458 lines
20 KiB
Python
458 lines
20 KiB
Python
# Copyright 2018 Red Hat, Inc.
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#
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# Licensed under the Apache License, Version 2.0 (the "License"); you may
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# not use this file except in compliance with the License. You may obtain
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# a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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# License for the specific language governing permissions and limitations
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# under the License.
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import random
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from oslo_utils import uuidutils
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import testtools
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from neutron.agent.linux import ip_lib
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from neutron.common import utils as common_utils
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from neutron.privileged.agent.linux import ip_lib as priv_ip_lib
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from neutron.tests.functional import base as functional_base
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class GetDeviceNamesTestCase(functional_base.BaseSudoTestCase):
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def _remove_ns(self, namespace):
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priv_ip_lib.remove_netns(namespace)
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def test_get_device_names(self):
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namespace = 'ns_test-' + uuidutils.generate_uuid()
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priv_ip_lib.create_netns(namespace)
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self.addCleanup(self._remove_ns, namespace)
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interfaces = ['int_01', 'int_02', 'int_03', 'int_04', 'int_05']
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interfaces_to_check = (interfaces + ip_lib.FB_TUNNEL_DEVICE_NAMES +
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[ip_lib.LOOPBACK_DEVNAME])
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for interface in interfaces:
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priv_ip_lib.create_interface(interface, namespace, 'dummy')
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device_names = priv_ip_lib.get_device_names(namespace)
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self.assertGreater(len(device_names), 0)
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for name in device_names:
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self.assertIn(name, interfaces_to_check)
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for interface in interfaces:
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priv_ip_lib.delete_interface(interface, namespace)
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device_names = priv_ip_lib.get_device_names(namespace)
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self.assertGreater(len(device_names), 0)
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for name in device_names:
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self.assertNotIn(name, interfaces)
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class GetDevicesInfoTestCase(functional_base.BaseSudoTestCase):
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def setUp(self):
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super(GetDevicesInfoTestCase, self).setUp()
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self.namespace = 'ns_test-' + uuidutils.generate_uuid()
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priv_ip_lib.create_netns(self.namespace)
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self.addCleanup(self._remove_ns, self.namespace)
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self.interfaces = ['int_01', 'int_02']
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self.interfaces_to_exclude = (ip_lib.FB_TUNNEL_DEVICE_NAMES +
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[ip_lib.LOOPBACK_DEVNAME])
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def _remove_ns(self, namespace):
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priv_ip_lib.remove_netns(namespace)
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def test_get_devices_info_lo(self):
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devices = priv_ip_lib.get_link_devices(self.namespace)
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self.assertGreater(len(devices), 0)
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for device in devices:
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if ip_lib.get_attr(device, 'IFLA_IFNAME') != 'lo':
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continue
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self.assertIsNone(ip_lib.get_attr(device, 'IFLA_LINKINFO'))
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break
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else:
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self.fail('Device "lo" not found')
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def test_get_devices_info_dummy(self):
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interfaces_tested = []
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for interface in self.interfaces:
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priv_ip_lib.create_interface(interface, self.namespace, 'dummy')
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devices = priv_ip_lib.get_link_devices(self.namespace)
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self.assertGreater(len(devices), 0)
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for device in devices:
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name = ip_lib.get_attr(device, 'IFLA_IFNAME')
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if name in self.interfaces_to_exclude:
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continue
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self.assertIn(name, self.interfaces)
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ifla_linkinfo = ip_lib.get_attr(device, 'IFLA_LINKINFO')
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self.assertEqual(ip_lib.get_attr(ifla_linkinfo, 'IFLA_INFO_KIND'),
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'dummy')
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interfaces_tested.append(name)
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self.assertEqual(sorted(interfaces_tested), sorted(self.interfaces))
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def test_get_devices_info_vlan(self):
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interfaces_tested = []
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vlan_interfaces = []
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vlan_id = 1000
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for interface in self.interfaces:
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priv_ip_lib.create_interface(interface, self.namespace, 'dummy')
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vlan_interface = interface + '_' + str(vlan_id)
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vlan_interfaces.append(vlan_interface)
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priv_ip_lib.create_interface(
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vlan_interface, self.namespace, 'vlan',
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physical_interface=interface, vlan_id=vlan_id)
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vlan_id += 1
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devices = priv_ip_lib.get_link_devices(self.namespace)
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self.assertGreater(len(devices), 0)
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device_name_index = {}
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for device in devices:
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name = ip_lib.get_attr(device, 'IFLA_IFNAME')
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device_name_index[name] = device['index']
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for device in devices:
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name = ip_lib.get_attr(device, 'IFLA_IFNAME')
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if name in self.interfaces_to_exclude:
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continue
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self.assertIn(name, self.interfaces + vlan_interfaces)
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ifla_linkinfo = ip_lib.get_attr(device, 'IFLA_LINKINFO')
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if name in vlan_interfaces:
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self.assertEqual(
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ip_lib.get_attr(ifla_linkinfo, 'IFLA_INFO_KIND'), 'vlan')
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ifla_infodata = ip_lib.get_attr(ifla_linkinfo,
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'IFLA_INFO_DATA')
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vlan_id = int(name.split('_')[-1])
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self.assertEqual(
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ip_lib.get_attr(ifla_infodata, 'IFLA_VLAN_ID'), vlan_id)
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vlan_link_name = self.interfaces[vlan_interfaces.index(name)]
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vlan_link_index = device_name_index[vlan_link_name]
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self.assertEqual(vlan_link_index, ip_lib.get_attr(device,
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'IFLA_LINK'))
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interfaces_tested.append(name)
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self.assertEqual(sorted(interfaces_tested),
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sorted(self.interfaces + vlan_interfaces))
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def test_get_devices_info_vxlan(self):
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interfaces_tested = []
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vxlan_interfaces = []
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vxlan_id = 1000
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for interface in self.interfaces:
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priv_ip_lib.create_interface(interface, self.namespace, 'dummy')
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vxlan_interface = interface + '_' + str(vxlan_id)
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vxlan_interfaces.append(vxlan_interface)
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priv_ip_lib.create_interface(
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vxlan_interface, self.namespace, 'vxlan',
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physical_interface=interface, vxlan_id=vxlan_id,
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vxlan_group='239.1.1.1')
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vxlan_id += 1
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devices = priv_ip_lib.get_link_devices(self.namespace)
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self.assertGreater(len(devices), 0)
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device_name_index = {}
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for device in devices:
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name = ip_lib.get_attr(device, 'IFLA_IFNAME')
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device_name_index[name] = device['index']
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for device in devices:
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name = ip_lib.get_attr(device, 'IFLA_IFNAME')
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if name in self.interfaces_to_exclude:
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continue
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self.assertIn(name, self.interfaces + vxlan_interfaces)
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ifla_linkinfo = ip_lib.get_attr(device, 'IFLA_LINKINFO')
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if name in vxlan_interfaces:
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self.assertEqual(
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ip_lib.get_attr(ifla_linkinfo, 'IFLA_INFO_KIND'),
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'vxlan')
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ifla_infodata = ip_lib.get_attr(ifla_linkinfo,
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'IFLA_INFO_DATA')
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vxlan_id = int(name.split('_')[-1])
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self.assertEqual(
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ip_lib.get_attr(ifla_infodata, 'IFLA_VXLAN_ID'), vxlan_id)
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self.assertEqual(
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ip_lib.get_attr(ifla_infodata, 'IFLA_VXLAN_GROUP'),
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'239.1.1.1')
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vxlan_link_name = self.interfaces[vxlan_interfaces.index(name)]
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vxlan_link_index = device_name_index[vxlan_link_name]
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self.assertEqual(
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vxlan_link_index,
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ip_lib.get_attr(ifla_infodata, 'IFLA_VXLAN_LINK'))
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interfaces_tested.append(name)
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self.assertEqual(sorted(interfaces_tested),
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sorted(self.interfaces + vxlan_interfaces))
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def _retrieve_interface(self, interface_name, namespace):
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for device in priv_ip_lib.get_link_devices(namespace):
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if interface_name == ip_lib.get_attr(device, 'IFLA_IFNAME'):
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return device
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else:
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self.fail('Interface "%s" not found' % interface_name)
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def test_get_devices_info_veth_different_namespaces(self):
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namespace2 = 'ns_test-' + uuidutils.generate_uuid()
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priv_ip_lib.create_netns(namespace2)
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self.addCleanup(self._remove_ns, namespace2)
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# Create a random number of dummy interfaces in namespace2, in order
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# to increase the 'veth1_2' interface index in its namespace.
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for idx in range(5, random.randint(15, 20)):
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priv_ip_lib.create_interface('int_%s' % idx, namespace2, 'dummy')
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ip_wrapper = ip_lib.IPWrapper(self.namespace)
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ip_wrapper.add_veth('veth1_1', 'veth1_2', namespace2)
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veth1_1 = self._retrieve_interface('veth1_1', self.namespace)
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veth1_2 = self._retrieve_interface('veth1_2', namespace2)
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ifla_linkinfo = ip_lib.get_attr(veth1_1, 'IFLA_LINKINFO')
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self.assertEqual(ip_lib.get_attr(ifla_linkinfo, 'IFLA_INFO_KIND'),
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'veth')
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# NOTE(ralonsoh): since kernel_version=4.15.0-60-generic, iproute2
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# provides the veth pair index, even if the pair interface is in other
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# namespace. In previous versions, the parameter 'IFLA_LINK' was not
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# present. We need to handle both cases.
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self.assertIn(ip_lib.get_attr(veth1_1, 'IFLA_LINK'),
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[None, veth1_2['index']])
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def test_get_devices_info_veth_same_namespaces(self):
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ip_wrapper = ip_lib.IPWrapper(self.namespace)
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ip_wrapper.add_veth('veth1_1', 'veth1_2')
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veth1_1 = self._retrieve_interface('veth1_1', self.namespace)
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veth1_2 = self._retrieve_interface('veth1_2', self.namespace)
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veth1_1_link = ip_lib.get_attr(veth1_1, 'IFLA_LINK')
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veth1_2_link = ip_lib.get_attr(veth1_2, 'IFLA_LINK')
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self.assertEqual(veth1_1['index'], veth1_2_link)
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self.assertEqual(veth1_2['index'], veth1_1_link)
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class ListIpRulesTestCase(functional_base.BaseSudoTestCase):
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RULE_TABLES = {'default': 253, 'main': 254, 'local': 255}
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def setUp(self):
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super(ListIpRulesTestCase, self).setUp()
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self.namespace = 'ns_test-' + uuidutils.generate_uuid()
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self.ns = priv_ip_lib.create_netns(self.namespace)
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self.addCleanup(self._remove_ns)
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def _remove_ns(self):
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priv_ip_lib.remove_netns(self.namespace)
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def test_list_default_rules_ipv4(self):
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rules_ipv4 = priv_ip_lib.list_ip_rules(self.namespace, 4)
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self.assertEqual(3, len(rules_ipv4))
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rule_tables = list(self.RULE_TABLES.values())
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for rule in rules_ipv4:
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rule_tables.remove(rule['table'])
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self.assertEqual(0, len(rule_tables))
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def test_list_rules_ipv4(self):
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ip_lib.add_ip_rule(self.namespace, '192.168.0.1/24', table=10)
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rules_ipv4 = priv_ip_lib.list_ip_rules(self.namespace, 4)
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for rule in rules_ipv4:
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if rule['table'] == 10:
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self.assertEqual('192.168.0.1', rule['attrs']['FRA_SRC'])
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self.assertEqual(24, rule['src_len'])
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break
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else:
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self.fail('Rule added (192.168.0.1/24, table 10) not found')
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def test_list_default_rules_ipv6(self):
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rules_ipv6 = priv_ip_lib.list_ip_rules(self.namespace, 6)
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self.assertEqual(2, len(rules_ipv6))
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rule_tables = [255, 254]
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for rule in rules_ipv6:
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rule_tables.remove(rule['table'])
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self.assertEqual(0, len(rule_tables))
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def test_list_rules_ipv6(self):
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ip_lib.add_ip_rule(self.namespace, '2001:db8::1/64', table=20)
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rules_ipv6 = priv_ip_lib.list_ip_rules(self.namespace, 6)
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for rule in rules_ipv6:
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if rule['table'] == 20:
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self.assertEqual('2001:db8::1', rule['attrs']['FRA_SRC'])
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self.assertEqual(64, rule['src_len'])
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break
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else:
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self.fail('Rule added (2001:db8::1/64, table 20) not found')
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class RuleTestCase(functional_base.BaseSudoTestCase):
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def setUp(self):
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super(RuleTestCase, self).setUp()
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self.namespace = 'ns_test-' + uuidutils.generate_uuid()
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self.ns = priv_ip_lib.create_netns(self.namespace)
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self.addCleanup(self._remove_ns)
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def _remove_ns(self):
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priv_ip_lib.remove_netns(self.namespace)
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def _check_rules(self, rules, parameters, values, exception_string=None,
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raise_exception=True):
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for rule in rules:
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if all(rule.get(parameter) == value
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for parameter, value in zip(parameters, values)):
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return True
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else:
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if raise_exception:
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self.fail('Rule with %s was expected' % exception_string)
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else:
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return False
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def test_add_rule_ip(self):
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ip_addresses = ['192.168.200.250', '2001::250']
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for ip_address in ip_addresses:
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ip_version = common_utils.get_ip_version(ip_address)
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ip_lenght = common_utils.get_network_length(ip_version)
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ip_family = common_utils.get_socket_address_family(ip_version)
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priv_ip_lib.add_ip_rule(self.namespace, src=ip_address,
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src_len=ip_lenght, family=ip_family)
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rules = ip_lib.list_ip_rules(self.namespace, ip_version)
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self._check_rules(rules, ['from'], [ip_address],
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'"from" IP address %s' % ip_address)
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priv_ip_lib.delete_ip_rule(self.namespace, family=ip_family,
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src=ip_address, src_len=ip_lenght)
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rules = ip_lib.list_ip_rules(self.namespace, ip_version)
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self.assertFalse(
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self._check_rules(rules, ['from'], [ip_address],
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raise_exception=False))
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def test_add_rule_iif(self):
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iif = 'iif_device_1'
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priv_ip_lib.create_interface(iif, self.namespace, 'dummy')
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priv_ip_lib.add_ip_rule(self.namespace, iifname=iif)
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rules = ip_lib.list_ip_rules(self.namespace, 4)
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self._check_rules(rules, ['iif'], [iif], 'iif name %s' % iif)
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priv_ip_lib.delete_ip_rule(self.namespace, iifname=iif)
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rules = ip_lib.list_ip_rules(self.namespace, 4)
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self.assertFalse(
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self._check_rules(rules, ['iif'], [iif], raise_exception=False))
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def test_add_rule_table(self):
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table = 212
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ip_addresses = ['192.168.200.251', '2001::251']
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for ip_address in ip_addresses:
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ip_version = common_utils.get_ip_version(ip_address)
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ip_lenght = common_utils.get_network_length(ip_version)
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ip_family = common_utils.get_socket_address_family(ip_version)
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priv_ip_lib.add_ip_rule(self.namespace, table=table,
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src=ip_address, src_len=ip_lenght,
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family=ip_family)
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rules = ip_lib.list_ip_rules(self.namespace, ip_version)
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self._check_rules(
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rules, ['table', 'from'], [str(table), ip_address],
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'table %s and "from" IP address %s' % (table, ip_address))
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priv_ip_lib.delete_ip_rule(self.namespace, table=table,
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src=ip_address, src_len=ip_lenght,
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family=ip_family)
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rules = ip_lib.list_ip_rules(self.namespace, ip_version)
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self.assertFalse(
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self._check_rules(rules, ['table', 'from'],
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[str(table), ip_address],
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raise_exception=False))
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def test_add_rule_priority(self):
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priority = 12345
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ip_addresses = ['192.168.200.252', '2001::252']
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for ip_address in ip_addresses:
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ip_version = common_utils.get_ip_version(ip_address)
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ip_lenght = common_utils.get_network_length(ip_version)
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ip_family = common_utils.get_socket_address_family(ip_version)
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priv_ip_lib.add_ip_rule(self.namespace, priority=priority,
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src=ip_address, src_len=ip_lenght,
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family=ip_family)
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rules = ip_lib.list_ip_rules(self.namespace, ip_version)
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self._check_rules(
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rules, ['priority', 'from'], [str(priority), ip_address],
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'priority %s and "from" IP address %s' %
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(priority, ip_address))
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priv_ip_lib.delete_ip_rule(self.namespace, priority=priority,
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src=ip_address, src_len=ip_lenght,
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family=ip_family)
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rules = ip_lib.list_ip_rules(self.namespace, ip_version)
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self.assertFalse(
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self._check_rules(rules, ['priority', 'from'],
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[str(priority), ip_address],
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raise_exception=False))
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def test_add_rule_priority_table_iif(self):
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table = 213
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priority = 12346
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iif = 'iif_device_2'
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priv_ip_lib.create_interface(iif, self.namespace, 'dummy')
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priv_ip_lib.add_ip_rule(self.namespace, priority=priority, iifname=iif,
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table=table)
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rules = ip_lib.list_ip_rules(self.namespace, 4)
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self._check_rules(
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rules, ['priority', 'iif', 'table'],
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[str(priority), iif, str(table)],
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'priority %s, table %s and iif name %s' % (priority, table, iif))
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priv_ip_lib.delete_ip_rule(self.namespace, priority=priority,
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iifname=iif, table=table)
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rules = ip_lib.list_ip_rules(self.namespace, 4)
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self.assertFalse(
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self._check_rules(rules, ['priority', 'iif', 'table'],
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[str(priority), iif, str(table)],
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raise_exception=False))
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@testtools.skip('https://github.com/svinota/pyroute2/issues/566')
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def test_add_rule_exists(self):
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iif = 'iif_device_1'
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priv_ip_lib.create_interface(iif, self.namespace, 'dummy')
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priv_ip_lib.add_ip_rule(self.namespace, iifname=iif)
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rules = ip_lib.list_ip_rules(self.namespace, 4)
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self._check_rules(rules, ['iif'], [iif], 'iif name %s' % iif)
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self.assertEqual(4, len(rules))
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# pyroute2.netlink.exceptions.NetlinkError(17, 'File exists')
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# exception is catch.
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priv_ip_lib.add_ip_rule(self.namespace, iifname=iif)
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rules = ip_lib.list_ip_rules(self.namespace, 4)
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self._check_rules(rules, ['iif'], [iif], 'iif name %s' % iif)
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self.assertEqual(4, len(rules))
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|
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class GetIpAddressesTestCase(functional_base.BaseSudoTestCase):
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def _remove_ns(self, namespace):
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priv_ip_lib.remove_netns(namespace)
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|
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def test_get_ip_addresses(self):
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namespace = 'ns_test-' + uuidutils.generate_uuid()
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priv_ip_lib.create_netns(namespace)
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self.addCleanup(self._remove_ns, namespace)
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interfaces = {
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'20': {'cidr': '192.168.10.20/24', 'scope': 'link',
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'add_broadcast': True},
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'30': {'cidr': '2001::1/64', 'scope': 'global',
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'add_broadcast': False}}
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|
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for int_name, int_parameters in interfaces.items():
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priv_ip_lib.create_interface(int_name, namespace, 'dummy',
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index=int(int_name))
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ip_lib.add_ip_address(
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int_parameters['cidr'], int_name, namespace,
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|
int_parameters['scope'], int_parameters['add_broadcast'])
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|
|
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ip_addresses = priv_ip_lib.get_ip_addresses(namespace)
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|
for ip_address in ip_addresses:
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|
int_name = str(ip_address['index'])
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ip = ip_lib.get_attr(ip_address, 'IFA_ADDRESS')
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mask = ip_address['prefixlen']
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cidr = common_utils.ip_to_cidr(ip, mask)
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self.assertEqual(interfaces[int_name]['cidr'], cidr)
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|
self.assertEqual(interfaces[int_name]['scope'],
|
|
ip_lib.IP_ADDRESS_SCOPE[ip_address['scope']])
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