def testFlowSnapshotMatch(self): cls = self.__class__ assert_bridge_snapshot_match(self, self.UPLINK_BRIDGE, self.service_manager, include_stats=False) self.assertEqual(get_ovsdb_port_tag(cls.UPLINK_BRIDGE), cls.VLAN_TAG) self.assertIn(cls.SGi_IP, get_iface_ipv4(cls.UPLINK_BRIDGE), "ip not found")
def testFlowSnapshotMatch(self): cls = self.__class__ assert_bridge_snapshot_match(self, self.UPLINK_BRIDGE, self.service_manager, include_stats=False) self.assertEqual(get_ovsdb_port_tag(cls.UPLINK_BRIDGE), '[]')
def testFlowSnapshotMatch(self): cls = self.__class__ assert_bridge_snapshot_match(self, self.UPLINK_BRIDGE, self.service_manager, include_stats=False) self.assertEqual(get_ovsdb_port_tag(cls.UPLINK_BRIDGE), '[]') # after Non NAT init, router shld be accessible. # manually start DHCP client on up-br check_connectivity(cls.ROUTER_IP, cls.UPLINK_BRIDGE)
def setUpClass(cls): """ Starts the thread which launches ryu apps Create a testing bridge, add a port, setup the port interfaces. Then launch the ryu apps for testing pipelined. Gets the references to apps launched by using futures. """ super(UplinkBridgeWithNonNATTest_IP_VLAN_GW, cls).setUpClass() warnings.simplefilter('ignore') cls.service_manager = create_service_manager([]) uplink_bridge_controller_reference = Future() testing_controller_reference = Future() test_setup = TestSetup( apps=[ PipelinedController.UplinkBridge, PipelinedController.Testing, PipelinedController.StartupFlows, ], references={ PipelinedController.UplinkBridge: uplink_bridge_controller_reference, PipelinedController.Testing: testing_controller_reference, PipelinedController.StartupFlows: Future(), }, config={ 'bridge_name': cls.BRIDGE, 'bridge_ip_address': cls.BRIDGE_IP, 'ovs_gtp_port_number': 32768, 'clean_restart': True, 'enable_nat': False, 'uplink_bridge': cls.UPLINK_BRIDGE, 'uplink_eth_port_name': cls.UPLINK_ETH_PORT, 'virtual_mac': '02:bb:5e:36:06:4b', 'uplink_patch': cls.UPLINK_PATCH, 'uplink_dhcp_port': cls.UPLINK_DHCP, 'sgi_management_iface_vlan': cls.VLAN_TAG, 'sgi_management_iface_ip_addr': cls.SGi_IP, 'sgi_management_iface_gw': cls.SGi_GW, 'dev_vlan_in': "test_v_in", 'dev_vlan_out': "test_v_out", }, mconfig=None, loop=None, service_manager=cls.service_manager, integ_test=False, ) BridgeTools.create_bridge(cls.BRIDGE, cls.BRIDGE) # validate vlan id set vlan = "10" BridgeTools.create_bridge(cls.UPLINK_BRIDGE, cls.UPLINK_BRIDGE) subprocess.Popen([ "ovs-vsctl", "set", "port", cls.UPLINK_BRIDGE, "tag=" + vlan, ]).wait() assert get_ovsdb_port_tag(cls.UPLINK_BRIDGE) == vlan set_ip_cmd = [ "ip", "addr", "replace", "2.33.44.6", "dev", cls.UPLINK_BRIDGE, ] subprocess.check_call(set_ip_cmd) BridgeTools.create_internal_iface( cls.UPLINK_BRIDGE, cls.UPLINK_DHCP, None, ) BridgeTools.create_internal_iface( cls.UPLINK_BRIDGE, cls.UPLINK_PATCH, None, ) BridgeTools.create_internal_iface( cls.UPLINK_BRIDGE, cls.UPLINK_ETH_PORT, None, ) cls.thread = start_ryu_app_thread(test_setup) cls.uplink_br_controller = uplink_bridge_controller_reference.result() cls.testing_controller = testing_controller_reference.result()
def setUpClass(cls): """ Starts the thread which launches ryu apps Create a testing bridge, add a port, setup the port interfaces. Then launch the ryu apps for testing pipelined. Gets the references to apps launched by using futures. """ super(UplinkBridgeWithNonNATTest, cls).setUpClass() warnings.simplefilter('ignore') cls.service_manager = create_service_manager([]) uplink_bridge_controller_reference = Future() testing_controller_reference = Future() test_setup = TestSetup( apps=[PipelinedController.UplinkBridge, PipelinedController.Testing, PipelinedController.StartupFlows], references={ PipelinedController.UplinkBridge: uplink_bridge_controller_reference, PipelinedController.Testing: testing_controller_reference, PipelinedController.StartupFlows: Future(), }, config={ 'bridge_name': cls.BRIDGE, 'bridge_ip_address': cls.BRIDGE_IP, 'ovs_gtp_port_number': 32768, 'clean_restart': True, 'enable_nat': False, 'uplink_bridge': cls.UPLINK_BRIDGE, 'uplink_eth_port_name': cls.UPLINK_ETH_PORT, 'virtual_mac': '02:bb:5e:36:06:4b', 'uplink_patch': cls.UPLINK_PATCH, 'uplink_dhcp_port': cls.UPLINK_DHCP, 'sgi_management_iface_vlan': "", 'dev_vlan_in': cls.VLAN_DEV_IN, 'dev_vlan_out': cls.VLAN_DEV_OUT, 'ovs_vlan_workaround': False, 'sgi_management_iface_ip_addr': '1.1.11.1', }, mconfig=None, loop=None, service_manager=cls.service_manager, integ_test=False, ) BridgeTools.create_bridge(cls.BRIDGE, cls.BRIDGE) BridgeTools.create_bridge(cls.UPLINK_BRIDGE, cls.UPLINK_BRIDGE) BridgeTools.create_veth_pair(cls.VLAN_DEV_IN, cls.VLAN_DEV_OUT) # Add to OVS, BridgeTools.add_ovs_port(cls.UPLINK_BRIDGE, cls.VLAN_DEV_IN, "70") BridgeTools.add_ovs_port(cls.UPLINK_BRIDGE, cls.VLAN_DEV_OUT, "71") # dummy uplink interface vlan = "10" subprocess.Popen(["ovs-vsctl", "set", "port", cls.UPLINK_BRIDGE, "tag=" + vlan]).wait() assert get_ovsdb_port_tag(cls.UPLINK_BRIDGE) == vlan BridgeTools.create_internal_iface(cls.UPLINK_BRIDGE, cls.UPLINK_DHCP, None) BridgeTools.create_internal_iface(cls.UPLINK_BRIDGE, cls.UPLINK_PATCH, None) BridgeTools.create_internal_iface(cls.UPLINK_BRIDGE, cls.UPLINK_ETH_PORT, None) cls.thread = start_ryu_app_thread(test_setup) cls.uplink_br_controller = uplink_bridge_controller_reference.result() cls.testing_controller = testing_controller_reference.result()