# Test::SNMP::Info::Layer2::Aerohive # # Copyright (c) 2018 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 Test::SNMP::Info::Layer2::Aerohive; use Test::Class::Most parent => 'My::Test::Class'; use SNMP::Info::Layer2::Aerohive; sub setup : Tests(setup) { my $test = shift; $test->SUPER::setup; # Start with a common cache that will serve most tests my $cache_data = { # Example walk had no sysServices returned #'_layers' => 1, '_description' => 'HiveAP121, HiveOS 6.2r1 release build1924', '_ahSystemSerial' => '02511610111621', # not documented, oid '.1.3.6.1.4.1.26928.1.3.2.0' '_ah_mac' => '4018:b13a:4c40', # AH-SMI-MIB::ahProduct '_id' => '.1.3.6.1.4.1.26928.1', '_i_index' => 1, '_i_description' => 1, '_i_mac' => 1, '_ah_i_ssidlist' => 1, '_cd11_txrate' => 1, '_ah_c_vlan' => 1, '_ah_c_ip' => 1, 'store' => { 'i_index' => {4 => 4, 6 => 6, 7 => 7, 9 => 9, 15 => 15, 16 => 16, 20 => 20}, 'i_description' => {4 => 'eth0', 6 => 'wifi0', 7 => 'wifi1', 9 => 'mgt0', 15 => 'wifi0.1', 16 => 'wifi0.2', 20 => 'wifi1.1'}, 'i_mac' => { # mgt0 always has lowest mac, most of the time shared with eth0 # wifi0 shares it's mac with wifi0.1 (same goes for wifi1/wifi1.1) # wifi0's mac address is 14 digits higher as base mac # wifi1's mac address is 10 digits higher as wifi0 4 => pack("H*", '4018B13A4C40'), 6 => pack("H*", '4018B13A4C54'), 7 => pack("H*", '4018B13A4C64'), 9 => pack("H*", '4018B13A4C40'), 15 => pack("H*", '4018B13A4C54'), 16 => pack("H*", '4018B13A4C55'), 20 => pack("H*", '4018B13A4C64') }, 'ah_i_ssidlist' => {4 => 'N/A', 6 => 'N/A', 7 => 'N/A', 9 => 'N/A', 15 => 'MyGuest', 16 => 'MyPrivate', 20 => 'MyGuest'}, 'cd11_txrate' => { '15.6.128.150.177.92.153.130' => 6000, '20.6.40.106.186.61.150.231' => 58500, '20.6.96.190.181.42.99.151' => 72200 }, 'ah_c_vlan' => { '15.6.128.150.177.92.153.130' => 50, '20.6.40.106.186.61.150.231' => 1, '20.6.96.190.181.42.99.151' => 1 }, 'ah_c_ip' => { '15.6.128.150.177.92.153.130' => '1.2.3.4', '20.6.40.106.186.61.150.231' => '0.0.0.0', '20.6.96.190.181.42.99.151' => '4.3.2.1' }, } }; $test->{info}->cache($cache_data); } sub layers : Tests(2) { my $test = shift; can_ok($test->{info}, 'layers'); is($test->{info}->layers(), '00000111', q(Layers returns '00000111')); } sub vendor : Tests(2) { my $test = shift; can_ok($test->{info}, 'vendor'); is($test->{info}->vendor(), 'aerohive', q(Vendor returns 'aerohive')); } sub os : Tests(2) { my $test = shift; can_ok($test->{info}, 'os'); is($test->{info}->os(), 'hiveos', q(OS returns 'hiveos')); } sub os_ver : Tests(3) { my $test = shift; can_ok($test->{info}, 'os_ver'); is($test->{info}->os_ver(), '6.2r1', q(OS version is expected value)); $test->{info}->clear_cache(); is($test->{info}->os_ver(), undef, q(No description returns undef os_ver)); } sub mac : Tests(4) { my $test = shift; can_ok($test->{info}, 'mac'); my $expected = '40:18:b1:3a:4c:40'; is($test->{info}->mac(), $expected, q(mac address derived from ah_mac is expected value)); $test->{info}{_ah_mac} = undef; is($test->{info}->mac(), $expected, q(mac address derived from lowest interface mac is expected value)); $test->{info}->clear_cache(); is($test->{info}->mac(), undef, q(No mac returns undef mac)); } sub model : Tests(4) { my $test = shift; can_ok($test->{info}, 'model'); is($test->{info}->model(), 'AP121', q(Model with 'Hive' in description is expected value)); $test->{info}{_description} = 'AP250, HiveOS 8.3r2 build-191018'; is($test->{info}->model(), 'AP250', q(Model without 'Hive' in description is expected value)); $test->{info}->clear_cache(); is($test->{info}->model(), undef, q(No description returns undef model)); } sub serial : Tests(3) { my $test = shift; can_ok($test->{info}, 'serial'); is($test->{info}->serial(), '02511610111621', q(Serial is expected value)); $test->{info}->clear_cache(); is($test->{info}->serial(), undef, q(No serial returns undef)); } sub i_ssidlist : Tests(3) { my $test = shift; can_ok($test->{info}, 'i_ssidlist'); my $expected = {15 => 'MyGuest', 16 => 'MyPrivate', 20 => 'MyGuest'}; cmp_deeply($test->{info}->i_ssidlist(), $expected, q(Interface SSIDs have expected values)); $test->{info}->clear_cache(); cmp_deeply($test->{info}->i_ssidlist(), {}, q(No data returns empty hash)); } sub i_ssidmac : Tests(3) { my $test = shift; can_ok($test->{info}, 'i_ssidmac'); my $expected = { 15 => '40:18:b1:3a:4c:54', 16 => '40:18:b1:3a:4c:55', 20 => '40:18:b1:3a:4c:64' }; cmp_deeply($test->{info}->i_ssidmac(), $expected, q(Wireless MACs have expected values)); $test->{info}->clear_cache(); cmp_deeply($test->{info}->i_ssidmac(), {}, q(No data returns empty hash)); } sub cd11_port : Tests(3) { my $test = shift; can_ok($test->{info}, 'cd11_port'); my $expected = { '15.6.128.150.177.92.153.130' => 'wifi0.1', '20.6.40.106.186.61.150.231' => 'wifi1.1', '20.6.96.190.181.42.99.151' => 'wifi1.1' }; cmp_deeply($test->{info}->cd11_port(), $expected, q(Wireless clients map to wireless interfaces)); $test->{info}->clear_cache(); cmp_deeply($test->{info}->cd11_port(), {}, q(No data returns empty hash)); } sub cd11_mac : Tests(3) { my $test = shift; can_ok($test->{info}, 'cd11_mac'); my $expected = { '15.6.128.150.177.92.153.130' => '80:96:b1:5c:99:82', '20.6.40.106.186.61.150.231' => '28:6a:ba:3d:96:e7', '20.6.96.190.181.42.99.151' => '60:be:b5:2a:63:97' }; cmp_deeply($test->{info}->cd11_mac(), $expected, q(Wireless clients MACs have expected values)); $test->{info}->clear_cache(); cmp_deeply($test->{info}->cd11_mac(), {}, q(No data returns empty hash)); } sub bp_index : Tests(3) { my $test = shift; can_ok($test->{info}, 'bp_index'); # aerohive->bp_index uses load_i_index, which clears cached data, so # mock up the needed snmp data. my $data = {'IF-MIB::ifIndex' => {4 => 4, 6 => 6, 7 => 7, 9 => 9, 15 => 15, 16 => 16, 20 => 20} }; $test->{info}{sess}{Data} = $data; my $expected = {4 => 4, 6 => 6, 7 => 7, 9 => 9, 15 => 15, 16 => 16, 20 => 20}; cmp_deeply($test->{info}->bp_index(), $expected, q(Bridge interface mapping has expected values)); # and now delete the data so we can test for empty returns delete $test->{info}{_i_index}; delete $test->{info}{store}{i_index}; $test->{info}{sess}{Data} = {}; $test->{info}->clear_cache(); cmp_deeply($test->{info}->bp_index(), {}, q(No data returns empty hash)); } sub qb_fw_port : Tests(3) { my $test = shift; can_ok($test->{info}, 'qb_fw_port'); my $expected = { '15.6.128.150.177.92.153.130' => '15', '20.6.40.106.186.61.150.231' => '20', '20.6.96.190.181.42.99.151' => '20' }; cmp_deeply($test->{info}->qb_fw_port(), $expected, q(MAC interface mapping has expected values)); $test->{info}->clear_cache(); cmp_deeply($test->{info}->qb_fw_port(), {}, q(No data returns empty hash)); } sub qb_fw_mac : Tests(3) { my $test = shift; can_ok($test->{info}, 'qb_fw_mac'); my $expected = { '15.6.128.150.177.92.153.130' => '80:96:b1:5c:99:82', '20.6.40.106.186.61.150.231' => '28:6a:ba:3d:96:e7', '20.6.96.190.181.42.99.151' => '60:be:b5:2a:63:97' }; cmp_deeply($test->{info}->qb_fw_mac(), $expected, q(MAC forwarding entries has expected values)); $test->{info}->clear_cache(); cmp_deeply($test->{info}->qb_fw_mac(), {}, q(No data returns empty hash)); } sub qb_fw_vlan : Tests(3) { my $test = shift; can_ok($test->{info}, 'qb_fw_vlan'); my $expected = { '15.6.128.150.177.92.153.130' => 50, '20.6.40.106.186.61.150.231' => 1, '20.6.96.190.181.42.99.151' => 1 }; cmp_deeply($test->{info}->qb_fw_vlan(), $expected, q(MAC forwarding entries has expected values)); $test->{info}->clear_cache(); cmp_deeply($test->{info}->qb_fw_vlan(), {}, q(No data returns empty hash)); } sub at_paddr : Tests(3) { my $test = shift; can_ok($test->{info}, 'at_paddr'); my $expected = { '15.6.128.150.177.92.153.130' => '80:96:b1:5c:99:82', '20.6.40.106.186.61.150.231' => '28:6a:ba:3d:96:e7', '20.6.96.190.181.42.99.151' => '60:be:b5:2a:63:97' }; cmp_deeply($test->{info}->at_paddr(), $expected, q(ARP MAC entries have expected values)); $test->{info}->clear_cache(); cmp_deeply($test->{info}->at_paddr(), {}, q(No data returns empty hash)); } sub at_netaddr : Tests(3) { my $test = shift; can_ok($test->{info}, 'at_netaddr'); my $expected = { '15.6.128.150.177.92.153.130' => '1.2.3.4', '20.6.96.190.181.42.99.151' => '4.3.2.1' }; cmp_deeply($test->{info}->at_netaddr(), $expected, q(ARP IP entries have expected values)); $test->{info}->clear_cache(); cmp_deeply($test->{info}->at_netaddr(), {}, q(No data returns empty hash)); } 1;