def netinfo(vdsmnets=None, compatibility=None): # TODO: Version requests by engine to ease handling of compatibility. _netinfo = netinfo_get(vdsmnets, compatibility) if _is_ovs_service_running(): try: ovs_netinfo = ovs_info.get_netinfo() except ne.OvsDBConnectionError: _is_ovs_service_running.invalidate() raise running_networks = RunningConfig().networks bridgeless_ovs_nets = [ net for net, attrs in six.iteritems(running_networks) if attrs['switch'] == 'ovs' and not attrs['bridged'] ] ovs_info.fake_bridgeless(ovs_netinfo, _netinfo, bridgeless_ovs_nets) for type, entries in six.iteritems(ovs_netinfo): _netinfo[type].update(entries) _set_bond_type_by_usage(_netinfo) return _netinfo
def netinfo(vdsmnets=None, compatibility=None): # TODO: Version requests by engine to ease handling of compatibility. _netinfo = netinfo_get(vdsmnets, compatibility) if _is_ovs_service_running(): try: ovs_netinfo = ovs_info.get_netinfo() except ne.OvsDBConnectionError: _is_ovs_service_running.invalidate() raise running_networks = RunningConfig().networks bridgeless_ovs_nets = [ net for net, attrs in six.iteritems(running_networks) if attrs['switch'] == 'ovs' and not attrs['bridged']] ovs_info.fake_bridgeless( ovs_netinfo, _netinfo, bridgeless_ovs_nets) for type, entries in six.iteritems(ovs_netinfo): _netinfo[type].update(entries) _set_bond_type_by_usage(_netinfo) return _netinfo
def test_ovs_netinfo(self): obtained_netinfo = info.get_netinfo() self.assertEqual(obtained_netinfo, self.TEST_OVS_NETINFO)