# Copyright (C) 2019-2021 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 binascii import hexlify from netifaces import AF_INET from netifaces import AF_INET6 from netifaces import ifaddresses from netifaces import interfaces from base_vyostest_shim import VyOSUnitTestSHIM from vyos.configsession import ConfigSession from vyos.configsession import ConfigSessionError from vyos.ifconfig import Interface from vyos.ifconfig import Section from vyos.util import read_file from vyos.util import cmd from vyos.util import dict_search from vyos.util import process_named_running from vyos.util import get_interface_config from vyos.validate import is_intf_addr_assigned from vyos.validate import is_ipv6_link_local def is_mirrored_to(interface, mirror_if, qdisc): """ Ask TC if we are mirroring traffic to a discrete interface. interface: source interface mirror_if: destination where we mirror our data to qdisc: must be ffff or 1 for ingress/egress """ if qdisc not in ['ffff', '1']: raise ValueError() ret_val = False tmp = cmd(f'tc -s -p filter ls dev {interface} parent {qdisc}: | grep mirred') tmp = tmp.lower() if mirror_if in tmp: ret_val = True return ret_val class BasicInterfaceTest: class TestCase(VyOSUnitTestSHIM.TestCase): _test_ip = False _test_mtu = False _test_vlan = False _test_qinq = False _test_ipv6 = False _test_ipv6_pd = False _test_ipv6_dhcpc6 = False _test_mirror = False _base_path = [] _options = {} _interfaces = [] _qinq_range = ['10', '20', '30'] _vlan_range = ['100', '200', '300', '2000'] _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'] _mirror_interfaces = [] # choose IPv6 minimum MTU value for tests - this must always work _mtu = '1280' def setUp(self): # Setup mirror interfaces for SPAN (Switch Port Analyzer) for span in self._mirror_interfaces: section = Section.section(span) self.cli_set(['interfaces', section, span]) def tearDown(self): # Tear down mirror interfaces for SPAN (Switch Port Analyzer) for span in self._mirror_interfaces: section = Section.section(span) self.cli_delete(['interfaces', section, span]) self.cli_delete(self._base_path) self.cli_commit() # Verify that no previously interface remained on the system for intf in self._interfaces: self.assertNotIn(intf, interfaces()) def test_span_mirror(self): if not self._mirror_interfaces: self.skipTest('not supported') # Check the two-way mirror rules of ingress and egress for mirror in self._mirror_interfaces: for interface in self._interfaces: self.cli_set(self._base_path + [interface, 'mirror', 'ingress', mirror]) self.cli_set(self._base_path + [interface, 'mirror', 'egress', mirror]) self.cli_commit() # Verify config for mirror in self._mirror_interfaces: for interface in self._interfaces: self.assertTrue(is_mirrored_to(interface, mirror, 'ffff')) self.assertTrue(is_mirrored_to(interface, mirror, '1')) def test_interface_disable(self): # Check if description can be added to interface and # can be read back for intf in self._interfaces: self.cli_set(self._base_path + [intf, 'disable']) for option in self._options.get(intf, []): self.cli_set(self._base_path + [intf] + option.split()) self.cli_commit() # Validate interface description for intf in self._interfaces: self.assertEqual(Interface(intf).get_admin_state(), 'down') def test_interface_description(self): # Check if description can be added to interface and # can be read back for intf in self._interfaces: test_string=f'Description-Test-{intf}' self.cli_set(self._base_path + [intf, 'description', test_string]) for option in self._options.get(intf, []): self.cli_set(self._base_path + [intf] + option.split()) self.cli_commit() # Validate interface description for intf in self._interfaces: test_string=f'Description-Test-{intf}' tmp = read_file(f'/sys/class/net/{intf}/ifalias') self.assertEqual(tmp, test_string) self.assertEqual(Interface(intf).get_alias(), test_string) self.cli_delete(self._base_path + [intf, 'description']) self.cli_commit() # Validate remove interface description "empty" for intf in self._interfaces: tmp = read_file(f'/sys/class/net/{intf}/ifalias') self.assertEqual(tmp, str()) self.assertEqual(Interface(intf).get_alias(), str()) def test_add_single_ip_address(self): addr = '192.0.2.0/31' for intf in self._interfaces: self.cli_set(self._base_path + [intf, 'address', addr]) for option in self._options.get(intf, []): self.cli_set(self._base_path + [intf] + option.split()) self.cli_commit() for intf in self._interfaces: self.assertTrue(is_intf_addr_assigned(intf, addr)) self.assertEqual(Interface(intf).get_admin_state(), 'up') def test_add_multiple_ip_addresses(self): # Add address for intf in self._interfaces: for addr in self._test_addr: self.cli_set(self._base_path + [intf, 'address', addr]) for option in self._options.get(intf, []): self.cli_set(self._base_path + [intf] + option.split()) self.cli_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_address(self): # Common function for IPv6 link-local address assignemnts if not self._test_ipv6: self.skipTest('not supported') for interface in self._interfaces: base = self._base_path + [interface] for option in self._options.get(interface, []): self.cli_set(base + option.split()) # after commit we must have an IPv6 link-local address self.cli_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.cli_set(base + ['ipv6', 'address', 'no-default-link-local']) # after commit we must have no IPv6 link-local address self.cli_commit() for interface in self._interfaces: self.assertNotIn(AF_INET6, ifaddresses(interface)) def test_interface_mtu(self): if not self._test_mtu: self.skipTest('not supported') for intf in self._interfaces: base = self._base_path + [intf] self.cli_set(base + ['mtu', self._mtu]) for option in self._options.get(intf, []): self.cli_set(base + option.split()) # commit interface changes self.cli_commit() # verify changed MTU for intf in self._interfaces: tmp = get_interface_config(intf) self.assertEqual(tmp['mtu'], int(self._mtu)) def test_mtu_1200_no_ipv6_interface(self): # Testcase if MTU can be changed to 1200 on non IPv6 # enabled interfaces if not self._test_mtu: self.skipTest('not supported') old_mtu = self._mtu self._mtu = '1200' for intf in self._interfaces: base = self._base_path + [intf] self.cli_set(base + ['mtu', self._mtu]) for option in self._options.get(intf, []): self.cli_set(base + option.split()) # check validate() - can not set low MTU if 'no-default-link-local' # is not set on CLI with self.assertRaises(ConfigSessionError): self.cli_commit() for intf in self._interfaces: base = self._base_path + [intf] self.cli_set(base + ['ipv6', 'address', 'no-default-link-local']) # commit interface changes self.cli_commit() # verify changed MTU for intf in self._interfaces: tmp = get_interface_config(intf) self.assertEqual(tmp['mtu'], int(self._mtu)) self._mtu = old_mtu def test_vif_8021q_interfaces(self): # XXX: This testcase is not allowed to run as first testcase, reason # is the Wireless test will first load the wifi kernel hwsim module # which creates a wlan0 and wlan1 interface which will fail the # tearDown() test in the end that no interface is allowed to survive! if not self._test_vlan: self.skipTest('not supported') for interface in self._interfaces: base = self._base_path + [interface] for option in self._options.get(interface, []): self.cli_set(base + option.split()) for vlan in self._vlan_range: base = self._base_path + [interface, 'vif', vlan] for address in self._test_addr: self.cli_set(base + ['address', address]) self.cli_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.assertEqual(Interface(vif).get_admin_state(), 'up') def test_vif_8021q_mtu_limits(self): # XXX: This testcase is not allowed to run as first testcase, reason # is the Wireless test will first load the wifi kernel hwsim module # which creates a wlan0 and wlan1 interface which will fail the # tearDown() test in the end that no interface is allowed to survive! if not self._test_vlan: self.skipTest('not supported') mtu_1500 = '1500' mtu_9000 = '9000' for interface in self._interfaces: base = self._base_path + [interface] self.cli_set(base + ['mtu', mtu_1500]) for option in self._options.get(interface, []): self.cli_set(base + option.split()) if 'source-interface' in option: iface = option.split()[-1] iface_type = Section.section(iface) self.cli_set(['interfaces', iface_type, iface, 'mtu', mtu_9000]) for vlan in self._vlan_range: base = self._base_path + [interface, 'vif', vlan] self.cli_set(base + ['mtu', mtu_9000]) # check validate() - VIF MTU must not be larger the parent interface # MTU size. with self.assertRaises(ConfigSessionError): self.cli_commit() # Change MTU on base interface to be the same as on the VIF interface for interface in self._interfaces: base = self._base_path + [interface] self.cli_set(base + ['mtu', mtu_9000]) self.cli_commit() # Verify MTU on base and VIF interfaces for interface in self._interfaces: tmp = get_interface_config(interface) self.assertEqual(tmp['mtu'], int(mtu_9000)) for vlan in self._vlan_range: tmp = get_interface_config(f'{interface}.{vlan}') self.assertEqual(tmp['mtu'], int(mtu_9000)) def test_vif_8021q_qos_change(self): # XXX: This testcase is not allowed to run as first testcase, reason # is the Wireless test will first load the wifi kernel hwsim module # which creates a wlan0 and wlan1 interface which will fail the # tearDown() test in the end that no interface is allowed to survive! if not self._test_vlan: self.skipTest('not supported') for interface in self._interfaces: base = self._base_path + [interface] for option in self._options.get(interface, []): self.cli_set(base + option.split()) for vlan in self._vlan_range: base = self._base_path + [interface, 'vif', vlan] self.cli_set(base + ['ingress-qos', '0:1']) self.cli_set(base + ['egress-qos', '1:6']) self.cli_commit() for intf in self._interfaces: for vlan in self._vlan_range: vif = f'{intf}.{vlan}' tmp = get_interface_config(f'{vif}') tmp2 = dict_search('linkinfo.info_data.ingress_qos', tmp) for item in tmp2 if tmp2 else []: from_key = item['from'] to_key = item['to'] self.assertEqual(from_key, 0) self.assertEqual(to_key, 1) tmp2 = dict_search('linkinfo.info_data.egress_qos', tmp) for item in tmp2 if tmp2 else []: from_key = item['from'] to_key = item['to'] self.assertEqual(from_key, 1) self.assertEqual(to_key, 6) self.assertEqual(Interface(vif).get_admin_state(), 'up') new_ingress_qos_from = 1 new_ingress_qos_to = 6 new_egress_qos_from = 2 new_egress_qos_to = 7 for interface in self._interfaces: base = self._base_path + [interface] for vlan in self._vlan_range: base = self._base_path + [interface, 'vif', vlan] self.cli_set(base + ['ingress-qos', f'{new_ingress_qos_from}:{new_ingress_qos_to}']) self.cli_set(base + ['egress-qos', f'{new_egress_qos_from}:{new_egress_qos_to}']) self.cli_commit() for intf in self._interfaces: for vlan in self._vlan_range: vif = f'{intf}.{vlan}' tmp = get_interface_config(f'{vif}') tmp2 = dict_search('linkinfo.info_data.ingress_qos', tmp) if tmp2: from_key = tmp2[0]['from'] to_key = tmp2[0]['to'] self.assertEqual(from_key, new_ingress_qos_from) self.assertEqual(to_key, new_ingress_qos_to) tmp2 = dict_search('linkinfo.info_data.egress_qos', tmp) if tmp2: from_key = tmp2[0]['from'] to_key = tmp2[0]['to'] self.assertEqual(from_key, new_egress_qos_from) self.assertEqual(to_key, new_egress_qos_to) def test_vif_8021q_lower_up_down(self): # Testcase for https://phabricator.vyos.net/T3349 if not self._test_vlan: self.skipTest('not supported') for interface in self._interfaces: base = self._base_path + [interface] for option in self._options.get(interface, []): self.cli_set(base + option.split()) # disable the lower interface self.cli_set(base + ['disable']) for vlan in self._vlan_range: vlan_base = self._base_path + [interface, 'vif', vlan] # disable the vlan interface self.cli_set(vlan_base + ['disable']) self.cli_commit() # re-enable all lower interfaces for interface in self._interfaces: base = self._base_path + [interface] self.cli_delete(base + ['disable']) self.cli_commit() # verify that the lower interfaces are admin up and the vlan # interfaces are all admin down for interface in self._interfaces: self.assertEqual(Interface(interface).get_admin_state(), 'up') for vlan in self._vlan_range: ifname = f'{interface}.{vlan}' self.assertEqual(Interface(ifname).get_admin_state(), 'down') def test_vif_s_8021ad_vlan_interfaces(self): # XXX: This testcase is not allowed to run as first testcase, reason # is the Wireless test will first load the wifi kernel hwsim module # which creates a wlan0 and wlan1 interface which will fail the # tearDown() test in the end that no interface is allowed to survive! if not self._test_qinq: self.skipTest('not supported') for interface in self._interfaces: base = self._base_path + [interface] for option in self._options.get(interface, []): self.cli_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.cli_set(base + ['mtu', self._mtu]) for address in self._test_addr: self.cli_set(base + ['address', address]) self.cli_commit() for interface in self._interfaces: for vif_s in self._qinq_range: tmp = get_interface_config(f'{interface}.{vif_s}') self.assertEqual(dict_search('linkinfo.info_data.protocol', tmp), '802.1ad') for vif_c in self._vlan_range: vif = f'{interface}.{vif_s}.{vif_c}' # For an unknown reason this regularely fails on the QEMU builds, # thus the test for reading back IP addresses is temporary # disabled. There is no big deal here, as this uses the same # methods on 802.1q and here it works and is verified. # for address in self._test_addr: # self.assertTrue(is_intf_addr_assigned(vif, address)) tmp = get_interface_config(vif) self.assertEqual(tmp['mtu'], int(self._mtu)) # T3972: remove vif-c interfaces from vif-s for interface in self._interfaces: base = self._base_path + [interface] for vif_s in self._qinq_range: base = self._base_path + [interface, 'vif-s', vif_s, 'vif-c'] self.cli_delete(base) self.cli_commit() def test_vif_s_protocol_change(self): # XXX: This testcase is not allowed to run as first testcase, reason # is the Wireless test will first load the wifi kernel hwsim module # which creates a wlan0 and wlan1 interface which will fail the # tearDown() test in the end that no interface is allowed to survive! if not self._test_qinq: self.skipTest('not supported') for interface in self._interfaces: base = self._base_path + [interface] for option in self._options.get(interface, []): self.cli_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] for address in self._test_addr: self.cli_set(base + ['address', address]) self.cli_commit() for interface in self._interfaces: for vif_s in self._qinq_range: tmp = get_interface_config(f'{interface}.{vif_s}') # check for the default value self.assertEqual(tmp['linkinfo']['info_data']['protocol'], '802.1ad') # T3532: now change ethertype new_protocol = '802.1q' for interface in self._interfaces: for vif_s in self._qinq_range: base = self._base_path + [interface, 'vif-s', vif_s] self.cli_set(base + ['protocol', new_protocol]) self.cli_commit() # Verify new ethertype configuration for interface in self._interfaces: for vif_s in self._qinq_range: tmp = get_interface_config(f'{interface}.{vif_s}') self.assertEqual(tmp['linkinfo']['info_data']['protocol'], new_protocol.upper()) def test_interface_ip_options(self): if not self._test_ip: self.skipTest('not supported') arp_tmo = '300' mss = '1420' for interface in self._interfaces: path = self._base_path + [interface] for option in self._options.get(interface, []): self.cli_set(path + option.split()) # Options self.cli_set(path + ['ip', 'adjust-mss', mss]) self.cli_set(path + ['ip', 'arp-cache-timeout', arp_tmo]) self.cli_set(path + ['ip', 'disable-arp-filter']) self.cli_set(path + ['ip', 'disable-forwarding']) self.cli_set(path + ['ip', 'enable-arp-accept']) self.cli_set(path + ['ip', 'enable-arp-announce']) self.cli_set(path + ['ip', 'enable-arp-ignore']) self.cli_set(path + ['ip', 'enable-proxy-arp']) self.cli_set(path + ['ip', 'proxy-arp-pvlan']) self.cli_set(path + ['ip', 'source-validation', 'loose']) self.cli_commit() for interface in self._interfaces: base_options = f'oifname "{interface}"' out = cmd('sudo nft list chain raw VYOS_TCP_MSS') for line in out.splitlines(): if line.startswith(base_options): self.assertIn(f'tcp option maxseg size set {mss}', line) 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 proc_base = f'/proc/sys/net/ipv4/conf/{interface}' tmp = read_file(f'{proc_base}/arp_filter') self.assertEqual('0', tmp) tmp = read_file(f'{proc_base}/arp_accept') self.assertEqual('1', tmp) tmp = read_file(f'{proc_base}/arp_announce') self.assertEqual('1', tmp) tmp = read_file(f'{proc_base}/arp_ignore') self.assertEqual('1', tmp) tmp = read_file(f'{proc_base}/forwarding') self.assertEqual('0', tmp) tmp = read_file(f'{proc_base}/proxy_arp') self.assertEqual('1', tmp) tmp = read_file(f'{proc_base}/proxy_arp_pvlan') self.assertEqual('1', tmp) tmp = read_file(f'{proc_base}/rp_filter') self.assertEqual('2', tmp) def test_interface_ipv6_options(self): if not self._test_ipv6: self.skipTest('not supported') mss = '1400' dad_transmits = '10' for interface in self._interfaces: path = self._base_path + [interface] for option in self._options.get(interface, []): self.cli_set(path + option.split()) # Options self.cli_set(path + ['ipv6', 'adjust-mss', mss]) self.cli_set(path + ['ipv6', 'disable-forwarding']) self.cli_set(path + ['ipv6', 'dup-addr-detect-transmits', dad_transmits]) self.cli_commit() for interface in self._interfaces: base_options = f'oifname "{interface}"' out = cmd('sudo nft list chain ip6 raw VYOS_TCP_MSS') for line in out.splitlines(): if line.startswith(base_options): self.assertIn(f'tcp option maxseg size set {mss}', line) proc_base = f'/proc/sys/net/ipv6/conf/{interface}' tmp = read_file(f'{proc_base}/forwarding') self.assertEqual('0', tmp) tmp = read_file(f'{proc_base}/dad_transmits') self.assertEqual(dad_transmits, tmp) def test_dhcpv6_client_options(self): if not self._test_ipv6_dhcpc6: self.skipTest('not supported') duid_base = 10 for interface in self._interfaces: duid = '00:01:00:01:27:71:db:f0:00:50:00:00:00:{}'.format(duid_base) path = self._base_path + [interface] for option in self._options.get(interface, []): self.cli_set(path + option.split()) # Enable DHCPv6 client self.cli_set(path + ['address', 'dhcpv6']) self.cli_set(path + ['dhcpv6-options', 'rapid-commit']) self.cli_set(path + ['dhcpv6-options', 'parameters-only']) self.cli_set(path + ['dhcpv6-options', 'duid', duid]) duid_base += 1 self.cli_commit() duid_base = 10 for interface in self._interfaces: duid = '00:01:00:01:27:71:db:f0:00:50:00:00:00:{}'.format(duid_base) dhcpc6_config = read_file(f'/run/dhcp6c/dhcp6c.{interface}.conf') self.assertIn(f'interface {interface} ' + '{', dhcpc6_config) self.assertIn(f' request domain-name-servers;', dhcpc6_config) self.assertIn(f' request domain-name;', dhcpc6_config) self.assertIn(f' information-only;', dhcpc6_config) self.assertIn(f' send ia-na 0;', dhcpc6_config) self.assertIn(f' send rapid-commit;', dhcpc6_config) self.assertIn(f' send client-id {duid};', dhcpc6_config) self.assertIn('};', dhcpc6_config) duid_base += 1 # Check for running process self.assertTrue(process_named_running('dhcp6c')) def test_dhcpv6pd_auto_sla_id(self): if not self._test_ipv6_pd: self.skipTest('not supported') prefix_len = '56' sla_len = str(64 - int(prefix_len)) delegatees = ['dum2340', 'dum2341', 'dum2342', 'dum2343', 'dum2344'] for interface in self._interfaces: path = self._base_path + [interface] for option in self._options.get(interface, []): self.cli_set(path + option.split()) address = '1' # prefix delegation stuff pd_base = path + ['dhcpv6-options', 'pd', '0'] self.cli_set(pd_base + ['length', prefix_len]) for delegatee in delegatees: section = Section.section(delegatee) self.cli_set(['interfaces', section, delegatee]) self.cli_set(pd_base + ['interface', delegatee, 'address', address]) # increment interface address address = str(int(address) + 1) self.cli_commit() for interface in self._interfaces: dhcpc6_config = read_file(f'/run/dhcp6c/dhcp6c.{interface}.conf') # verify DHCPv6 prefix delegation self.assertIn(f'prefix ::/{prefix_len} infinity;', dhcpc6_config) address = '1' sla_id = '0' for delegatee in delegatees: self.assertIn(f'prefix-interface {delegatee}' + r' {', dhcpc6_config) self.assertIn(f'ifid {address};', dhcpc6_config) self.assertIn(f'sla-id {sla_id};', dhcpc6_config) self.assertIn(f'sla-len {sla_len};', dhcpc6_config) # increment sla-id sla_id = str(int(sla_id) + 1) # increment interface address address = str(int(address) + 1) # Check for running process self.assertTrue(process_named_running('dhcp6c')) for delegatee in delegatees: # we can already cleanup the test delegatee interface here # as until commit() is called, nothing happens section = Section.section(delegatee) self.cli_delete(['interfaces', section, delegatee]) def test_dhcpv6pd_manual_sla_id(self): if not self._test_ipv6_pd: self.skipTest('not supported') prefix_len = '56' sla_len = str(64 - int(prefix_len)) delegatees = ['dum3340', 'dum3341', 'dum3342', 'dum3343', 'dum3344'] for interface in self._interfaces: path = self._base_path + [interface] for option in self._options.get(interface, []): self.cli_set(path + option.split()) # prefix delegation stuff address = '1' sla_id = '1' pd_base = path + ['dhcpv6-options', 'pd', '0'] self.cli_set(pd_base + ['length', prefix_len]) for delegatee in delegatees: section = Section.section(delegatee) self.cli_set(['interfaces', section, delegatee]) self.cli_set(pd_base + ['interface', delegatee, 'address', address]) self.cli_set(pd_base + ['interface', delegatee, 'sla-id', sla_id]) # increment interface address address = str(int(address) + 1) sla_id = str(int(sla_id) + 1) self.cli_commit() # Verify dhcpc6 client configuration for interface in self._interfaces: address = '1' sla_id = '1' dhcpc6_config = read_file(f'/run/dhcp6c/dhcp6c.{interface}.conf') # verify DHCPv6 prefix delegation self.assertIn(f'prefix ::/{prefix_len} infinity;', dhcpc6_config) for delegatee in delegatees: self.assertIn(f'prefix-interface {delegatee}' + r' {', dhcpc6_config) self.assertIn(f'ifid {address};', dhcpc6_config) self.assertIn(f'sla-id {sla_id};', dhcpc6_config) self.assertIn(f'sla-len {sla_len};', dhcpc6_config) # increment sla-id sla_id = str(int(sla_id) + 1) # increment interface address address = str(int(address) + 1) # Check for running process self.assertTrue(process_named_running('dhcp6c')) for delegatee in delegatees: # we can already cleanup the test delegatee interface here # as until commit() is called, nothing happens section = Section.section(delegatee) self.cli_delete(['interfaces', section, delegatee])