# vim: tabstop=4 shiftwidth=4 softtabstop=4 #Copyright 2013 Cloudbase Solutions SRL #Copyright 2013 Pedro Navarro Perez #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: Pedro Navarro Perez # @author: Alessandro Pilotti, Cloudbase Solutions Srl import eventlet import platform import re import sys import time from oslo.config import cfg from quantum.agent import rpc as agent_rpc from quantum.common import config as logging_config from quantum.common import topics from quantum import context from quantum.openstack.common import log as logging from quantum.openstack.common.rpc import dispatcher from quantum.plugins.hyperv.agent import utils from quantum.plugins.hyperv.common import constants LOG = logging.getLogger(__name__) agent_opts = [ cfg.ListOpt( 'physical_network_vswitch_mappings', default=[], help=_('List of : ' 'where the physical networks can be expressed with ' 'wildcards, e.g.: ."*:external"')), cfg.StrOpt( 'local_network_vswitch', default='private', help=_('Private vswitch name used for local networks')), cfg.IntOpt('polling_interval', default=2, help=_("The number of seconds the agent will wait between " "polling for local device changes.")), ] CONF = cfg.CONF CONF.register_opts(agent_opts, "AGENT") class HyperVQuantumAgent(object): # Set RPC API version to 1.0 by default. RPC_API_VERSION = '1.0' def __init__(self): self._utils = utils.HyperVUtils() self._polling_interval = CONF.AGENT.polling_interval self._load_physical_network_mappings() self._network_vswitch_map = {} self._setup_rpc() def _setup_rpc(self): self.agent_id = 'hyperv_%s' % platform.node() self.topic = topics.AGENT self.plugin_rpc = agent_rpc.PluginApi(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], [topics.PORT, topics.DELETE], [constants.TUNNEL, topics.UPDATE]] self.connection = agent_rpc.create_consumers(self.dispatcher, self.topic, consumers) def _load_physical_network_mappings(self): self._physical_network_mappings = {} for mapping in CONF.AGENT.physical_network_vswitch_mappings: parts = mapping.split(':') if len(parts) != 2: LOG.debug(_('Invalid physical network mapping: %s'), mapping) else: pattern = re.escape(parts[0].strip()).replace('\\*', '.*') vswitch = parts[1].strip() self._physical_network_mappings[re.compile(pattern)] = vswitch def _get_vswitch_for_physical_network(self, phys_network_name): for compre in self._physical_network_mappings: if phys_network_name is None: phys_network_name = '' if compre.match(phys_network_name): return self._physical_network_mappings[compre] # Not found in the mappings, the vswitch has the same name return phys_network_name def _get_network_vswitch_map_by_port_id(self, port_id): for network_id, map in self._network_vswitch_map.iteritems(): if port_id in map['ports']: return (network_id, map) def network_delete(self, context, network_id=None): LOG.debug(_("network_delete received. " "Deleting network %s"), network_id) # The network may not be defined on this agent if network_id in self._network_vswitch_map: self._reclaim_local_network(network_id) else: LOG.debug(_("Network %s not defined on agent."), network_id) def port_delete(self, context, port_id=None): LOG.debug(_("port_delete received")) self._port_unbound(port_id) def port_update(self, context, port=None, network_type=None, segmentation_id=None, physical_network=None): LOG.debug(_("port_update received")) self._treat_vif_port( port['id'], port['network_id'], network_type, physical_network, segmentation_id, port['admin_state_up']) def _create_rpc_dispatcher(self): return dispatcher.RpcDispatcher([self]) def _get_vswitch_name(self, network_type, physical_network): if network_type != constants.TYPE_LOCAL: vswitch_name = self._get_vswitch_for_physical_network( physical_network) else: vswitch_name = CONF.AGENT.local_network_vswitch return vswitch_name def _provision_network(self, port_id, net_uuid, network_type, physical_network, segmentation_id): LOG.info(_("Provisioning network %s"), net_uuid) vswitch_name = self._get_vswitch_name(network_type, physical_network) if network_type == constants.TYPE_VLAN: self._utils.add_vlan_id_to_vswitch(segmentation_id, vswitch_name) elif network_type == constants.TYPE_FLAT: self._utils.set_vswitch_mode_access(vswitch_name) elif network_type == constants.TYPE_LOCAL: #TODO (alexpilotti): Check that the switch type is private #or create it if not existing pass else: raise utils.HyperVException(_("Cannot provision unknown network " "type %s for network %s"), network_type, net_uuid) map = { 'network_type': network_type, 'vswitch_name': vswitch_name, 'ports': [], 'vlan_id': segmentation_id} self._network_vswitch_map[net_uuid] = map def _reclaim_local_network(self, net_uuid): LOG.info(_("Reclaiming local network %s"), net_uuid) map = self._network_vswitch_map[net_uuid] if map['network_type'] == constants.TYPE_VLAN: LOG.info(_("Reclaiming VLAN ID %s "), map['vlan_id']) self._utils.remove_vlan_id_from_vswitch( map['vlan_id'], map['vswitch_name']) else: raise utils.HyperVException(_("Cannot reclaim unsupported " "network type %s for network %s"), map['network_type'], net_uuid) del self._network_vswitch_map[net_uuid] def _port_bound(self, port_id, net_uuid, network_type, physical_network, segmentation_id): LOG.debug(_("Binding port %s"), port_id) if net_uuid not in self._network_vswitch_map: self._provision_network( port_id, net_uuid, network_type, physical_network, segmentation_id) map = self._network_vswitch_map[net_uuid] map['ports'].append(port_id) self._utils.connect_vnic_to_vswitch(map['vswitch_name'], port_id) if network_type == constants.TYPE_VLAN: LOG.info(_('Binding VLAN ID %s to switch port %s'), segmentation_id, port_id) self._utils.set_vswitch_port_vlan_id( segmentation_id, port_id) elif network_type == constants.TYPE_FLAT: #Nothing to do pass elif network_type == constants.TYPE_LOCAL: #Nothing to do pass else: LOG.error(_('Unsupported network type %s'), network_type) def _port_unbound(self, port_id): (net_uuid, map) = self._get_network_vswitch_map_by_port_id(port_id) if net_uuid not in self._network_vswitch_map: LOG.info(_('Network %s is not avalailable on this agent'), net_uuid) return LOG.debug(_("Unbinding port %s"), port_id) self._utils.disconnect_switch_port(map['vswitch_name'], port_id, True) if not map['ports']: self._reclaim_local_network(net_uuid) def _update_ports(self, registered_ports): ports = self._utils.get_vnic_ids() 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, port_id, network_id, network_type, physical_network, segmentation_id, admin_state_up): if self._utils.vnic_port_exists(port_id): if admin_state_up: self._port_bound(port_id, network_id, network_type, physical_network, segmentation_id) else: self._port_unbound(port_id) else: LOG.debug(_("No port %s defined on agent."), port_id) def _treat_devices_added(self, devices): resync = False for device in devices: LOG.info(_("Adding port %s") % device) try: device_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: %s"), device, e) resync = True continue if 'port_id' in device_details: LOG.info(_( "Port %(device)s updated. Details: %(device_details)s") % locals()) self._treat_vif_port( device_details['port_id'], device_details['network_id'], device_details['network_type'], device_details['physical_network'], device_details['segmentation_id'], device_details['admin_state_up']) return resync def _treat_devices_removed(self, devices): resync = False for device in devices: LOG.info(_("Removing port %s"), device) try: self.plugin_rpc.update_device_down(self.context, device, self.agent_id) except Exception as e: LOG.debug(_("Removing port failed for device %s: %s"), device, e) resync = True continue self._port_unbound(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 operations fails => resync with plugin return (resync_a | resync_b) def daemon_loop(self): sync = True ports = set() while True: try: start = time.time() if sync: LOG.info(_("Agent out of sync with plugin!")) ports.clear() sync = False 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'] except Exception as e: LOG.exception(_("Error in agent event loop: %s"), e) 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 main(): eventlet.monkey_patch() cfg.CONF(project='quantum') logging_config.setup_logging(cfg.CONF) plugin = HyperVQuantumAgent() # Start everything. LOG.info(_("Agent initialized successfully, now running... ")) plugin.daemon_loop() sys.exit(0)