vmware-nsx/neutron/plugins/nec/nec_plugin.py
Russell Bryant f76110be99 Convert several uses of RpcCallback
Convert several places in the code that were using the RpcCallback
compatibility class.  This class eased the transition to
oslo.messaging.  This patch drops the usage of this class in favor of
direct usage of the appropriate oslo.messaging API.

Part of blueprint drop-rpc-compat.

Change-Id: I955958e836635d43dabc7b39d050c1418b18cf8f
2014-12-04 16:35:21 +00:00

763 lines
34 KiB
Python

# Copyright 2012-2013 NEC Corporation. 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.
from oslo import messaging
from oslo.utils import excutils
from oslo.utils import importutils
from neutron.agent import securitygroups_rpc as sg_rpc
from neutron.api import extensions as neutron_extensions
from neutron.api.rpc.agentnotifiers import dhcp_rpc_agent_api
from neutron.api.rpc.handlers import dhcp_rpc
from neutron.api.rpc.handlers import l3_rpc
from neutron.api.rpc.handlers import metadata_rpc
from neutron.api.rpc.handlers import securitygroups_rpc
from neutron.api.v2 import attributes as attrs
from neutron.common import constants as const
from neutron.common import exceptions as n_exc
from neutron.common import rpc as n_rpc
from neutron.common import topics
from neutron.db import agents_db
from neutron.db import agentschedulers_db
from neutron.db import allowedaddresspairs_db as addr_pair_db
from neutron.db import db_base_plugin_v2
from neutron.db import external_net_db
from neutron.db import portbindings_base
from neutron.db import portbindings_db
from neutron.db import quota_db # noqa
from neutron.db import securitygroups_rpc_base as sg_db_rpc
from neutron.extensions import allowedaddresspairs as addr_pair
from neutron.extensions import portbindings
from neutron.openstack.common import log as logging
from neutron.openstack.common import uuidutils
from neutron.plugins.common import constants as svc_constants
from neutron.plugins.nec.common import config
from neutron.plugins.nec.common import exceptions as nexc
from neutron.plugins.nec.common import utils as necutils
from neutron.plugins.nec.db import api as ndb
from neutron.plugins.nec.db import router as rdb
from neutron.plugins.nec import extensions
from neutron.plugins.nec import nec_router
from neutron.plugins.nec import ofc_manager
from neutron.plugins.nec import packet_filter
LOG = logging.getLogger(__name__)
class SecurityGroupServerRpcMixin(sg_db_rpc.SecurityGroupServerRpcMixin):
@staticmethod
def get_port_from_device(device):
port = ndb.get_port_from_device(device)
if port:
port['device'] = device
LOG.debug("NECPluginV2.get_port_from_device() called, "
"device=%(device)s => %(ret)s.",
{'device': device, 'ret': port})
return port
class NECPluginV2(db_base_plugin_v2.NeutronDbPluginV2,
external_net_db.External_net_db_mixin,
nec_router.RouterMixin,
SecurityGroupServerRpcMixin,
agentschedulers_db.DhcpAgentSchedulerDbMixin,
nec_router.L3AgentSchedulerDbMixin,
packet_filter.PacketFilterMixin,
portbindings_db.PortBindingMixin,
addr_pair_db.AllowedAddressPairsMixin):
"""NECPluginV2 controls an OpenFlow Controller.
The Neutron NECPluginV2 maps L2 logical networks to L2 virtualized networks
on an OpenFlow enabled network. An OpenFlow Controller (OFC) provides
L2 network isolation without VLAN and this plugin controls the OFC.
NOTE: This is for Neutron API V2. Codes for V1.0 and V1.1 are available
at https://github.com/nec-openstack/neutron-openflow-plugin .
The port binding extension enables an external application relay
information to and from the plugin.
"""
_supported_extension_aliases = ["agent",
"allowed-address-pairs",
"binding",
"dhcp_agent_scheduler",
"external-net",
"ext-gw-mode",
"extraroute",
"l3_agent_scheduler",
"packet-filter",
"quotas",
"router",
"router_provider",
"security-group",
]
@property
def supported_extension_aliases(self):
if not hasattr(self, '_aliases'):
aliases = self._supported_extension_aliases[:]
sg_rpc.disable_security_group_extension_by_config(aliases)
self.remove_packet_filter_extension_if_disabled(aliases)
self._aliases = aliases
return self._aliases
def __init__(self):
super(NECPluginV2, self).__init__()
self.ofc = ofc_manager.OFCManager(self.safe_reference)
self.base_binding_dict = self._get_base_binding_dict()
portbindings_base.register_port_dict_function()
neutron_extensions.append_api_extensions_path(extensions.__path__)
self.setup_rpc()
self.l3_rpc_notifier = nec_router.L3AgentNotifyAPI()
self.network_scheduler = importutils.import_object(
config.CONF.network_scheduler_driver
)
self.router_scheduler = importutils.import_object(
config.CONF.router_scheduler_driver
)
nec_router.load_driver(self.safe_reference, self.ofc)
self.port_handlers = {
'create': {
const.DEVICE_OWNER_ROUTER_GW: self.create_router_port,
const.DEVICE_OWNER_ROUTER_INTF: self.create_router_port,
'default': self.activate_port_if_ready,
},
'delete': {
const.DEVICE_OWNER_ROUTER_GW: self.delete_router_port,
const.DEVICE_OWNER_ROUTER_INTF: self.delete_router_port,
'default': self.deactivate_port,
}
}
def setup_rpc(self):
self.service_topics = {svc_constants.CORE: topics.PLUGIN,
svc_constants.L3_ROUTER_NAT: topics.L3PLUGIN}
self.conn = n_rpc.create_connection(new=True)
self.notifier = NECPluginV2AgentNotifierApi(topics.AGENT)
self.agent_notifiers[const.AGENT_TYPE_DHCP] = (
dhcp_rpc_agent_api.DhcpAgentNotifyAPI()
)
self.agent_notifiers[const.AGENT_TYPE_L3] = (
nec_router.L3AgentNotifyAPI()
)
# NOTE: callback_sg is referred to from the sg unit test.
self.callback_sg = securitygroups_rpc.SecurityGroupServerRpcCallback()
self.endpoints = [
NECPluginV2RPCCallbacks(self.safe_reference),
dhcp_rpc.DhcpRpcCallback(),
l3_rpc.L3RpcCallback(),
self.callback_sg,
agents_db.AgentExtRpcCallback(),
metadata_rpc.MetadataRpcCallback()]
for svc_topic in self.service_topics.values():
self.conn.create_consumer(svc_topic, self.endpoints, fanout=False)
# Consume from all consumers in threads
self.conn.consume_in_threads()
def _update_resource_status(self, context, resource, id, status):
"""Update status of specified resource."""
request = {'status': status}
obj_getter = getattr(self, '_get_%s' % resource)
with context.session.begin(subtransactions=True):
obj_db = obj_getter(context, id)
obj_db.update(request)
def _update_resource_status_if_changed(self, context, resource_type,
resource_dict, new_status):
if resource_dict['status'] != new_status:
self._update_resource_status(context, resource_type,
resource_dict['id'],
new_status)
resource_dict['status'] = new_status
def _check_ofc_tenant_in_use(self, context, tenant_id):
"""Check if the specified tenant is used."""
# All networks are created on OFC
filters = {'tenant_id': [tenant_id]}
if self.get_networks_count(context, filters=filters):
return True
if rdb.get_router_count_by_provider(context.session,
nec_router.PROVIDER_OPENFLOW,
tenant_id):
return True
return False
def _cleanup_ofc_tenant(self, context, tenant_id):
if not self._check_ofc_tenant_in_use(context, tenant_id):
try:
if self.ofc.exists_ofc_tenant(context, tenant_id):
self.ofc.delete_ofc_tenant(context, tenant_id)
else:
LOG.debug(_('_cleanup_ofc_tenant: No OFC tenant for %s'),
tenant_id)
except (nexc.OFCException, nexc.OFCMappingNotFound) as exc:
reason = _("delete_ofc_tenant() failed due to %s") % exc
LOG.warn(reason)
def activate_port_if_ready(self, context, port, network=None):
"""Activate port by creating port on OFC if ready.
Conditions to activate port on OFC are:
* port admin_state is UP
* network admin_state is UP
* portinfo are available (to identify port on OFC)
"""
if not network:
network = super(NECPluginV2, self).get_network(context,
port['network_id'])
if not port['admin_state_up']:
LOG.debug(_("activate_port_if_ready(): skip, "
"port.admin_state_up is False."))
return port
elif not network['admin_state_up']:
LOG.debug(_("activate_port_if_ready(): skip, "
"network.admin_state_up is False."))
return port
elif not ndb.get_portinfo(context.session, port['id']):
LOG.debug(_("activate_port_if_ready(): skip, "
"no portinfo for this port."))
return port
elif self.ofc.exists_ofc_port(context, port['id']):
LOG.debug(_("activate_port_if_ready(): skip, "
"ofc_port already exists."))
return port
try:
self.ofc.create_ofc_port(context, port['id'], port)
port_status = const.PORT_STATUS_ACTIVE
except (nexc.OFCException, nexc.OFCMappingNotFound) as exc:
LOG.error(_("create_ofc_port() failed due to %s"), exc)
port_status = const.PORT_STATUS_ERROR
if port_status != port['status']:
self._update_resource_status(context, "port", port['id'],
port_status)
port['status'] = port_status
return port
def deactivate_port(self, context, port, raise_exc=True):
"""Deactivate port by deleting port from OFC if exists."""
if not self.ofc.exists_ofc_port(context, port['id']):
LOG.debug(_("deactivate_port(): skip, ofc_port for port=%s "
"does not exist."), port['id'])
return port
try:
self.ofc.delete_ofc_port(context, port['id'], port)
self._update_resource_status_if_changed(
context, "port", port, const.PORT_STATUS_DOWN)
return port
except (nexc.OFCResourceNotFound, nexc.OFCMappingNotFound):
# There is a case where multiple delete_port operation are
# running concurrently. For example, delete_port from
# release_dhcp_port and deletion of network owned ports in
# delete_network. In such cases delete_ofc_port may receive
# 404 error from OFC.
# Also there is a case where neutron port is deleted
# between exists_ofc_port and get_ofc_id in delete_ofc_port.
# In this case OFCMappingNotFound is raised.
# These two cases are valid situations.
LOG.info(_("deactivate_port(): OFC port for port=%s is "
"already removed."), port['id'])
# The port is already removed, so there is no need
# to update status in the database.
port['status'] = const.PORT_STATUS_DOWN
return port
except nexc.OFCException as exc:
with excutils.save_and_reraise_exception() as ctxt:
LOG.error(_("Failed to delete port=%(port)s from OFC: "
"%(exc)s"), {'port': port['id'], 'exc': exc})
self._update_resource_status_if_changed(
context, "port", port, const.PORT_STATUS_ERROR)
if not raise_exc:
ctxt.reraise = False
return port
def _net_status(self, network):
# NOTE: NEC Plugin accept admin_state_up. When it's False, this plugin
# deactivate all ports on the network to drop all packet and show
# status='DOWN' to users. But the network is kept defined on OFC.
if network['network']['admin_state_up']:
return const.NET_STATUS_ACTIVE
else:
return const.NET_STATUS_DOWN
def create_network(self, context, network):
"""Create a new network entry on DB, and create it on OFC."""
LOG.debug(_("NECPluginV2.create_network() called, "
"network=%s ."), network)
tenant_id = self._get_tenant_id_for_create(context, network['network'])
net_name = network['network']['name']
net_id = uuidutils.generate_uuid()
#set up default security groups
self._ensure_default_security_group(context, tenant_id)
network['network']['id'] = net_id
network['network']['status'] = self._net_status(network)
try:
if not self.ofc.exists_ofc_tenant(context, tenant_id):
self.ofc.create_ofc_tenant(context, tenant_id)
self.ofc.create_ofc_network(context, tenant_id, net_id, net_name)
except (nexc.OFCException, nexc.OFCMappingNotFound) as exc:
LOG.error(_("Failed to create network id=%(id)s on "
"OFC: %(exc)s"), {'id': net_id, 'exc': exc})
network['network']['status'] = const.NET_STATUS_ERROR
with context.session.begin(subtransactions=True):
new_net = super(NECPluginV2, self).create_network(context, network)
self._process_l3_create(context, new_net, network['network'])
return new_net
def update_network(self, context, id, network):
"""Update network and handle resources associated with the network.
Update network entry on DB. If 'admin_state_up' was changed, activate
or deactivate ports and packetfilters associated with the network.
"""
LOG.debug(_("NECPluginV2.update_network() called, "
"id=%(id)s network=%(network)s ."),
{'id': id, 'network': network})
if 'admin_state_up' in network['network']:
network['network']['status'] = self._net_status(network)
session = context.session
with session.begin(subtransactions=True):
old_net = super(NECPluginV2, self).get_network(context, id)
new_net = super(NECPluginV2, self).update_network(context, id,
network)
self._process_l3_update(context, new_net, network['network'])
changed = (old_net['admin_state_up'] != new_net['admin_state_up'])
if changed and not new_net['admin_state_up']:
# disable all active ports of the network
filters = dict(network_id=[id], status=[const.PORT_STATUS_ACTIVE])
ports = super(NECPluginV2, self).get_ports(context,
filters=filters)
for port in ports:
# If some error occurs, status of errored port is set to ERROR.
# This is avoids too many rollback.
# TODO(amotoki): Raise an exception after all port operations
# are finished to inform the caller of API of the failure.
self.deactivate_port(context, port, raise_exc=False)
elif changed and new_net['admin_state_up']:
# enable ports of the network
filters = dict(network_id=[id], status=[const.PORT_STATUS_DOWN],
admin_state_up=[True])
ports = super(NECPluginV2, self).get_ports(context,
filters=filters)
for port in ports:
self.activate_port_if_ready(context, port, new_net)
return new_net
def delete_network(self, context, id):
"""Delete network and packet_filters associated with the network.
Delete network entry from DB and OFC. Then delete packet_filters
associated with the network. If the network is the last resource
of the tenant, delete unnessary ofc_tenant.
"""
LOG.debug(_("NECPluginV2.delete_network() called, id=%s ."), id)
net_db = self._get_network(context, id)
tenant_id = net_db['tenant_id']
ports = self.get_ports(context, filters={'network_id': [id]})
# check if there are any tenant owned ports in-use;
# consider ports owned by floating ips as auto_delete as if there are
# no other tenant owned ports, those floating ips are disassociated
# and will be auto deleted with self._process_l3_delete()
only_auto_del = all(p['device_owner'] in
db_base_plugin_v2.AUTO_DELETE_PORT_OWNERS or
p['device_owner'] == const.DEVICE_OWNER_FLOATINGIP
for p in ports)
if not only_auto_del:
raise n_exc.NetworkInUse(net_id=id)
self._process_l3_delete(context, id)
# Make sure auto-delete ports on OFC are deleted.
# If an error occurs during port deletion,
# delete_network will be aborted.
for port in [p for p in ports if p['device_owner']
in db_base_plugin_v2.AUTO_DELETE_PORT_OWNERS]:
port = self.deactivate_port(context, port)
# delete all packet_filters of the network from the controller
for pf in net_db.packetfilters:
self.delete_packet_filter(context, pf['id'])
if self.ofc.exists_ofc_network(context, id):
try:
self.ofc.delete_ofc_network(context, id, net_db)
except (nexc.OFCException, nexc.OFCMappingNotFound) as exc:
with excutils.save_and_reraise_exception():
reason = _("delete_network() failed due to %s") % exc
LOG.error(reason)
self._update_resource_status(
context, "network", net_db['id'],
const.NET_STATUS_ERROR)
super(NECPluginV2, self).delete_network(context, id)
self._cleanup_ofc_tenant(context, tenant_id)
def _get_base_binding_dict(self):
sg_enabled = sg_rpc.is_firewall_enabled()
vif_details = {portbindings.CAP_PORT_FILTER: sg_enabled,
portbindings.OVS_HYBRID_PLUG: sg_enabled}
binding = {portbindings.VIF_TYPE: portbindings.VIF_TYPE_OVS,
portbindings.VIF_DETAILS: vif_details}
return binding
def _extend_port_dict_binding_portinfo(self, port_res, portinfo):
if portinfo:
port_res[portbindings.PROFILE] = {
'datapath_id': portinfo['datapath_id'],
'port_no': portinfo['port_no'],
}
elif portbindings.PROFILE in port_res:
del port_res[portbindings.PROFILE]
def _validate_portinfo(self, profile):
key_specs = {
'datapath_id': {'type:string': None, 'required': True},
'port_no': {'type:non_negative': None, 'required': True,
'convert_to': attrs.convert_to_int}
}
msg = attrs._validate_dict_or_empty(profile, key_specs=key_specs)
if msg:
raise n_exc.InvalidInput(error_message=msg)
datapath_id = profile.get('datapath_id')
port_no = profile.get('port_no')
try:
dpid = int(datapath_id, 16)
except ValueError:
raise nexc.ProfilePortInfoInvalidDataPathId()
if dpid > 0xffffffffffffffffL:
raise nexc.ProfilePortInfoInvalidDataPathId()
# Make sure dpid is a hex string beginning with 0x.
dpid = hex(dpid)
if int(port_no) > 65535:
raise nexc.ProfilePortInfoInvalidPortNo()
return {'datapath_id': dpid, 'port_no': port_no}
def _process_portbindings_portinfo_create(self, context, port_data, port):
"""Add portinfo according to bindings:profile in create_port().
:param context: neutron api request context
:param port_data: port attributes passed in PUT request
:param port: port attributes to be returned
"""
profile = port_data.get(portbindings.PROFILE)
# If portbindings.PROFILE is None, unspecified or an empty dict
# it is regarded that portbinding.PROFILE is not set.
profile_set = attrs.is_attr_set(profile) and profile
if profile_set:
portinfo = self._validate_portinfo(profile)
portinfo['mac'] = port['mac_address']
ndb.add_portinfo(context.session, port['id'], **portinfo)
else:
portinfo = None
self._extend_port_dict_binding_portinfo(port, portinfo)
def _process_portbindings_portinfo_update(self, context, port_data, port):
"""Update portinfo according to bindings:profile in update_port().
:param context: neutron api request context
:param port_data: port attributes passed in PUT request
:param port: port attributes to be returned
:returns: 'ADD', 'MOD', 'DEL' or None
"""
if portbindings.PROFILE not in port_data:
return
profile = port_data.get(portbindings.PROFILE)
# If binding:profile is None or an empty dict,
# it means binding:.profile needs to be cleared.
# TODO(amotoki): Allow Make None in binding:profile in
# the API layer. See LP bug #1220011.
profile_set = attrs.is_attr_set(profile) and profile
cur_portinfo = ndb.get_portinfo(context.session, port['id'])
if profile_set:
portinfo = self._validate_portinfo(profile)
portinfo_changed = 'ADD'
if cur_portinfo:
if (necutils.cmp_dpid(portinfo['datapath_id'],
cur_portinfo.datapath_id) and
portinfo['port_no'] == cur_portinfo.port_no):
return
ndb.del_portinfo(context.session, port['id'])
portinfo_changed = 'MOD'
portinfo['mac'] = port['mac_address']
ndb.add_portinfo(context.session, port['id'], **portinfo)
elif cur_portinfo:
portinfo_changed = 'DEL'
portinfo = None
ndb.del_portinfo(context.session, port['id'])
else:
portinfo = None
portinfo_changed = None
self._extend_port_dict_binding_portinfo(port, portinfo)
return portinfo_changed
def extend_port_dict_binding(self, port_res, port_db):
super(NECPluginV2, self).extend_port_dict_binding(port_res, port_db)
self._extend_port_dict_binding_portinfo(port_res, port_db.portinfo)
def _process_portbindings_create(self, context, port_data, port):
super(NECPluginV2, self)._process_portbindings_create_and_update(
context, port_data, port)
self._process_portbindings_portinfo_create(context, port_data, port)
def _process_portbindings_update(self, context, port_data, port):
super(NECPluginV2, self)._process_portbindings_create_and_update(
context, port_data, port)
portinfo_changed = self._process_portbindings_portinfo_update(
context, port_data, port)
return portinfo_changed
def _get_port_handler(self, operation, device_owner):
handlers = self.port_handlers[operation]
handler = handlers.get(device_owner)
if handler:
return handler
else:
return handlers['default']
def create_port(self, context, port):
"""Create a new port entry on DB, then try to activate it."""
LOG.debug(_("NECPluginV2.create_port() called, port=%s ."), port)
port['port']['status'] = const.PORT_STATUS_DOWN
port_data = port['port']
with context.session.begin(subtransactions=True):
self._ensure_default_security_group_on_port(context, port)
sgids = self._get_security_groups_on_port(context, port)
port = super(NECPluginV2, self).create_port(context, port)
self._process_portbindings_create(context, port_data, port)
self._process_port_create_security_group(
context, port, sgids)
port[addr_pair.ADDRESS_PAIRS] = (
self._process_create_allowed_address_pairs(
context, port,
port_data.get(addr_pair.ADDRESS_PAIRS)))
self.notify_security_groups_member_updated(context, port)
handler = self._get_port_handler('create', port['device_owner'])
return handler(context, port)
def _update_ofc_port_if_required(self, context, old_port, new_port,
portinfo_changed):
def get_ofport_exist(port):
return (port['admin_state_up'] and
bool(port.get(portbindings.PROFILE)))
# Determine it is required to update OFC port
need_add = False
need_del = False
need_packet_filter_update = False
old_ofport_exist = get_ofport_exist(old_port)
new_ofport_exist = get_ofport_exist(new_port)
if old_port['admin_state_up'] != new_port['admin_state_up']:
if new_port['admin_state_up']:
need_add |= new_ofport_exist
else:
need_del |= old_ofport_exist
if portinfo_changed:
if portinfo_changed in ['DEL', 'MOD']:
need_del |= old_ofport_exist
if portinfo_changed in ['ADD', 'MOD']:
need_add |= new_ofport_exist
need_packet_filter_update |= True
# Update OFC port if required
if need_del:
self.deactivate_port(context, new_port)
if need_packet_filter_update:
self.deactivate_packet_filters_by_port(context, id)
if need_add:
if need_packet_filter_update:
self.activate_packet_filters_by_port(context, id)
self.activate_port_if_ready(context, new_port)
def update_port(self, context, id, port):
"""Update port, and handle packetfilters associated with the port.
Update network entry on DB. If admin_state_up was changed, activate
or deactivate the port and packetfilters associated with it.
"""
LOG.debug(_("NECPluginV2.update_port() called, "
"id=%(id)s port=%(port)s ."),
{'id': id, 'port': port})
need_port_update_notify = False
with context.session.begin(subtransactions=True):
old_port = super(NECPluginV2, self).get_port(context, id)
new_port = super(NECPluginV2, self).update_port(context, id, port)
portinfo_changed = self._process_portbindings_update(
context, port['port'], new_port)
if addr_pair.ADDRESS_PAIRS in port['port']:
need_port_update_notify |= (
self.update_address_pairs_on_port(context, id, port,
old_port,
new_port))
need_port_update_notify |= self.update_security_group_on_port(
context, id, port, old_port, new_port)
need_port_update_notify |= self.is_security_group_member_updated(
context, old_port, new_port)
if need_port_update_notify:
self.notifier.port_update(context, new_port)
self._update_ofc_port_if_required(context, old_port, new_port,
portinfo_changed)
return new_port
def delete_port(self, context, id, l3_port_check=True):
"""Delete port and packet_filters associated with the port."""
LOG.debug(_("NECPluginV2.delete_port() called, id=%s ."), id)
# ext_sg.SECURITYGROUPS attribute for the port is required
# since notifier.security_groups_member_updated() need the attribute.
# Thus we need to call self.get_port() instead of super().get_port()
port_db = self._get_port(context, id)
port = self._make_port_dict(port_db)
handler = self._get_port_handler('delete', port['device_owner'])
# handler() raises an exception if an error occurs during processing.
port = handler(context, port)
# delete all packet_filters of the port from the controller
for pf in port_db.packetfilters:
self.delete_packet_filter(context, pf['id'])
# if needed, check to see if this is a port owned by
# and l3-router. If so, we should prevent deletion.
if l3_port_check:
self.prevent_l3_port_deletion(context, id)
with context.session.begin(subtransactions=True):
router_ids = self.disassociate_floatingips(
context, id, do_notify=False)
self._delete_port_security_group_bindings(context, id)
super(NECPluginV2, self).delete_port(context, id)
# now that we've left db transaction, we are safe to notify
self.notify_routers_updated(context, router_ids)
self.notify_security_groups_member_updated(context, port)
class NECPluginV2AgentNotifierApi(sg_rpc.SecurityGroupAgentRpcApiMixin):
'''RPC API for NEC plugin agent.'''
def __init__(self, topic):
self.topic = topic
self.topic_port_update = topics.get_topic_name(
topic, topics.PORT, topics.UPDATE)
target = messaging.Target(topic=topic, version='1.0')
self.client = n_rpc.get_client(target)
def port_update(self, context, port):
cctxt = self.client.prepare(topic=self.topic_port_update, fanout=True)
cctxt.cast(context, 'port_update', port=port)
class NECPluginV2RPCCallbacks(object):
target = messaging.Target(version='1.0')
def __init__(self, plugin):
super(NECPluginV2RPCCallbacks, self).__init__()
self.plugin = plugin
def update_ports(self, rpc_context, **kwargs):
"""Update ports' information and activate/deavtivate them.
Expected input format is:
{'topic': 'q-agent-notifier',
'agent_id': 'nec-q-agent.' + <hostname>,
'datapath_id': <datapath_id of br-int on remote host>,
'port_added': [<new PortInfo>,...],
'port_removed': [<removed Port ID>,...]}
"""
LOG.debug(_("NECPluginV2RPCCallbacks.update_ports() called, "
"kwargs=%s ."), kwargs)
datapath_id = kwargs['datapath_id']
session = rpc_context.session
for p in kwargs.get('port_added', []):
id = p['id']
portinfo = ndb.get_portinfo(session, id)
if portinfo:
if (necutils.cmp_dpid(portinfo.datapath_id, datapath_id) and
portinfo.port_no == p['port_no']):
LOG.debug(_("update_ports(): ignore unchanged portinfo in "
"port_added message (port_id=%s)."), id)
continue
ndb.del_portinfo(session, id)
port = self._get_port(rpc_context, id)
if port:
ndb.add_portinfo(session, id, datapath_id, p['port_no'],
mac=p.get('mac', ''))
# NOTE: Make sure that packet filters on this port exist while
# the port is active to avoid unexpected packet transfer.
if portinfo:
self.plugin.deactivate_port(rpc_context, port,
raise_exc=False)
self.plugin.deactivate_packet_filters_by_port(
rpc_context, id, raise_exc=False)
self.plugin.activate_packet_filters_by_port(rpc_context, id)
self.plugin.activate_port_if_ready(rpc_context, port)
for id in kwargs.get('port_removed', []):
portinfo = ndb.get_portinfo(session, id)
if not portinfo:
LOG.debug(_("update_ports(): ignore port_removed message "
"due to portinfo for port_id=%s was not "
"registered"), id)
continue
if not necutils.cmp_dpid(portinfo.datapath_id, datapath_id):
LOG.debug(_("update_ports(): ignore port_removed message "
"received from different host "
"(registered_datapath_id=%(registered)s, "
"received_datapath_id=%(received)s)."),
{'registered': portinfo.datapath_id,
'received': datapath_id})
continue
ndb.del_portinfo(session, id)
port = self._get_port(rpc_context, id)
if port:
self.plugin.deactivate_port(rpc_context, port, raise_exc=False)
self.plugin.deactivate_packet_filters_by_port(
rpc_context, id, raise_exc=False)
def _get_port(self, context, port_id):
try:
return self.plugin.get_port(context, port_id)
except n_exc.PortNotFound:
return None