#!/usr/bin/env python # vim: tabstop=4 shiftwidth=4 softtabstop=4 # Copyright 2011 Nicira Networks, Inc. # All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. # @author: Somik Behera, Nicira Networks, Inc. # @author: Brad Hall, Nicira Networks, Inc. # @author: Dan Wendlandt, Nicira Networks, Inc. # @author: Dave Lapsley, Nicira Networks, Inc. # @author: Aaron Rosen, Nicira Networks, Inc. # @author: Seetharama Ayyadevara, Freescale Semiconductor, Inc. # @author: Kyle Mestery, Cisco Systems, Inc. import distutils.version as dist_version import sys import time import eventlet from oslo.config import cfg from neutron.agent import l2population_rpc from neutron.agent.linux import ip_lib from neutron.agent.linux import ovs_lib from neutron.agent.linux import polling from neutron.agent.linux import utils from neutron.agent import rpc as agent_rpc from neutron.agent import securitygroups_rpc as sg_rpc from neutron.common import config as logging_config from neutron.common import constants as q_const from neutron.common import legacy from neutron.common import topics from neutron.common import utils as q_utils from neutron import context from neutron.extensions import securitygroup as ext_sg from neutron.openstack.common import log as logging from neutron.openstack.common import loopingcall from neutron.openstack.common.rpc import common as rpc_common from neutron.openstack.common.rpc import dispatcher from neutron.plugins.openvswitch.common import config # noqa from neutron.plugins.openvswitch.common import constants LOG = logging.getLogger(__name__) # A placeholder for dead vlans. DEAD_VLAN_TAG = str(q_const.MAX_VLAN_TAG + 1) # A class to represent a VIF (i.e., a port that has 'iface-id' and 'vif-mac' # attributes set). class LocalVLANMapping: def __init__(self, vlan, network_type, physical_network, segmentation_id, vif_ports=None): if vif_ports is None: vif_ports = {} self.vlan = vlan self.network_type = network_type self.physical_network = physical_network self.segmentation_id = segmentation_id self.vif_ports = vif_ports # set of tunnel ports on which packets should be flooded self.tun_ofports = set() def __str__(self): return ("lv-id = %s type = %s phys-net = %s phys-id = %s" % (self.vlan, self.network_type, self.physical_network, self.segmentation_id)) class Port(object): """Represents a neutron port. Class stores port data in a ORM-free way, so attributres are still available even if a row has been deleted. """ def __init__(self, p): self.id = p.id self.network_id = p.network_id self.device_id = p.device_id self.admin_state_up = p.admin_state_up self.status = p.status def __eq__(self, other): '''Compare only fields that will cause us to re-wire.''' try: return (self and other and self.id == other.id and self.admin_state_up == other.admin_state_up) except Exception: return False def __ne__(self, other): return not self.__eq__(other) def __hash__(self): return hash(self.id) class OVSPluginApi(agent_rpc.PluginApi, sg_rpc.SecurityGroupServerRpcApiMixin): pass class OVSSecurityGroupAgent(sg_rpc.SecurityGroupAgentRpcMixin): def __init__(self, context, plugin_rpc, root_helper): self.context = context self.plugin_rpc = plugin_rpc self.root_helper = root_helper self.init_firewall() class OVSNeutronAgent(sg_rpc.SecurityGroupAgentRpcCallbackMixin, l2population_rpc.L2populationRpcCallBackMixin): '''Implements OVS-based tunneling, VLANs and flat networks. Two local bridges are created: an integration bridge (defaults to 'br-int') and a tunneling bridge (defaults to 'br-tun'). An additional bridge is created for each physical network interface used for VLANs and/or flat networks. All VM VIFs are plugged into the integration bridge. VM VIFs on a given virtual network share a common "local" VLAN (i.e. not propagated externally). The VLAN id of this local VLAN is mapped to the physical networking details realizing that virtual network. For virtual networks realized as GRE tunnels, a Logical Switch (LS) identifier and is used to differentiate tenant traffic on inter-HV tunnels. A mesh of tunnels is created to other Hypervisors in the cloud. These tunnels originate and terminate on the tunneling bridge of each hypervisor. Port patching is done to connect local VLANs on the integration bridge to inter-hypervisor tunnels on the tunnel bridge. For each virtual networks realized as a VLANs or flat network, a veth is used to connect the local VLAN on the integration bridge with the physical network bridge, with flow rules adding, modifying, or stripping VLAN tags as necessary. ''' # history # 1.0 Initial version # 1.1 Support Security Group RPC RPC_API_VERSION = '1.1' def __init__(self, integ_br, tun_br, local_ip, bridge_mappings, root_helper, polling_interval, tunnel_types=None, veth_mtu=None, l2_population=False, minimize_polling=False): '''Constructor. :param integ_br: name of the integration bridge. :param tun_br: name of the tunnel bridge. :param local_ip: local IP address of this hypervisor. :param bridge_mappings: mappings from physical network name to bridge. :param root_helper: utility to use when running shell cmds. :param polling_interval: interval (secs) to poll DB. :param tunnel_types: A list of tunnel types to enable support for in the agent. If set, will automatically set enable_tunneling to True. :param veth_mtu: MTU size for veth interfaces. :param minimize_polling: Optional, whether to minimize polling by monitoring ovsdb for interface changes. ''' self.veth_mtu = veth_mtu self.root_helper = root_helper self.available_local_vlans = set(xrange(q_const.MIN_VLAN_TAG, q_const.MAX_VLAN_TAG)) self.tunnel_types = tunnel_types or [] self.l2_pop = l2_population self.agent_state = { 'binary': 'neutron-openvswitch-agent', 'host': cfg.CONF.host, 'topic': q_const.L2_AGENT_TOPIC, 'configurations': {'bridge_mappings': bridge_mappings, 'tunnel_types': self.tunnel_types, 'tunneling_ip': local_ip, 'l2_population': self.l2_pop}, 'agent_type': q_const.AGENT_TYPE_OVS, 'start_flag': True} # Keep track of int_br's device count for use by _report_state() self.int_br_device_count = 0 self.int_br = ovs_lib.OVSBridge(integ_br, self.root_helper) self.setup_rpc() self.setup_integration_br() self.setup_physical_bridges(bridge_mappings) self.local_vlan_map = {} self.tun_br_ofports = {constants.TYPE_GRE: {}, constants.TYPE_VXLAN: {}} self.polling_interval = polling_interval self.minimize_polling = minimize_polling if tunnel_types: self.enable_tunneling = True else: self.enable_tunneling = False self.local_ip = local_ip self.tunnel_count = 0 self.vxlan_udp_port = cfg.CONF.AGENT.vxlan_udp_port self._check_ovs_version() if self.enable_tunneling: self.setup_tunnel_br(tun_br) # Collect additional bridges to monitor self.ancillary_brs = self.setup_ancillary_bridges(integ_br, tun_br) # Security group agent supprot self.sg_agent = OVSSecurityGroupAgent(self.context, self.plugin_rpc, root_helper) def _check_ovs_version(self): if constants.TYPE_VXLAN in self.tunnel_types: check_ovs_version(constants.MINIMUM_OVS_VXLAN_VERSION, self.root_helper) def _report_state(self): # How many devices are likely used by a VM self.agent_state.get('configurations')['devices'] = ( self.int_br_device_count) try: self.state_rpc.report_state(self.context, self.agent_state) self.agent_state.pop('start_flag', None) except Exception: LOG.exception(_("Failed reporting state!")) def setup_rpc(self): mac = self.int_br.get_local_port_mac() self.agent_id = '%s%s' % ('ovs', (mac.replace(":", ""))) self.topic = topics.AGENT self.plugin_rpc = OVSPluginApi(topics.PLUGIN) self.state_rpc = agent_rpc.PluginReportStateAPI(topics.PLUGIN) # RPC network init self.context = context.get_admin_context_without_session() # Handle updates from service self.dispatcher = self.create_rpc_dispatcher() # Define the listening consumers for the agent consumers = [[topics.PORT, topics.UPDATE], [topics.NETWORK, topics.DELETE], [constants.TUNNEL, topics.UPDATE], [topics.SECURITY_GROUP, topics.UPDATE]] if self.l2_pop: consumers.append([topics.L2POPULATION, topics.UPDATE, cfg.CONF.host]) self.connection = agent_rpc.create_consumers(self.dispatcher, self.topic, consumers) report_interval = cfg.CONF.AGENT.report_interval if report_interval: heartbeat = loopingcall.FixedIntervalLoopingCall( self._report_state) heartbeat.start(interval=report_interval) def get_net_uuid(self, vif_id): for network_id, vlan_mapping in self.local_vlan_map.iteritems(): if vif_id in vlan_mapping.vif_ports: return network_id def network_delete(self, context, **kwargs): LOG.debug(_("network_delete received")) network_id = kwargs.get('network_id') LOG.debug(_("Delete %s"), network_id) # The network may not be defined on this agent lvm = self.local_vlan_map.get(network_id) if lvm: self.reclaim_local_vlan(network_id) else: LOG.debug(_("Network %s not used on agent."), network_id) def port_update(self, context, **kwargs): LOG.debug(_("port_update received")) port = kwargs.get('port') # Validate that port is on OVS vif_port = self.int_br.get_vif_port_by_id(port['id']) if not vif_port: return if ext_sg.SECURITYGROUPS in port: self.sg_agent.refresh_firewall() network_type = kwargs.get('network_type') segmentation_id = kwargs.get('segmentation_id') physical_network = kwargs.get('physical_network') self.treat_vif_port(vif_port, port['id'], port['network_id'], network_type, physical_network, segmentation_id, port['admin_state_up']) try: if port['admin_state_up']: # update plugin about port status self.plugin_rpc.update_device_up(self.context, port['id'], self.agent_id, cfg.CONF.host) else: # update plugin about port status self.plugin_rpc.update_device_down(self.context, port['id'], self.agent_id, cfg.CONF.host) except rpc_common.Timeout: LOG.error(_("RPC timeout while updating port %s"), port['id']) def tunnel_update(self, context, **kwargs): LOG.debug(_("tunnel_update received")) if not self.enable_tunneling: return tunnel_ip = kwargs.get('tunnel_ip') tunnel_id = kwargs.get('tunnel_id', tunnel_ip) if not tunnel_id: tunnel_id = tunnel_ip tunnel_type = kwargs.get('tunnel_type') if not tunnel_type: LOG.error(_("No tunnel_type specified, cannot create tunnels")) return if tunnel_type not in self.tunnel_types: LOG.error(_("tunnel_type %s not supported by agent"), tunnel_type) return if tunnel_ip == self.local_ip: return tun_name = '%s-%s' % (tunnel_type, tunnel_id) if not self.l2_pop: self.setup_tunnel_port(tun_name, tunnel_ip, tunnel_type) def fdb_add(self, context, fdb_entries): LOG.debug(_("fdb_add received")) for network_id, values in fdb_entries.items(): lvm = self.local_vlan_map.get(network_id) if not lvm: # Agent doesn't manage any port in this network continue agent_ports = values.get('ports') agent_ports.pop(self.local_ip, None) if len(agent_ports): self.tun_br.defer_apply_on() for agent_ip, ports in agent_ports.items(): # Ensure we have a tunnel port with this remote agent ofport = self.tun_br_ofports[ lvm.network_type].get(agent_ip) if not ofport: port_name = '%s-%s' % (lvm.network_type, agent_ip) ofport = self.setup_tunnel_port(port_name, agent_ip, lvm.network_type) if ofport == 0: continue for port in ports: self._add_fdb_flow(port, agent_ip, lvm, ofport) self.tun_br.defer_apply_off() def fdb_remove(self, context, fdb_entries): LOG.debug(_("fdb_remove received")) for network_id, values in fdb_entries.items(): lvm = self.local_vlan_map.get(network_id) if not lvm: # Agent doesn't manage any more ports in this network continue agent_ports = values.get('ports') agent_ports.pop(self.local_ip, None) if len(agent_ports): self.tun_br.defer_apply_on() for agent_ip, ports in agent_ports.items(): ofport = self.tun_br_ofports[ lvm.network_type].get(agent_ip) if not ofport: continue for port in ports: self._del_fdb_flow(port, agent_ip, lvm, ofport) self.tun_br.defer_apply_off() def _add_fdb_flow(self, port_info, agent_ip, lvm, ofport): if port_info == q_const.FLOODING_ENTRY: lvm.tun_ofports.add(ofport) ofports = ','.join(lvm.tun_ofports) self.tun_br.mod_flow(table=constants.FLOOD_TO_TUN, priority=1, dl_vlan=lvm.vlan, actions="strip_vlan,set_tunnel:%s," "output:%s" % (lvm.segmentation_id, ofports)) else: # TODO(feleouet): add ARP responder entry self.tun_br.add_flow(table=constants.UCAST_TO_TUN, priority=2, dl_vlan=lvm.vlan, dl_dst=port_info[0], actions="strip_vlan,set_tunnel:%s,output:%s" % (lvm.segmentation_id, ofport)) def _del_fdb_flow(self, port_info, agent_ip, lvm, ofport): if port_info == q_const.FLOODING_ENTRY: lvm.tun_ofports.remove(ofport) if len(lvm.tun_ofports) > 0: ofports = ','.join(lvm.tun_ofports) self.tun_br.mod_flow(table=constants.FLOOD_TO_TUN, priority=1, dl_vlan=lvm.vlan, actions="strip_vlan," "set_tunnel:%s,output:%s" % (lvm.segmentation_id, ofports)) else: # This local vlan doesn't require any more tunelling self.tun_br.delete_flows(table=constants.FLOOD_TO_TUN, dl_vlan=lvm.vlan) # Check if this tunnel port is still used self.cleanup_tunnel_port(ofport, lvm.network_type) else: #TODO(feleouet): remove ARP responder entry self.tun_br.delete_flows(table=constants.UCAST_TO_TUN, dl_vlan=lvm.vlan, dl_dst=port_info[0]) def fdb_update(self, context, fdb_entries): LOG.debug(_("fdb_update received")) for action, values in fdb_entries.items(): method = '_fdb_' + action if not hasattr(self, method): raise NotImplementedError() getattr(self, method)(context, values) def create_rpc_dispatcher(self): '''Get the rpc dispatcher for this manager. If a manager would like to set an rpc API version, or support more than one class as the target of rpc messages, override this method. ''' return dispatcher.RpcDispatcher([self]) def provision_local_vlan(self, net_uuid, network_type, physical_network, segmentation_id): '''Provisions a local VLAN. :param net_uuid: the uuid of the network associated with this vlan. :param network_type: the network type ('gre', 'vxlan', 'vlan', 'flat', 'local') :param physical_network: the physical network for 'vlan' or 'flat' :param segmentation_id: the VID for 'vlan' or tunnel ID for 'tunnel' ''' if not self.available_local_vlans: LOG.error(_("No local VLAN available for net-id=%s"), net_uuid) return lvid = self.available_local_vlans.pop() LOG.info(_("Assigning %(vlan_id)s as local vlan for " "net-id=%(net_uuid)s"), {'vlan_id': lvid, 'net_uuid': net_uuid}) self.local_vlan_map[net_uuid] = LocalVLANMapping(lvid, network_type, physical_network, segmentation_id) if network_type in constants.TUNNEL_NETWORK_TYPES: if self.enable_tunneling: # outbound broadcast/multicast ofports = ','.join(self.tun_br_ofports[network_type].values()) if ofports: self.tun_br.mod_flow(table=constants.FLOOD_TO_TUN, priority=1, dl_vlan=lvid, actions="strip_vlan," "set_tunnel:%s,output:%s" % (segmentation_id, ofports)) # inbound from tunnels: set lvid in the right table # and resubmit to Table LEARN_FROM_TUN for mac learning self.tun_br.add_flow(table=constants.TUN_TABLE[network_type], priority=1, tun_id=segmentation_id, actions="mod_vlan_vid:%s,resubmit(,%s)" % (lvid, constants.LEARN_FROM_TUN)) else: LOG.error(_("Cannot provision %(network_type)s network for " "net-id=%(net_uuid)s - tunneling disabled"), {'network_type': network_type, 'net_uuid': net_uuid}) elif network_type == constants.TYPE_FLAT: if physical_network in self.phys_brs: # outbound br = self.phys_brs[physical_network] br.add_flow(priority=4, in_port=self.phys_ofports[physical_network], dl_vlan=lvid, actions="strip_vlan,normal") # inbound self.int_br.add_flow( priority=3, in_port=self.int_ofports[physical_network], dl_vlan=0xffff, actions="mod_vlan_vid:%s,normal" % lvid) else: LOG.error(_("Cannot provision flat network for " "net-id=%(net_uuid)s - no bridge for " "physical_network %(physical_network)s"), {'net_uuid': net_uuid, 'physical_network': physical_network}) elif network_type == constants.TYPE_VLAN: if physical_network in self.phys_brs: # outbound br = self.phys_brs[physical_network] br.add_flow(priority=4, in_port=self.phys_ofports[physical_network], dl_vlan=lvid, actions="mod_vlan_vid:%s,normal" % segmentation_id) # inbound self.int_br.add_flow(priority=3, in_port=self. int_ofports[physical_network], dl_vlan=segmentation_id, actions="mod_vlan_vid:%s,normal" % lvid) else: LOG.error(_("Cannot provision VLAN network for " "net-id=%(net_uuid)s - no bridge for " "physical_network %(physical_network)s"), {'net_uuid': net_uuid, 'physical_network': physical_network}) elif network_type == constants.TYPE_LOCAL: # no flows needed for local networks pass else: LOG.error(_("Cannot provision unknown network type " "%(network_type)s for net-id=%(net_uuid)s"), {'network_type': network_type, 'net_uuid': net_uuid}) def reclaim_local_vlan(self, net_uuid): '''Reclaim a local VLAN. :param net_uuid: the network uuid associated with this vlan. :param lvm: a LocalVLANMapping object that tracks (vlan, lsw_id, vif_ids) mapping. ''' lvm = self.local_vlan_map.pop(net_uuid, None) if lvm is None: LOG.debug(_("Network %s not used on agent."), net_uuid) return LOG.info(_("Reclaiming vlan = %(vlan_id)s from net-id = %(net_uuid)s"), {'vlan_id': lvm.vlan, 'net_uuid': net_uuid}) if lvm.network_type in constants.TUNNEL_NETWORK_TYPES: if self.enable_tunneling: self.tun_br.delete_flows( table=constants.TUN_TABLE[lvm.network_type], tun_id=lvm.segmentation_id) self.tun_br.delete_flows(dl_vlan=lvm.vlan) if self.l2_pop: # Try to remove tunnel ports if not used by other networks for ofport in lvm.tun_ofports: self.cleanup_tunnel_port(ofport, lvm.network_type) elif lvm.network_type == constants.TYPE_FLAT: if lvm.physical_network in self.phys_brs: # outbound br = self.phys_brs[lvm.physical_network] br.delete_flows(in_port=self.phys_ofports[lvm. physical_network], dl_vlan=lvm.vlan) # inbound br = self.int_br br.delete_flows(in_port=self.int_ofports[lvm.physical_network], dl_vlan=0xffff) elif lvm.network_type == constants.TYPE_VLAN: if lvm.physical_network in self.phys_brs: # outbound br = self.phys_brs[lvm.physical_network] br.delete_flows(in_port=self.phys_ofports[lvm. physical_network], dl_vlan=lvm.vlan) # inbound br = self.int_br br.delete_flows(in_port=self.int_ofports[lvm.physical_network], dl_vlan=lvm.segmentation_id) elif lvm.network_type == constants.TYPE_LOCAL: # no flows needed for local networks pass else: LOG.error(_("Cannot reclaim unknown network type " "%(network_type)s for net-id=%(net_uuid)s"), {'network_type': lvm.network_type, 'net_uuid': net_uuid}) self.available_local_vlans.add(lvm.vlan) def port_bound(self, port, net_uuid, network_type, physical_network, segmentation_id): '''Bind port to net_uuid/lsw_id and install flow for inbound traffic to vm. :param port: a ovslib.VifPort object. :param net_uuid: the net_uuid this port is to be associated with. :param network_type: the network type ('gre', 'vlan', 'flat', 'local') :param physical_network: the physical network for 'vlan' or 'flat' :param segmentation_id: the VID for 'vlan' or tunnel ID for 'tunnel' ''' if net_uuid not in self.local_vlan_map: self.provision_local_vlan(net_uuid, network_type, physical_network, segmentation_id) lvm = self.local_vlan_map[net_uuid] lvm.vif_ports[port.vif_id] = port self.int_br.set_db_attribute("Port", port.port_name, "tag", str(lvm.vlan)) if int(port.ofport) != -1: self.int_br.delete_flows(in_port=port.ofport) def port_unbound(self, vif_id, net_uuid=None): '''Unbind port. Removes corresponding local vlan mapping object if this is its last VIF. :param vif_id: the id of the vif :param net_uuid: the net_uuid this port is associated with. ''' if net_uuid is None: net_uuid = self.get_net_uuid(vif_id) if not self.local_vlan_map.get(net_uuid): LOG.info(_('port_unbound() net_uuid %s not in local_vlan_map'), net_uuid) return lvm = self.local_vlan_map[net_uuid] lvm.vif_ports.pop(vif_id, None) if not lvm.vif_ports: self.reclaim_local_vlan(net_uuid) def port_dead(self, port): '''Once a port has no binding, put it on the "dead vlan". :param port: a ovs_lib.VifPort object. ''' self.int_br.set_db_attribute("Port", port.port_name, "tag", DEAD_VLAN_TAG) self.int_br.add_flow(priority=2, in_port=port.ofport, actions="drop") def setup_integration_br(self): '''Setup the integration bridge. Create patch ports and remove all existing flows. :param bridge_name: the name of the integration bridge. :returns: the integration bridge ''' self.int_br.delete_port(cfg.CONF.OVS.int_peer_patch_port) self.int_br.remove_all_flows() # switch all traffic using L2 learning self.int_br.add_flow(priority=1, actions="normal") def setup_ancillary_bridges(self, integ_br, tun_br): '''Setup ancillary bridges - for example br-ex.''' ovs_bridges = set(ovs_lib.get_bridges(self.root_helper)) # Remove all known bridges ovs_bridges.remove(integ_br) if self.enable_tunneling: ovs_bridges.remove(tun_br) br_names = [self.phys_brs[physical_network].br_name for physical_network in self.phys_brs] ovs_bridges.difference_update(br_names) # Filter list of bridges to those that have external # bridge-id's configured br_names = [] for bridge in ovs_bridges: id = ovs_lib.get_bridge_external_bridge_id(self.root_helper, bridge) if id != bridge: br_names.append(bridge) ovs_bridges.difference_update(br_names) ancillary_bridges = [] for bridge in ovs_bridges: br = ovs_lib.OVSBridge(bridge, self.root_helper) LOG.info(_('Adding %s to list of bridges.'), bridge) ancillary_bridges.append(br) return ancillary_bridges def setup_tunnel_br(self, tun_br): '''Setup the tunnel bridge. Creates tunnel bridge, and links it to the integration bridge using a patch port. :param tun_br: the name of the tunnel bridge. ''' self.tun_br = ovs_lib.OVSBridge(tun_br, self.root_helper) self.tun_br.reset_bridge() self.patch_tun_ofport = self.int_br.add_patch_port( cfg.CONF.OVS.int_peer_patch_port, cfg.CONF.OVS.tun_peer_patch_port) self.patch_int_ofport = self.tun_br.add_patch_port( cfg.CONF.OVS.tun_peer_patch_port, cfg.CONF.OVS.int_peer_patch_port) if int(self.patch_tun_ofport) < 0 or int(self.patch_int_ofport) < 0: LOG.error(_("Failed to create OVS patch port. Cannot have " "tunneling enabled on this agent, since this version " "of OVS does not support tunnels or patch ports. " "Agent terminated!")) exit(1) self.tun_br.remove_all_flows() # Table 0 (default) will sort incoming traffic depending on in_port self.tun_br.add_flow(priority=1, in_port=self.patch_int_ofport, actions="resubmit(,%s)" % constants.PATCH_LV_TO_TUN) self.tun_br.add_flow(priority=0, actions="drop") # PATCH_LV_TO_TUN table will handle packets coming from patch_int # unicasts go to table UCAST_TO_TUN where remote adresses are learnt self.tun_br.add_flow(table=constants.PATCH_LV_TO_TUN, dl_dst="00:00:00:00:00:00/01:00:00:00:00:00", actions="resubmit(,%s)" % constants.UCAST_TO_TUN) # Broadcasts/multicasts go to table FLOOD_TO_TUN that handles flooding self.tun_br.add_flow(table=constants.PATCH_LV_TO_TUN, dl_dst="01:00:00:00:00:00/01:00:00:00:00:00", actions="resubmit(,%s)" % constants.FLOOD_TO_TUN) # Tables [tunnel_type]_TUN_TO_LV will set lvid depending on tun_id # for each tunnel type, and resubmit to table LEARN_FROM_TUN where # remote mac adresses will be learnt for tunnel_type in constants.TUNNEL_NETWORK_TYPES: self.tun_br.add_flow(table=constants.TUN_TABLE[tunnel_type], priority=0, actions="drop") # LEARN_FROM_TUN table will have a single flow using a learn action to # dynamically set-up flows in UCAST_TO_TUN corresponding to remote mac # adresses (assumes that lvid has already been set by a previous flow) learned_flow = ("table=%s," "priority=1," "hard_timeout=300," "NXM_OF_VLAN_TCI[0..11]," "NXM_OF_ETH_DST[]=NXM_OF_ETH_SRC[]," "load:0->NXM_OF_VLAN_TCI[]," "load:NXM_NX_TUN_ID[]->NXM_NX_TUN_ID[]," "output:NXM_OF_IN_PORT[]" % constants.UCAST_TO_TUN) # Once remote mac adresses are learnt, packet is outputed to patch_int self.tun_br.add_flow(table=constants.LEARN_FROM_TUN, priority=1, actions="learn(%s),output:%s" % (learned_flow, self.patch_int_ofport)) # Egress unicast will be handled in table UCAST_TO_TUN, where remote # mac adresses will be learned. For now, just add a default flow that # will resubmit unknown unicasts to table FLOOD_TO_TUN to treat them # as broadcasts/multicasts self.tun_br.add_flow(table=constants.UCAST_TO_TUN, priority=0, actions="resubmit(,%s)" % constants.FLOOD_TO_TUN) # FLOOD_TO_TUN will handle flooding in tunnels based on lvid, # for now, add a default drop action self.tun_br.add_flow(table=constants.FLOOD_TO_TUN, priority=0, actions="drop") def setup_physical_bridges(self, bridge_mappings): '''Setup the physical network bridges. Creates physical network bridges and links them to the integration bridge using veths. :param bridge_mappings: map physical network names to bridge names. ''' self.phys_brs = {} self.int_ofports = {} self.phys_ofports = {} ip_wrapper = ip_lib.IPWrapper(self.root_helper) for physical_network, bridge in bridge_mappings.iteritems(): LOG.info(_("Mapping physical network %(physical_network)s to " "bridge %(bridge)s"), {'physical_network': physical_network, 'bridge': bridge}) # setup physical bridge if not ip_lib.device_exists(bridge, self.root_helper): LOG.error(_("Bridge %(bridge)s for physical network " "%(physical_network)s does not exist. Agent " "terminated!"), {'physical_network': physical_network, 'bridge': bridge}) sys.exit(1) br = ovs_lib.OVSBridge(bridge, self.root_helper) br.remove_all_flows() br.add_flow(priority=1, actions="normal") self.phys_brs[physical_network] = br # create veth to patch physical bridge with integration bridge int_veth_name = constants.VETH_INTEGRATION_PREFIX + bridge self.int_br.delete_port(int_veth_name) phys_veth_name = constants.VETH_PHYSICAL_PREFIX + bridge br.delete_port(phys_veth_name) if ip_lib.device_exists(int_veth_name, self.root_helper): ip_lib.IPDevice(int_veth_name, self.root_helper).link.delete() # Give udev a chance to process its rules here, to avoid # race conditions between commands launched by udev rules # and the subsequent call to ip_wrapper.add_veth utils.execute(['/sbin/udevadm', 'settle', '--timeout=10']) int_veth, phys_veth = ip_wrapper.add_veth(int_veth_name, phys_veth_name) self.int_ofports[physical_network] = self.int_br.add_port(int_veth) self.phys_ofports[physical_network] = br.add_port(phys_veth) # block all untranslated traffic over veth between bridges self.int_br.add_flow(priority=2, in_port=self.int_ofports[physical_network], actions="drop") br.add_flow(priority=2, in_port=self.phys_ofports[physical_network], actions="drop") # enable veth to pass traffic int_veth.link.set_up() phys_veth.link.set_up() if self.veth_mtu: # set up mtu size for veth interfaces int_veth.link.set_mtu(self.veth_mtu) phys_veth.link.set_mtu(self.veth_mtu) def update_ports(self, registered_ports): ports = self.int_br.get_vif_port_set() if ports == registered_ports: return self.int_br_device_count = len(ports) added = ports - registered_ports removed = registered_ports - ports return {'current': ports, 'added': added, 'removed': removed} def update_ancillary_ports(self, registered_ports): ports = set() for bridge in self.ancillary_brs: ports |= bridge.get_vif_port_set() if ports == registered_ports: return added = ports - registered_ports removed = registered_ports - ports return {'current': ports, 'added': added, 'removed': removed} def treat_vif_port(self, vif_port, port_id, network_id, network_type, physical_network, segmentation_id, admin_state_up): if vif_port: if admin_state_up: self.port_bound(vif_port, network_id, network_type, physical_network, segmentation_id) else: self.port_dead(vif_port) else: LOG.debug(_("No VIF port for port %s defined on agent."), port_id) def setup_tunnel_port(self, port_name, remote_ip, tunnel_type): ofport = self.tun_br.add_tunnel_port(port_name, remote_ip, self.local_ip, tunnel_type, self.vxlan_udp_port) if ofport < 0: LOG.error(_("Failed to set-up %(type)s tunnel port to %(ip)s"), {'type': tunnel_type, 'ip': remote_ip}) return 0 self.tun_br_ofports[tunnel_type][remote_ip] = ofport # Add flow in default table to resubmit to the right # tunelling table (lvid will be set in the latter) self.tun_br.add_flow(priority=1, in_port=ofport, actions="resubmit(,%s)" % constants.TUN_TABLE[tunnel_type]) ofports = ','.join(self.tun_br_ofports[tunnel_type].values()) if ofports and not self.l2_pop: # Update flooding flows to include the new tunnel for network_id, vlan_mapping in self.local_vlan_map.iteritems(): if vlan_mapping.network_type == tunnel_type: self.tun_br.mod_flow(table=constants.FLOOD_TO_TUN, priority=1, dl_vlan=vlan_mapping.vlan, actions="strip_vlan," "set_tunnel:%s,output:%s" % (vlan_mapping.segmentation_id, ofports)) return ofport def cleanup_tunnel_port(self, tun_ofport, tunnel_type): # Check if this tunnel port is still used for lvm in self.local_vlan_map.values(): if tun_ofport in lvm.tun_ofports: break # If not, remove it else: for remote_ip, ofport in self.tun_br_ofports[tunnel_type].items(): if ofport == tun_ofport: port_name = '%s-%s' % (tunnel_type, remote_ip) self.tun_br.delete_port(port_name) self.tun_br_ofports[tunnel_type].pop(remote_ip, None) def treat_devices_added(self, devices): resync = False self.sg_agent.prepare_devices_filter(devices) for device in devices: LOG.info(_("Port %s added"), device) try: details = self.plugin_rpc.get_device_details(self.context, device, self.agent_id) except Exception as e: LOG.debug(_("Unable to get port details for " "%(device)s: %(e)s"), {'device': device, 'e': e}) resync = True continue port = self.int_br.get_vif_port_by_id(details['device']) if 'port_id' in details: LOG.info(_("Port %(device)s updated. Details: %(details)s"), {'device': device, 'details': details}) self.treat_vif_port(port, details['port_id'], details['network_id'], details['network_type'], details['physical_network'], details['segmentation_id'], details['admin_state_up']) # update plugin about port status self.plugin_rpc.update_device_up(self.context, device, self.agent_id, cfg.CONF.host) else: LOG.debug(_("Device %s not defined on plugin"), device) if (port and int(port.ofport) != -1): self.port_dead(port) return resync def treat_ancillary_devices_added(self, devices): resync = False for device in devices: LOG.info(_("Ancillary Port %s added"), device) try: self.plugin_rpc.get_device_details(self.context, device, self.agent_id) except Exception as e: LOG.debug(_("Unable to get port details for " "%(device)s: %(e)s"), {'device': device, 'e': e}) resync = True continue # update plugin about port status self.plugin_rpc.update_device_up(self.context, device, self.agent_id, cfg.CONF.host) return resync def treat_devices_removed(self, devices): resync = False self.sg_agent.remove_devices_filter(devices) for device in devices: LOG.info(_("Attachment %s removed"), device) try: details = self.plugin_rpc.update_device_down(self.context, device, self.agent_id, cfg.CONF.host) except Exception as e: LOG.debug(_("port_removed failed for %(device)s: %(e)s"), {'device': device, 'e': e}) resync = True continue if details['exists']: LOG.info(_("Port %s updated."), device) # Nothing to do regarding local networking else: LOG.debug(_("Device %s not defined on plugin"), device) self.port_unbound(device) return resync def treat_ancillary_devices_removed(self, devices): resync = False for device in devices: LOG.info(_("Attachment %s removed"), device) try: details = self.plugin_rpc.update_device_down(self.context, device, self.agent_id, cfg.CONF.host) except Exception as e: LOG.debug(_("port_removed failed for %(device)s: %(e)s"), {'device': device, 'e': e}) resync = True continue if details['exists']: LOG.info(_("Port %s updated."), device) # Nothing to do regarding local networking else: LOG.debug(_("Device %s not defined on plugin"), device) return resync def process_network_ports(self, port_info): resync_a = False resync_b = False if 'added' in port_info: resync_a = self.treat_devices_added(port_info['added']) if 'removed' in port_info: resync_b = self.treat_devices_removed(port_info['removed']) # If one of the above opertaions fails => resync with plugin return (resync_a | resync_b) def process_ancillary_network_ports(self, port_info): resync_a = False resync_b = False if 'added' in port_info: resync_a = self.treat_ancillary_devices_added(port_info['added']) if 'removed' in port_info: resync_b = self.treat_ancillary_devices_removed( port_info['removed']) # If one of the above opertaions fails => resync with plugin return (resync_a | resync_b) def tunnel_sync(self): resync = False try: for tunnel_type in self.tunnel_types: details = self.plugin_rpc.tunnel_sync(self.context, self.local_ip, tunnel_type) if not self.l2_pop: tunnels = details['tunnels'] for tunnel in tunnels: if self.local_ip != tunnel['ip_address']: tunnel_id = tunnel.get('id', tunnel['ip_address']) tun_name = '%s-%s' % (tunnel_type, tunnel_id) self.setup_tunnel_port(tun_name, tunnel['ip_address'], tunnel_type) except Exception as e: LOG.debug(_("Unable to sync tunnel IP %(local_ip)s: %(e)s"), {'local_ip': self.local_ip, 'e': e}) resync = True return resync def rpc_loop(self, polling_manager=None): if not polling_manager: polling_manager = polling.AlwaysPoll() sync = True ports = set() ancillary_ports = set() tunnel_sync = True while True: try: start = time.time() if sync: LOG.info(_("Agent out of sync with plugin!")) ports.clear() ancillary_ports.clear() sync = False polling_manager.force_polling() # Notify the plugin of tunnel IP if self.enable_tunneling and tunnel_sync: LOG.info(_("Agent tunnel out of sync with plugin!")) tunnel_sync = self.tunnel_sync() if polling_manager.is_polling_required: port_info = self.update_ports(ports) # notify plugin about port deltas if port_info: LOG.debug(_("Agent loop has new devices!")) # If treat devices fails - must resync with plugin sync = self.process_network_ports(port_info) ports = port_info['current'] # Treat ancillary devices if they exist if self.ancillary_brs: port_info = self.update_ancillary_ports( ancillary_ports) if port_info: rc = self.process_ancillary_network_ports( port_info) ancillary_ports = port_info['current'] sync = sync | rc polling_manager.polling_completed() except Exception: LOG.exception(_("Error in agent event loop")) sync = True tunnel_sync = True # sleep till end of polling interval elapsed = (time.time() - start) if (elapsed < self.polling_interval): time.sleep(self.polling_interval - elapsed) else: LOG.debug(_("Loop iteration exceeded interval " "(%(polling_interval)s vs. %(elapsed)s)!"), {'polling_interval': self.polling_interval, 'elapsed': elapsed}) def daemon_loop(self): with polling.get_polling_manager(self.minimize_polling, self.root_helper) as pm: self.rpc_loop(polling_manager=pm) def check_ovs_version(min_required_version, root_helper): LOG.debug(_("Checking OVS version for VXLAN support")) installed_klm_version = ovs_lib.get_installed_ovs_klm_version() installed_usr_version = ovs_lib.get_installed_ovs_usr_version(root_helper) # First check the userspace version if installed_usr_version: if dist_version.StrictVersion( installed_usr_version) < dist_version.StrictVersion( min_required_version): LOG.error(_('Failed userspace version check for Open ' 'vSwitch with VXLAN support. To use ' 'VXLAN tunnels with OVS, please ensure ' 'the OVS version is %s ' 'or newer!'), min_required_version) sys.exit(1) # Now check the kernel version if installed_klm_version: if dist_version.StrictVersion( installed_klm_version) < dist_version.StrictVersion( min_required_version): LOG.error(_('Failed kernel version check for Open ' 'vSwitch with VXLAN support. To use ' 'VXLAN tunnels with OVS, please ensure ' 'the OVS version is %s or newer!'), min_required_version) raise SystemExit(1) else: LOG.warning(_('Cannot determine kernel Open vSwitch version, ' 'please ensure your Open vSwitch kernel module ' 'is at least version %s to support VXLAN ' 'tunnels.'), min_required_version) else: LOG.warning(_('Unable to determine Open vSwitch version. Please ' 'ensure that its version is %s or newer to use VXLAN ' 'tunnels with OVS.'), min_required_version) raise SystemExit(1) def create_agent_config_map(config): """Create a map of agent config parameters. :param config: an instance of cfg.CONF :returns: a map of agent configuration parameters """ try: bridge_mappings = q_utils.parse_mappings(config.OVS.bridge_mappings) except ValueError as e: raise ValueError(_("Parsing bridge_mappings failed: %s.") % e) kwargs = dict( integ_br=config.OVS.integration_bridge, tun_br=config.OVS.tunnel_bridge, local_ip=config.OVS.local_ip, bridge_mappings=bridge_mappings, root_helper=config.AGENT.root_helper, polling_interval=config.AGENT.polling_interval, minimize_polling=config.AGENT.minimize_polling, tunnel_types=config.AGENT.tunnel_types, veth_mtu=config.AGENT.veth_mtu, l2_population=config.AGENT.l2_population, ) # If enable_tunneling is TRUE, set tunnel_type to default to GRE if config.OVS.enable_tunneling and not kwargs['tunnel_types']: kwargs['tunnel_types'] = [constants.TYPE_GRE] # Verify the tunnel_types specified are valid for tun in kwargs['tunnel_types']: if tun not in constants.TUNNEL_NETWORK_TYPES: msg = _('Invalid tunnel type specificed: %s'), tun raise ValueError(msg) if not kwargs['local_ip']: msg = _('Tunneling cannot be enabled without a valid local_ip.') raise ValueError(msg) return kwargs def main(): eventlet.monkey_patch() cfg.CONF.register_opts(ip_lib.OPTS) cfg.CONF(project='neutron') logging_config.setup_logging(cfg.CONF) legacy.modernize_quantum_config(cfg.CONF) try: agent_config = create_agent_config_map(cfg.CONF) except ValueError as e: LOG.error(_('%s Agent terminated!'), e) sys.exit(1) is_xen_compute_host = 'rootwrap-xen-dom0' in agent_config['root_helper'] if is_xen_compute_host: # Force ip_lib to always use the root helper to ensure that ip # commands target xen dom0 rather than domU. cfg.CONF.set_default('ip_lib_force_root', True) plugin = OVSNeutronAgent(**agent_config) # Start everything. LOG.info(_("Agent initialized successfully, now running... ")) plugin.daemon_loop() sys.exit(0) if __name__ == "__main__": main()