# Copyright 2014 VMware, 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. from distutils import version import six import uuid import netaddr from neutron_lib.api.definitions import provider_net as pnet from neutron_lib.api import validators from neutron_lib import constants from neutron_lib import context as n_context from neutron_lib.db import constants as db_const from neutron_lib import exceptions as n_exc from neutron_lib.plugins import directory from oslo_config import cfg from oslo_log import log as logging from oslo_serialization import jsonutils from oslo_utils import excutils from oslo_utils import uuidutils from sqlalchemy.orm import exc as sa_exc from neutron.api import extensions as neutron_extensions from neutron.api.rpc.callbacks.consumer import registry as callbacks_registry from neutron.api.rpc.callbacks import resources as callbacks_resources from neutron.api.rpc.handlers import resources_rpc from neutron.api.v2 import attributes as attr from neutron.callbacks import events from neutron.callbacks import registry from neutron.callbacks import resources from neutron.common import ipv6_utils from neutron.common import rpc as n_rpc from neutron.common import topics from neutron.common import utils as n_utils from neutron.db import _utils as db_utils from neutron.db import agents_db from neutron.db import allowedaddresspairs_db as addr_pair_db from neutron.db import api as db_api from neutron.db.availability_zone import router as router_az_db from neutron.db import db_base_plugin_v2 from neutron.db import dns_db from neutron.db import external_net_db from neutron.db import extraroute_db from neutron.db import l3_attrs_db from neutron.db import l3_db from neutron.db import l3_gwmode_db from neutron.db.models import l3 as l3_db_models from neutron.db.models import securitygroup as securitygroup_model # noqa from neutron.db import models_v2 from neutron.db import portbindings_db from neutron.db import portsecurity_db from neutron.db import quota_db # noqa from neutron.db import securitygroups_db from neutron.db import vlantransparent_db from neutron.extensions import allowedaddresspairs as addr_pair from neutron.extensions import availability_zone as az_ext from neutron.extensions import external_net as ext_net_extn from neutron.extensions import flavors from neutron.extensions import l3 from neutron.extensions import multiprovidernet as mpnet from neutron.extensions import portsecurity as psec from neutron.extensions import providernet from neutron.extensions import securitygroup as ext_sg from neutron.extensions import vlantransparent as ext_vlan from neutron.plugins.common import constants as plugin_const from neutron.plugins.common import utils from neutron.quota import resource_registry from neutron.services.flavors import flavors_plugin from neutron.services.qos import qos_consts from neutron_lib.api.definitions import portbindings as pbin from vmware_nsx.dvs import dvs from vmware_nsx.services.qos.common import utils as qos_com_utils from vmware_nsx.services.qos.nsx_v import utils as qos_utils import vmware_nsx from vmware_nsx._i18n import _ from vmware_nsx.common import availability_zones as nsx_com_az from vmware_nsx.common import config # noqa from vmware_nsx.common import exceptions as nsx_exc from vmware_nsx.common import l3_rpc_agent_api from vmware_nsx.common import locking from vmware_nsx.common import managers as nsx_managers from vmware_nsx.common import nsx_constants from vmware_nsx.common import nsxv_constants from vmware_nsx.common import utils as c_utils from vmware_nsx.db import ( extended_security_group_rule as extend_sg_rule) from vmware_nsx.db import ( routertype as rt_rtr) from vmware_nsx.db import db as nsx_db from vmware_nsx.db import extended_security_group as extended_secgroup from vmware_nsx.db import nsxv_db from vmware_nsx.db import vnic_index_db from vmware_nsx.extensions import ( advancedserviceproviders as as_providers) from vmware_nsx.extensions import ( vnicindex as ext_vnic_idx) from vmware_nsx.extensions import dhcp_mtu as ext_dhcp_mtu from vmware_nsx.extensions import dns_search_domain as ext_dns_search_domain from vmware_nsx.extensions import nsxpolicy from vmware_nsx.extensions import providersecuritygroup as provider_sg from vmware_nsx.extensions import routersize from vmware_nsx.extensions import secgroup_rule_local_ip_prefix from vmware_nsx.extensions import securitygrouplogging as sg_logging from vmware_nsx.extensions import securitygrouppolicy as sg_policy from vmware_nsx.plugins.nsx_v import availability_zones as nsx_az from vmware_nsx.plugins.nsx_v import managers from vmware_nsx.plugins.nsx_v import md_proxy as nsx_v_md_proxy from vmware_nsx.plugins.nsx_v.vshield.common import ( constants as vcns_const) from vmware_nsx.plugins.nsx_v.vshield.common import ( exceptions as vsh_exc) from vmware_nsx.plugins.nsx_v.vshield import edge_firewall_driver from vmware_nsx.plugins.nsx_v.vshield import edge_utils from vmware_nsx.plugins.nsx_v.vshield import securitygroup_utils from vmware_nsx.plugins.nsx_v.vshield import vcns_driver from vmware_nsx.services.flowclassifier.nsx_v import utils as fc_utils from vmware_nsx.services.fwaas.nsx_v import fwaas_callbacks LOG = logging.getLogger(__name__) PORTGROUP_PREFIX = 'dvportgroup' ROUTER_SIZE = routersize.ROUTER_SIZE VALID_EDGE_SIZES = routersize.VALID_EDGE_SIZES class NsxVPluginV2(addr_pair_db.AllowedAddressPairsMixin, agents_db.AgentDbMixin, db_base_plugin_v2.NeutronDbPluginV2, rt_rtr.RouterType_mixin, external_net_db.External_net_db_mixin, extraroute_db.ExtraRoute_db_mixin, router_az_db.RouterAvailabilityZoneMixin, l3_gwmode_db.L3_NAT_db_mixin, portbindings_db.PortBindingMixin, portsecurity_db.PortSecurityDbMixin, extend_sg_rule.ExtendedSecurityGroupRuleMixin, securitygroups_db.SecurityGroupDbMixin, extended_secgroup.ExtendedSecurityGroupPropertiesMixin, vnic_index_db.VnicIndexDbMixin, dns_db.DNSDbMixin, nsxpolicy.NsxPolicyPluginBase, vlantransparent_db.Vlantransparent_db_mixin, nsx_com_az.NSXAvailabilityZonesPluginCommon): supported_extension_aliases = ["agent", "allowed-address-pairs", "binding", "dns-search-domain", "dvr", "ext-gw-mode", "multi-provider", "port-security", "provider", "quotas", "external-net", "extraroute", "router", "security-group", "secgroup-rule-local-ip-prefix", "security-group-logging", "nsxv-router-type", "nsxv-router-size", "vnic-index", "advanced-service-providers", "subnet_allocation", "availability_zone", "network_availability_zone", "router_availability_zone", "l3-flavors", "flavors"] supported_qos_rule_types = [qos_consts.RULE_TYPE_BANDWIDTH_LIMIT, qos_consts.RULE_TYPE_DSCP_MARKING] __native_bulk_support = True __native_pagination_support = True __native_sorting_support = True @resource_registry.tracked_resources( network=models_v2.Network, port=models_v2.Port, subnet=models_v2.Subnet, subnetpool=models_v2.SubnetPool, security_group=securitygroup_model.SecurityGroup, security_group_rule=securitygroup_model.SecurityGroupRule, router=l3_db_models.Router, floatingip=l3_db_models.FloatingIP) def __init__(self): self._extension_manager = nsx_managers.ExtensionManager() super(NsxVPluginV2, self).__init__() # Bind the dummy L3 notifications self.l3_rpc_notifier = l3_rpc_agent_api.L3NotifyAPI() self.init_is_complete = False registry.subscribe(self.init_complete, resources.PROCESS, events.AFTER_INIT) self._extension_manager.initialize() self.supported_extension_aliases.extend( self._extension_manager.extension_aliases()) self.metadata_proxy_handler = None config.validate_nsxv_config_options() neutron_extensions.append_api_extensions_path( [vmware_nsx.NSX_EXT_PATH]) # This needs to be set prior to binding callbacks if cfg.CONF.nsxv.use_dvs_features: self._vcm = dvs.VCManager() else: self._vcm = None # Create the client to interface with the NSX-v _nsx_v_callbacks = edge_utils.NsxVCallbacks(self) self.nsx_v = vcns_driver.VcnsDriver(_nsx_v_callbacks) # Ensure that edges do concurrency self._ensure_lock_operations() # Configure aggregate publishing self._aggregate_publishing() # Configure edge reservations self._configure_reservations() self.edge_manager = edge_utils.EdgeManager(self.nsx_v, self) self.nsx_sg_utils = securitygroup_utils.NsxSecurityGroupUtils( self.nsx_v) self.init_availability_zones() self._validate_config() self._use_nsx_policies = False if cfg.CONF.nsxv.use_nsx_policies: if not c_utils.is_nsxv_version_6_2(self.nsx_v.vcns.get_version()): error = (_("NSX policies are not supported for version " "%(ver)s.") % {'ver': self.nsx_v.vcns.get_version()}) raise nsx_exc.NsxPluginException(err_msg=error) # Support NSX policies in default security groups self._use_nsx_policies = True # enable the extension self.supported_extension_aliases.append("security-group-policy") self.supported_extension_aliases.append("nsx-policy") # Support transparent VLANS from 6.3.0 onwards. The feature is only # supported if the global configuration flag vlan_transparent is # True if cfg.CONF.vlan_transparent: if c_utils.is_nsxv_version_6_3(self.nsx_v.vcns.get_version()): self.supported_extension_aliases.append("vlan-transparent") else: raise NotImplementedError(_("Transparent support only from " "NSX 6.3 onwards")) self.sg_container_id = self._create_security_group_container() self.default_section = self._create_cluster_default_fw_section() self._process_security_groups_rules_logging() self._router_managers = managers.RouterTypeManager(self) if self.edge_manager.is_dhcp_opt_enabled: # Only expose the extension if it is supported self.supported_extension_aliases.append("dhcp-mtu") # Bind QoS notifications callbacks_registry.register(self._handle_qos_notification, callbacks_resources.QOS_POLICY) # Make sure starting rpc listeners (for QoS and other agents) # will happen only once self.start_rpc_listeners_called = False # Init the FWaaS support self._init_fwaas() # Service insertion driver register self._si_handler = fc_utils.NsxvServiceInsertionHandler(self) registry.subscribe(self.add_vms_to_service_insertion, fc_utils.SERVICE_INSERTION_RESOURCE, events.AFTER_CREATE) if c_utils.is_nsxv_version_6_2(self.nsx_v.vcns.get_version()): self.supported_extension_aliases.append("provider-security-group") # Register extend dict methods for network and port resources. # Each extension driver that supports extend attribute for the resources # can add those attribute to the result. db_base_plugin_v2.NeutronDbPluginV2.register_dict_extend_funcs( attr.NETWORKS, ['_ext_extend_network_dict']) db_base_plugin_v2.NeutronDbPluginV2.register_dict_extend_funcs( attr.PORTS, ['_ext_extend_port_dict']) db_base_plugin_v2.NeutronDbPluginV2.register_dict_extend_funcs( attr.SUBNETS, ['_ext_extend_subnet_dict']) def init_complete(self, resource, event, trigger, **kwargs): has_metadata_cfg = ( cfg.CONF.nsxv.nova_metadata_ips and cfg.CONF.nsxv.mgt_net_moid and cfg.CONF.nsxv.mgt_net_proxy_ips and cfg.CONF.nsxv.mgt_net_proxy_netmask) if has_metadata_cfg: # Init md_proxy handler per availability zone self.metadata_proxy_handler = {} for az in self.get_azs_list(): # create metadata handler only if the az supports it. # if not, the global one will be used if az.supports_metadata(): self.metadata_proxy_handler[az.name] = ( nsx_v_md_proxy.NsxVMetadataProxyHandler(self, az)) self.init_is_complete = True def get_metadata_proxy_handler(self, az_name): if not self.metadata_proxy_handler: return None if az_name in self.metadata_proxy_handler: return self.metadata_proxy_handler[az_name] # fallback to the global handler return self.metadata_proxy_handler[nsx_az.DEFAULT_NAME] def add_vms_to_service_insertion(self, sg_id): def _add_vms_to_service_insertion(*args, **kwargs): """Adding existing VMs to the service insertion security group Adding all current compute ports with port security to the service insertion security group in order to classify their traffic by the security redirect rules """ sg_id = args[0] context = n_context.get_admin_context() filters = {'device_owner': ['compute:None']} ports = self.get_ports(context, filters=filters) for port in ports: # Only add compute ports with device-id, vnic & port security if (validators.is_attr_set(port.get(ext_vnic_idx.VNIC_INDEX)) and validators.is_attr_set(port.get('device_id')) and port[psec.PORTSECURITY]): try: vnic_idx = port[ext_vnic_idx.VNIC_INDEX] device_id = port['device_id'] vnic_id = self._get_port_vnic_id(vnic_idx, device_id) self._add_member_to_security_group(sg_id, vnic_id) except Exception as e: LOG.info('Could not add port %(port)s to service ' 'insertion security group. Exception ' '%(err)s', {'port': port['id'], 'err': e}) # Doing this in a separate thread to not slow down the init process # in case there are many compute ports c_utils.spawn_n(_add_vms_to_service_insertion, sg_id) def start_rpc_listeners(self): if self.start_rpc_listeners_called: # If called more than once - we should not create it again return self.conn.consume_in_threads() LOG.info("NSXV plugin: starting RPC listeners") self.endpoints = [agents_db.AgentExtRpcCallback()] self.topic = topics.PLUGIN self.conn = n_rpc.create_connection() self.conn.create_consumer(self.topic, self.endpoints, fanout=False) # Add QoS qos_plugin = directory.get_plugin(plugin_const.QOS) if (qos_plugin and qos_plugin.driver_manager and qos_plugin.driver_manager.rpc_notifications_required): # TODO(asarfaty) this option should be deprecated on Pike qos_topic = resources_rpc.resource_type_versioned_topic( callbacks_resources.QOS_POLICY) self.conn.create_consumer( qos_topic, [resources_rpc.ResourcesPushRpcCallback()], fanout=False) self.start_rpc_listeners_called = True return self.conn.consume_in_threads() def _init_fwaas(self): # Bind FWaaS callbacks to the driver self.fwaas_callbacks = fwaas_callbacks.NsxvFwaasCallbacks() def _ext_extend_network_dict(self, result, netdb): ctx = n_context.get_admin_context() with db_api.context_manager.writer.using(ctx): self._extension_manager.extend_network_dict( ctx.session, netdb, result) def _ext_extend_port_dict(self, result, portdb): ctx = n_context.get_admin_context() with db_api.context_manager.writer.using(ctx): self._extension_manager.extend_port_dict( ctx.session, portdb, result) self._extend_port_dict_binding(portdb, result) def _ext_extend_subnet_dict(self, result, subnetdb): ctx = n_context.get_admin_context() with db_api.context_manager.writer.using(ctx): self._extension_manager.extend_subnet_dict( ctx.session, subnetdb, result) def _create_security_group_container(self): name = "OpenStack Security Group container" with locking.LockManager.get_lock('security-group-container-init'): container_id = self.nsx_v.vcns.get_security_group_id(name) if not container_id: description = ("OpenStack Security Group Container, " "managed by Neutron nsx-v plugin.") container = {"securitygroup": {"name": name, "description": description}} h, container_id = ( self.nsx_v.vcns.create_security_group(container)) return container_id def _find_router_driver(self, context, router_id): router_qry = context.session.query(l3_db_models.Router) router_db = router_qry.filter_by(id=router_id).one() return self._get_router_driver(context, router_db) def _get_router_driver(self, context, router_db): router_type_dict = {} self._extend_nsx_router_dict(router_type_dict, router_db) router_type = None if router_type_dict.get("distributed", False): router_type = "distributed" else: router_type = router_type_dict.get("router_type") return self._router_managers.get_tenant_router_driver( context, router_type) def _decide_router_type(self, context, r): router_type = None if (validators.is_attr_set(r.get("distributed")) and r.get("distributed")): router_type = "distributed" if validators.is_attr_set(r.get("router_type")): err_msg = _('Can not support router_type extension for ' 'distributed router') raise n_exc.InvalidInput(error_message=err_msg) elif validators.is_attr_set(r.get("router_type")): router_type = r.get("router_type") router_type = self._router_managers.decide_tenant_router_type( context, router_type) if router_type == "distributed": r["distributed"] = True r["router_type"] = "exclusive" else: r["distributed"] = False r["router_type"] = router_type def _create_cluster_default_fw_section(self): section_name = 'OS Cluster Security Group section' # Default cluster rules rules = [{'name': 'Default DHCP rule for OS Security Groups', 'action': 'allow', 'services': [('17', '67', None, None), ('17', '68', None, None)]}, {'name': 'ICMPv6 neighbor protocol for Security Groups', 'action': 'allow', 'services': [('58', None, '135', None), ('58', None, '136', None)]}] if cfg.CONF.nsxv.cluster_moid: applied_to_ids = cfg.CONF.nsxv.cluster_moid applied_to_type = 'ClusterComputeResource' else: applied_to_ids = [self.sg_container_id] applied_to_type = 'SecurityGroup' rule_list = [] for rule in rules: rule_config = self.nsx_sg_utils.get_rule_config( applied_to_ids, rule['name'], rule['action'], applied_to_type, services=rule['services']) rule_list.append(rule_config) # Default security-group rules block_rule = self.nsx_sg_utils.get_rule_config( [self.sg_container_id], 'Block All', 'deny', logged=cfg.CONF.nsxv.log_security_groups_blocked_traffic) rule_list.append(block_rule) with locking.LockManager.get_lock('default-section-init'): section_id = self.nsx_v.vcns.get_section_id(section_name) section = ( self.nsx_sg_utils.get_section_with_rules( section_name, rule_list, section_id)) section_req_body = self.nsx_sg_utils.to_xml_string(section) if section_id: self.nsx_v.vcns.update_section_by_id( section_id, 'ip', section_req_body) else: # cluster section does not exists. Create it above the # default l3 section l3_id = self.nsx_v.vcns.get_default_l3_id() h, c = self.nsx_v.vcns.create_section('ip', section_req_body, insert_before=l3_id) section_id = self.nsx_sg_utils.parse_and_get_section_id(c) return section_id def _process_security_groups_rules_logging(self): def process_security_groups_rules_logging(*args, **kwargs): with locking.LockManager.get_lock('nsx-dfw-section', lock_file_prefix='dfw-section'): context = n_context.get_admin_context() log_allowed = cfg.CONF.nsxv.log_security_groups_allowed_traffic # If the section/sg is already logged, then no action is # required. for sg in [sg for sg in self.get_security_groups(context) if sg[sg_logging.LOGGING] is False]: if sg.get(sg_policy.POLICY): # Logging is not relevant with a policy continue section_uri = self._get_section_uri(context.session, sg['id']) if section_uri is None: continue # Section/sg is not logged, update rules logging according # to the 'log_security_groups_allowed_traffic' config # option. try: h, c = self.nsx_v.vcns.get_section(section_uri) section = self.nsx_sg_utils.parse_section(c) section_needs_update = ( self.nsx_sg_utils.set_rules_logged_option( section, log_allowed)) if section_needs_update: self.nsx_v.vcns.update_section( section_uri, self.nsx_sg_utils.to_xml_string(section), h) except Exception as exc: LOG.error('Unable to update security group %(sg)s ' 'section for logging. %(e)s', {'e': exc, 'sg': sg['id']}) c_utils.spawn_n(process_security_groups_rules_logging) def _create_dhcp_static_binding(self, context, neutron_port_db): network_id = neutron_port_db['network_id'] device_owner = neutron_port_db['device_owner'] if device_owner.startswith("compute"): s_bindings = self.edge_manager.create_static_binding( context, neutron_port_db) self.edge_manager.create_dhcp_bindings( context, neutron_port_db['id'], network_id, s_bindings) def _delete_dhcp_static_binding(self, context, neutron_port_db): network_id = neutron_port_db['network_id'] try: self.edge_manager.delete_dhcp_binding( context, neutron_port_db['id'], network_id, neutron_port_db['mac_address']) except Exception as e: LOG.error('Unable to delete static bindings for %(id)s. ' 'Error: %(e)s', {'id': neutron_port_db['id'], 'e': e}) def _validate_network_qos(self, network, backend_network): err_msg = None if validators.is_attr_set(network.get(qos_consts.QOS_POLICY_ID)): if not backend_network: err_msg = (_("Cannot configure QOS on external networks")) if not cfg.CONF.nsxv.use_dvs_features: err_msg = (_("Cannot configure QOS " "without enabling use_dvs_features")) if err_msg: raise n_exc.InvalidInput(error_message=err_msg) def _validate_physical_network(self, physical_network, default_dvs): dvs_ids = self._get_dvs_ids(physical_network, default_dvs) for dvs_id in dvs_ids: if not self.nsx_v.vcns.validate_dvs(dvs_id): raise nsx_exc.NsxResourceNotFound(res_name='dvs_id', res_id=dvs_id) def _get_network_az_from_net_data(self, net_data): if az_ext.AZ_HINTS in net_data and net_data[az_ext.AZ_HINTS]: return self._availability_zones_data.get_availability_zone( net_data[az_ext.AZ_HINTS][0]) return self.get_default_az() def _get_network_az_dvs_id(self, net_data): az = self._get_network_az_from_net_data(net_data) return az.dvs_id def _get_network_vdn_scope_id(self, net_data): az = self._get_network_az_from_net_data(net_data) return az.vdn_scope_id def _validate_provider_create(self, context, network): if not validators.is_attr_set(network.get(mpnet.SEGMENTS)): return for segment in network[mpnet.SEGMENTS]: network_type = segment.get(pnet.NETWORK_TYPE) physical_network = segment.get(pnet.PHYSICAL_NETWORK) segmentation_id = segment.get(pnet.SEGMENTATION_ID) network_type_set = validators.is_attr_set(network_type) segmentation_id_set = validators.is_attr_set(segmentation_id) physical_network_set = validators.is_attr_set(physical_network) az_dvs = self._get_network_az_dvs_id(network) err_msg = None if not network_type_set: err_msg = _("%s required") % pnet.NETWORK_TYPE elif network_type == c_utils.NsxVNetworkTypes.FLAT: if segmentation_id_set: err_msg = _("Segmentation ID cannot be specified with " "flat network type") if physical_network_set: self._validate_physical_network(physical_network, az_dvs) elif network_type == c_utils.NsxVNetworkTypes.VLAN: if not segmentation_id_set: err_msg = _("Segmentation ID must be specified with " "vlan network type") elif (segmentation_id_set and not utils.is_valid_vlan_tag(segmentation_id)): err_msg = (_("%(segmentation_id)s out of range " "(%(min_id)s through %(max_id)s)") % {'segmentation_id': segmentation_id, 'min_id': plugin_const.MIN_VLAN_TAG, 'max_id': plugin_const.MAX_VLAN_TAG}) else: # Verify segment is not already allocated bindings = nsxv_db.get_network_bindings_by_vlanid( context.session, segmentation_id) if bindings: if physical_network_set: phy_uuid = physical_network else: # use the fvs_id of the availability zone phy_uuid = az_dvs for binding in bindings: if binding['phy_uuid'] == phy_uuid: raise n_exc.VlanIdInUse( vlan_id=segmentation_id, physical_network=phy_uuid) # Verify whether the DVSes exist in the backend. if physical_network_set: self._validate_physical_network(physical_network, az_dvs) elif network_type == c_utils.NsxVNetworkTypes.VXLAN: # Currently unable to set the segmentation id if segmentation_id_set: err_msg = _("Segmentation ID cannot be set with VXLAN") elif network_type == c_utils.NsxVNetworkTypes.PORTGROUP: external = network.get(ext_net_extn.EXTERNAL) if segmentation_id_set: err_msg = _("Segmentation ID cannot be set with portgroup") if not physical_network_set: err_msg = _("Physical network must be set!") elif not self.nsx_v.vcns.validate_network(physical_network): err_msg = _("Physical network doesn't exist") # A provider network portgroup will need the network name to # match the portgroup name elif ((not validators.is_attr_set(external) or validators.is_attr_set(external) and not external) and not self.nsx_v.vcns.validate_network_name( physical_network, network['name'])): err_msg = _("Portgroup name must match network name") else: err_msg = (_("%(net_type_param)s %(net_type_value)s not " "supported") % {'net_type_param': pnet.NETWORK_TYPE, 'net_type_value': network_type}) if err_msg: raise n_exc.InvalidInput(error_message=err_msg) # TODO(salvatore-orlando): Validate tranport zone uuid # which should be specified in physical_network def _validate_network_type(self, context, network_id, net_types): bindings = nsxv_db.get_network_bindings(context.session, network_id) multiprovider = nsx_db.is_multiprovider_network(context.session, network_id) if bindings: if not multiprovider: return bindings[0].binding_type in net_types else: for binding in bindings: if binding.binding_type not in net_types: return False return True return False def _extend_network_dict_provider(self, context, network, multiprovider=None, bindings=None): if not bindings: bindings = nsxv_db.get_network_bindings(context.session, network['id']) if not multiprovider: multiprovider = nsx_db.is_multiprovider_network(context.session, network['id']) # With NSX plugin 'normal' overlay networks will have no binding # TODO(salvatore-orlando) make sure users can specify a distinct # phy_uuid as 'provider network' for STT net type if bindings: if not multiprovider: # network came in through provider networks api network[pnet.NETWORK_TYPE] = bindings[0].binding_type network[pnet.PHYSICAL_NETWORK] = bindings[0].phy_uuid network[pnet.SEGMENTATION_ID] = bindings[0].vlan_id else: # network come in though multiprovider networks api network[mpnet.SEGMENTS] = [ {pnet.NETWORK_TYPE: binding.binding_type, pnet.PHYSICAL_NETWORK: binding.phy_uuid, pnet.SEGMENTATION_ID: binding.vlan_id} for binding in bindings] # update availability zones network[az_ext.AVAILABILITY_ZONES] = ( self._get_network_availability_zones(context, network)) def _get_subnet_as_providers(self, context, subnet, nw_dict=None): net_id = subnet.get('network_id') if net_id is None: net_id = self.get_subnet(context, subnet['id']).get('network_id') if nw_dict: providers = nw_dict.get(net_id, []) else: as_provider_data = nsxv_db.get_edge_vnic_bindings_by_int_lswitch( context.session, net_id) providers = [asp['edge_id'] for asp in as_provider_data] return providers def get_subnet(self, context, id, fields=None): subnet = super(NsxVPluginV2, self).get_subnet(context, id, fields) if not context.is_admin: return subnet elif fields and as_providers.ADV_SERVICE_PROVIDERS in fields: subnet[as_providers.ADV_SERVICE_PROVIDERS] = ( self._get_subnet_as_providers(context, subnet)) return subnet def get_subnets(self, context, filters=None, fields=None, sorts=None, limit=None, marker=None, page_reverse=False): subnets = super(NsxVPluginV2, self).get_subnets(context, filters, fields, sorts, limit, marker, page_reverse) if not context.is_admin or (not filters and not fields): return subnets new_subnets = [] if ((fields and as_providers.ADV_SERVICE_PROVIDERS in fields) or (filters and filters.get(as_providers.ADV_SERVICE_PROVIDERS))): # This ugly mess should reduce DB calls with network_id field # as filter - as network_id is not indexed vnic_binds = nsxv_db.get_edge_vnic_bindings_with_networks( context.session) nw_dict = {} for vnic_bind in vnic_binds: if nw_dict.get(vnic_bind['network_id']): nw_dict[vnic_bind['network_id']].append( vnic_bind['edge_id']) else: nw_dict[vnic_bind['network_id']] = [vnic_bind['edge_id']] # We only deal metadata provider field when: # - adv_service_provider is explicitly retrieved # - adv_service_provider is used in a filter for subnet in subnets: as_provider = self._get_subnet_as_providers( context, subnet, nw_dict) md_filter = ( None if filters is None else filters.get(as_providers.ADV_SERVICE_PROVIDERS)) if md_filter is None or len(set(as_provider) & set(md_filter)): # Include metadata_providers only if requested in results if fields and as_providers.ADV_SERVICE_PROVIDERS in fields: subnet[as_providers.ADV_SERVICE_PROVIDERS] = ( as_provider) new_subnets.append(subnet) else: # No need to handle metadata providers field return subnets return new_subnets def _convert_to_transport_zones_dict(self, network): """Converts the provider request body to multiprovider. Returns: True if request is multiprovider False if provider and None if neither. """ if any(validators.is_attr_set(network.get(f)) for f in (pnet.NETWORK_TYPE, pnet.PHYSICAL_NETWORK, pnet.SEGMENTATION_ID)): if validators.is_attr_set(network.get(mpnet.SEGMENTS)): raise mpnet.SegmentsSetInConjunctionWithProviders() # convert to transport zone list network[mpnet.SEGMENTS] = [ {pnet.NETWORK_TYPE: network[pnet.NETWORK_TYPE], pnet.PHYSICAL_NETWORK: network[pnet.PHYSICAL_NETWORK], pnet.SEGMENTATION_ID: network[pnet.SEGMENTATION_ID]}] del network[pnet.NETWORK_TYPE] del network[pnet.PHYSICAL_NETWORK] del network[pnet.SEGMENTATION_ID] return False if validators.is_attr_set(network.get(mpnet.SEGMENTS)): return True def _delete_backend_network(self, moref, dvs_id=None): """Deletes the backend NSX network. This can either be a VXLAN or a VLAN network. The type is determined by the prefix of the moref. The dvs_id is relevant only if it is a vlan network """ if moref.startswith(PORTGROUP_PREFIX): self.nsx_v.delete_port_group(dvs_id, moref) else: self.nsx_v.delete_virtual_wire(moref) def _get_vlan_network_name(self, net_data, dvs_id): if net_data.get('name') is None: net_data['name'] = '' # Maximum name length is 80 characters. 'id' length is 36 # maximum prefix for name plus dvs-id is 43 if net_data['name'] == '': prefix = dvs_id[:43] else: prefix = ('%s-%s' % (dvs_id, net_data['name']))[:43] return '%s-%s' % (prefix, net_data['id']) def _update_network_teaming(self, dvs_id, net_id, net_moref): if self._vcm: h, switch = self.nsx_v.vcns.get_vdn_switch(dvs_id) try: self._vcm.update_port_groups_config( dvs_id, net_id, net_moref, self._vcm.update_port_group_spec_teaming, switch) except Exception as e: LOG.error('Unable to update teaming information for ' 'net %(net_id)s. Error: %(e)s', {'net_id': net_id, 'e': e}) def _create_vlan_network_at_backend(self, net_data, dvs_id): network_name = self._get_vlan_network_name(net_data, dvs_id) segment = net_data[mpnet.SEGMENTS][0] vlan_tag = 0 if (segment.get(pnet.NETWORK_TYPE) == c_utils.NsxVNetworkTypes.VLAN): vlan_tag = segment.get(pnet.SEGMENTATION_ID, 0) portgroup = {'vlanId': vlan_tag, 'networkBindingType': 'Static', 'networkName': network_name, 'networkType': 'Isolation'} config_spec = {'networkSpec': portgroup} try: h, c = self.nsx_v.vcns.create_port_group(dvs_id, config_spec) except Exception as e: error = (_("Failed to create port group on DVS: %(dvs_id)s. " "Reason: %(reason)s") % {'dvs_id': dvs_id, 'reason': e.response}) raise nsx_exc.NsxPluginException(err_msg=error) self._update_network_teaming(dvs_id, net_data['id'], c) return c def _get_dvs_ids(self, physical_network, default_dvs): """Extract DVS-IDs provided in the physical network field. If physical network attribute is not set, return the pre configured dvs-id from nsx.ini file, otherwise convert physical network string to a list of unique DVS-IDs. """ if not validators.is_attr_set(physical_network): return [default_dvs] # Return unique DVS-IDs only and ignore duplicates return list(set( dvs.strip() for dvs in physical_network.split(',') if dvs)) def _add_member_to_security_group(self, sg_id, vnic_id): with locking.LockManager.get_lock('neutron-security-ops' + str(sg_id)): try: self.nsx_v.vcns.add_member_to_security_group( sg_id, vnic_id) LOG.info("Added %(sg_id)s member to NSX security " "group %(vnic_id)s", {'sg_id': sg_id, 'vnic_id': vnic_id}) except Exception: with excutils.save_and_reraise_exception(): LOG.error("NSX security group %(sg_id)s member add " "failed %(vnic_id)s.", {'sg_id': sg_id, 'vnic_id': vnic_id}) def _add_security_groups_port_mapping(self, session, vnic_id, added_sgids): if vnic_id is None or added_sgids is None: return for add_sg in added_sgids: nsx_sg_id = nsx_db.get_nsx_security_group_id(session, add_sg) if nsx_sg_id is None: LOG.warning("NSX security group not found for %s", add_sg) else: self._add_member_to_security_group(nsx_sg_id, vnic_id) def _remove_member_from_security_group(self, sg_id, vnic_id): with locking.LockManager.get_lock('neutron-security-ops' + str(sg_id)): try: h, c = self.nsx_v.vcns.remove_member_from_security_group( sg_id, vnic_id) except Exception: LOG.debug("NSX security group %(nsx_sg_id)s member " "delete failed %(vnic_id)s", {'nsx_sg_id': sg_id, 'vnic_id': vnic_id}) def _delete_security_groups_port_mapping(self, session, vnic_id, deleted_sgids): if vnic_id is None or deleted_sgids is None: return # Remove vnic from delete security groups binding for del_sg in deleted_sgids: nsx_sg_id = nsx_db.get_nsx_security_group_id(session, del_sg) if nsx_sg_id is None: LOG.warning("NSX security group not found for %s", del_sg) else: self._remove_member_from_security_group(nsx_sg_id, vnic_id) def _update_security_groups_port_mapping(self, session, port_id, vnic_id, current_sgids, new_sgids): new_sgids = new_sgids or [] current_sgids = current_sgids or [] # If no vnic binding is found, nothing can be done, so return if vnic_id is None: return deleted_sgids = set() added_sgids = set() # Find all delete security group from port binding for curr_sg in current_sgids: if curr_sg not in new_sgids: deleted_sgids.add(curr_sg) # Find all added security group from port binding for new_sg in new_sgids: if new_sg not in current_sgids: added_sgids.add(new_sg) self._delete_security_groups_port_mapping(session, vnic_id, deleted_sgids) self._add_security_groups_port_mapping(session, vnic_id, added_sgids) def _get_port_vnic_id(self, port_index, device_id): # The vnic-id format which is expected by NSXv return '%s.%03d' % (device_id, port_index) def init_availability_zones(self): self._availability_zones_data = nsx_az.NsxVAvailabilityZones() def _list_availability_zones(self, context, filters=None): #TODO(asarfaty): We may need to use the filters arg, but now it # is here only for overriding the original api result = {} for az in self.get_azs_names(): # Add this availability zone as a router & network resource for resource in ('router', 'network'): result[(az, resource)] = True return result def _validate_availability_zones_in_obj(self, context, resource_type, obj_data): if az_ext.AZ_HINTS in obj_data: self.validate_availability_zones(context, resource_type, obj_data[az_ext.AZ_HINTS]) def validate_availability_zones(self, context, resource_type, availability_zones): """Verify that the availability zones exist, and only 1 hint was set. """ return self.validate_obj_azs(availability_zones) def get_network_az_by_net_id(self, context, network_id): try: network = self.get_network(context, network_id) except Exception: return self.get_default_az() return self.get_network_az(network) def _prepare_spoofguard_policy(self, network_type, net_data, net_morefs): # The method will determine if a portgroup is already assigned to a # spoofguard policy. If so, it will return the predefined policy. If # not a new spoofguard policy will be created if network_type == c_utils.NsxVNetworkTypes.PORTGROUP: pcs = self.nsx_v.vcns.get_spoofguard_policies()[1].get('policies', []) for policy in pcs: for ep in policy['enforcementPoints']: if ep['id'] == net_morefs[0]: return policy['policyId'], True sg_policy_id = self.nsx_v.vcns.create_spoofguard_policy( net_morefs, net_data['id'], net_data[psec.PORTSECURITY])[1] return sg_policy_id, False def create_network(self, context, network): net_data = network['network'] tenant_id = net_data['tenant_id'] self._ensure_default_security_group(context, tenant_id) # Process the provider network extension provider_type = self._convert_to_transport_zones_dict(net_data) self._validate_provider_create(context, net_data) self._validate_availability_zones_in_obj(context, 'network', net_data) net_data['id'] = str(uuid.uuid4()) external = net_data.get(ext_net_extn.EXTERNAL) backend_network = (not validators.is_attr_set(external) or validators.is_attr_set(external) and not external) self._validate_network_qos(net_data, backend_network) # Update the transparent vlan if configured vlt = False if n_utils.is_extension_supported(self, 'vlan-transparent'): vlt = ext_vlan.get_vlan_transparent(net_data) network_type = None if backend_network: #NOTE(abhiraut): Consider refactoring code below to have more # readable conditions. if provider_type is not None: segment = net_data[mpnet.SEGMENTS][0] network_type = segment.get(pnet.NETWORK_TYPE) if (provider_type is None or network_type == c_utils.NsxVNetworkTypes.VXLAN): virtual_wire = {"name": net_data['id'], "tenantId": "virtual wire tenant"} if vlt: virtual_wire["guestVlanAllowed"] = True config_spec = {"virtualWireCreateSpec": virtual_wire} vdn_scope_id = self._get_network_vdn_scope_id(net_data) if provider_type is not None: segment = net_data[mpnet.SEGMENTS][0] if validators.is_attr_set( segment.get(pnet.PHYSICAL_NETWORK)): vdn_scope_id = segment.get(pnet.PHYSICAL_NETWORK) if not (self.nsx_v.vcns. validate_vdn_scope(vdn_scope_id)): raise nsx_exc.NsxResourceNotFound( res_name=pnet.PHYSICAL_NETWORK, res_id=vdn_scope_id) h, c = self.nsx_v.vcns.create_virtual_wire(vdn_scope_id, config_spec) net_morefs = [c] dvs_net_ids = [net_data['id']] elif network_type == c_utils.NsxVNetworkTypes.PORTGROUP: if vlt: raise NotImplementedError(_("Transparent support only " "for VXLANs")) segment = net_data[mpnet.SEGMENTS][0] net_morefs = [segment.get(pnet.PHYSICAL_NETWORK)] dvs_net_ids = [net_data['name']] else: segment = net_data[mpnet.SEGMENTS][0] physical_network = segment.get(pnet.PHYSICAL_NETWORK) # Retrieve the list of dvs-ids from physical network. # If physical_network attr is not set, retrieve a list # consisting of a single dvs-id pre-configured in nsx.ini az_dvs = self._get_network_az_dvs_id(net_data) dvs_ids = self._get_dvs_ids(physical_network, az_dvs) dvs_net_ids = [] # Save the list of netmorefs from the backend net_morefs = [] dvs_pg_mappings = {} for dvs_id in dvs_ids: try: net_moref = self._create_vlan_network_at_backend( dvs_id=dvs_id, net_data=net_data) except nsx_exc.NsxPluginException: with excutils.save_and_reraise_exception(): # Delete VLAN networks on other DVSes if it # fails to be created on one DVS and reraise # the original exception. for dvsmoref, netmoref in six.iteritems( dvs_pg_mappings): self._delete_backend_network( netmoref, dvsmoref) dvs_pg_mappings[dvs_id] = net_moref net_morefs.append(net_moref) dvs_net_ids.append(self._get_vlan_network_name( net_data, dvs_id)) if vlt: try: self._vcm.update_port_groups_config( dvs_id, net_data['id'], net_moref, self._vcm.update_port_group_spec_trunk, {}) except Exception: with excutils.save_and_reraise_exception(): # Delete VLAN networks on other DVSes if it # fails to be created on one DVS and reraise # the original exception. for dvsmoref, netmoref in six.iteritems( dvs_pg_mappings): self._delete_backend_network( netmoref, dvsmoref) try: net_data[psec.PORTSECURITY] = net_data.get(psec.PORTSECURITY, True) # Create SpoofGuard policy for network anti-spoofing if cfg.CONF.nsxv.spoofguard_enabled and backend_network: # This variable is set as the method below may result in a # exception and we may need to rollback sg_policy_id = None predefined = False sg_policy_id, predefined = self._prepare_spoofguard_policy( network_type, net_data, net_morefs) with db_api.context_manager.writer.using(context): new_net = super(NsxVPluginV2, self).create_network(context, network) self._extension_manager.process_create_network( context, net_data, new_net) # Process port security extension self._process_network_port_security_create( context, net_data, new_net) if vlt: super(NsxVPluginV2, self).update_network(context, new_net['id'], {'network': {'vlan_transparent': vlt}}) # update the network with the availability zone hints if az_ext.AZ_HINTS in net_data: az_hints = az_ext.convert_az_list_to_string( net_data[az_ext.AZ_HINTS]) super(NsxVPluginV2, self).update_network(context, new_net['id'], {'network': {az_ext.AZ_HINTS: az_hints}}) new_net[az_ext.AZ_HINTS] = az_hints # still no availability zones until subnets creation new_net[az_ext.AVAILABILITY_ZONES] = [] # DB Operations for setting the network as external self._process_l3_create(context, new_net, net_data) if (net_data.get(mpnet.SEGMENTS) and isinstance(provider_type, bool)): net_bindings = [] for tz in net_data[mpnet.SEGMENTS]: network_type = tz.get(pnet.NETWORK_TYPE) segmentation_id = tz.get(pnet.SEGMENTATION_ID, 0) segmentation_id_set = validators.is_attr_set( segmentation_id) if not segmentation_id_set: segmentation_id = 0 physical_network = tz.get(pnet.PHYSICAL_NETWORK, '') physical_net_set = validators.is_attr_set( physical_network) if not physical_net_set: # Use the dvs_id of the availability zone physical_network = self._get_network_az_dvs_id( net_data) net_bindings.append(nsxv_db.add_network_binding( context.session, new_net['id'], network_type, physical_network, segmentation_id)) if provider_type: nsx_db.set_multiprovider_network(context.session, new_net['id']) self._extend_network_dict_provider(context, new_net, provider_type, net_bindings) if backend_network: # Save moref in the DB for future access if network_type == c_utils.NsxVNetworkTypes.VLAN: # Save netmoref to dvs id mappings for VLAN network # type for future access. for dvs_id, netmoref in six.iteritems(dvs_pg_mappings): nsx_db.add_neutron_nsx_network_mapping( session=context.session, neutron_id=new_net['id'], nsx_switch_id=netmoref, dvs_id=dvs_id) else: for net_moref in net_morefs: nsx_db.add_neutron_nsx_network_mapping( context.session, new_net['id'], net_moref) if cfg.CONF.nsxv.spoofguard_enabled: nsxv_db.map_spoofguard_policy_for_network( context.session, new_net['id'], sg_policy_id) except Exception: with excutils.save_and_reraise_exception(): # Delete the backend network if backend_network: if (cfg.CONF.nsxv.spoofguard_enabled and sg_policy_id and not predefined): self.nsx_v.vcns.delete_spoofguard_policy(sg_policy_id) # Ensure that an predefined portgroup will not be deleted if network_type == c_utils.NsxVNetworkTypes.VXLAN: for net_moref in net_morefs: self._delete_backend_network(net_moref) elif (network_type and network_type != c_utils.NsxVNetworkTypes.PORTGROUP): for dvsmrf, netmrf in six.iteritems(dvs_pg_mappings): self._delete_backend_network(netmrf, dvsmrf) LOG.exception('Failed to create network') # If init is incomplete calling _update_qos_network() will result a # deadlock. # That situation happens when metadata init is creating a network # on its 1st execution. # Therefore we skip this code during init. if backend_network and self.init_is_complete: # Update the QOS restrictions of the backend network self._update_qos_on_created_network(context, net_data) new_net[qos_consts.QOS_POLICY_ID] = ( qos_com_utils.get_network_policy_id(context, new_net['id'])) # this extra lookup is necessary to get the # latest db model for the extension functions net_model = self._get_network(context, new_net['id']) self._apply_dict_extend_functions('networks', new_net, net_model) return new_net def _update_qos_on_created_network(self, context, net_data): if validators.is_attr_set(net_data.get(qos_consts.QOS_POLICY_ID)): # update the BWM data on the backend qos_policy_id = net_data[qos_consts.QOS_POLICY_ID] self._update_qos_on_backend_network( context, net_data['id'], qos_policy_id) # attach the policy to the network in the neutron DB qos_com_utils.update_network_policy_binding( context, net_data['id'], net_data[qos_consts.QOS_POLICY_ID]) def _update_qos_on_backend_network(self, context, net_id, qos_policy_id): # Translate the QoS rule data into Nsx values qos_data = qos_utils.NsxVQosRule( context=context, qos_policy_id=qos_policy_id) # default dvs for this network az = self.get_network_az_by_net_id(context, net_id) az_dvs_id = az.dvs_id # get the network moref/s from the db net_mappings = nsx_db.get_nsx_network_mappings( context.session, net_id) for mapping in net_mappings: # update the qos restrictions of the network self._vcm.update_port_groups_config( mapping.dvs_id or az_dvs_id, net_id, mapping.nsx_id, self._vcm.update_port_group_spec_qos, qos_data) def _cleanup_dhcp_edge_before_deletion(self, context, net_id): if self.metadata_proxy_handler: # Find if this is the last network which is bound # to DHCP Edge. If it is - cleanup Edge metadata config dhcp_edge = nsxv_db.get_dhcp_edge_network_binding( context.session, net_id) if dhcp_edge: edge_vnics = nsxv_db.get_edge_vnic_bindings_by_edge( context.session, dhcp_edge['edge_id']) # If the DHCP Edge is connected to two networks: # the delete network and the inter-edge network, we can delete # the inter-edge interface if len(edge_vnics) == 2: rtr_binding = nsxv_db.get_nsxv_router_binding_by_edge( context.session, dhcp_edge['edge_id']) if rtr_binding: rtr_id = rtr_binding['router_id'] az_name = rtr_binding['availability_zone'] md_proxy = self.get_metadata_proxy_handler(az_name) md_proxy.cleanup_router_edge(context, rtr_id) else: self.edge_manager.reconfigure_shared_edge_metadata_port( context, (vcns_const.DHCP_EDGE_PREFIX + net_id)[:36]) def _update_dhcp_edge_service(self, context, network_id, address_groups): self.edge_manager.update_dhcp_edge_service( context, network_id, address_groups=address_groups) def _delete_dhcp_edge_service(self, context, id): self.edge_manager.delete_dhcp_edge_service(context, id) def _is_neutron_spoofguard_policy(self, net_id, moref, policy_id): # A neutron policy will have the network UUID as the name of the # policy try: policy = self.nsx_v.vcns.get_spoofguard_policy(policy_id)[1] except Exception: LOG.error("Policy does not exists for %s", policy_id) # We will not attempt to delete a policy that does not exist return False if policy: for ep in policy['enforcementPoints']: if ep['id'] == moref and policy['name'] == net_id: return True return False def delete_network(self, context, id): mappings = nsx_db.get_nsx_network_mappings(context.session, id) bindings = nsxv_db.get_network_bindings(context.session, id) if cfg.CONF.nsxv.spoofguard_enabled: sg_policy_id = nsxv_db.get_spoofguard_policy_id( context.session, id) # Update the DHCP edge for metadata and clean the vnic in DHCP edge # if there is only no other existing port besides DHCP port filters = {'network_id': [id]} ports = self.get_ports(context, filters=filters) auto_del = [p['id'] for p in ports if p['device_owner'] in [constants.DEVICE_OWNER_DHCP]] is_dhcp_backend_deleted = False if auto_del: filters = {'network_id': [id], 'enable_dhcp': [True]} sids = self.get_subnets(context, filters=filters, fields=['id']) if len(sids) > 0: try: self._cleanup_dhcp_edge_before_deletion(context, id) self._delete_dhcp_edge_service(context, id) is_dhcp_backend_deleted = True except Exception: with excutils.save_and_reraise_exception(): LOG.exception('Failed to delete network') for port_id in auto_del: try: self.delete_port(context.elevated(), port_id, force_delete_dhcp=True) except Exception as e: LOG.warning('Unable to delete port %(port_id)s. ' 'Reason: %(e)s', {'port_id': port_id, 'e': e}) self._process_l3_delete(context, id) # We would first delete subnet db if the backend dhcp service is # deleted in case of entering delete_subnet logic and retrying # to delete backend dhcp service again. if is_dhcp_backend_deleted: subnets = self._get_subnets_by_network(context, id) for subnet in subnets: super(NsxVPluginV2, self).delete_subnet( context, subnet['id']) super(NsxVPluginV2, self).delete_network(context, id) # Do not delete a predefined port group that was attached to # an external network if (bindings and bindings[0].binding_type == c_utils.NsxVNetworkTypes.PORTGROUP): if cfg.CONF.nsxv.spoofguard_enabled and sg_policy_id: if self._is_neutron_spoofguard_policy(id, mappings[0].nsx_id, sg_policy_id): self.nsx_v.vcns.delete_spoofguard_policy(sg_policy_id) return # Delete the backend network if necessary. This is done after # the base operation as that may throw an exception in the case # that there are ports defined on the network. if mappings: if cfg.CONF.nsxv.spoofguard_enabled and sg_policy_id: self.nsx_v.vcns.delete_spoofguard_policy(sg_policy_id) edge_utils.check_network_in_use_at_backend(context, id) for mapping in mappings: self._delete_backend_network( mapping.nsx_id, mapping.dvs_id) def _extend_get_network_dict_provider(self, context, net): self._extend_network_dict_provider(context, net) net[qos_consts.QOS_POLICY_ID] = qos_com_utils.get_network_policy_id( context, net['id']) def get_network(self, context, id, fields=None): with db_api.context_manager.reader.using(context): # goto to the plugin DB and fetch the network network = self._get_network(context, id) # Don't do field selection here otherwise we won't be able # to add provider networks fields net_result = self._make_network_dict(network, context=context) self._extend_get_network_dict_provider(context, net_result) return db_utils.resource_fields(net_result, fields) def get_networks(self, context, filters=None, fields=None, sorts=None, limit=None, marker=None, page_reverse=False): filters = filters or {} with db_api.context_manager.reader.using(context): networks = ( super(NsxVPluginV2, self).get_networks( context, filters, fields, sorts, limit, marker, page_reverse)) for net in networks: self._extend_get_network_dict_provider(context, net) return (networks if not fields else [db_utils.resource_fields(network, fields) for network in networks]) def _raise_if_updates_provider_attributes(self, original_network, attrs, az_dvs): """Raise exception if provider attributes are present. For the NSX-V we want to allow changing the physical network of vlan type networks. """ if (original_network.get(pnet.NETWORK_TYPE) == c_utils.NsxVNetworkTypes.VLAN and validators.is_attr_set( attrs.get(pnet.PHYSICAL_NETWORK)) and not validators.is_attr_set( attrs.get(pnet.NETWORK_TYPE)) and not validators.is_attr_set( attrs.get(pnet.SEGMENTATION_ID))): self._validate_physical_network( attrs[pnet.PHYSICAL_NETWORK], az_dvs) return providernet._raise_if_updates_provider_attributes(attrs) def _update_vlan_network_dvs_ids(self, network, new_physical_network, az_dvs): """Update the dvs ids of a vlan provider network The new values will be added to the current ones. No support for removing dvs-ids. Actions done in this function: - Create a backend network for each new dvs - Return the relevant information in order to later also update the spoofguard policy, qos, network object and DB Returns: - dvs_list_changed True/False - dvs_pg_mappings - mapping of the new elements dvs->moref """ dvs_pg_mappings = {} current_dvs_ids = set(self._get_dvs_ids( network[pnet.PHYSICAL_NETWORK], az_dvs)) new_dvs_ids = set(self._get_dvs_ids( new_physical_network, az_dvs)) additinal_dvs_ids = new_dvs_ids - current_dvs_ids if not additinal_dvs_ids: return False, dvs_pg_mappings # create all the new ones for dvs_id in additinal_dvs_ids: try: self._convert_to_transport_zones_dict(network) net_moref = self._create_vlan_network_at_backend( dvs_id=dvs_id, net_data=network) except nsx_exc.NsxPluginException: with excutils.save_and_reraise_exception(): # Delete VLAN networks on other DVSes if it # fails to be created on one DVS and reraise # the original exception. for dvsmoref, netmoref in six.iteritems(dvs_pg_mappings): self._delete_backend_network(netmoref, dvsmoref) dvs_pg_mappings[dvs_id] = net_moref return True, dvs_pg_mappings def update_network(self, context, id, network): net_attrs = network['network'] orig_net = self.get_network(context, id) az_dvs = self._get_network_az_dvs_id(orig_net) self._raise_if_updates_provider_attributes( orig_net, net_attrs, az_dvs) if net_attrs.get("admin_state_up") is False: raise NotImplementedError(_("admin_state_up=False networks " "are not supported.")) net_morefs = nsx_db.get_nsx_switch_ids(context.session, id) backend_network = True if len(net_morefs) > 0 else False self._validate_network_qos(net_attrs, backend_network) # PortSecurity validation checks # TODO(roeyc): enacapsulate validation in a method psec_update = (psec.PORTSECURITY in net_attrs and orig_net[psec.PORTSECURITY] != net_attrs[psec.PORTSECURITY]) if psec_update and not net_attrs[psec.PORTSECURITY]: LOG.warning("Disabling port-security on network %s would " "require instance in the network to have VM tools " "installed in order for security-groups to " "function properly.") # Check if the physical network of a vlan provider network was updated updated_morefs = False if (net_attrs.get(pnet.PHYSICAL_NETWORK) and orig_net.get(pnet.NETWORK_TYPE) == c_utils.NsxVNetworkTypes.VLAN): (updated_morefs, new_dvs_pg_mappings) = self._update_vlan_network_dvs_ids( orig_net, net_attrs[pnet.PHYSICAL_NETWORK], az_dvs) if updated_morefs: new_dvs = list(new_dvs_pg_mappings.values()) net_morefs.extend(new_dvs) with db_api.context_manager.writer.using(context): net_res = super(NsxVPluginV2, self).update_network(context, id, network) self._extension_manager.process_update_network(context, net_attrs, net_res) self._process_network_port_security_update( context, net_attrs, net_res) self._process_l3_update(context, net_res, net_attrs) self._extend_network_dict_provider(context, net_res) if updated_morefs: # Save netmoref to dvs id mappings for VLAN network # type for future access. all_dvs = net_res.get(pnet.PHYSICAL_NETWORK) for dvs_id, netmoref in six.iteritems(new_dvs_pg_mappings): nsx_db.add_neutron_nsx_network_mapping( session=context.session, neutron_id=id, nsx_switch_id=netmoref, dvs_id=dvs_id) all_dvs = '%s, %s' % (all_dvs, dvs_id) net_res[pnet.PHYSICAL_NETWORK] = all_dvs vlan_id = net_res.get(pnet.SEGMENTATION_ID) nsxv_db.update_network_binding_phy_uuid( context.session, id, net_res.get(pnet.NETWORK_TYPE), vlan_id, all_dvs) # Updating SpoofGuard policy if exists, on failure revert to network # old state if (cfg.CONF.nsxv.spoofguard_enabled and (psec_update or updated_morefs)): policy_id = nsxv_db.get_spoofguard_policy_id(context.session, id) port_sec = (net_attrs[psec.PORTSECURITY] if psec.PORTSECURITY in net_attrs else orig_net.get(psec.PORTSECURITY)) try: self.nsx_v.vcns.update_spoofguard_policy( policy_id, net_morefs, id, port_sec) except Exception: with excutils.save_and_reraise_exception(): revert_update = db_utils.resource_fields( orig_net, ['shared', psec.PORTSECURITY]) self._process_network_port_security_update( context, revert_update, net_res) super(NsxVPluginV2, self).update_network( context, id, {'network': revert_update}) # Handle QOS updates (Value can be None, meaning to delete the # current policy), or moref updates with an existing qos policy if ((qos_consts.QOS_POLICY_ID in net_attrs) or (updated_morefs and orig_net.get(qos_consts.QOS_POLICY_ID))): # update the qos data qos_policy_id = (net_attrs[qos_consts.QOS_POLICY_ID] if qos_consts.QOS_POLICY_ID in net_attrs else orig_net.get(qos_consts.QOS_POLICY_ID)) self._update_qos_on_backend_network(context, id, qos_policy_id) # attach the policy to the network in neutron DB qos_com_utils.update_network_policy_binding( context, id, qos_policy_id) net_res[qos_consts.QOS_POLICY_ID] = ( qos_com_utils.get_network_policy_id(context, id)) return net_res def _validate_address_pairs(self, attrs, db_port): for ap in attrs[addr_pair.ADDRESS_PAIRS]: # Check that the IP address is a subnet if len(ap['ip_address'].split('/')) > 1: msg = _('NSXv does not support CIDR as address pairs') raise n_exc.BadRequest(resource='address_pairs', msg=msg) # Check that the MAC address is the same as the port if ('mac_address' in ap and ap['mac_address'] != db_port['mac_address']): msg = _('Address pairs should have same MAC as the port') raise n_exc.BadRequest(resource='address_pairs', msg=msg) def _is_mac_in_use(self, context, network_id, mac_address): # Override this method as the backed doesn't support using the same # mac twice on any network, not just this specific network admin_ctx = context.elevated() return bool(admin_ctx.session.query(models_v2.Port). filter(models_v2.Port.mac_address == mac_address). count()) @db_api.retry_db_errors def base_create_port(self, context, port): created_port = super(NsxVPluginV2, self).create_port(context, port) self._extension_manager.process_create_port( context, port['port'], created_port) return created_port def _process_vnic_type(self, context, port_data, attrs, has_security_groups, port_security): vnic_type = attrs and attrs.get(pbin.VNIC_TYPE) if attrs and validators.is_attr_set(vnic_type): if vnic_type == pbin.VNIC_NORMAL: pass elif vnic_type == pbin.VNIC_DIRECT: if has_security_groups or port_security: err_msg = _("Direct VNIC type requires no port " "security and no security groups!") raise n_exc.InvalidInput(error_message=err_msg) if not self._validate_network_type( context, port_data['network_id'], [c_utils.NsxVNetworkTypes.VLAN, c_utils.NsxVNetworkTypes.FLAT, c_utils.NsxVNetworkTypes.PORTGROUP]): err_msg = _("Direct VNIC type requires VLAN, Flat or " "Portgroup network!") raise n_exc.InvalidInput(error_message=err_msg) else: err_msg = _("Only direct or normal VNIC types supported") raise n_exc.InvalidInput(error_message=err_msg) nsxv_db.update_nsxv_port_ext_attributes( session=context.session, port_id=port_data['id'], vnic_type=vnic_type) def create_port(self, context, port): port_data = port['port'] with db_api.context_manager.writer.using(context): # First we allocate port in neutron database neutron_db = super(NsxVPluginV2, self).create_port(context, port) # Port port-security is decided by the port-security state on the # network it belongs to, unless specifically specified here if validators.is_attr_set(port_data.get(psec.PORTSECURITY)): port_security = port_data[psec.PORTSECURITY] else: port_security = self._get_network_security_binding( context, neutron_db['network_id']) port_data[psec.PORTSECURITY] = port_security self._process_port_port_security_create( context, port_data, neutron_db) # Update fields obtained from neutron db (eg: MAC address) port["port"].update(neutron_db) has_ip = self._ip_on_port(neutron_db) provider_sg_specified = (validators.is_attr_set( port_data.get(provider_sg.PROVIDER_SECURITYGROUPS)) and port_data[provider_sg.PROVIDER_SECURITYGROUPS] != []) has_security_groups = ( self._check_update_has_security_groups(port)) # allowed address pair checks attrs = port[attr.PORT] if self._check_update_has_allowed_address_pairs(port): if not port_security: raise addr_pair.AddressPairAndPortSecurityRequired() self._validate_address_pairs(attrs, neutron_db) else: # remove ATTR_NOT_SPECIFIED attrs[addr_pair.ADDRESS_PAIRS] = [] # security group extension checks if has_ip: self._ensure_default_security_group_on_port(context, port) elif (has_security_groups or provider_sg_specified): raise psec.PortSecurityAndIPRequiredForSecurityGroups() else: port_data[provider_sg.PROVIDER_SECURITYGROUPS] = [] (sgids, ssgids) = self._get_port_security_groups_lists( context, port) self._process_port_create_security_group(context, port_data, sgids) self._process_port_create_provider_security_group(context, port_data, ssgids) self._process_portbindings_create_and_update(context, port['port'], port_data) neutron_db[addr_pair.ADDRESS_PAIRS] = ( self._process_create_allowed_address_pairs( context, neutron_db, attrs.get(addr_pair.ADDRESS_PAIRS))) self._process_vnic_type(context, port_data, attrs, has_security_groups, port_security) # Invoking the manager callback under transaction fails so here # we do it outside. If this fails we will blow away the port try: with db_api.context_manager.writer.using(context): self._extension_manager.process_create_port( context, port_data, neutron_db) except Exception as e: with excutils.save_and_reraise_exception(): LOG.error('Failed to create port %(id)s. ' 'Exception: %(e)s', {'id': neutron_db['id'], 'e': e}) # Revert what we have created and raise the exception self.delete_port(context, port_data['id']) try: # Configure NSX - this should not be done in the DB transaction # Configure the DHCP Edge service self._create_dhcp_static_binding(context, neutron_db) except Exception: with excutils.save_and_reraise_exception(): LOG.exception('Failed to create port') # Revert what we have created and raise the exception self.delete_port(context, port_data['id']) # this extra lookup is necessary to get the # latest db model for the extension functions port_model = self._get_port(context, port_data['id']) self._apply_dict_extend_functions('ports', port_data, port_model) return port_data def _get_port_subnet_mask(self, context, port): if len(port['fixed_ips']) > 0 and 'subnet_id' in port['fixed_ips'][0]: subnet_id = port['fixed_ips'][0]['subnet_id'] subnet = self._get_subnet(context, subnet_id) return str(netaddr.IPNetwork(subnet.cidr).netmask) def _get_port_fixed_ip_addr(self, port): if (len(port['fixed_ips']) > 0 and 'ip_address' in port['fixed_ips'][0]): return port['fixed_ips'][0]['ip_address'] def _count_no_sec_ports_for_device_id(self, context, device_id): """Find how many compute ports with this device ID and no security there are, so we can decide on adding / removing the device from the exclusion list """ filters = {'device_id': [device_id], 'device_owner': ['compute:None']} ports = self.get_ports(context.elevated(), filters=filters) return len([p for p in ports if validators.is_attr_set(p.get(ext_vnic_idx.VNIC_INDEX)) and not p[psec.PORTSECURITY]]) def _add_vm_to_exclude_list(self, context, device_id, port_id): if (self._vcm and cfg.CONF.nsxv.use_exclude_list): # first time for this vm (we expect the count to be 1 already # because the DB was already updated) if (self._count_no_sec_ports_for_device_id( context, device_id) <= 1): vm_moref = self._vcm.get_vm_moref(device_id) if vm_moref is not None: try: LOG.info("Add VM %(dev)s to exclude list on " "behalf of port %(port)s: added to " "list", {"dev": device_id, "port": port_id}) self.nsx_v.vcns.add_vm_to_exclude_list(vm_moref) except vsh_exc.RequestBad as e: LOG.error("Failed to add vm %(device)s " "moref %(moref)s to exclude list: " "%(err)s", {'device': device_id, 'moref': vm_moref, 'err': e}) else: LOG.info("Add VM %(dev)s to exclude list on behalf of " "port %(port)s: VM already in list", {"dev": device_id, "port": port_id}) loose_ver = version.LooseVersion(self.nsx_v.vcns.get_version()) if loose_ver < version.LooseVersion('6.3.3'): LOG.info("Syncing firewall") self.nsx_v.vcns.sync_firewall() def _remove_vm_from_exclude_list(self, context, device_id, port_id, expected_count=0): if (self._vcm and cfg.CONF.nsxv.use_exclude_list): # No ports left in DB (expected count is 0 or 1 depending # on whether the DB was already updated), # So we can remove it from the backend exclude list if (self._count_no_sec_ports_for_device_id( context, device_id) <= expected_count): vm_moref = self._vcm.get_vm_moref(device_id) if vm_moref is not None: try: LOG.info("Remove VM %(dev)s from exclude list on " "behalf of port %(port)s: removed from " "list", {"dev": device_id, "port": port_id}) self.nsx_v.vcns.delete_vm_from_exclude_list(vm_moref) except vsh_exc.RequestBad as e: LOG.error("Failed to delete vm %(device)s " "moref %(moref)s from exclude list: " "%(err)s", {'device': device_id, 'moref': vm_moref, 'err': e}) else: LOG.info("Remove VM %(dev)s from exclude list on behalf " "of port %(port)s: other ports still in list", {"dev": device_id, "port": port_id}) def update_port(self, context, id, port): with locking.LockManager.get_lock('port-update-%s' % id): original_port = super(NsxVPluginV2, self).get_port(context, id) is_compute_port = self._is_compute_port(original_port) device_id = original_port['device_id'] if is_compute_port and device_id: # Lock on the device ID to make sure we do not change/delete # ports of the same device at the same time with locking.LockManager.get_lock( 'port-device-%s' % device_id): return self._update_port(context, id, port, original_port, is_compute_port, device_id) else: return self._update_port(context, id, port, original_port, is_compute_port, device_id) def _update_port(self, context, id, port, original_port, is_compute_port, device_id): attrs = port[attr.PORT] port_data = port['port'] if addr_pair.ADDRESS_PAIRS in attrs: self._validate_address_pairs(attrs, original_port) orig_has_port_security = (cfg.CONF.nsxv.spoofguard_enabled and original_port[psec.PORTSECURITY]) port_ip_change = port_data.get('fixed_ips') is not None device_owner_change = port_data.get('device_owner') is not None # We do not support updating the port ip and device owner together if port_ip_change and device_owner_change: msg = (_('Cannot set fixed ips and device owner together for port ' '%s') % original_port['id']) raise n_exc.BadRequest(resource='port', msg=msg) # Check if port security has changed port_sec_change = False has_port_security = orig_has_port_security if (psec.PORTSECURITY in port_data and port_data[psec.PORTSECURITY] != original_port[psec.PORTSECURITY]): port_sec_change = True has_port_security = (cfg.CONF.nsxv.spoofguard_enabled and port_data[psec.PORTSECURITY]) # We do not support modification of port security with other # parameters (only with security groups) to reduce some of # the complications if (len(port_data.keys()) > 2 or (ext_sg.SECURITYGROUPS not in port_data and len(port_data.keys()) > 1)): msg = (_('Cannot set port security together with other ' 'attributes for port %s') % original_port['id']) raise n_exc.BadRequest(resource='port', msg=msg) # TODO(roeyc): create a method '_process_vnic_index_update' from the # following code block # Process update for vnic-index vnic_idx = port_data.get(ext_vnic_idx.VNIC_INDEX) # Only set the vnic index for a compute VM if validators.is_attr_set(vnic_idx) and is_compute_port: # Update database only if vnic index was changed if original_port.get(ext_vnic_idx.VNIC_INDEX) != vnic_idx: self._set_port_vnic_index_mapping( context, id, device_id, vnic_idx) vnic_id = self._get_port_vnic_id(vnic_idx, device_id) self._add_security_groups_port_mapping( context.session, vnic_id, original_port[ext_sg.SECURITYGROUPS] + original_port[provider_sg.PROVIDER_SECURITYGROUPS]) if has_port_security: LOG.debug("Assigning vnic port fixed-ips: port %s, " "vnic %s, with fixed-ips %s", id, vnic_id, original_port['fixed_ips']) self._update_vnic_assigned_addresses( context.session, original_port, vnic_id) elif cfg.CONF.nsxv.spoofguard_enabled: # Add vm to the exclusion list, since it has no port security self._add_vm_to_exclude_list(context, device_id, id) # if service insertion is enabled - add this vnic to the service # insertion security group if self._si_handler.enabled and original_port[psec.PORTSECURITY]: self._add_member_to_security_group(self._si_handler.sg_id, vnic_id) provider_sgs_specified = validators.is_attr_set( port_data.get(provider_sg.PROVIDER_SECURITYGROUPS)) delete_provider_sg = provider_sgs_specified and ( port_data[provider_sg.PROVIDER_SECURITYGROUPS] != []) delete_security_groups = self._check_update_deletes_security_groups( port) has_security_groups = self._check_update_has_security_groups(port) comp_owner_update = ('device_owner' in port_data and port_data['device_owner'].startswith('compute:')) with db_api.context_manager.writer.using(context): ret_port = super(NsxVPluginV2, self).update_port( context, id, port) self._extension_manager.process_update_port( context, port_data, ret_port) # copy values over - except fixed_ips as # they've already been processed updates_fixed_ips = port['port'].pop('fixed_ips', []) ret_port.update(port['port']) has_ip = self._ip_on_port(ret_port) # checks that if update adds/modify security groups, # then port has ip if not has_ip: if (has_security_groups or provider_sgs_specified): raise psec.PortSecurityAndIPRequiredForSecurityGroups() if ((not delete_security_groups and original_port[ext_sg.SECURITYGROUPS]) or (not delete_provider_sg and original_port[provider_sg.PROVIDER_SECURITYGROUPS])): raise psec.PortSecurityAndIPRequiredForSecurityGroups() if delete_security_groups or has_security_groups: self.update_security_group_on_port(context, id, port, original_port, ret_port) # NOTE(roeyc): Should call this method only after # update_security_group_on_port was called. pvd_sg_changed = self._process_port_update_provider_security_group( context, port, original_port, ret_port) LOG.debug("Updating port: %s", port) self._process_portbindings_create_and_update(context, port['port'], ret_port) update_assigned_addresses = False if addr_pair.ADDRESS_PAIRS in attrs: update_assigned_addresses = self.update_address_pairs_on_port( context, id, port, original_port, ret_port) self._process_vnic_type(context, ret_port, attrs, has_security_groups, has_port_security) if comp_owner_update: # Create dhcp bindings, the port is now owned by an instance self._create_dhcp_static_binding(context, ret_port) elif port_ip_change: owner = original_port['device_owner'] # If port IP has changed we should update according to device # owner if is_compute_port: # This is an instance port, so re-create DHCP entry self._delete_dhcp_static_binding(context, original_port) self._create_dhcp_static_binding(context, ret_port) elif owner == constants.DEVICE_OWNER_DHCP: # Update the ip of the dhcp port address_groups = self._create_network_dhcp_address_group( context, ret_port['network_id']) self._update_dhcp_edge_service( context, ret_port['network_id'], address_groups) elif (owner == constants.DEVICE_OWNER_ROUTER_GW or owner == constants.DEVICE_OWNER_ROUTER_INTF): # This is a router port - update the edge appliance old_ip = self._get_port_fixed_ip_addr(original_port) new_ip = self._get_port_fixed_ip_addr(ret_port) if ((old_ip is not None or new_ip is not None) and (old_ip != new_ip)): if validators.is_attr_set(original_port.get('device_id')): router_id = original_port['device_id'] router_driver = self._find_router_driver(context, router_id) # subnet mask is needed for adding new ip to the vnic sub_mask = self._get_port_subnet_mask(context, ret_port) router_driver.update_router_interface_ip( context, router_id, original_port['id'], ret_port['network_id'], old_ip, new_ip, sub_mask) else: LOG.info('Not updating fixed IP on backend for ' 'device owner [%(dev_own)s] and port %(pid)s', {'dev_own': owner, 'pid': original_port['id']}) # update port security in DB if changed if psec.PORTSECURITY in port['port']: self._process_port_port_security_update( context, port_data, ret_port) # Processing compute port update vnic_idx = original_port.get(ext_vnic_idx.VNIC_INDEX) if validators.is_attr_set(vnic_idx) and is_compute_port: vnic_id = self._get_port_vnic_id(vnic_idx, device_id) curr_sgids = ( original_port[provider_sg.PROVIDER_SECURITYGROUPS] + original_port[ext_sg.SECURITYGROUPS]) if ret_port['device_id'] != device_id: # Update change device_id - remove port-vnic association and # delete security-groups memberships for the vnic self._delete_security_groups_port_mapping( context.session, vnic_id, curr_sgids) if cfg.CONF.nsxv.spoofguard_enabled: if original_port[psec.PORTSECURITY]: try: self._remove_vnic_from_spoofguard_policy( context.session, original_port['network_id'], vnic_id) except Exception as e: LOG.error('Could not delete the spoofguard ' 'policy. Exception %s', e) # remove vm from the exclusion list when it is detached # from the device if it has no port security if not original_port[psec.PORTSECURITY]: self._remove_vm_from_exclude_list( context, device_id, id) self._delete_port_vnic_index_mapping(context, id) self._delete_dhcp_static_binding(context, original_port) # if service insertion is enabled - remove this vnic from the # service insertion security group if (self._si_handler.enabled and original_port[psec.PORTSECURITY]): self._remove_member_from_security_group( self._si_handler.sg_id, vnic_id) else: # port security enabled / disabled if port_sec_change: if has_port_security: LOG.debug("Assigning vnic port fixed-ips: port %s, " "vnic %s, with fixed-ips %s", id, vnic_id, original_port['fixed_ips']) self._update_vnic_assigned_addresses( context.session, original_port, vnic_id) # Remove vm from the exclusion list, since it now has # port security self._remove_vm_from_exclude_list(context, device_id, id) # add the vm to the service insertion if self._si_handler.enabled: self._add_member_to_security_group( self._si_handler.sg_id, vnic_id) elif cfg.CONF.nsxv.spoofguard_enabled: try: self._remove_vnic_from_spoofguard_policy( context.session, original_port['network_id'], vnic_id) except Exception as e: LOG.error('Could not delete the spoofguard ' 'policy. Exception %s', e) # Add vm to the exclusion list, since it has no port # security now self._add_vm_to_exclude_list(context, device_id, id) # remove the vm from the service insertion if self._si_handler.enabled: self._remove_member_from_security_group( self._si_handler.sg_id, vnic_id) # Update vnic with the newest approved IP addresses if (has_port_security and (updates_fixed_ips or update_assigned_addresses)): LOG.debug("Updating vnic port fixed-ips: port %s, vnic " "%s, fixed-ips %s", id, vnic_id, ret_port['fixed_ips']) self._update_vnic_assigned_addresses( context.session, ret_port, vnic_id) if not has_port_security and has_security_groups: LOG.warning("port-security is disabled on " "port %(id)s, " "VM tools must be installed on instance " "%(device_id)s for security-groups to " "function properly ", {'id': id, 'device_id': original_port['device_id']}) if (delete_security_groups or has_security_groups or pvd_sg_changed): # Update security-groups, # calculate differences and update vnic membership # accordingly. new_sgids = ( ret_port[provider_sg.PROVIDER_SECURITYGROUPS] + ret_port[ext_sg.SECURITYGROUPS]) self._update_security_groups_port_mapping( context.session, id, vnic_id, curr_sgids, new_sgids) return ret_port def delete_port(self, context, id, l3_port_check=True, nw_gw_port_check=True, force_delete_dhcp=False): neutron_db_port = self.get_port(context, id) device_id = neutron_db_port['device_id'] is_compute_port = self._is_compute_port(neutron_db_port) if is_compute_port and device_id: # Lock on the device ID to make sure we do not change/delete # ports of the same device at the same time with locking.LockManager.get_lock( 'port-device-%s' % device_id): return self._delete_port(context, id, l3_port_check, nw_gw_port_check, neutron_db_port, force_delete_dhcp) else: return self._delete_port(context, id, l3_port_check, nw_gw_port_check, neutron_db_port, force_delete_dhcp) def _delete_port(self, context, id, l3_port_check, nw_gw_port_check, neutron_db_port, force_delete_dhcp=False): """Deletes a port on a specified Virtual Network. If the port contains a remote interface attachment, the remote interface is first un-plugged and then the port is deleted. :returns: None :raises: exception.PortInUse :raises: exception.PortNotFound :raises: exception.NetworkNotFound """ # if needed, check to see if this is a port owned by # a l3 router. If so, we should prevent deletion here if l3_port_check: self.prevent_l3_port_deletion(context, id) if (not force_delete_dhcp and neutron_db_port['device_owner'] in [constants.DEVICE_OWNER_DHCP]): msg = (_('Can not delete DHCP port %s') % neutron_db_port['id']) raise n_exc.BadRequest(resource='port', msg=msg) # If this port is attached to a device, remove the corresponding vnic # from all NSXv Security-Groups and the spoofguard policy port_index = neutron_db_port.get(ext_vnic_idx.VNIC_INDEX) if validators.is_attr_set(port_index): vnic_id = self._get_port_vnic_id(port_index, neutron_db_port['device_id']) sgids = neutron_db_port.get(ext_sg.SECURITYGROUPS) self._delete_security_groups_port_mapping( context.session, vnic_id, sgids) # if service insertion is enabled - remove this vnic from the # service insertion security group if self._si_handler.enabled and neutron_db_port[psec.PORTSECURITY]: self._remove_member_from_security_group(self._si_handler.sg_id, vnic_id) if (cfg.CONF.nsxv.spoofguard_enabled and neutron_db_port[psec.PORTSECURITY]): try: self._remove_vnic_from_spoofguard_policy( context.session, neutron_db_port['network_id'], vnic_id) except Exception as e: LOG.error('Could not delete the spoofguard policy. ' 'Exception %s', e) if (cfg.CONF.nsxv.spoofguard_enabled and not neutron_db_port[psec.PORTSECURITY] and self._is_compute_port(neutron_db_port)): device_id = neutron_db_port['device_id'] # Note that we expect to find 1 relevant port in the DB still # because this port was not yet deleted self._remove_vm_from_exclude_list(context, device_id, id, expected_count=1) self.disassociate_floatingips(context, id) with db_api.context_manager.writer.using(context): super(NsxVPluginV2, self).delete_port(context, id) self._delete_dhcp_static_binding(context, neutron_db_port) def _extend_port_dict_binding(self, portdb, result): result[pbin.VIF_TYPE] = nsx_constants.VIF_TYPE_DVS port_attr = portdb.get('nsx_port_attributes') if port_attr: result[pbin.VNIC_TYPE] = port_attr.vnic_type else: result[pbin.VNIC_TYPE] = pbin.VNIC_NORMAL result[pbin.VIF_DETAILS] = { # TODO(rkukura): Replace with new VIF security details pbin.CAP_PORT_FILTER: 'security-group' in self.supported_extension_aliases} def delete_subnet(self, context, id): subnet = self._get_subnet(context, id) filters = {'fixed_ips': {'subnet_id': [id]}} ports = self.get_ports(context, filters=filters) # Add nsx-edge-pool here is because we first delete the subnet in db. # if the subnet overlaps with another new creating subnet, there is a # chance that the new creating subnet select the deleting subnet's edge # and send update dhcp interface rest call before deleting subnet's # corresponding dhcp interface rest call and lead to overlap response # from backend. with locking.LockManager.get_lock('nsx-edge-pool'): with db_api.context_manager.writer.using(context): super(NsxVPluginV2, self).delete_subnet(context, id) if subnet['enable_dhcp']: # There is only DHCP port available if len(ports) == 1: port = ports.pop() self.ipam.delete_port(context, port['id']) if subnet['enable_dhcp']: # Delete the DHCP edge service network_id = subnet['network_id'] filters = {'network_id': [network_id]} remaining_subnets = self.get_subnets(context, filters=filters) if len(remaining_subnets) == 0: self._cleanup_dhcp_edge_before_deletion( context, network_id) LOG.debug("Delete the DHCP service for network %s", network_id) self._delete_dhcp_edge_service(context, network_id) else: # Update address group and delete the DHCP port only address_groups = self._create_network_dhcp_address_group( context, network_id) self._update_dhcp_edge_service(context, network_id, address_groups) def _is_overlapping_reserved_subnets(self, subnet): """Return True if the subnet overlaps with reserved subnets. For the V plugin we have a limitation that we should not use some reserved ranges like: 169.254.128.0/17 and 169.254.1.0/24 """ # translate the given subnet to a range object data = subnet['subnet'] if data['cidr'] not in (constants.ATTR_NOT_SPECIFIED, None): reserved_subnets = list(nsxv_constants.RESERVED_IPS) reserved_subnets.append(cfg.CONF.nsxv.vdr_transit_network) return edge_utils.is_overlapping_reserved_subnets(data['cidr'], reserved_subnets) return False def _get_dhcp_ip_addr_from_subnet(self, context, subnet_id): dhcp_port_filters = {'fixed_ips': {'subnet_id': [subnet_id]}, 'device_owner': [constants.DEVICE_OWNER_DHCP]} dhcp_ports = self.get_ports(context, filters=dhcp_port_filters) if dhcp_ports and dhcp_ports[0].get('fixed_ips'): return dhcp_ports[0]['fixed_ips'][0]['ip_address'] def is_dhcp_metadata(self, context, subnet_id): try: subnet = self.get_subnet(context, subnet_id) except n_exc.SubnetNotFound: LOG.debug("subnet %s not found to determine its dhcp meta", subnet_id) return False return bool(subnet['enable_dhcp'] and self.metadata_proxy_handler and cfg.CONF.nsxv.dhcp_force_metadata) def _validate_host_routes_input(self, subnet_input, orig_enable_dhcp=None, orig_host_routes=None): s = subnet_input['subnet'] request_host_routes = (validators.is_attr_set(s.get('host_routes')) and s['host_routes']) clear_host_routes = (validators.is_attr_set(s.get('host_routes')) and not s['host_routes']) request_enable_dhcp = s.get('enable_dhcp') if request_enable_dhcp is False: if (request_host_routes or not clear_host_routes and orig_host_routes): err_msg = _("Can't disable DHCP while using host routes") raise n_exc.InvalidInput(error_message=err_msg) if request_host_routes: if not request_enable_dhcp and orig_enable_dhcp is False: err_msg = _("Host routes can only be supported when DHCP " "is enabled") raise n_exc.InvalidInput(error_message=err_msg) if not self.edge_manager.is_dhcp_opt_enabled: err_msg = _("Host routes can only be supported at NSX version " "6.2.3 or higher") raise n_exc.InvalidInput(error_message=err_msg) def create_subnet_bulk(self, context, subnets): collection = "subnets" items = subnets[collection] new_subnets = [] for item in items: try: s = self.create_subnet(context, item) new_subnets.append(s) except Exception as e: LOG.error('Unable to create bulk subnets. Failed to ' 'create item %(item)s. Rolling back. ' 'Error: %(e)s', {'item': item, 'e': e}) for subnet in new_subnets: s_id = subnet['id'] try: self.delete_subnet(context, s_id) except Exception: LOG.error('Unable to delete subnet %s', s_id) raise return new_subnets def create_subnet(self, context, subnet): """Create subnet on nsx_v provider network. If the subnet is created with DHCP enabled, and the network which the subnet is attached is not bound to an DHCP Edge, nsx_v will create the Edge and make sure the network is bound to the Edge """ self._validate_host_routes_input(subnet) if subnet['subnet']['enable_dhcp']: filters = {'id': [subnet['subnet']['network_id']], 'router:external': [True]} nets = self.get_networks(context, filters=filters) if len(nets) > 0: err_msg = _("Can not enable DHCP on external network") raise n_exc.InvalidInput(error_message=err_msg) data = subnet['subnet'] if (data.get('ip_version') == 6 or (data['cidr'] not in (constants.ATTR_NOT_SPECIFIED, None) and netaddr.IPNetwork(data['cidr']).version == 6)): err_msg = _("No support for DHCP for IPv6") raise n_exc.InvalidInput(error_message=err_msg) if self._is_overlapping_reserved_subnets(subnet): err_msg = _("The requested subnet contains reserved IP's") raise n_exc.InvalidInput(error_message=err_msg) with locking.LockManager.get_lock(subnet['subnet']['network_id']): with locking.LockManager.get_lock('nsx-edge-pool'): s = super(NsxVPluginV2, self).create_subnet(context, subnet) self._extension_manager.process_create_subnet( context, subnet['subnet'], s) if s['enable_dhcp']: try: self._process_subnet_ext_attr_create( session=context.session, subnet_db=s, subnet_req=data) self._update_dhcp_service_with_subnet(context, s) except Exception: with excutils.save_and_reraise_exception(): self.delete_subnet(context, s['id']) return s def _process_subnet_ext_attr_create(self, session, subnet_db, subnet_req): # Verify if dns search domain/dhcp mtu for subnet are configured dns_search_domain = subnet_req.get( ext_dns_search_domain.DNS_SEARCH_DOMAIN) dhcp_mtu = subnet_req.get( ext_dhcp_mtu.DHCP_MTU) if (not validators.is_attr_set(dns_search_domain) and not validators.is_attr_set(dhcp_mtu)): return if not validators.is_attr_set(dns_search_domain): dns_search_domain = None if not validators.is_attr_set(dhcp_mtu): dhcp_mtu = None sub_binding = nsxv_db.get_nsxv_subnet_ext_attributes( session=session, subnet_id=subnet_db['id']) # Create a subnet extensions for subnet if it does not exist if not sub_binding: nsxv_db.add_nsxv_subnet_ext_attributes( session=session, subnet_id=subnet_db['id'], dns_search_domain=dns_search_domain, dhcp_mtu=dhcp_mtu) # Else update only if a new values for subnet extensions are provided elif (sub_binding.dns_search_domain != dns_search_domain or sub_binding.dhcp_mtu != dhcp_mtu): nsxv_db.update_nsxv_subnet_ext_attributes( session=session, subnet_id=subnet_db['id'], dns_search_domain=dns_search_domain, dhcp_mtu=dhcp_mtu) subnet_db['dns_search_domain'] = dns_search_domain subnet_db['dhcp_mtu'] = dhcp_mtu def _process_subnet_ext_attr_update(self, session, subnet_db, subnet_req): update_dhcp_config = False # Update extended attributes for subnet if (ext_dns_search_domain.DNS_SEARCH_DOMAIN in subnet_req or ext_dhcp_mtu.DHCP_MTU in subnet_req): self._process_subnet_ext_attr_create(session, subnet_db, subnet_req) update_dhcp_config = True return update_dhcp_config def _update_routers_on_gateway_change(self, context, subnet_id, new_gateway): """Update all relevant router edges that the nexthop changed.""" port_filters = {'device_owner': [l3_db.DEVICE_OWNER_ROUTER_GW], 'fixed_ips': {'subnet_id': [subnet_id]}} intf_ports = self.get_ports(context.elevated(), filters=port_filters) router_ids = [port['device_id'] for port in intf_ports] for router_id in router_ids: router_driver = self._find_router_driver(context, router_id) router_driver._update_nexthop(context, router_id, new_gateway) def update_subnet(self, context, id, subnet): s = subnet['subnet'] orig = self._get_subnet(context, id) gateway_ip = orig['gateway_ip'] enable_dhcp = orig['enable_dhcp'] orig_host_routes = orig['routes'] self._validate_host_routes_input(subnet, orig_enable_dhcp=enable_dhcp, orig_host_routes=orig_host_routes) subnet = super(NsxVPluginV2, self).update_subnet(context, id, subnet) self._extension_manager.process_update_subnet(context, s, subnet) update_dhcp_config = self._process_subnet_ext_attr_update( context.session, subnet, s) if (gateway_ip != subnet['gateway_ip'] or update_dhcp_config or set(orig['dns_nameservers']) != set(subnet['dns_nameservers']) or orig_host_routes != subnet['host_routes'] or enable_dhcp and not subnet['enable_dhcp']): # Need to ensure that all of the subnet attributes will be reloaded # when creating the edge bindings. Without adding this the original # subnet details are provided. context.session.expire_all() # Update the edge network_id = subnet['network_id'] self.edge_manager.update_dhcp_edge_bindings(context, network_id) # also update routers that use this subnet as their gateway if gateway_ip != subnet['gateway_ip']: self._update_routers_on_gateway_change(context, id, subnet['gateway_ip']) if enable_dhcp != subnet['enable_dhcp']: vdr_id = self._is_subnet_gw_a_vdr(context, subnet) if (vdr_id and self.metadata_proxy_handler): self._update_subnet_dhcp_status_vdr(subnet, context, vdr_id) else: self._update_subnet_dhcp_status(subnet, context) return subnet db_base_plugin_v2.NeutronDbPluginV2.register_dict_extend_funcs( attr.SUBNETS, ['_extend_subnet_dict_extended_attributes']) def _extend_subnet_dict_extended_attributes(self, subnet_res, subnet_db): subnet_attr = subnet_db.get('nsxv_subnet_attributes') if subnet_attr: subnet_res['dns_search_domain'] = subnet_attr.dns_search_domain subnet_res['dhcp_mtu'] = subnet_attr.dhcp_mtu def _is_subnet_gw_a_vdr(self, context, subnet): filters = {'fixed_ips': {'subnet_id': [subnet['id']], 'ip_address': [subnet['gateway_ip']]}} ports = self.get_ports(context, filters=filters) if ports and ports[0].get('device_id'): rtr_id = ports[0].get('device_id') rtr = self.get_router(context, rtr_id) if rtr and rtr.get('distributed'): return rtr_id def _update_subnet_dhcp_status_vdr(self, subnet, context, vdr_id): network_id = subnet['network_id'] vdr_driver = self._find_router_driver(context, vdr_id) if subnet['enable_dhcp']: with locking.LockManager.get_lock( self._get_edge_id_by_rtr_id(context, vdr_id)): self.edge_manager.configure_dhcp_for_vdr_network( context, network_id, vdr_id) if vdr_driver._metadata_cfg_required_after_port_add( context, vdr_id, subnet): vdr_driver._metadata_route_update(context, vdr_id) else: vdr_dhcp_binding = nsxv_db.get_vdr_dhcp_binding_by_vdr( context.session, vdr_id) if vdr_dhcp_binding: pass else: LOG.error('VDR DHCP binding not found for router %s', vdr_id) sids = self.get_subnets(context, filters={'network_id': [network_id], 'enable_dhcp': [True]}, fields=['id']) is_dhcp_network = len(sids) > 0 with locking.LockManager.get_lock( self._get_edge_id_by_rtr_id(context, vdr_id)): if vdr_driver._metadata_cfg_required_after_port_remove( context, vdr_id, subnet): vdr_driver._metadata_route_update(context, vdr_id) if not is_dhcp_network: # No other DHCP-enabled subnets on this network if vdr_dhcp_binding: self.edge_manager.reset_sysctl_rp_filter_for_vdr_dhcp( context, vdr_dhcp_binding['dhcp_edge_id'], network_id) self.edge_manager.remove_network_from_dhcp_edge( context, network_id, vdr_dhcp_binding['dhcp_edge_id']) def _update_subnet_dhcp_status(self, subnet, context): network_id = subnet['network_id'] if subnet['enable_dhcp']: # Check if the network has one related dhcp edge resource_id = (vcns_const.DHCP_EDGE_PREFIX + network_id)[:36] edge_binding = nsxv_db.get_nsxv_router_binding(context.session, resource_id) if edge_binding: # Create DHCP port port_dict = {'name': '', 'admin_state_up': True, 'network_id': network_id, 'tenant_id': subnet['tenant_id'], 'fixed_ips': [{'subnet_id': subnet['id']}], 'device_owner': constants.DEVICE_OWNER_DHCP, 'device_id': '', 'mac_address': constants.ATTR_NOT_SPECIFIED } self.create_port(context, {'port': port_dict}) # First time binding network with dhcp edge else: self._update_dhcp_service_with_subnet(context, subnet) return else: # delete dhcp port filters = {'fixed_ips': {'subnet_id': [subnet['id']]}} ports = self.get_ports(context, filters=filters) for port in ports: if port["device_owner"] == constants.DEVICE_OWNER_DHCP: self.ipam.delete_port(context, port['id']) # Delete the DHCP edge service network_id = subnet['network_id'] filters = {'network_id': [network_id]} subnets = self.get_subnets(context, filters=filters) cleaup_edge = True for s in subnets: if s['enable_dhcp']: cleaup_edge = False if cleaup_edge: self._cleanup_dhcp_edge_before_deletion( context, network_id) LOG.debug("Delete the DHCP service for network %s", network_id) self._delete_dhcp_edge_service(context, network_id) return address_groups = self._create_network_dhcp_address_group(context, network_id) self._update_dhcp_edge_service(context, network_id, address_groups) def _get_conflict_network_ids_by_overlapping(self, context, subnets): with locking.LockManager.get_lock('nsx-networking'): conflict_network_ids = [] subnet_ids = [subnet['id'] for subnet in subnets] conflict_set = netaddr.IPSet( [subnet['cidr'] for subnet in subnets]) subnets_qry = context.session.query(models_v2.Subnet).all() subnets_all = [subnet for subnet in subnets_qry if subnet['id'] not in subnet_ids] for subnet in subnets_all: cidr_set = netaddr.IPSet([subnet['cidr']]) if cidr_set & conflict_set: conflict_network_ids.append(subnet['network_id']) return conflict_network_ids def _get_conflicting_networks_for_subnet(self, context, subnet): network_id = subnet['network_id'] # The DHCP for network with different physical network can not be used # The flat network should be located in different DHCP conflicting_networks = [] network_ids = self.get_networks(context.elevated(), fields=['id']) phy_net = nsxv_db.get_network_bindings(context.session, network_id) if phy_net: binding_type = phy_net[0]['binding_type'] phy_uuid = phy_net[0]['phy_uuid'] for net_id in network_ids: p_net = nsxv_db.get_network_bindings(context.session, net_id['id']) if (p_net and binding_type == p_net[0]['binding_type'] and binding_type == c_utils.NsxVNetworkTypes.FLAT): conflicting_networks.append(net_id['id']) elif (p_net and phy_uuid != p_net[0]['phy_uuid']): conflicting_networks.append(net_id['id']) # get all of the subnets on the network, there may be more than one filters = {'network_id': [network_id]} subnets = super(NsxVPluginV2, self).get_subnets(context.elevated(), filters=filters) # Query all networks with overlap subnet if cfg.CONF.allow_overlapping_ips: conflicting_networks.extend( self._get_conflict_network_ids_by_overlapping( context, subnets)) conflicting_networks = list(set(conflicting_networks)) return conflicting_networks def _get_edge_id_by_rtr_id(self, context, rtr_id): binding = nsxv_db.get_nsxv_router_binding( context.session, rtr_id) if binding: return binding['edge_id'] def _get_edge_id_and_az_by_rtr_id(self, context, rtr_id): binding = nsxv_db.get_nsxv_router_binding( context.session, rtr_id) if binding: return binding['edge_id'], binding['availability_zone'] def _update_dhcp_service_new_edge(self, context, resource_id): edge_id, az_name = self._get_edge_id_and_az_by_rtr_id( context, resource_id) if edge_id: with locking.LockManager.get_lock(str(edge_id)): if self.metadata_proxy_handler: LOG.debug('Update metadata for resource %s az=%s', resource_id, az_name) md_proxy = self.get_metadata_proxy_handler(az_name) md_proxy.configure_router_edge(context, resource_id) self.setup_dhcp_edge_fw_rules(context, self, resource_id) def _update_dhcp_service_with_subnet(self, context, subnet): network_id = subnet['network_id'] # Create DHCP port port_dict = {'name': '', 'admin_state_up': True, 'network_id': network_id, 'tenant_id': subnet['tenant_id'], 'fixed_ips': [{'subnet_id': subnet['id']}], 'device_owner': constants.DEVICE_OWNER_DHCP, 'device_id': '', 'mac_address': constants.ATTR_NOT_SPECIFIED } self.create_port(context, {'port': port_dict}) try: self.edge_manager.create_dhcp_edge_service(context, network_id, subnet) # Create all dhcp ports within the network address_groups = self._create_network_dhcp_address_group( context, network_id) self.edge_manager.update_dhcp_edge_service( context, network_id, address_groups=address_groups) except Exception: with excutils.save_and_reraise_exception(): LOG.exception("Failed to update DHCP for subnet %s", subnet['id']) def setup_dhcp_edge_fw_rules(self, context, plugin, router_id): rules = [] loose_ver = version.LooseVersion(self.nsx_v.vcns.get_version()) if loose_ver < version.LooseVersion('6.3.2'): # For these versions the raw icmp rule will not work due to # backend bug. Workaround: use applications, but since # application ids can change, we look them up by application name try: application_ids = plugin.nsx_v.get_icmp_echo_application_ids() rules = [{"name": "ICMPPing", "enabled": True, "action": "allow", "application": { "applicationId": application_ids}}] except Exception as e: LOG.error( 'Could not find ICMP Echo application. Exception %s', e) else: # For newer versions, we can use the raw icmp rule rules = [{"name": "ICMPPing", "enabled": True, "action": "allow", "protocol": "icmp", "icmp_type": 8}] if plugin.metadata_proxy_handler: rules += nsx_v_md_proxy.get_router_fw_rules() try: edge_utils.update_firewall(plugin.nsx_v, context, router_id, {'firewall_rule_list': rules}, allow_external=False) except Exception as e: # On failure, log that we couldn't configure the firewall on the # Edge appliance. This won't break the DHCP functionality LOG.error( 'Could not set up DHCP Edge firewall. Exception %s', e) def _create_network_dhcp_address_group(self, context, network_id): """Create dhcp address group for subnets attached to the network.""" filters = {'network_id': [network_id], 'device_owner': [constants.DEVICE_OWNER_DHCP]} ports = self.get_ports(context, filters=filters) filters = {'network_id': [network_id], 'enable_dhcp': [True]} subnets = self.get_subnets(context, filters=filters) address_groups = [] for subnet in subnets: address_group = {} ip_found = False for port in ports: fixed_ips = port['fixed_ips'] for fip in fixed_ips: s_id = fip['subnet_id'] ip_addr = fip['ip_address'] if s_id == subnet['id'] and self._is_valid_ip(ip_addr): address_group['primaryAddress'] = ip_addr ip_found = True break if ip_found: net = netaddr.IPNetwork(subnet['cidr']) address_group['subnetPrefixLength'] = str(net.prefixlen) address_groups.append(address_group) LOG.debug("Update the DHCP address group to %s", address_groups) return address_groups def _extract_external_gw(self, context, router, is_extract=True): r = router['router'] gw_info = constants.ATTR_NOT_SPECIFIED # First extract the gateway info in case of updating # gateway before edge is deployed. if 'external_gateway_info' in r: gw_info = r['external_gateway_info'] if is_extract: del r['external_gateway_info'] network_id = (gw_info.get('network_id') if gw_info else None) if network_id: ext_net = self._get_network(context, network_id) if not ext_net.external: msg = (_("Network '%s' is not a valid external network") % network_id) raise n_exc.BadRequest(resource='router', msg=msg) subnets = self._get_subnets_by_network(context, network_id) if not subnets: msg = _("Cannot update gateway on Network '%s' " "with no subnet") % network_id raise n_exc.BadRequest(resource='router', msg=msg) return gw_info def _validate_router_size(self, router): # Check if router-size is specified. router-size can only be specified # for an exclusive non-distributed router; else raise a BadRequest # exception. r = router['router'] if validators.is_attr_set(r.get(ROUTER_SIZE)): if r.get('router_type') == nsxv_constants.SHARED: msg = _("Cannot specify router-size for shared router") raise n_exc.BadRequest(resource="router", msg=msg) elif r.get('distributed') is True: msg = _("Cannot specify router-size for distributed router") raise n_exc.BadRequest(resource="router", msg=msg) else: if r.get('router_type') == nsxv_constants.EXCLUSIVE: r[ROUTER_SIZE] = cfg.CONF.nsxv.exclusive_router_appliance_size def _get_router_flavor_profile(self, context, flavor_id): flv_plugin = directory.get_plugin(plugin_const.FLAVORS) if not flv_plugin: msg = _("Flavors plugin not found") raise n_exc.BadRequest(resource="router", msg=msg) # Will raise FlavorNotFound if doesn't exist fl_db = flavors_plugin.FlavorsPlugin.get_flavor( flv_plugin, context, flavor_id) if fl_db['service_type'] != constants.L3: raise flavors.InvalidFlavorServiceType( service_type=fl_db['service_type']) if not fl_db['enabled']: raise flavors.FlavorDisabled() # get the profile (Currently only 1 is supported, so take the first) if not fl_db['service_profiles']: return profile_id = fl_db['service_profiles'][0] return flavors_plugin.FlavorsPlugin.get_service_profile( flv_plugin, context, profile_id) def _get_flavor_metainfo_from_profile(self, flavor_id, flavor_profile): if not flavor_profile: return {} metainfo_string = flavor_profile.get('metainfo').replace("'", "\"") try: metainfo = jsonutils.loads(metainfo_string) if not isinstance(metainfo, dict): LOG.warning("Skipping router flavor %(flavor)s metainfo " "[%(metainfo)s]: expected a dictionary", {'flavor': flavor_id, 'metainfo': metainfo_string}) metainfo = {} except ValueError as e: LOG.warning("Error reading router flavor %(flavor)s metainfo " "[%(metainfo)s]: %(error)s", {'flavor': flavor_id, 'metainfo': metainfo_string, 'error': e}) metainfo = {} return metainfo def get_flavor_metainfo(self, context, flavor_id): """Retrieve metainfo from first profile of specified flavor""" flavor_profile = self._get_router_flavor_profile(context, flavor_id) return self._get_flavor_metainfo_from_profile(flavor_id, flavor_profile) def _get_router_config_from_flavor(self, context, router): """Validate the router flavor and initialize router data Validate that the flavor is legit, and that contradicting configuration does not exist. Also update the router data to reflect the selected flavor. """ if not validators.is_attr_set(router.get('flavor_id')): return metainfo = self.get_flavor_metainfo(context, router['flavor_id']) # Go over the attributes of the metainfo allowed_keys = [ROUTER_SIZE, 'router_type', 'distributed', az_ext.AZ_HINTS] # This info will be used later on # and is not part of standard router config future_use_keys = ['syslog'] for k, v in metainfo.items(): if k in allowed_keys: #special case for availability zones hints which are an array if k == az_ext.AZ_HINTS: if not isinstance(v, list): v = [v] # The default az hists is an empty array if (validators.is_attr_set(router.get(k)) and len(router[k]) > 0): msg = (_("Cannot specify %s if the flavor profile " "defines it") % k) raise n_exc.BadRequest(resource="router", msg=msg) elif validators.is_attr_set(router.get(k)) and router[k] != v: msg = _("Cannot specify %s if the flavor defines it") % k raise n_exc.BadRequest(resource="router", msg=msg) # Legal value router[k] = v elif k in future_use_keys: pass else: LOG.warning("Skipping router flavor metainfo [%(k)s:%(v)s]" ":unsupported field", {'k': k, 'v': v}) def _process_extra_attr_router_create(self, context, router_db, r): for extra_attr in l3_attrs_db.get_attr_info().keys(): if extra_attr in r: self.set_extra_attr_value(context, router_db, extra_attr, r[extra_attr]) def create_router(self, context, router, allow_metadata=True): r = router['router'] self._get_router_config_from_flavor(context, r) self._decide_router_type(context, r) self._validate_router_size(router) self._validate_availability_zones_in_obj(context, 'router', r) # First extract the gateway info in case of updating # gateway before edge is deployed. # TODO(berlin): admin_state_up and routes update gw_info = self._extract_external_gw(context, router) lrouter = super(NsxVPluginV2, self).create_router(context, router) with context.session.begin(subtransactions=True): router_db = self._get_router(context, lrouter['id']) self._process_extra_attr_router_create(context, router_db, r) self._process_nsx_router_create(context, router_db, r) self._process_router_flavor_create(context, router_db, r) lrouter = super(NsxVPluginV2, self).get_router(context, lrouter['id']) try: router_driver = self._get_router_driver(context, router_db) if router_driver.get_type() == nsxv_constants.EXCLUSIVE: router_driver.create_router( context, lrouter, appliance_size=r.get(ROUTER_SIZE), allow_metadata=(allow_metadata and self.metadata_proxy_handler)) else: router_driver.create_router( context, lrouter, allow_metadata=(allow_metadata and self.metadata_proxy_handler)) if gw_info != constants.ATTR_NOT_SPECIFIED and gw_info is not None: self._update_router_gw_info( context, lrouter['id'], gw_info) except Exception: with excutils.save_and_reraise_exception(): self.delete_router(context, lrouter['id']) return self.get_router(context, lrouter['id']) def _validate_router_migration(self, context, router_id, new_router_type, router): if new_router_type == 'shared': # shared router cannot have static routes # verify that the original router did not have static routes err_msg = _('Unable to create a shared router with static routes') routes = self._get_extra_routes_by_router_id(context, router_id) if len(routes) > 0: raise n_exc.InvalidInput(error_message=err_msg) # verify that the updated router does not have static routes if (validators.is_attr_set(router.get("routes")) and len(router['routes']) > 0): raise n_exc.InvalidInput(error_message=err_msg) def update_router(self, context, router_id, router): # Validate that the gateway information is relevant self._extract_external_gw(context, router, is_extract=False) # Toggling the distributed flag is not supported if 'distributed' in router['router']: r = self.get_router(context, router_id) if r['distributed'] != router['router']['distributed']: err_msg = _('Unable to update distributed mode') raise n_exc.InvalidInput(error_message=err_msg) # Toggling router type is supported only for non-distributed router elif 'router_type' in router['router']: r = self.get_router(context, router_id) if r['router_type'] != router['router']['router_type']: if r["distributed"]: err_msg = _('Unable to update distributed mode') raise n_exc.InvalidInput(error_message=err_msg) else: # should migrate the router because its type changed new_router_type = router['router']['router_type'] self._validate_router_size(router) self._validate_router_migration( context, router_id, new_router_type, r) # remove the router from the old pool, and free resources old_router_driver = \ self._router_managers.get_tenant_router_driver( context, r['router_type']) old_router_driver.detach_router(context, router_id, router) # update the router-type with context.session.begin(subtransactions=True): router_db = self._get_router(context, router_id) self._process_nsx_router_create( context, router_db, router['router']) # add the router to the new pool appliance_size = router['router'].get(ROUTER_SIZE) new_router_driver = \ self._router_managers.get_tenant_router_driver( context, new_router_type) new_router_driver.attach_router( context, router_id, router, appliance_size=appliance_size) # continue to update the router with the new driver # but remove the router-size that was already updated router['router'].pop(ROUTER_SIZE, None) router_driver = self._find_router_driver(context, router_id) return router_driver.update_router(context, router_id, router) def _check_router_in_use(self, context, router_id): with context.session.begin(subtransactions=True): # Ensure that the router is not used router_filter = {'router_id': [router_id]} fips = self.get_floatingips_count(context.elevated(), filters=router_filter) if fips: raise l3.RouterInUse(router_id=router_id) device_filter = {'device_id': [router_id], 'device_owner': [l3_db.DEVICE_OWNER_ROUTER_INTF]} ports = self.get_ports_count(context.elevated(), filters=device_filter) if ports: raise l3.RouterInUse(router_id=router_id) def delete_router(self, context, id): self._check_router_in_use(context, id) router_driver = self._find_router_driver(context, id) # Clear vdr's gw relative components if the router has gw info if router_driver.get_type() == "distributed": router = self.get_router(context, id) if router.get(l3.EXTERNAL_GW_INFO): router_driver._update_router_gw_info(context, id, {}) super(NsxVPluginV2, self).delete_router(context, id) router_driver.delete_router(context, id) db_base_plugin_v2.NeutronDbPluginV2.register_dict_extend_funcs( attr.NETWORKS, ['_extend_availability_zone_hints']) def _extend_availability_zone_hints(self, net_res, net_db): net_res[az_ext.AZ_HINTS] = az_ext.convert_az_string_to_list( net_db[az_ext.AZ_HINTS]) def _get_availability_zone_name_by_edge(self, context, edge_id): az_name = nsxv_db.get_edge_availability_zone( context.session, edge_id) if az_name: return az_name # fallback return nsx_az.DEFAULT_NAME def get_network_availability_zones(self, net_db): context = n_context.get_admin_context() return self._get_network_availability_zones(context, net_db) def _get_network_availability_zones(self, context, net_db): """Return availability zones which a network belongs to. Return only the actual az the dhcp edge is deployed on. If there is no edge - the availability zones list is empty. """ resource_id = (vcns_const.DHCP_EDGE_PREFIX + net_db["id"])[:36] dhcp_edge_binding = nsxv_db.get_nsxv_router_binding( context.session, resource_id) if dhcp_edge_binding: return [dhcp_edge_binding['availability_zone']] return [] def get_router_availability_zones(self, router): """Return availability zones which a router belongs to. Return only the actual az the router edge is deployed on. If there is no edge - the availability zones list is empty. """ context = n_context.get_admin_context() binding = nsxv_db.get_nsxv_router_binding( context.session, router['id']) if binding: return [binding['availability_zone']] return [] def _process_router_flavor_create(self, context, router_db, r): """Update the router DB structure with the flavor ID upon creation """ if validators.is_attr_set(r.get('flavor_id')): router_db.flavor_id = r['flavor_id'] def add_flavor_id(plugin, router_res, router_db): router_res['flavor_id'] = router_db['flavor_id'] db_base_plugin_v2.NeutronDbPluginV2.register_dict_extend_funcs( l3.ROUTERS, [add_flavor_id]) def get_router(self, context, id, fields=None): router = super(NsxVPluginV2, self).get_router(context, id, fields) if router.get("distributed") and 'router_type' in router: del router['router_type'] if router.get("router_type") == nsxv_constants.EXCLUSIVE: binding = nsxv_db.get_nsxv_router_binding(context.session, router.get("id")) if binding: router[ROUTER_SIZE] = binding.get("appliance_size") else: LOG.error("No binding for router %s", id) return router def _get_external_attachment_info(self, context, router): gw_port = router.gw_port ipaddress = None netmask = None nexthop = None if gw_port: # TODO(berlin): we can only support gw port with one fixed ip at # present. if gw_port.get('fixed_ips'): ipaddress = gw_port['fixed_ips'][0]['ip_address'] subnet_id = gw_port['fixed_ips'][0]['subnet_id'] subnet = self.get_subnet(context.elevated(), subnet_id) nexthop = subnet['gateway_ip'] network_id = gw_port.get('network_id') if network_id: ext_net = self._get_network(context, network_id) if not ext_net.external: msg = (_("Network '%s' is not a valid external " "network") % network_id) raise n_exc.BadRequest(resource='router', msg=msg) if ext_net.subnets: netmask = set([str(ext_subnet.cidr) for ext_subnet in ext_net.subnets]) return (ipaddress, netmask, nexthop) def _add_network_info_for_routes(self, context, routes, ports): for route in routes: for port in ports: for ip in port['fixed_ips']: subnet = self.get_subnet(context.elevated(), ip['subnet_id']) if netaddr.all_matching_cidrs( route['nexthop'], [subnet['cidr']]): net = self.get_network(context.elevated(), subnet['network_id']) route['network_id'] = net['id'] if net.get(ext_net_extn.EXTERNAL): route['external'] = True def _prepare_edge_extra_routes(self, context, router_id): routes = self._get_extra_routes_by_router_id(context, router_id) filters = {'device_id': [router_id]} ports = self.get_ports(context, filters) self._add_network_info_for_routes(context, routes, ports) return routes def _update_routes(self, context, router_id, nexthop): routes = self._prepare_edge_extra_routes(context, router_id) edge_utils.update_routes(self.nsx_v, context, router_id, routes, nexthop) def _update_current_gw_port(self, context, router_id, router, ext_ips): """Override this function in order not to call plugins' update_port since the actual backend work was already done by the router driver, and it may cause a deadlock. """ port_data = {'fixed_ips': ext_ips} updated_port = super(NsxVPluginV2, self).update_port( context, router.gw_port['id'], {'port': port_data}) self._extension_manager.process_update_port( context, port_data, updated_port) context.session.expire(router.gw_port) def _update_router_gw_info(self, context, router_id, info, is_routes_update=False, force_update=False): router_driver = self._find_router_driver(context, router_id) if info: try: ext_ips = info.get('external_fixed_ips') network_id = info.get('network_id') router_db = self._get_router(context, router_id) # for multiple external subnets support, we need to set gw # port first on subnet which has gateway. If can't get one # subnet with gateway or allocate one available ip from # subnet, we would just enter normal logic and admin should # exactly know what he did. if (not ext_ips and network_id and (not router_db.gw_port or not router_db.gw_port.get('fixed_ips'))): net_id_filter = {'network_id': [network_id]} subnets = self.get_subnets(context, filters=net_id_filter) fixed_subnet = True if len(subnets) <= 1: fixed_subnet = False else: for subnet in subnets: if ipv6_utils.is_auto_address_subnet(subnet): fixed_subnet = False if fixed_subnet: for subnet in subnets: if not subnet['gateway_ip']: continue try: info['external_fixed_ips'] = [{ 'subnet_id': subnet['id']}] return router_driver._update_router_gw_info( context, router_id, info, is_routes_update=is_routes_update) except n_exc.IpAddressGenerationFailure: del info['external_fixed_ips'] LOG.warning("Cannot get one subnet with gateway " "to allocate one available gw ip") router_driver._update_router_gw_info( context, router_id, info, is_routes_update=is_routes_update, force_update=force_update) except vsh_exc.VcnsApiException: with excutils.save_and_reraise_exception(): LOG.error("Failed to update gw_info %(info)s on " "router %(router_id)s", {'info': str(info), 'router_id': router_id}) router_driver._update_router_gw_info( context, router_id, {}, is_routes_update=is_routes_update, force_update=force_update) else: router_driver._update_router_gw_info( context, router_id, info, is_routes_update=is_routes_update, force_update=force_update) def _get_internal_network_ids_by_router(self, context, router_id): ports_qry = context.session.query(models_v2.Port) intf_ports = ports_qry.filter_by( device_id=router_id, device_owner=l3_db.DEVICE_OWNER_ROUTER_INTF).all() intf_net_ids = list(set([port['network_id'] for port in intf_ports])) return intf_net_ids def _get_router_interface_ports_by_network( self, context, router_id, network_id): port_filters = {'device_id': [router_id], 'device_owner': [l3_db.DEVICE_OWNER_ROUTER_INTF], 'network_id': [network_id]} return self.get_ports(context, filters=port_filters) def _get_address_groups(self, context, router_id, network_id): address_groups = [] ports = self._get_router_interface_ports_by_network( context, router_id, network_id) for port in ports: address_group = {} gateway_ip = port['fixed_ips'][0]['ip_address'] subnet = self.get_subnet(context, port['fixed_ips'][0]['subnet_id']) prefixlen = str(netaddr.IPNetwork(subnet['cidr']).prefixlen) address_group['primaryAddress'] = gateway_ip address_group['subnetPrefixLength'] = prefixlen address_groups.append(address_group) return address_groups def _get_port_by_device_id(self, context, device_id, device_owner): """Retrieve ports associated with a specific device id. Used for retrieving all neutron ports attached to a given router. """ port_qry = context.session.query(models_v2.Port) return port_qry.filter_by( device_id=device_id, device_owner=device_owner,).all() def _find_router_subnets_cidrs(self, context, router_id): """Retrieve subnets attached to the specified router.""" ports = self._get_port_by_device_id(context, router_id, l3_db.DEVICE_OWNER_ROUTER_INTF) # No need to check for overlapping CIDRs cidrs = [] for port in ports: for ip in port.get('fixed_ips', []): subnet_qry = context.session.query(models_v2.Subnet) subnet = subnet_qry.filter_by(id=ip.subnet_id).one() cidrs.append(subnet.cidr) return cidrs def _get_nat_rules(self, context, router): fip_qry = context.session.query(l3_db_models.FloatingIP) fip_db = fip_qry.filter_by(router_id=router['id']).all() snat = [] dnat = [{'dst': fip.floating_ip_address, 'translated': fip.fixed_ip_address} for fip in fip_db if fip.fixed_port_id] gw_port = router.gw_port if gw_port and gw_port.get('fixed_ips') and router.enable_snat: snat_ip = gw_port['fixed_ips'][0]['ip_address'] subnets = self._find_router_subnets_cidrs(context.elevated(), router['id']) for subnet in subnets: snat.append({ 'src': subnet, 'translated': snat_ip, 'vnic_index': vcns_const.EXTERNAL_VNIC_INDEX, }) return (snat, dnat) def _get_nosnat_subnets_fw_rules(self, context, router): """Open edge firewall holes for nosnat subnets to do static routes.""" no_snat_fw_rules = [] gw_port = router.gw_port if gw_port and not router.enable_snat: subnet_cidrs = self._find_router_subnets_cidrs(context.elevated(), router['id']) if subnet_cidrs: no_snat_fw_rules.append({ 'action': 'allow', 'enabled': True, 'source_vnic_groups': ["external"], 'destination_ip_address': subnet_cidrs}) return no_snat_fw_rules def _update_nat_rules(self, context, router, router_id=None): snat, dnat = self._get_nat_rules(context, router) if not router_id: router_id = router['id'] edge_utils.update_nat_rules( self.nsx_v, context, router_id, snat, dnat) def _check_intf_number_of_router(self, context, router_id): intf_ports = self._get_port_by_device_id( context, router_id, l3_db.DEVICE_OWNER_ROUTER_INTF) if len(intf_ports) >= (vcns_const.MAX_INTF_NUM): err_msg = _("Interfaces number on router: %(router_id)s " "has reached the maximum %(number)d which NSXv can " "support. Please use vdr if you want to add unlimited " "interfaces") % {'router_id': router_id, 'number': vcns_const.MAX_INTF_NUM} raise nsx_exc.ServiceOverQuota(overs="router-interface-add", err_msg=err_msg) def _update_router_admin_state(self, context, router_id, router_type, admin_state): # Collecting all router interfaces and updating the connection status # for each one to reflect the router admin-state-up status. intf_net_ids = ( self._get_internal_network_ids_by_router(context, router_id)) edge_id = self._get_edge_id_by_rtr_id(context, router_id) with locking.LockManager.get_lock(edge_id): for network_id in intf_net_ids: address_groups = ( self._get_address_groups(context, router_id, network_id)) update_args = (self.nsx_v, context, router_id, network_id, address_groups, admin_state) if router_type == 'distributed': edge_utils.update_vdr_internal_interface(*update_args) else: edge_utils.update_internal_interface(*update_args) def _get_interface_info_net_id(self, context, interface_info): is_port, is_sub = self._validate_interface_info(interface_info) if is_port: net_id = self.get_port( context, interface_info['port_id'])['network_id'] elif is_sub: net_id = self.get_subnet( context, interface_info['subnet_id'])['network_id'] return net_id def _is_external_interface_info(self, context, interface_info): net_id = self._get_interface_info_net_id(context, interface_info) network = self.get_network(context, net_id) if (network.get(ext_net_extn.EXTERNAL)): return True return False def add_router_interface(self, context, router_id, interface_info): # Do not support external subnet/port as a router interface if self._is_external_interface_info(context.elevated(), interface_info): msg = (_('cannot add an external subnet/port as a router ' 'interface')) raise n_exc.InvalidInput(error_message=msg) router_driver = self._find_router_driver(context, router_id) try: return router_driver.add_router_interface( context, router_id, interface_info) except vsh_exc.VcnsApiException: with excutils.save_and_reraise_exception(): LOG.error("Failed to add interface_info %(info)s on " "router %(router_id)s", {'info': str(interface_info), 'router_id': router_id}) router_driver.remove_router_interface( context, router_id, interface_info) def remove_router_interface(self, context, router_id, interface_info): router_driver = self._find_router_driver(context, router_id) return router_driver.remove_router_interface( context, router_id, interface_info) def _get_floatingips_by_router(self, context, router_id): fip_qry = context.session.query(l3_db_models.FloatingIP) fip_db = fip_qry.filter_by(router_id=router_id).all() return [fip.floating_ip_address for fip in fip_db if fip.fixed_port_id] def _update_external_interface(self, context, router, router_id=None): ext_net_id = router.gw_port_id and router.gw_port.network_id addr, mask, nexthop = self._get_external_attachment_info( context, router) secondary = self._get_floatingips_by_router(context, router['id']) if not router_id: router_id = router['id'] self.edge_manager.update_external_interface( self.nsx_v, context, router_id, ext_net_id, addr, mask, secondary) def _set_floatingip_status(self, context, floatingip_db, status=None): if not status: status = (constants.FLOATINGIP_STATUS_ACTIVE if floatingip_db.get('router_id') else constants.FLOATINGIP_STATUS_DOWN) if floatingip_db['status'] != status: floatingip_db['status'] = status self.update_floatingip_status(context, floatingip_db['id'], status) def _update_edge_router(self, context, router_id): router_driver = self._find_router_driver(context, router_id) router_driver._update_edge_router(context, router_id) def create_floatingip(self, context, floatingip): fip_db = super(NsxVPluginV2, self).create_floatingip( context, floatingip) router_id = fip_db['router_id'] if router_id: try: self._update_edge_router(context, router_id) except Exception: with excutils.save_and_reraise_exception(): LOG.exception("Failed to update edge router") super(NsxVPluginV2, self).delete_floatingip(context, fip_db['id']) self._set_floatingip_status(context, fip_db) return fip_db def update_floatingip(self, context, id, floatingip): old_fip = self._get_floatingip(context, id) old_router_id = old_fip.router_id old_port_id = old_fip.fixed_port_id fip_db = super(NsxVPluginV2, self).update_floatingip( context, id, floatingip) router_id = fip_db.get('router_id') try: # Update old router's nat rules if old_router_id is not None. if old_router_id: self._update_edge_router(context, old_router_id) # Update current router's nat rules if router_id is not None. if router_id: self._update_edge_router(context, router_id) except Exception: with excutils.save_and_reraise_exception(): LOG.exception("Failed to update edge router") super(NsxVPluginV2, self).update_floatingip( context, id, {'floatingip': {'port_id': old_port_id}}) self._set_floatingip_status(context, fip_db) return fip_db def delete_floatingip(self, context, id): fip_db = self._get_floatingip(context, id) router_id = None if fip_db.fixed_port_id: router_id = fip_db.router_id super(NsxVPluginV2, self).delete_floatingip(context, id) if router_id: self._update_edge_router(context, router_id) def disassociate_floatingips(self, context, port_id): router_id = None try: fip_qry = context.session.query(l3_db_models.FloatingIP) fip_db = fip_qry.filter_by(fixed_port_id=port_id) for fip in fip_db: if fip.router_id: router_id = fip.router_id break except sa_exc.NoResultFound: router_id = None super(NsxVPluginV2, self).disassociate_floatingips(context, port_id) if router_id: self._update_edge_router(context, router_id) def _update_subnets_and_dnat_firewall(self, context, router, router_id=None, allow_external=True): fw_rules = [] if not router_id: router_id = router['id'] subnet_cidrs = self._find_router_subnets_cidrs(context, router['id']) routes = self._get_extra_routes_by_router_id(context, router_id) subnet_cidrs.extend([route['destination'] for route in routes]) if subnet_cidrs: # Fake fw rule to open subnets firewall flows and static routes # relative flows fake_subnet_fw_rule = { 'action': 'allow', 'enabled': True, 'source_ip_address': subnet_cidrs, 'destination_ip_address': subnet_cidrs} fw_rules.append(fake_subnet_fw_rule) _, dnat_rules = self._get_nat_rules(context, router) # If metadata service is enabled, block access to inter-edge network if self.metadata_proxy_handler: fw_rules += nsx_v_md_proxy.get_router_fw_rules() dnat_cidrs = [rule['dst'] for rule in dnat_rules] if dnat_cidrs: # Fake fw rule to open dnat firewall flows fake_dnat_fw_rule = { 'action': 'allow', 'enabled': True, 'destination_ip_address': dnat_cidrs} fw_rules.append(fake_dnat_fw_rule) nosnat_fw_rules = self._get_nosnat_subnets_fw_rules( context, router) fw_rules.extend(nosnat_fw_rules) # Get the load balancer rules in case they are refreshed edge_id = self._get_edge_id_by_rtr_id(context, router_id) lb_rules = nsxv_db.get_nsxv_lbaas_loadbalancer_binding_by_edge( context.session, edge_id) for rule in lb_rules: vsm_rule = self.nsx_v.vcns.get_firewall_rule( edge_id, rule['edge_fw_rule_id'])[1] lb_fw_rule = { 'action': edge_firewall_driver.FWAAS_ALLOW, 'enabled': vsm_rule['enabled'], 'destination_ip_address': vsm_rule['destination']['ipAddress'], 'name': vsm_rule['name'], 'ruleId': vsm_rule['ruleId'] } fw_rules.append(lb_fw_rule) # Add fw rules if FWaaS is enabled fw_rules.extend(self.fwaas_callbacks.get_fwaas_rules_for_router( context, router, router_id)) fake_fw = {'firewall_rule_list': fw_rules} try: edge_utils.update_firewall(self.nsx_v, context, router_id, fake_fw, allow_external=allow_external) except vsh_exc.ResourceNotFound: LOG.error("Failed to update firewall for router %s", router_id) def _delete_nsx_security_group(self, nsx_sg_id, nsx_policy): """Helper method to delete nsx security group.""" if nsx_sg_id is not None: if nsx_policy: # First remove this security group from the NSX policy, # Or else the delete will fail try: with locking.LockManager.get_lock( 'neutron-security-policy-' + str(nsx_policy)): self.nsx_sg_utils.del_nsx_security_group_from_policy( nsx_policy, nsx_sg_id) except Exception as e: LOG.warning("Failed to remove nsx security group " "%(id)s from policy %(pol)s : %(e)s", {'id': nsx_sg_id, 'pol': nsx_policy, 'e': e}) self.nsx_v.vcns.delete_security_group(nsx_sg_id) # Security group handling section # def _delete_section(self, section_uri): """Helper method to delete nsx rule section.""" if section_uri is not None: self.nsx_v.vcns.delete_section(section_uri) def _get_section_uri(self, session, security_group_id): mapping = nsxv_db.get_nsx_section(session, security_group_id) if mapping is not None: return mapping['ip_section_id'] def _create_fw_section_for_security_group(self, context, securitygroup, nsx_sg_id): logging = (cfg.CONF.nsxv.log_security_groups_allowed_traffic or securitygroup[sg_logging.LOGGING]) action = 'deny' if securitygroup[provider_sg.PROVIDER] else 'allow' section_name = self.nsx_sg_utils.get_nsx_section_name(securitygroup) nsx_rules = [] # Translate Neutron rules to NSXv fw rules and construct the fw section for rule in securitygroup['security_group_rules']: nsx_rule = self._create_nsx_rule( context, rule, nsx_sg_id, logged=logging, action=action) nsx_rules.append(nsx_rule) section = self.nsx_sg_utils.get_section_with_rules( section_name, nsx_rules) # Execute REST API for creating the section h, c = self.nsx_v.vcns.create_section( 'ip', self.nsx_sg_utils.to_xml_string(section), insert_top=securitygroup[provider_sg.PROVIDER], insert_before=self.default_section) rule_pairs = self.nsx_sg_utils.get_rule_id_pair_from_section(c) # Add database associations for fw section and rules nsxv_db.add_neutron_nsx_section_mapping( context.session, securitygroup['id'], h['location']) for pair in rule_pairs: # Save nsx rule id in the DB for future access nsxv_db.add_neutron_nsx_rule_mapping( context.session, pair['neutron_id'], pair['nsx_id']) def _create_nsx_security_group(self, context, securitygroup): nsx_sg_name = self.nsx_sg_utils.get_nsx_sg_name(securitygroup) # NSX security-group config sg_dict = {"securitygroup": {"name": nsx_sg_name, "description": securitygroup['description']}} # Create the nsx security group h, nsx_sg_id = self.nsx_v.vcns.create_security_group(sg_dict) # Save moref in the DB for future access nsx_db.add_neutron_nsx_security_group_mapping( context.session, securitygroup['id'], nsx_sg_id) return nsx_sg_id def _process_security_group_create_backend_resources(self, context, securitygroup): nsx_sg_id = self._create_nsx_security_group(context, securitygroup) policy = securitygroup.get(sg_policy.POLICY) if self._use_nsx_policies and policy: # When using policies - no rules should be created. # just add the security group to the policy on the backend. self._update_nsx_security_group_policies( policy, None, nsx_sg_id) else: try: self._create_fw_section_for_security_group( context, securitygroup, nsx_sg_id) except Exception: with excutils.save_and_reraise_exception(): self._delete_nsx_security_group(nsx_sg_id, policy) if not securitygroup[provider_sg.PROVIDER]: # Add Security Group to the Security Groups container in order to # apply the default block rule. # This is relevant for policies security groups too. # provider security-groups should not have a default blocking rule. self._add_member_to_security_group(self.sg_container_id, nsx_sg_id) def _validate_security_group(self, context, security_group, default_sg, id=None): if self._use_nsx_policies: new_policy = None sg_with_policy = False if not id: # called from create_security_group # must have a policy: if not security_group.get(sg_policy.POLICY): if default_sg: # For default sg the default policy will be used security_group[sg_policy.POLICY] = ( cfg.CONF.nsxv.default_policy_id) elif not cfg.CONF.nsxv.allow_tenant_rules_with_policy: if context.is_admin: msg = _('A security group must be assigned to a ' 'policy') else: msg = _('Creation of security group is not ' 'allowed') raise n_exc.InvalidInput(error_message=msg) new_policy = security_group.get(sg_policy.POLICY) sg_with_policy = True if new_policy else False else: # called from update_security_group. # Check if the existing security group has policy or not sg_with_policy = self._is_policy_security_group(context, id) if sg_policy.POLICY in security_group: new_policy = security_group[sg_policy.POLICY] if sg_with_policy and not new_policy: # cannot remove a policy from an existing sg msg = (_('Security group %s must be assigned to a ' 'policy') % id) raise n_exc.InvalidInput(error_message=msg) if not sg_with_policy and new_policy: # cannot add a policy to a non-policy security group msg = (_('Cannot add policy to an existing security ' 'group %s') % id) raise n_exc.InvalidInput(error_message=msg) # validate that the new policy exists (and not hidden) by using the # plugin getter that raises an exception if it fails. if new_policy: try: policy_obj = self.get_nsx_policy(context, new_policy) except n_exc.ObjectNotFound: msg = _('Policy %s was not found on the NSX') % new_policy raise n_exc.InvalidInput(error_message=msg) # Do not support logging with policy if sg_with_policy and security_group.get(sg_logging.LOGGING): msg = _('Cannot support logging when using NSX policies') raise n_exc.InvalidInput(error_message=msg) # Use the NSX policy description as the description of this # security group if the description was not set by the user # and the security group is new or policy was updated # if the nsx policy has not description - use its name if new_policy and not security_group.get('description'): security_group['description'] = ( policy_obj.get('description') or policy_obj.get('name'))[:db_const.DESCRIPTION_FIELD_SIZE] else: # must not have a policy: if security_group.get(sg_policy.POLICY): msg = _('The security group cannot be assigned to a policy') raise n_exc.InvalidInput(error_message=msg) def create_security_group(self, context, security_group, default_sg=False): """Create a security group.""" sg_data = security_group['security_group'] sg_id = sg_data["id"] = str(uuid.uuid4()) self._validate_security_group(context, sg_data, default_sg) with context.session.begin(subtransactions=True): is_provider = True if sg_data.get(provider_sg.PROVIDER) else False is_policy = True if sg_data.get(sg_policy.POLICY) else False if is_provider or is_policy: new_sg = self.create_security_group_without_rules( context, security_group, default_sg, is_provider) else: new_sg = super(NsxVPluginV2, self).create_security_group( context, security_group, default_sg) self._process_security_group_properties_create( context, new_sg, sg_data, default_sg) try: self._process_security_group_create_backend_resources( context, new_sg) except Exception: # Couldn't create backend resources, rolling back neutron db # changes. with excutils.save_and_reraise_exception(): # Delete security-group and its associations from database, # Only admin can delete the default security-group if default_sg: context = context.elevated() super(NsxVPluginV2, self).delete_security_group(context, sg_id) LOG.exception('Failed to create security group') return new_sg def _update_security_group_with_policy(self, updated_group, sg_data, nsx_sg_id): """Handle security group update when using NSX policies Remove the security group from the old policies, and apply on the new policies """ # Verify that the policy was not removed from the security group if (sg_policy.POLICY in updated_group and not updated_group[sg_policy.POLICY]): msg = _('It is not allowed to remove the policy from security ' 'group %s') % nsx_sg_id raise n_exc.InvalidInput(error_message=msg) if (updated_group.get(sg_policy.POLICY) and updated_group[sg_policy.POLICY] != sg_data[sg_policy.POLICY]): new_policy = updated_group[sg_policy.POLICY] old_policy = sg_data[sg_policy.POLICY] self._update_nsx_security_group_policies( new_policy, old_policy, nsx_sg_id) def _update_nsx_security_group_policies(self, new_policy, old_policy, nsx_sg_id): # update the NSX security group to use this policy if old_policy: with locking.LockManager.get_lock( 'neutron-security-policy-' + str(old_policy)): self.nsx_sg_utils.del_nsx_security_group_from_policy( old_policy, nsx_sg_id) with locking.LockManager.get_lock( 'neutron-security-policy-' + str(new_policy)): self.nsx_sg_utils.add_nsx_security_group_to_policy( new_policy, nsx_sg_id) def update_security_group(self, context, id, security_group): s = security_group['security_group'] self._validate_security_group(context, s, False, id=id) nsx_sg_id = nsx_db.get_nsx_security_group_id(context.session, id) section_uri = self._get_section_uri(context.session, id) section_needs_update = False sg_data = super(NsxVPluginV2, self).update_security_group( context, id, security_group) # Reflect security-group name or description changes in the backend, if set(['name', 'description']) & set(s.keys()): nsx_sg_name = self.nsx_sg_utils.get_nsx_sg_name(sg_data) section_name = self.nsx_sg_utils.get_nsx_section_name(sg_data) self.nsx_v.vcns.update_security_group( nsx_sg_id, nsx_sg_name, sg_data['description']) # security groups with NSX policy - update the backend policy attached # to the security group if (self._use_nsx_policies and self._is_policy_security_group(context, id)): if sg_policy.POLICY in sg_data: self._update_security_group_with_policy(s, sg_data, nsx_sg_id) # The rest of the update are not relevant to policies security # groups as there is no matching section self._process_security_group_properties_update( context, sg_data, s) return sg_data with locking.LockManager.get_lock('rule-update-%s' % id): # Get the backend section matching this security group h, c = self.nsx_v.vcns.get_section(section_uri) section = self.nsx_sg_utils.parse_section(c) # dfw section name needs to be updated if the sg name was modified if 'name' in s.keys(): section.attrib['name'] = section_name section_needs_update = True # Update the dfw section if security-group logging option has # changed. log_all_rules = cfg.CONF.nsxv.log_security_groups_allowed_traffic self._process_security_group_properties_update(context, sg_data, s) if not log_all_rules and context.is_admin: section_needs_update |= ( self.nsx_sg_utils.set_rules_logged_option( section, sg_data[sg_logging.LOGGING])) if section_needs_update: # update the section with all the modifications self.nsx_v.vcns.update_section( section_uri, self.nsx_sg_utils.to_xml_string(section), h) return sg_data def delete_security_group(self, context, id): """Delete a security group.""" self._prevent_non_admin_delete_provider_sg(context, id) self._prevent_non_admin_delete_policy_sg(context, id) policy = self._get_security_group_policy(context, id) try: # Find nsx rule sections section_uri = self._get_section_uri(context.session, id) # Find nsx security group nsx_sg_id = nsx_db.get_nsx_security_group_id(context.session, id) # Delete neutron security group super(NsxVPluginV2, self).delete_security_group(context, id) # Delete nsx rule sections self._delete_section(section_uri) # Delete nsx security group self._delete_nsx_security_group(nsx_sg_id, policy) except Exception: with excutils.save_and_reraise_exception(): LOG.exception("Failed to delete security group") def _create_nsx_rule(self, context, rule, nsx_sg_id=None, logged=False, action='allow'): src = None dest = None port = None protocol = None icmptype = None icmpcode = None flags = {} if nsx_sg_id is None: # Find nsx security group for neutron security group nsx_sg_id = nsx_db.get_nsx_security_group_id( context.session, rule['security_group_id']) # Find the remote nsx security group id, which might be the current # one. In case of the default security-group, the associated # nsx-security-group wasn't written to the database yet. if rule['remote_group_id'] == rule['security_group_id']: remote_nsx_sg_id = nsx_sg_id else: remote_nsx_sg_id = nsx_db.get_nsx_security_group_id( context.session, rule['remote_group_id']) # Get source and destination containers from rule if rule['direction'] == 'ingress': if rule.get(secgroup_rule_local_ip_prefix.LOCAL_IP_PREFIX): dest = self.nsx_sg_utils.get_remote_container( None, rule[secgroup_rule_local_ip_prefix.LOCAL_IP_PREFIX]) src = self.nsx_sg_utils.get_remote_container( remote_nsx_sg_id, rule['remote_ip_prefix']) dest = dest or self.nsx_sg_utils.get_container(nsx_sg_id) flags['direction'] = 'in' else: dest = self.nsx_sg_utils.get_remote_container( remote_nsx_sg_id, rule['remote_ip_prefix']) src = self.nsx_sg_utils.get_container(nsx_sg_id) flags['direction'] = 'out' protocol = rule.get('protocol') if rule['port_range_min'] is not None: if protocol == '1' or protocol == 'icmp': icmptype = str(rule['port_range_min']) if rule['port_range_max'] is not None: icmpcode = str(rule['port_range_max']) else: port = str(rule['port_range_min']) if rule['port_range_max'] != rule['port_range_min']: port = port + '-' + str(rule['port_range_max']) # Get the neutron rule id to use as name in nsxv rule name = rule.get('id') services = [(protocol, port, icmptype, icmpcode)] if protocol else [] flags['ethertype'] = rule.get('ethertype') # Add rule in nsx rule section nsx_rule = self.nsx_sg_utils.get_rule_config( applied_to_ids=[nsx_sg_id], name=name, source=src, destination=dest, services=services, flags=flags, action=action, logged=logged) return nsx_rule def create_security_group_rule(self, context, security_group_rule): """Create a single security group rule.""" bulk_rule = {'security_group_rules': [security_group_rule]} return self.create_security_group_rule_bulk(context, bulk_rule)[0] def create_security_group_rule_bulk(self, context, security_group_rules): """Create security group rules. :param security_group_rules: list of rules to create """ sg_rules = security_group_rules['security_group_rules'] sg_id = sg_rules[0]['security_group_rule']['security_group_id'] self._prevent_non_admin_delete_provider_sg(context, sg_id) ruleids = set() nsx_rules = [] self._validate_security_group_rules(context, security_group_rules) if self._is_policy_security_group(context, sg_id): # If policies are/were enabled - creating rules is forbidden msg = (_('Cannot create rules for security group %s with' ' a policy') % sg_id) raise n_exc.InvalidInput(error_message=msg) with locking.LockManager.get_lock('rule-update-%s' % sg_id): # Querying DB for associated dfw section id section_uri = self._get_section_uri(context.session, sg_id) logging = self._is_security_group_logged(context, sg_id) provider = self._is_provider_security_group(context, sg_id) log_all_rules = cfg.CONF.nsxv.log_security_groups_allowed_traffic # Translating Neutron rules to Nsx DFW rules for r in sg_rules: rule = r['security_group_rule'] if not self._check_local_ip_prefix(context, rule): rule[secgroup_rule_local_ip_prefix.LOCAL_IP_PREFIX] = None rule['id'] = uuidutils.generate_uuid() ruleids.add(rule['id']) nsx_rules.append( self._create_nsx_rule(context, rule, logged=log_all_rules or logging, action='deny' if provider else 'allow') ) _h, _c = self.nsx_v.vcns.get_section(section_uri) section = self.nsx_sg_utils.parse_section(_c) self.nsx_sg_utils.extend_section_with_rules(section, nsx_rules) h, c = self.nsx_v.vcns.update_section( section_uri, self.nsx_sg_utils.to_xml_string(section), _h) rule_pairs = self.nsx_sg_utils.get_rule_id_pair_from_section(c) try: # Save new rules in Database, including mappings between Nsx rules # and Neutron security-groups rules with context.session.begin(subtransactions=True): new_rule_list = super( NsxVPluginV2, self).create_security_group_rule_bulk_native( context, security_group_rules) for pair in rule_pairs: neutron_rule_id = pair['neutron_id'] nsx_rule_id = pair['nsx_id'] if neutron_rule_id in ruleids: nsxv_db.add_neutron_nsx_rule_mapping( context.session, neutron_rule_id, nsx_rule_id) for i, r in enumerate(sg_rules): self._process_security_group_rule_properties( context, new_rule_list[i], r['security_group_rule']) except Exception: with excutils.save_and_reraise_exception(): for nsx_rule_id in [p['nsx_id'] for p in rule_pairs if p['neutron_id'] in ruleids]: self.nsx_v.vcns.remove_rule_from_section( section_uri, nsx_rule_id) LOG.exception("Failed to create security group rule") return new_rule_list def delete_security_group_rule(self, context, id): """Delete a security group rule.""" rule_db = self._get_security_group_rule(context, id) security_group_id = rule_db['security_group_id'] self._prevent_non_admin_delete_provider_sg(context, security_group_id) # Get the nsx rule from neutron DB and delete it nsx_rule_id = nsxv_db.get_nsx_rule_id(context.session, id) section_uri = self._get_section_uri( context.session, security_group_id) try: if nsx_rule_id and section_uri: self.nsx_v.vcns.remove_rule_from_section( section_uri, nsx_rule_id) except vsh_exc.ResourceNotFound: LOG.debug("Security group rule %(id)s deleted, backend " "nsx-rule %(nsx_rule_id)s doesn't exist.", {'id': id, 'nsx_rule_id': nsx_rule_id}) with context.session.begin(subtransactions=True): context.session.delete(rule_db) def _remove_vnic_from_spoofguard_policy(self, session, net_id, vnic_id): policy_id = nsxv_db.get_spoofguard_policy_id(session, net_id) self.nsx_v.vcns.inactivate_vnic_assigned_addresses(policy_id, vnic_id) def _update_vnic_assigned_addresses(self, session, port, vnic_id): sg_policy_id = nsxv_db.get_spoofguard_policy_id( session, port['network_id']) mac_addr = port['mac_address'] approved_addrs = [addr['ip_address'] for addr in port['fixed_ips']] # add in the address pair approved_addrs.extend( addr['ip_address'] for addr in port[addr_pair.ADDRESS_PAIRS]) self.nsx_v.vcns.approve_assigned_addresses( sg_policy_id, vnic_id, mac_addr, approved_addrs) self.nsx_v.vcns.publish_assigned_addresses(sg_policy_id, vnic_id) def _is_compute_port(self, port): try: if (port['device_id'] and uuidutils.is_uuid_like(port['device_id']) and port['device_owner'].startswith('compute:')): return True except (KeyError, AttributeError): pass return False def _is_valid_ip(self, ip_addr): return netaddr.valid_ipv4(ip_addr) or netaddr.valid_ipv6(ip_addr) def _ensure_lock_operations(self): try: self.nsx_v.vcns.edges_lock_operation() except Exception: LOG.info("Unable to set manager lock operation") def _aggregate_publishing(self): try: self.nsx_v.vcns.configure_aggregate_publishing() except Exception: LOG.info("Unable to configure aggregate publishing") def _configure_reservations(self): ver = self.nsx_v.vcns.get_version() if version.LooseVersion(ver) < version.LooseVersion('6.2.3'): LOG.debug("Skipping reservation configuration. " "Not supported by version - %s.", ver) return try: self.nsx_v.vcns.configure_reservations() except Exception: LOG.info("Unable to configure edge reservations") def _validate_config(self): if (cfg.CONF.nsxv.dvs_id and not self.nsx_v.vcns.validate_dvs(cfg.CONF.nsxv.dvs_id)): raise nsx_exc.NsxResourceNotFound( res_name='dvs_id', res_id=cfg.CONF.nsxv.dvs_id) # Validate the global & per-AZ validate_datacenter_moid if not self.nsx_v.vcns.validate_datacenter_moid( cfg.CONF.nsxv.datacenter_moid): raise nsx_exc.NsxResourceNotFound( res_name='datacenter_moid', res_id=cfg.CONF.nsxv.datacenter_moid) for dc in self._availability_zones_data.get_additional_datacenter(): if not self.nsx_v.vcns.validate_datacenter_moid(dc): raise nsx_exc.NsxAZResourceNotFound( res_name='datacenter_moid', res_id=dc) # Validate the global & per-AZ external_network if not self.nsx_v.vcns.validate_network( cfg.CONF.nsxv.external_network): raise nsx_exc.NsxResourceNotFound( res_name='external_network', res_id=cfg.CONF.nsxv.external_network) for ext_net in self._availability_zones_data.get_additional_ext_net(): if not self.nsx_v.vcns.validate_network(ext_net): raise nsx_exc.NsxAZResourceNotFound( res_name='external_network', res_id=ext_net) # Validate the global & per-AZ vdn_scope_id if not self.nsx_v.vcns.validate_vdn_scope(cfg.CONF.nsxv.vdn_scope_id): raise nsx_exc.NsxResourceNotFound( res_name='vdn_scope_id', res_id=cfg.CONF.nsxv.vdn_scope_id) for vdns in self._availability_zones_data.get_additional_vdn_scope(): if not self.nsx_v.vcns.validate_vdn_scope(vdns): raise nsx_exc.NsxAZResourceNotFound( res_name='vdn_scope_id', res_id=vdns) # Validate the global & per-AZ mgt_net_moid if (cfg.CONF.nsxv.mgt_net_moid and not self.nsx_v.vcns.validate_network( cfg.CONF.nsxv.mgt_net_moid)): raise nsx_exc.NsxResourceNotFound( res_name='mgt_net_moid', res_id=cfg.CONF.nsxv.mgt_net_moid) for mgmt_net in self._availability_zones_data.get_additional_mgt_net(): if not self.nsx_v.vcns.validate_network(mgmt_net): raise nsx_exc.NsxAZResourceNotFound( res_name='mgt_net_moid', res_id=mgmt_net) ver = self.nsx_v.vcns.get_version() if version.LooseVersion(ver) < version.LooseVersion('6.2.0'): LOG.warning("Skipping validations. Not supported by version.") return # Validate the host_groups for each AZ if cfg.CONF.nsxv.use_dvs_features: azs = self.get_azs_list() for az in azs: if az.edge_host_groups and az.edge_ha: self._vcm.validate_host_groups(az.resource_pool, az.edge_host_groups) # Validations below only supported by 6.2.0 and above inventory = [(cfg.CONF.nsxv.resource_pool_id, 'resource_pool_id'), (cfg.CONF.nsxv.datastore_id, 'datastore_id'), (cfg.CONF.nsxv.ha_datastore_id, 'ha_datastore_id'), ] # Treat the cluster list for cluster in cfg.CONF.nsxv.cluster_moid: inventory.append((cluster, 'cluster_moid')) # Add the availability zones resources az_resources = self._availability_zones_data.get_inventory() for res in az_resources: inventory.append((res, 'availability_zones')) if cfg.CONF.nsxv.use_nsx_policies: # if use_nsx_policies=True, the default policy must be defined if not cfg.CONF.nsxv.default_policy_id: error = _("default_policy_id must be defined") raise nsx_exc.NsxPluginException(err_msg=error) inventory.append((cfg.CONF.nsxv.default_policy_id, 'default_policy_id')) for moref, field in inventory: if moref and not self.nsx_v.vcns.validate_inventory(moref): error = _("Configured %s not found") % field raise nsx_exc.NsxPluginException(err_msg=error) if cfg.CONF.nsxv.vdr_transit_network: edge_utils.validate_vdr_transit_network() def _handle_qos_notification(self, context, resource_type, qos_policys, event_type): qos_utils.handle_qos_notification(qos_policys, event_type, self) def _nsx_policy_is_hidden(self, policy): for attrib in policy.get('extendedAttributes', []): if (attrib['name'].lower() == 'ishidden' and attrib['value'].lower() == 'true'): return True return False def _nsx_policy_to_dict(self, policy): return {'id': policy['objectId'], 'name': policy.get('name'), 'description': policy.get('description')} def get_nsx_policy(self, context, id, fields=None): try: policy = self.nsx_v.vcns.get_security_policy(id, return_xml=False) except vsh_exc.ResourceNotFound: # no such policy on backend raise n_exc.ObjectNotFound(id=id) if self._nsx_policy_is_hidden(policy): # This is an hidden policy raise n_exc.ObjectNotFound(id=id) return self._nsx_policy_to_dict(policy) def get_nsx_policies(self, context, filters=None, fields=None, sorts=None, limit=None, marker=None, page_reverse=False): policies = self.nsx_v.vcns.get_security_policies() results = [] for policy in policies.get('policies', []): if not self._nsx_policy_is_hidden(policy): results.append(self._nsx_policy_to_dict(policy)) return results # Register the callback def _validate_network_has_subnet(resource, event, trigger, **kwargs): network_id = kwargs.get('network_id') subnets = kwargs.get('subnets') if not subnets: msg = _('No subnet defined on network %s') % network_id raise n_exc.InvalidInput(error_message=msg) def subscribe(): registry.subscribe(_validate_network_has_subnet, resources.ROUTER_GATEWAY, events.BEFORE_CREATE) subscribe()