# Copyright (C) 2019-2020 VyOS maintainers and contributors # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License version 2 or later as # published by the Free Software Foundation. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . import os import unittest from netifaces import ifaddresses, AF_INET, AF_INET6 from vyos.configsession import ConfigSession from vyos.ifconfig import Interface from vyos.util import read_file from vyos.validate import is_intf_addr_assigned, is_ipv6_link_local class BasicInterfaceTest: class BaseTest(unittest.TestCase): _test_ip = False _test_mtu = False _test_vlan = False _test_qinq = False _test_ipv6 = False _base_path = [] _options = {} _interfaces = [] _qinq_range = ['10', '20', '30'] _vlan_range = ['100', '200', '300', '2000'] # choose IPv6 minimum MTU value for tests - this must always work _mtu = '1280' def setUp(self): self.session = ConfigSession(os.getpid()) self._test_addr = ['192.0.2.1/26', '192.0.2.255/31', '192.0.2.64/32', '2001:db8:1::ffff/64', '2001:db8:101::1/112'] self._test_mtu = False self._options = {} def tearDown(self): # we should not remove ethernet from the overall CLI if 'ethernet' in self._base_path: for interface in self._interfaces: # when using a dedicated interface to test via TEST_ETH environment # variable only this one will be cleared in the end - usable to test # ethernet interfaces via SSH self.session.delete(self._base_path + [interface]) self.session.set(self._base_path + [interface, 'duplex', 'auto']) self.session.set(self._base_path + [interface, 'speed', 'auto']) self.session.set(self._base_path + [interface, 'smp-affinity', 'auto']) else: self.session.delete(self._base_path) self.session.commit() del self.session def test_add_description(self): """ Check if description can be added to interface """ for intf in self._interfaces: test_string='Description-Test-{}'.format(intf) self.session.set(self._base_path + [intf, 'description', test_string]) for option in self._options.get(intf, []): self.session.set(self._base_path + [intf] + option.split()) self.session.commit() # Validate interface description for intf in self._interfaces: test_string='Description-Test-{}'.format(intf) with open('/sys/class/net/{}/ifalias'.format(intf), 'r') as f: tmp = f.read().rstrip() self.assertTrue(tmp, test_string) def test_add_address_single(self): """ Check if a single address can be added to interface. """ addr = '192.0.2.0/31' for intf in self._interfaces: self.session.set(self._base_path + [intf, 'address', addr]) for option in self._options.get(intf, []): self.session.set(self._base_path + [intf] + option.split()) self.session.commit() for intf in self._interfaces: self.assertTrue(is_intf_addr_assigned(intf, addr)) def test_add_address_multi(self): """ Check if IPv4/IPv6 addresses can be added to interface. """ # Add address for intf in self._interfaces: for addr in self._test_addr: self.session.set(self._base_path + [intf, 'address', addr]) for option in self._options.get(intf, []): self.session.set(self._base_path + [intf] + option.split()) self.session.commit() # Validate address for intf in self._interfaces: for af in AF_INET, AF_INET6: for addr in ifaddresses(intf)[af]: # checking link local addresses makes no sense if is_ipv6_link_local(addr['addr']): continue self.assertTrue(is_intf_addr_assigned(intf, addr['addr'])) def test_ipv6_link_local(self): """ Common function for IPv6 link-local address assignemnts """ if not self._test_ipv6: return None for interface in self._interfaces: base = self._base_path + [interface] for option in self._options.get(interface, []): self.session.set(base + option.split()) # after commit we must have an IPv6 link-local address self.session.commit() for interface in self._interfaces: for addr in ifaddresses(interface)[AF_INET6]: self.assertTrue(is_ipv6_link_local(addr['addr'])) # disable IPv6 link-local address assignment for interface in self._interfaces: base = self._base_path + [interface] self.session.set(base + ['ipv6', 'address', 'no-default-link-local']) # after commit we must have no IPv6 link-local address self.session.commit() for interface in self._interfaces: self.assertTrue(AF_INET6 not in ifaddresses(interface)) def _mtu_test(self, intf): """ helper function to verify MTU size """ with open('/sys/class/net/{}/mtu'.format(intf), 'r') as f: tmp = f.read().rstrip() self.assertEqual(tmp, self._mtu) def test_change_mtu(self): """ Testcase if MTU can be changed on interface """ if not self._test_mtu: return None for intf in self._interfaces: base = self._base_path + [intf] self.session.set(base + ['mtu', self._mtu]) for option in self._options.get(intf, []): self.session.set(base + option.split()) self.session.commit() for intf in self._interfaces: self._mtu_test(intf) def test_8021q_vlan(self): """ Testcase for 802.1q VLAN interfaces """ if not self._test_vlan: return None for interface in self._interfaces: base = self._base_path + [interface] for option in self._options.get(interface, []): self.session.set(base + option.split()) for vlan in self._vlan_range: base = self._base_path + [interface, 'vif', vlan] self.session.set(base + ['mtu', self._mtu]) for address in self._test_addr: self.session.set(base + ['address', address]) self.session.commit() for intf in self._interfaces: for vlan in self._vlan_range: vif = f'{intf}.{vlan}' for address in self._test_addr: self.assertTrue(is_intf_addr_assigned(vif, address)) self._mtu_test(vif) def test_8021ad_qinq_vlan(self): """ Testcase for 802.1ad Q-in-Q VLAN interfaces """ if not self._test_qinq: return None for interface in self._interfaces: base = self._base_path + [interface] for option in self._options.get(interface, []): self.session.set(base + option.split()) for vif_s in self._qinq_range: for vif_c in self._vlan_range: base = self._base_path + [interface, 'vif-s', vif_s, 'vif-c', vif_c] self.session.set(base + ['mtu', self._mtu]) for address in self._test_addr: self.session.set(base + ['address', address]) self.session.commit() for interface in self._interfaces: for vif_s in self._qinq_range: for vif_c in self._vlan_range: vif = f'{interface}.{vif_s}.{vif_c}' for address in self._test_addr: self.assertTrue(is_intf_addr_assigned(vif, address)) self._mtu_test(vif) def test_ip_options(self): """ test IP options like arp """ if not self._test_ip: return None for interface in self._interfaces: arp_tmo = '300' path = self._base_path + [interface] for option in self._options.get(interface, []): self.session.set(path + option.split()) # Options self.session.set(path + ['ip', 'arp-cache-timeout', arp_tmo]) self.session.set(path + ['ip', 'disable-arp-filter']) self.session.set(path + ['ip', 'enable-arp-accept']) self.session.set(path + ['ip', 'enable-arp-announce']) self.session.set(path + ['ip', 'enable-arp-ignore']) self.session.set(path + ['ip', 'enable-proxy-arp']) self.session.set(path + ['ip', 'proxy-arp-pvlan']) self.session.set(path + ['ip', 'source-validation', 'loose']) self.session.commit() for interface in self._interfaces: tmp = read_file(f'/proc/sys/net/ipv4/neigh/{interface}/base_reachable_time_ms') self.assertEqual(tmp, str((int(arp_tmo) * 1000))) # tmo value is in milli seconds tmp = read_file(f'/proc/sys/net/ipv4/conf/{interface}/arp_filter') self.assertEqual('0', tmp) tmp = read_file(f'/proc/sys/net/ipv4/conf/{interface}/arp_accept') self.assertEqual('1', tmp) tmp = read_file(f'/proc/sys/net/ipv4/conf/{interface}/arp_announce') self.assertEqual('1', tmp) tmp = read_file(f'/proc/sys/net/ipv4/conf/{interface}/arp_ignore') self.assertEqual('1', tmp) tmp = read_file(f'/proc/sys/net/ipv4/conf/{interface}/proxy_arp') self.assertEqual('1', tmp) tmp = read_file(f'/proc/sys/net/ipv4/conf/{interface}/proxy_arp_pvlan') self.assertEqual('1', tmp) tmp = read_file(f'/proc/sys/net/ipv4/conf/{interface}/rp_filter') self.assertEqual('2', tmp)