x/vmware-nsx
Code Issues Proposed changes
8dd2070fd0
vmware-nsx/neutron/plugins/nec/ofc_manager.py
Akihiro MOTOKI d2a5c0f982 OpenFlow distributed router support in NEC plugin 
Implements blueprint nec-distribute-router

Two types of neutron router will be supported: l3-agent and distributed.
A type can be specified through "provider" attribute of a router.
The naming of the attribute "provider" is intentional since I plan to
support the service provider framework for router in the future and
would like to make it easy to migrate.

distributed router in NEC OpenFLow controller now does not support NAT,
so l3-agent and distributed router coexists. To achieve it, l3-agent
scheudler logic is modified in NEC plugin to exclude distributed routers
from candidates of floating IP hosting routers.

To support the above feature, the following related changes are done:
- Adds a new driver to PFC driver which supports OpenFlow based router
  support in NEC OpenFlow products in PFlow v5.
- Update ofc_client to extract detail error message
  from OpenFlow controller

This commit also changes the following outside of NEC plugin:
- Makes L3 agent notifiers configurable.
  l3-agent router and OpenFlow distributed router can coexist.
  Notication to l3-agent should be done only when routers are
  hosted by l3-agent, so we need custom L3 agent notifiers
  to filter non l3-agent routers.
- Split test_agent_scheduler base class (in OVS plugin) into
  the base setup and testcases. By doing so we can implement
  custom testcases related to agent scheduler.

Change-Id: I538201742950a61b92fb05c49a9256bc96ae9014
2013-09-04 17:15:59 +09:00

205 lines
9.2 KiB
Python
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# vim: tabstop=4 shiftwidth=4 softtabstop=4
#
# Copyright 2012 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.
# @author: Ryota MIBU
# @author: Akihiro MOTOKI
import netaddr
from neutron.common import utils
from neutron.openstack.common import log as logging
from neutron.plugins.nec.common import config
from neutron.plugins.nec.common import exceptions as nexc
from neutron.plugins.nec.db import api as ndb
from neutron.plugins.nec import drivers
LOG = logging.getLogger(__name__)
class OFCManager(object):
"""This class manages an OpenFlow Controller and map resources.
This class manage an OpenFlow Controller (OFC) with a driver specified in
a configuration of this plugin. This keeps mappings between IDs on Neutron
and OFC for various entities such as Tenant, Network and Filter. A Port on
OFC is identified by a switch ID 'datapath_id' and a port number 'port_no'
of the switch. An ID named as 'ofc_*' is used to identify resource on OFC.
"""
def __init__(self):
self.driver = drivers.get_driver(config.OFC.driver)(config.OFC)
def _get_ofc_id(self, context, resource, neutron_id):
return ndb.get_ofc_id_lookup_both(context.session,
resource, neutron_id)
def _exists_ofc_item(self, context, resource, neutron_id):
return ndb.exists_ofc_item_lookup_both(context.session,
resource, neutron_id)
def _add_ofc_item(self, context, resource, neutron_id, ofc_id):
# Ensure a new item is added to the new mapping table
ndb.add_ofc_item(context.session, resource, neutron_id, ofc_id)
def _del_ofc_item(self, context, resource, neutron_id):
ndb.del_ofc_item_lookup_both(context.session, resource, neutron_id)
def ensure_ofc_tenant(self, context, tenant_id):
if not self.exists_ofc_tenant(context, tenant_id):
self.create_ofc_tenant(context, tenant_id)
def create_ofc_tenant(self, context, tenant_id):
desc = "ID=%s at OpenStack." % tenant_id
ofc_tenant_id = self.driver.create_tenant(desc, tenant_id)
self._add_ofc_item(context, "ofc_tenant", tenant_id, ofc_tenant_id)
def exists_ofc_tenant(self, context, tenant_id):
return self._exists_ofc_item(context, "ofc_tenant", tenant_id)
def delete_ofc_tenant(self, context, tenant_id):
ofc_tenant_id = self._get_ofc_id(context, "ofc_tenant", tenant_id)
ofc_tenant_id = self.driver.convert_ofc_tenant_id(
context, ofc_tenant_id)
self.driver.delete_tenant(ofc_tenant_id)
self._del_ofc_item(context, "ofc_tenant", tenant_id)
def create_ofc_network(self, context, tenant_id, network_id,
network_name=None):
ofc_tenant_id = self._get_ofc_id(context, "ofc_tenant", tenant_id)
ofc_tenant_id = self.driver.convert_ofc_tenant_id(
context, ofc_tenant_id)
desc = "ID=%s Name=%s at Neutron." % (network_id, network_name)
ofc_net_id = self.driver.create_network(ofc_tenant_id, desc,
network_id)
self._add_ofc_item(context, "ofc_network", network_id, ofc_net_id)
def exists_ofc_network(self, context, network_id):
return self._exists_ofc_item(context, "ofc_network", network_id)
def delete_ofc_network(self, context, network_id, network):
ofc_net_id = self._get_ofc_id(context, "ofc_network", network_id)
ofc_net_id = self.driver.convert_ofc_network_id(
context, ofc_net_id, network['tenant_id'])
self.driver.delete_network(ofc_net_id)
self._del_ofc_item(context, "ofc_network", network_id)
def create_ofc_port(self, context, port_id, port):
ofc_net_id = self._get_ofc_id(context, "ofc_network",
port['network_id'])
ofc_net_id = self.driver.convert_ofc_network_id(
context, ofc_net_id, port['tenant_id'])
portinfo = ndb.get_portinfo(context.session, port_id)
if not portinfo:
raise nexc.PortInfoNotFound(id=port_id)
ofc_port_id = self.driver.create_port(ofc_net_id, portinfo, port_id)
self._add_ofc_item(context, "ofc_port", port_id, ofc_port_id)
def exists_ofc_port(self, context, port_id):
return self._exists_ofc_item(context, "ofc_port", port_id)
def delete_ofc_port(self, context, port_id, port):
ofc_port_id = self._get_ofc_id(context, "ofc_port", port_id)
ofc_port_id = self.driver.convert_ofc_port_id(
context, ofc_port_id, port['tenant_id'], port['network_id'])
self.driver.delete_port(ofc_port_id)
self._del_ofc_item(context, "ofc_port", port_id)
def create_ofc_packet_filter(self, context, filter_id, filter_dict):
ofc_net_id = self._get_ofc_id(context, "ofc_network",
filter_dict['network_id'])
ofc_net_id = self.driver.convert_ofc_network_id(
context, ofc_net_id, filter_dict['tenant_id'])
in_port_id = filter_dict.get('in_port')
portinfo = None
if in_port_id:
portinfo = ndb.get_portinfo(context.session, in_port_id)
if not portinfo:
raise nexc.PortInfoNotFound(id=in_port_id)
ofc_pf_id = self.driver.create_filter(ofc_net_id,
filter_dict, portinfo, filter_id)
self._add_ofc_item(context, "ofc_packet_filter", filter_id, ofc_pf_id)
def exists_ofc_packet_filter(self, context, filter_id):
return self._exists_ofc_item(context, "ofc_packet_filter", filter_id)
def delete_ofc_packet_filter(self, context, filter_id):
ofc_pf_id = self._get_ofc_id(context, "ofc_packet_filter", filter_id)
ofc_pf_id = self.driver.convert_ofc_filter_id(context, ofc_pf_id)
self.driver.delete_filter(ofc_pf_id)
self._del_ofc_item(context, "ofc_packet_filter", filter_id)
def create_ofc_router(self, context, tenant_id, router_id, name=None):
ofc_tenant_id = self._get_ofc_id(context, "ofc_tenant", tenant_id)
ofc_tenant_id = self.driver.convert_ofc_tenant_id(
context, ofc_tenant_id)
desc = "ID=%s Name=%s at Neutron." % (router_id, name)
ofc_router_id = self.driver.create_router(ofc_tenant_id, router_id,
desc)
self._add_ofc_item(context, "ofc_router", router_id, ofc_router_id)
def exists_ofc_router(self, context, router_id):
return self._exists_ofc_item(context, "ofc_router", router_id)
def delete_ofc_router(self, context, router_id, router):
ofc_router_id = self._get_ofc_id(context, "ofc_router", router_id)
self.driver.delete_router(ofc_router_id)
self._del_ofc_item(context, "ofc_router", router_id)
def add_ofc_router_interface(self, context, router_id, port_id, port):
# port must have the following fields:
# network_id, cidr, ip_address, mac_address
ofc_router_id = self._get_ofc_id(context, "ofc_router", router_id)
ofc_net_id = self._get_ofc_id(context, "ofc_network",
port['network_id'])
ip_address = '%s/%s' % (port['ip_address'],
netaddr.IPNetwork(port['cidr']).prefixlen)
mac_address = port['mac_address']
ofc_inf_id = self.driver.add_router_interface(
ofc_router_id, ofc_net_id, ip_address, mac_address)
# Use port mapping table to maintain an interface of OFC router
self._add_ofc_item(context, "ofc_port", port_id, ofc_inf_id)
def delete_ofc_router_interface(self, context, router_id, port_id):
# Use port mapping table to maintain an interface of OFC router
ofc_inf_id = self._get_ofc_id(context, "ofc_port", port_id)
self.driver.delete_router_interface(ofc_inf_id)
self._del_ofc_item(context, "ofc_port", port_id)
def update_ofc_router_route(self, context, router_id, new_routes):
ofc_router_id = self._get_ofc_id(context, "ofc_router", router_id)
ofc_routes = self.driver.list_router_routes(ofc_router_id)
route_dict = {}
cur_routes = []
for r in ofc_routes:
key = ','.join((r['destination'], r['nexthop']))
route_dict[key] = r['id']
del r['id']
cur_routes.append(r)
added, removed = utils.diff_list_of_dict(cur_routes, new_routes)
for r in removed:
key = ','.join((r['destination'], r['nexthop']))
route_id = route_dict[key]
self.driver.delete_router_route(route_id)
for r in added:
self.driver.add_router_route(ofc_router_id, r['destination'],
r['nexthop'])
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