my $ip_vlanid = $ip_vlans->{$if}; next unless defined $ip_vlanid; $i_vlan{$if} = $ip_vlanid; } foreach my $if ( keys %$ag_vlans ) { my $ag_vlanid = $ag_vlans->{$if}; next unless defined $ag_vlanid; my $idx; $idx = $if + $ip_max if ( defined $ip_max ); $i_vlan{$idx} = $ag_vlanid; } return \%i_vlan; } sub i_vlan_membership { my $alteon = shift; my $v_ports = $alteon->old_vlan_ports() || $alteon->new_vlan_ports() || {}; my $ip_max = $alteon->new_ip_max() || $alteon->old_ip_max(); my $i_vlan_membership = {}; foreach my $vlan ( keys %$v_ports ) { my $portlist = [ split( //, unpack( "B*", $v_ports->{$vlan} ) ) ]; my $ret = []; # Convert portlist bit array to ifIndex array for ( my $i = 0; $i <= scalar(@$portlist); $i++ ) { my $idx; $idx = $i + $ip_max if ( defined $ip_max ); push( @{$ret}, $idx ) if ( @$portlist[$i] ); } #Create HoA ifIndex -> VLAN array foreach my $port ( @{$ret} ) { push( @{ $i_vlan_membership->{$port} }, $vlan ); } } return $i_vlan_membership; } sub i_vlan_membership_untagged { my $alteon = shift; my $partial = shift; my $vlans = $alteon->i_vlan($partial); my $i_vlan_membership = {}; foreach my $port (keys %$vlans) { my $vlan = $vlans->{$port}; push( @{ $i_vlan_membership->{$port} }, $vlan ); } return $i_vlan_membership; } # Bridge MIB does not map Bridge Port to ifIndex correctly on some code # versions sub bp_index { my $alteon = shift; my $b_index = $alteon->orig_bp_index(); my $ip_max = $alteon->new_ip_max() || $alteon->old_ip_max(); my %bp_index; foreach my $iid ( keys %$b_index ) { my $port = $b_index->{$iid}; next unless defined $port; $port = $port + $ip_max if ( defined $ip_max and $iid == $ip_max ); $bp_index{$iid} = $port; } return \%bp_index; } 1; __END__ =head1 NAME SNMP::Info::Layer3::AlteonAD - SNMP Interface to Radware Alteon ADC Switches. =head1 AUTHOR Eric Miller =head1 SYNOPSIS # Let SNMP::Info determine the correct subclass for you. my $alteon = new SNMP::Info( AutoSpecify => 1, Debug => 1, DestHost => 'myswitch', Community => 'public', Version => 2 ) or die "Can't connect to DestHost.\n"; my $class = $alteon->class(); print "SNMP::Info determined this device to fall under subclass : $class\n"; =head1 DESCRIPTION Abstraction subclass for Radware Alteon Series ADC switches and Nortel BladeCenter Layer2-3 GbE Switch Modules. =head2 Inherited Classes =over =item SNMP::Info::Layer3 =back =head2 Required MIBs =over =item F =item F =item F =item F =item F =item F =item F =item Inherited Classes' MIBs See L for its own MIB requirements. =back =head1 GLOBALS These are methods that return scalar value from SNMP =over =item $alteon->model() Returns model type. Checks $alteon->id() against the F and then parses out C, C, and C replaces C with AD, and replaces copperModule/fiberModule with BladeCenter GbESM. =item $alteon->vendor() Returns 'radware' =item $alteon->os() Returns 'alteon' =item $alteon->os_ver() Returns the software version reported by C =item $alteon->tftp_action() (C) =item $alteon->tftp_host() (C) =item $alteon->tftp_file() (C) =item $alteon->tftp_result() (C) =item $alteon->fan() (C) =item $alteon->ps1_status() Returns status of primary power supply =item $alteon->ps2_status() Returns status of redundant power supply =back =head2 Globals imported from SNMP::Info::Layer3 See documentation in 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 $alteon->interfaces() Returns reference to the map between IID and physical port. Utilizes description for network interfaces. Ports are determined by formula (C). =item $alteon->i_duplex() Returns reference to hash. Maps port operational duplexes to IIDs. =item $alteon->i_duplex_admin() Returns reference to hash. Maps port admin duplexes to IIDs. =item $alteon->i_vlan() Returns a mapping between C and the PVID or default VLAN. =item $alteon->i_vlan_membership() Returns reference to hash of arrays: key = C, value = array of VLAN IDs. These are the VLANs which are members of the egress list for the port. Example: my $interfaces = $alteon->interfaces(); my $vlans = $alteon->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 $alteon->i_vlan_membership_untagged() Returns reference to hash of arrays: key = C, value = array of VLAN IDs. These are the VLANs which are members of the untagged egress list for the port. =item $alteon->v_index() Returns VLAN IDs =item $alteon->v_name() Human-entered name for vlans. =item $alteon->i_name() Maps (C) to port and returns the human set port name if exists. =item $alteon->bp_index() Returns a mapping between C and the Bridge Table. =back =head2 Table Methods imported from SNMP::Info::Layer3 See documentation in L for details. =cut