# SNMP::Info::Layer2::HP - SNMP Interface to HP ProCurve Switches # # Copyright (c) 2008-2009 Max Baker changes from version 0.8 and beyond. # # Copyright (c) 2002,2003 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::HP; use strict; use warnings; use Exporter; use SNMP::Info::Layer3; use SNMP::Info::MAU; use SNMP::Info::CDP; use SNMP::Info::Aggregate 'agg_ports_ifstack'; @SNMP::Info::Layer2::HP::ISA = qw/ SNMP::Info::Aggregate SNMP::Info::Layer3 SNMP::Info::MAU SNMP::Info::CDP Exporter /; @SNMP::Info::Layer2::HP::EXPORT_OK = qw//; our ($VERSION, %GLOBALS, %MIBS, %FUNCS, %PORTSTAT, %MODEL_MAP, %MUNGE); $VERSION = '3.70'; %MIBS = ( %SNMP::Info::Layer3::MIBS, %SNMP::Info::MAU::MIBS, %SNMP::Info::CDP::MIBS, %SNMP::Info::Aggregate::MIBS, 'RFC1271-MIB' => 'logDescription', 'HP-ICF-OID' => 'hpSwitch4000', 'STATISTICS-MIB' => 'hpSwitchCpuStat', 'NETSWITCH-MIB' => 'hpMsgBufFree', 'CONFIG-MIB' => 'hpSwitchConfig', 'HP-ICF-CHASSIS' => 'hpicfSensorObjectId', 'HP-ICF-BRIDGE' => 'hpicfBridgeRstpForceVersion', 'HP-ICF-POE-MIB' => 'hpicfPoePethPsePortCurrent', 'SEMI-MIB' => 'hpHttpMgSerialNumber', 'HP-SWITCH-PL-MIB' => 'hpSwitchProliant', 'BLADETYPE4-NETWORK-MIB' => 'hpProLiant-GbE2c-InterconnectSwitch', ); %GLOBALS = ( %SNMP::Info::Layer3::GLOBALS, %SNMP::Info::MAU::GLOBALS, %SNMP::Info::CDP::GLOBALS, %SNMP::Info::Aggregate::GLOBALS, 'serial1' => 'entPhysicalSerialNum.1', 'serial2' => 'hpHttpMgSerialNumber.0', 'hp_cpu' => 'hpSwitchCpuStat.0', 'hp_mem_total' => 'hpGlobalMemTotalBytes.1', 'mem_free' => 'hpGlobalMemFreeBytes.1', 'mem_used' => 'hpGlobalMemAllocBytes.1', 'os_version' => 'hpSwitchOsVersion.0', 'os_version2' => 'hpHttpMgVersion.0', 'os_bin' => 'hpSwitchRomVersion.0', 'mac' => 'hpSwitchBaseMACAddress.0', 'rstp_ver' => 'hpicfBridgeRstpForceVersion', ); %FUNCS = ( %SNMP::Info::Layer3::FUNCS, %SNMP::Info::MAU::FUNCS, %SNMP::Info::CDP::FUNCS, %SNMP::Info::Aggregate::FUNCS, 'i_type2' => 'ifType', # RFC1271 'l_descr' => 'logDescription', # CONFIG-MIB::hpSwitchPortTable 'hp_duplex' => 'hpSwitchPortEtherMode', 'hp_duplex_admin' => 'hpSwitchPortFastEtherMode', 'vendor_i_type' => 'hpSwitchPortType', # HP-ICF-CHASSIS 'hp_s_oid' => 'hpicfSensorObjectId', 'hp_s_name' => 'hpicfSensorDescr', 'hp_s_status' => 'hpicfSensorStatus', # HP-ICF-POE-MIB 'peth_port_power' => 'hpicfPoePethPsePortPower', ); %MUNGE = ( # Inherit all the built in munging %SNMP::Info::Layer3::MUNGE, %SNMP::Info::MAU::MUNGE, %SNMP::Info::CDP::MUNGE, %SNMP::Info::Aggregate::MUNGE, 'c_id' => \&munge_hp_c_id, ); # Model map, reverse sorted by common model name (sort -k2 -r) # Potential sources for model information: http://www.hp.com/rnd/software/switches.htm or HP-ICF-OID MIB %MODEL_MAP = ( 'J8131A' => 'WAP-420-WW', 'J8130A' => 'WAP-420-NA', 'J9833A' => 'PS1810-8G', 'J9834A' => 'PS1810-24G', 'J8133A' => 'AP520WL', 'J8680A' => '9408sl', 'J9091A' => '8212zl', 'J9475A' => '8206zl', 'J9265A' => '6600ml-24XG', 'J9264A' => '6600ml-24G-4XG', 'J9263A' => '6600ml-24G', 'J9452A' => '6600-48G-4XG', 'J9451A' => '6600-48G', 'J8474A' => '6410cl-6XG', 'J8433A' => '6400cl-6XG', 'J8992A' => '6200yl-24G', 'J4902A' => '6108', 'J8698A' => '5412zl', 'J9851A' => '5412R-zl2', 'J8719A' => '5408yl', 'J8697A' => '5406zl', 'J9850A' => '5406R-zl2', 'J8718A' => '5404yl', 'J4819A' => '5308XL', 'J4850A' => '5304XL', 'J8773A' => '4208vl', 'J8770A' => '4204vl', 'J8772A' => '4202vl-72', 'J9032A' => '4202vl-68G', 'J9031A' => '4202vl-68', 'J8771A' => '4202vl-48G', 'J4865A' => '4108GL', 'J4887A' => '4104GL', 'JL074A' => '3810M-48G-PoE+', 'JL072A' => '3810M-48G', 'JL076A' => '3810M-40G-8SR-PoE+', 'JL073A' => '3810M-24G-PoE+', 'JL071A' => '3810M-24G', 'JL075A' => '3810M-16SFP+', 'J9588A' => '3800-48G-PoE+-4XG', 'J9574A' => '3800-48G-PoE+-4SFP+', 'J9586A' => '3800-48G-4XG', 'J9576A' => '3800-48G-4SFP+', 'J9584A' => '3800-24SFP-2SFP+', 'J9587A' => '3800-24G-PoE+-2XG', 'J9573A' => '3800-24G-PoE+-2SFP+', 'J9585A' => '3800-24G-2XG', 'J9575A' => '3800-24G-2SFP+', 'J8693A' => '3500yl-48G-PWR', 'J8692A' => '3500yl-24G-PWR', 'J9473A' => '3500-48-PoE', 'J9472A' => '3500-48', 'J9471A' => '3500-24-PoE', 'J9470A' => '3500-24', 'J4906A' => '3400cl-48G', 'J4905A' => '3400cl-24G', 'J4815A' => '3324XL', 'J4851A' => '3124', 'JL322A' => '2930M-48G-PoE+', 'JL321A' => '2930M-48G', 'JL323A' => '2930M-40G-8SR-PoE+', 'JL320A' => '2930M-24G-PoE+', 'JL324A' => '2930M-24G-8SR-PoE+', 'JL319A' => '2930M-24G', 'JL258A' => '2930F-8G-PoE+-2SFP+', 'JL558A' => '2930F-48G-PoE+-4SFP+-740W', 'JL557A' => '2930F-48G-PoE+-4SFP-740W', 'JL256A' => '2930F-48G-PoE+-4SFP+', 'JL262A' => '2930F-48G-PoE+-4SFP', 'JL254A' => '2930F-48G-4SFP+', 'JL260A' => '2930F-48G-4SFP', 'JL255A' => '2930F-24G-PoE+-4SFP+', 'JL261A' => '2930F-24G-PoE+-4SFP', 'JL253A' => '2930F-24G-4SFP+', 'JL259A' => '2930F-24G-4SFP', 'J9729A' => '2920-48G-PoE+', 'J9729A' => '2920-48G-PoE+', 'J9728A' => '2920-48G', 'J9728A' => '2920-48G', 'J9727A' => '2920-24G-PoE+', 'J9727A' => '2920-24G-PoE+', 'J9726A' => '2920-24G', 'J9726A' => '2920-24G', 'J9562A' => '2915-8G-PoE', 'J9148A' => '2910al-48G-PoE+', 'J9147A' => '2910al-48G', 'J9146A' => '2910al-24G-PoE+', 'J9145A' => '2910al-24G', 'J9050A' => '2900-48G', 'J9049A' => '2900-24G', 'J4904A' => '2848', 'J4903A' => '2824', 'J9022A' => '2810-48G', 'J9021A' => '2810-24G', 'J8165A' => '2650-PWR', 'J4899B' => '2650-CR', 'J4899C' => '2650C', 'J4899A' => '2650', 'J8164A' => '2626-PWR', 'J4900B' => '2626-CR', 'J4900C' => '2626C', 'J4900A' => '2626', 'J9627A' => '2620-48-PoE+', 'J9626A' => '2620-48', 'J9624A' => '2620-24-PPoE+', 'J9625A' => '2620-24-PoE+', 'J9623A' => '2620-24', 'J9565A' => '2615-8-PoE', 'J9089A' => '2610-48-PWR', 'J9088A' => '2610-48', 'J9087A' => '2610-24-PWR', 'J9086A' => '2610-24/12PWR', 'J9085A' => '2610-24', 'J8762A' => '2600-8-PWR', 'JL357A' => '2540-48G-PoE+-4SFP+', 'JL355A' => '2540-48G-4SFP+', 'JL356A' => '2540-24G-PoE+-4SFP+', 'JL354A' => '2540-24G-4SFP+', 'JL070A' => '2530-8-PoE+ Internal PS', 'J9780A' => '2530-8-PoE+', 'J9774A' => '2530-8G-PoEP', 'J9777A' => '2530-8G', 'J9783A' => '2530-8', 'J9778A' => '2530-48-PoE+', 'J9853A' => '2530-48G-PoE+-2SFP+', 'J9772A' => '2530-48G-PoE+', 'J9855A' => '2530-48G-2SFP+', 'J9775A' => '2530-48G', 'J9781A' => '2530-48', 'J9779A' => '2530-24-PoE+', 'J9854A' => '2530-24G-PoE+-2SFP+', 'J9773A' => '2530-24G-PoE+', 'J9856A' => '2530-24G-2SFP+', 'J9776A' => '2530-24G', 'J9782A' => '2530-24', 'J4813A' => '2524', 'J9298A' => '2520G-8-PoE', 'J9299A' => '2520G-24-PoE', 'J9137A' => '2520-8-PoE', 'J9138A' => '2520-24-PoE', 'J4812A' => '2512', 'J9280A' => '2510G-48', 'J9279A' => '2510G-24', 'J9020A' => '2510-48A', 'J9019B' => '2510-24B', 'J9019A' => '2510-24A', 'J4818A' => '2324', 'J4817A' => '2312', 'J9449A' => '1810G-8', 'J9450A' => '1810G-24', 'J9802A' => '1810-8G', 'J9803A' => '1810-24G', 'J9029A' => '1800-8G', 'J9028A' => '1800-24G', ); # Method Overrides sub stp_ver { my $hp = shift; return $hp->rstp_ver() || $hp->SUPER::stp_ver(); } sub cpu { my $hp = shift; return $hp->hp_cpu(); } sub mem_total { my $hp = shift; return $hp->hp_mem_total(); } sub os { return 'hp'; } sub os_ver { my $hp = shift; my $os_version = $hp->os_version() || $hp->os_version2(); return $os_version if defined $os_version; # Some older ones don't have this value,so we cull it from the description my $descr = $hp->description(); if ( $descr =~ m/revision ([A-Z]{1}\.\d{2}\.\d{2})/ ) { return $1; } return; } # Regular managed ProCurve switches have the serial num in entity mib, # the web-managed models in the semi mib (hphttpmanageable). sub serial { my $hp = shift; my $serial = $hp->serial1() || $hp->serial2() || undef;; return $serial; } # Lookup model number, and translate the part number to the common number sub model { my $hp = shift; my $id = $hp->id(); return unless defined $id; my $model = &SNMP::translateObj($id); return $id unless defined $model; $model =~ s/^(hp|aruba)switch//i; return defined $MODEL_MAP{$model} ? $MODEL_MAP{$model} : $model; } sub interfaces { my $hp = shift; my $interfaces = $hp->i_index(); my $i_descr = $hp->i_description(); my %if; foreach my $iid ( keys %$interfaces ) { my $descr = $i_descr->{$iid}; next unless defined $descr; $if{$iid} = $descr if ( defined $descr and length $descr ); } return \%if } sub i_name { my $hp = shift; my $i_alias = $hp->i_alias(); my $e_name = $hp->e_name(); my $e_port = $hp->e_port(); my %i_name; foreach my $port ( keys %$e_name ) { my $iid = $e_port->{$port}; next unless defined $iid; my $alias = $i_alias->{$iid}; next unless defined $iid; $i_name{$iid} = $e_name->{$port}; # Check for alias $i_name{$iid} = $alias if ( defined $alias and length($alias) ); } return \%i_name; } sub i_duplex { my $hp = shift; return $hp->mau_i_duplex(); } sub i_duplex_admin { my $hp = shift; my $partial = shift; # Try HP MIB first my $hp_duplex = $hp->hp_duplex_admin($partial); if ( defined $hp_duplex and scalar( keys %$hp_duplex ) ) { my %i_duplex; foreach my $if ( keys %$hp_duplex ) { my $duplex = $hp_duplex->{$if}; next unless defined $duplex; $duplex = 'half' if $duplex =~ /half/i; $duplex = 'full' if $duplex =~ /full/i; $duplex = 'auto' if $duplex =~ /auto/i; $i_duplex{$if} = $duplex; } return \%i_duplex; } else { return $hp->mau_i_duplex_admin(); } } sub vendor { return 'hp'; } sub log { my $hp = shift; my $log = $hp->l_descr(); my $logstring = undef; foreach my $val ( values %$log ) { next if $val =~ /^Link\s+(Up|Down)/; $logstring .= "$val\n"; } return $logstring; } sub slots { my $hp = shift; my $e_name = $hp->e_name(); return unless defined $e_name; my $slots; foreach my $slot ( keys %$e_name ) { $slots++ if $e_name->{$slot} =~ /slot/i; } return $slots; } sub fan { my $hp = shift; return &_sensor( $hp, 'fan' ); } sub ps1_status { my $hp = shift; return &_sensor( $hp, 'power', '^power supply 1' ) || &_sensor( $hp, 'power', '^power supply sensor' ); } sub ps2_status { my $hp = shift; return &_sensor( $hp, 'power', '^power supply 2' ) || &_sensor( $hp, 'power', '^redundant' ); } sub _sensor { my $hp = shift; my $search_type = shift || 'fan'; my $search_name = shift || ''; my $hp_s_oid = $hp->hp_s_oid(); my $result; foreach my $sensor ( keys %$hp_s_oid ) { my $sensortype = &SNMP::translateObj( $hp_s_oid->{$sensor} ); if ( $sensortype =~ /$search_type/i ) { my $sensorname = $hp->hp_s_name()->{$sensor}; my $sensorstatus = $hp->hp_s_status()->{$sensor}; if ( $sensorname =~ /$search_name/i ) { $result = $sensorstatus; } } } return $result; } sub munge_hp_c_id { my ($v) = @_; if ( length(unpack('H*', $v)) == 12 ){ return join(':',map { sprintf "%02x", $_ } unpack('C*', $v)); }if ( length(unpack('H*', $v)) == 10 ){ # IP address (first octet is sign, I guess) my @octets = (map { sprintf "%02x",$_ } unpack('C*', $v))[1..4]; return join '.', map { hex($_) } @octets; }else{ return $v; } } # POWER-ETHERNET-MIB doesn't define a mapping of its # "module"/"port" index to ifIndex. Different vendors # do this in different ways. # HP switches use the ifIndex as port index, so we can # ignore the module information and map the index directly # onto an ifIndex. sub peth_port_ifindex { my $peth = shift; my $partial = shift; my $peth_port_status = $peth->peth_port_status($partial); my $peth_port_ifindex; foreach my $i ( keys %$peth_port_status ) { my ( $module, $port ) = split( /\./, $i ); $peth_port_ifindex->{$i} = $port; } return $peth_port_ifindex; } sub set_i_vlan { my $hp = shift; my $rv; my $qb_i_vlan = $hp->qb_i_vlan_t(); if (defined $qb_i_vlan and scalar(keys %$qb_i_vlan)){ my $vlan = shift; my $iid = shift; my $qb_v_egress = $hp->qb_v_egress(); if (defined $qb_v_egress and scalar($qb_v_egress->{$vlan})) { # store current untagged VLAN to remove it from the port list later my $old_untagged = $qb_i_vlan->{$iid}; # set new untagged / native VLAN $rv = $hp->set_qb_i_vlan($vlan, $iid); # If change is successful, the old native VLAN will now be a tagged VLAN on the port. This is generally not what we want. # We'll have to remove this VLAN from the "egress list" on the port. if (defined $rv and $old_untagged != $vlan) { if (defined $old_untagged and defined $qb_v_egress and scalar($qb_v_egress->{$vlan})){ # First, get the egress list of the old native VLAN (arrayref structure) my $egressports = $qb_v_egress->{$old_untagged}; # Since arrays are zero-based, we have to change the element at Index - 1 $egressports->[$iid-1] = "0"; # After changing, pack the array into a binary structure (expected by set_qb_v_egress) and set the new value on the device. my $new_egresslist = pack("B*", join('', @$egressports)); $rv = $hp->set_qb_v_egress($new_egresslist, $old_untagged); } } } else { $hp->error_throw(sprintf("Requested VLAN %s doesn't seem to exist on device...", $vlan)); } } return $rv; } sub set_i_vlan_tagged { my $hp = shift; my $rv; my $qb_i_vlan = $hp->qb_i_vlan_t(); if (defined $qb_i_vlan and scalar(keys %$qb_i_vlan)){ my $vlan = shift; my $iid = shift; my $qb_v_egress = $hp->qb_v_egress(); if (defined $qb_v_egress and scalar($qb_v_egress->{$vlan})) { # First, get the egress list of the VLAN we want to add to the port. my $egressports = $qb_v_egress->{$vlan}; # Since arrays are zero-based, we have to change the element at Index - 1 $egressports->[$iid-1] = "1"; # After changing, pack the array into a binary structure (expected by set_qb_v_egress) and set the new value on the device. my $new_egresslist = pack("B*", join('', @$egressports)); $rv = $hp->set_qb_v_egress($new_egresslist, $vlan); return $rv; } else { $hp->error_throw(sprintf("Requested VLAN %s doesn't seem to exist on device...", $vlan)); } } return; } sub agg_ports { return agg_ports_ifstack(@_) } 1; __END__ =head1 NAME SNMP::Info::Layer2::HP - SNMP Interface to HP Procurve Switches =head1 AUTHOR Max Baker =head1 SYNOPSIS # Let SNMP::Info determine the correct subclass for you. my $hp = new SNMP::Info( AutoSpecify => 1, Debug => 1, DestHost => 'myswitch', Community => 'public', Version => 2 ) or die "Can't connect to DestHost.\n"; my $class = $hp->class(); print "SNMP::Info determined this device to fall under subclass : $class\n"; =head1 DESCRIPTION Provides abstraction to the configuration information obtainable from a HP ProCurve Switch via SNMP. Note: Some HP Switches will connect via SNMP version 1, but a lot of config data will not be available. Make sure you try and connect with Version 2 first, and then fail back to version 1. For speed or debugging purposes you can call the subclass directly, but not after determining a more specific class using the method above. my $hp = new SNMP::Info::Layer2::HP(...); =head2 Inherited Classes =over =item SNMP::Info::Layer2 =item SNMP::Info::MAU =back =head2 Required MIBs =over =item F Included in V2 mibs from Cisco =item F (this MIB new with SNMP::Info 0.8) =item F =item F =item F =item F =item F =item F =item F =item F =item F =back The last four MIBs listed are from HP and can be found at L or L =head1 Change Log Version 0.4 - Removed F e_*() methods to separate sub-class - SNMP::Info::Entity =head1 GLOBALS These are methods that return scalar value from SNMP =over =item $hp->cpu() Returns CPU Utilization in percentage. =item $hp->log() Returns all the log entries from the switch's log that are not Link up or down messages. =item $hp->mem_free() Returns bytes of free memory =item $hp->mem_total() Return bytes of total memory =item $hp->mem_used() Returns bytes of used memory =item $hp->model() Returns the model number of the HP Switch. Will translate between the HP Part number and the common model number with this map : %MODEL_MAP = ( 'J8131A' => 'WAP-420-WW', 'J8130A' => 'WAP-420-NA', 'J8133A' => 'AP520WL', 'J8680A' => '9408sl', 'J9091A' => '8212zl', 'J9475A' => '8206zl', 'J9265A' => '6600ml-24XG', 'J9264A' => '6600ml-24G-4XG', 'J9263A' => '6600ml-24G', 'J9452A' => '6600-48G-4XG', 'J9451A' => '6600-48G', 'J8474A' => '6410cl-6XG', 'J8433A' => '6400cl-6XG', 'J8992A' => '6200yl-24G', 'J4902A' => '6108', 'J8698A' => '5412zl', 'J8719A' => '5408yl', 'J8697A' => '5406zl', 'J8718A' => '5404yl', 'J4819A' => '5308XL', 'J4850A' => '5304XL', 'J8773A' => '4208vl', 'J8770A' => '4204vl', 'J8772A' => '4202vl-72', 'J9032A' => '4202vl-68G', 'J9031A' => '4202vl-68', 'J8771A' => '4202vl-48G', 'J4865A' => '4108GL', 'J4887A' => '4104GL', 'J9588A' => '3800-48G-PoE+-4XG', 'J9574A' => '3800-48G-PoE+-4SFP+', 'J9586A' => '3800-48G-4XG', 'J9576A' => '3800-48G-4SFP+', 'J9584A' => '3800-24SFP-2SFP+', 'J9587A' => '3800-24G-PoE+-2XG', 'J9573A' => '3800-24G-PoE+-2SFP+', 'J9585A' => '3800-24G-2XG', 'J9575A' => '3800-24G-2SFP+', 'J8693A' => '3500yl-48G-PWR', 'J8692A' => '3500yl-24G-PWR', 'J9473A' => '3500-48-PoE', 'J9472A' => '3500-48', 'J9471A' => '3500-24-PoE', 'J9470A' => '3500-24', 'J4906A' => '3400cl-48G', 'J4905A' => '3400cl-24G', 'J4815A' => '3324XL', 'J4851A' => '3124', 'J9562A' => '2915-8G-PoE', 'J9148A' => '2910al-48G-PoE+', 'J9147A' => '2910al-48G', 'J9146A' => '2910al-24G-PoE+', 'J9145A' => '2910al-24G', 'J9050A' => '2900-48G', 'J9049A' => '2900-24G', 'J4904A' => '2848', 'J4903A' => '2824', 'J9022A' => '2810-48G', 'J9021A' => '2810-24G', 'J8165A' => '2650-PWR', 'J4899B' => '2650-CR', 'J4899C' => '2650C', 'J4899A' => '2650', 'J8164A' => '2626-PWR', 'J4900B' => '2626-CR', 'J4900C' => '2626C', 'J4900A' => '2626', 'J9627A' => '2620-48-PoE+', 'J9626A' => '2620-48', 'J9624A' => '2620-24-PPoE+', 'J9625A' => '2620-24-PoE+', 'J9623A' => '2620-24', 'J9565A' => '2615-8-PoE', 'J9089A' => '2610-48-PWR', 'J9088A' => '2610-48', 'J9087A' => '2610-24-PWR', 'J9086A' => '2610-24/12PWR', 'J9085A' => '2610-24', 'J8762A' => '2600-8-PWR', 'J4813A' => '2524', 'J9298A' => '2520G-8-PoE', 'J9299A' => '2520G-24-PoE', 'J9137A' => '2520-8-PoE', 'J9138A' => '2520-24-PoE', 'J4812A' => '2512', 'J9280A' => '2510G-48', 'J9279A' => '2510G-24', 'J9020A' => '2510-48A', 'J9019B' => '2510-24B', 'J9019A' => '2510-24A', 'J4818A' => '2324', 'J4817A' => '2312', 'J9449A' => '1810G-8', 'J9450A' => '1810G-24', 'J9029A' => '1800-8G', 'J9028A' => '1800-24G', ); =item $hp->os() Returns hp =item $hp->os_bin() C =item $hp->os_ver() Tries to use os_version() and if that fails will try and cull the version from the description field. =item $hp->os_version() C =item $hp->serial() Returns serial number if available through SNMP =item $hp->slots() Returns number of entries in $hp->e_name that have 'slot' in them. =item $hp->vendor() hp =item $hp->fan() Returns fan status =item $hp->ps1_status() Power supply 1 status =item $hp->ps2_status() Power supply 2 status =item $hp->peth_port_power() Power supplied by PoE ports, in milliwatts (C) =item $hp->stp_ver() Returns what version of STP the device is running. (C with fallback to inherited stp_ver()) =back =head2 Globals imported from SNMP::Info::Layer2 See documentation in L for details. =head2 Globals imported from SNMP::Info::MAU 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 4 =item $hp->interfaces() Uses $hp->i_description() =item $hp->i_duplex() Returns reference to map of IIDs to current link duplex. =item $hp->i_duplex_admin() Returns reference to hash of IIDs to admin duplex setting. =item $hp->vendor_i_type() Returns reference to hash of IIDs to HP specific port type (C). =item $hp->i_name() Crosses i_name() with $hp->e_name() using $hp->e_port() and i_alias() =item $hp->peth_port_ifindex() Returns reference to hash of power Ethernet port table entries map back to interface index (c) =item C Returns a HASH reference mapping from slave to master port for each member of a port bundle on the device. Keys are ifIndex of the slave ports, Values are ifIndex of the corresponding master ports. =back =head2 Table Methods imported from SNMP::Info::Layer2 See documentation in L for details. =head2 Table Methods imported from SNMP::Info::MAU See documentation in L for details. =head1 MUNGES =over =item munge_hp_c_id() Munge for c_id which handles CDP and LLDP. =back =head1 SET METHODS These are methods that provide SNMP set functionality for overridden methods or provide a simpler interface to complex set operations. See L for general information on set operations. =over =item set_i_vlan() =item set_i_vlan_tagged() =back =cut