# 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 neutron_lib import constants from neutron_lib import exceptions as exception from oslo_config import cfg from oslo_log import log from oslo_serialization import jsonutils from vmware_nsx._i18n import _ from vmware_nsx.api_client import exception as api_exc from vmware_nsx.common import exceptions as nsx_exc from vmware_nsx.common import utils from vmware_nsx.nsxlib import mh as nsxlib HTTP_GET = "GET" HTTP_POST = "POST" HTTP_DELETE = "DELETE" HTTP_PUT = "PUT" LSWITCH_RESOURCE = "lswitch" LSWITCHPORT_RESOURCE = "lport/%s" % LSWITCH_RESOURCE LOG = log.getLogger(__name__) def _configure_extensions(lport_obj, mac_address, fixed_ips, port_security_enabled, security_profiles, queue_id, mac_learning_enabled, allowed_address_pairs): lport_obj['allowed_address_pairs'] = [] if port_security_enabled: for fixed_ip in fixed_ips: ip_address = fixed_ip.get('ip_address') if ip_address: lport_obj['allowed_address_pairs'].append( {'mac_address': mac_address, 'ip_address': ip_address}) # add address pair allowing src_ip 0.0.0.0 to leave # this is required for outgoing dhcp request lport_obj["allowed_address_pairs"].append( {"mac_address": mac_address, "ip_address": "0.0.0.0"}) lport_obj['security_profiles'] = list(security_profiles or []) lport_obj['queue_uuid'] = queue_id if mac_learning_enabled is not None: lport_obj["mac_learning"] = mac_learning_enabled lport_obj["type"] = "LogicalSwitchPortConfig" for address_pair in list(allowed_address_pairs or []): lport_obj['allowed_address_pairs'].append( {'mac_address': address_pair['mac_address'], 'ip_address': address_pair['ip_address']}) def get_lswitch_by_id(cluster, lswitch_id): try: lswitch_uri_path = nsxlib._build_uri_path( LSWITCH_RESOURCE, lswitch_id, relations="LogicalSwitchStatus") return nsxlib.do_request(HTTP_GET, lswitch_uri_path, cluster=cluster) except exception.NotFound: # FIXME(salv-orlando): this should not raise a neutron exception raise exception.NetworkNotFound(net_id=lswitch_id) def get_lswitches(cluster, neutron_net_id): def lookup_switches_by_tag(): # Fetch extra logical switches lswitch_query_path = nsxlib._build_uri_path( LSWITCH_RESOURCE, fields="uuid,display_name,tags,lport_count", relations="LogicalSwitchStatus", filters={'tag': neutron_net_id, 'tag_scope': 'quantum_net_id'}) return nsxlib.get_all_query_pages(lswitch_query_path, cluster) lswitch_uri_path = nsxlib._build_uri_path(LSWITCH_RESOURCE, neutron_net_id, relations="LogicalSwitchStatus") results = [] try: ls = nsxlib.do_request(HTTP_GET, lswitch_uri_path, cluster=cluster) results.append(ls) for tag in ls['tags']: if (tag['scope'] == "multi_lswitch" and tag['tag'] == "True"): results.extend(lookup_switches_by_tag()) except exception.NotFound: # This is legit if the neutron network was created using # a post-Havana version of the plugin results.extend(lookup_switches_by_tag()) if results: return results else: raise exception.NetworkNotFound(net_id=neutron_net_id) def create_lswitch(cluster, neutron_net_id, tenant_id, display_name, transport_zones_config, shared=None, **kwargs): # The tag scope adopts a slightly different naming convention for # historical reasons lswitch_obj = {"display_name": utils.check_and_truncate(display_name), "transport_zones": transport_zones_config, "replication_mode": cfg.CONF.NSX.replication_mode, "tags": utils.get_tags(os_tid=tenant_id, quantum_net_id=neutron_net_id)} # TODO(salv-orlando): Now that we have async status synchronization # this tag is perhaps not needed anymore if shared: lswitch_obj["tags"].append({"tag": "true", "scope": "shared"}) if "tags" in kwargs: lswitch_obj["tags"].extend(kwargs["tags"]) uri = nsxlib._build_uri_path(LSWITCH_RESOURCE) lswitch = nsxlib.do_request(HTTP_POST, uri, jsonutils.dumps(lswitch_obj), cluster=cluster) LOG.debug("Created logical switch: %s", lswitch['uuid']) return lswitch def update_lswitch(cluster, lswitch_id, display_name, tenant_id=None, **kwargs): uri = nsxlib._build_uri_path(LSWITCH_RESOURCE, resource_id=lswitch_id) lswitch_obj = {"display_name": utils.check_and_truncate(display_name)} # NOTE: tag update will not 'merge' existing tags with new ones. tags = [] if tenant_id: tags = utils.get_tags(os_tid=tenant_id) # The 'tags' kwarg might existing and be None tags.extend(kwargs.get('tags') or []) if tags: lswitch_obj['tags'] = tags try: return nsxlib.do_request(HTTP_PUT, uri, jsonutils.dumps(lswitch_obj), cluster=cluster) except exception.NotFound as e: LOG.error("Network not found, Error: %s", str(e)) raise exception.NetworkNotFound(net_id=lswitch_id) def delete_network(cluster, net_id, lswitch_id): delete_networks(cluster, net_id, [lswitch_id]) #TODO(salvatore-orlando): Simplify and harmonize def delete_networks(cluster, net_id, lswitch_ids): for ls_id in lswitch_ids: path = "/ws.v1/lswitch/%s" % ls_id try: nsxlib.do_request(HTTP_DELETE, path, cluster=cluster) except exception.NotFound as e: LOG.error("Network not found, Error: %s", str(e)) raise exception.NetworkNotFound(net_id=ls_id) def query_lswitch_lports(cluster, ls_uuid, fields="*", filters=None, relations=None): # Fix filter for attachments if filters and "attachment" in filters: filters['attachment_vif_uuid'] = filters["attachment"] del filters['attachment'] uri = nsxlib._build_uri_path(LSWITCHPORT_RESOURCE, parent_resource_id=ls_uuid, fields=fields, filters=filters, relations=relations) return nsxlib.do_request(HTTP_GET, uri, cluster=cluster)['results'] def delete_port(cluster, switch, port): uri = "/ws.v1/lswitch/" + switch + "/lport/" + port try: nsxlib.do_request(HTTP_DELETE, uri, cluster=cluster) except exception.NotFound as e: LOG.error("Port or Network not found, Error: %s", str(e)) raise exception.PortNotFoundOnNetwork( net_id=switch, port_id=port) except api_exc.NsxApiException: raise exception.NeutronException() def get_ports(cluster, networks=None, devices=None, tenants=None): vm_filter_obsolete = "" vm_filter = "" tenant_filter = "" # This is used when calling delete_network. Neutron checks to see if # the network has any ports. if networks: # FIXME (Aaron) If we get more than one network_id this won't work lswitch = networks[0] else: lswitch = "*" if devices: for device_id in devices: vm_filter_obsolete = '&'.join( ["tag_scope=vm_id", "tag=%s" % utils.device_id_to_vm_id(device_id, obfuscate=True), vm_filter_obsolete]) vm_filter = '&'.join( ["tag_scope=vm_id", "tag=%s" % utils.device_id_to_vm_id(device_id), vm_filter]) if tenants: for tenant in tenants: tenant_filter = '&'.join( ["tag_scope=os_tid", "tag=%s" % tenant, tenant_filter]) nsx_lports = {} lport_fields_str = ("tags,admin_status_enabled,display_name," "fabric_status_up") try: lport_query_path_obsolete = ( "/ws.v1/lswitch/%s/lport?fields=%s&%s%stag_scope=q_port_id" "&relations=LogicalPortStatus" % (lswitch, lport_fields_str, vm_filter_obsolete, tenant_filter)) lport_query_path = ( "/ws.v1/lswitch/%s/lport?fields=%s&%s%stag_scope=q_port_id" "&relations=LogicalPortStatus" % (lswitch, lport_fields_str, vm_filter, tenant_filter)) try: # NOTE(armando-migliaccio): by querying with obsolete tag first # current deployments won't take the performance hit of a double # call. In release L-** or M-**, we might want to swap the calls # as it's likely that ports with the new tag would outnumber the # ones with the old tag ports = nsxlib.get_all_query_pages(lport_query_path_obsolete, cluster) if not ports: ports = nsxlib.get_all_query_pages(lport_query_path, cluster) except exception.NotFound: LOG.warning("Lswitch %s not found in NSX", lswitch) ports = None if ports: for port in ports: for tag in port["tags"]: if tag["scope"] == "q_port_id": nsx_lports[tag["tag"]] = port except Exception: err_msg = _("Unable to get ports") LOG.exception(err_msg) raise nsx_exc.NsxPluginException(err_msg=err_msg) return nsx_lports def get_port_by_neutron_tag(cluster, lswitch_uuid, neutron_port_id): """Get port by neutron tag. Returns the NSX UUID of the logical port with tag q_port_id equal to neutron_port_id or None if the port is not Found. """ uri = nsxlib._build_uri_path(LSWITCHPORT_RESOURCE, parent_resource_id=lswitch_uuid, fields='uuid', filters={'tag': neutron_port_id, 'tag_scope': 'q_port_id'}) LOG.debug("Looking for port with q_port_id tag '%(neutron_port_id)s' " "on: '%(lswitch_uuid)s'", {'neutron_port_id': neutron_port_id, 'lswitch_uuid': lswitch_uuid}) res = nsxlib.do_request(HTTP_GET, uri, cluster=cluster) num_results = len(res["results"]) if num_results >= 1: if num_results > 1: LOG.warning("Found '%(num_ports)d' ports with " "q_port_id tag: '%(neutron_port_id)s'. " "Only 1 was expected.", {'num_ports': num_results, 'neutron_port_id': neutron_port_id}) return res["results"][0] def get_port(cluster, network, port, relations=None): LOG.info("get_port() %(network)s %(port)s", {'network': network, 'port': port}) uri = "/ws.v1/lswitch/" + network + "/lport/" + port + "?" if relations: uri += "relations=%s" % relations try: return nsxlib.do_request(HTTP_GET, uri, cluster=cluster) except exception.NotFound as e: LOG.error("Port or Network not found, Error: %s", str(e)) raise exception.PortNotFoundOnNetwork( port_id=port, net_id=network) def update_port(cluster, lswitch_uuid, lport_uuid, neutron_port_id, tenant_id, display_name, device_id, admin_status_enabled, mac_address=None, fixed_ips=None, port_security_enabled=None, security_profiles=None, queue_id=None, mac_learning_enabled=None, allowed_address_pairs=None): lport_obj = dict( admin_status_enabled=admin_status_enabled, display_name=utils.check_and_truncate(display_name), tags=utils.get_tags(os_tid=tenant_id, q_port_id=neutron_port_id, vm_id=utils.device_id_to_vm_id(device_id))) _configure_extensions(lport_obj, mac_address, fixed_ips, port_security_enabled, security_profiles, queue_id, mac_learning_enabled, allowed_address_pairs) path = "/ws.v1/lswitch/" + lswitch_uuid + "/lport/" + lport_uuid try: result = nsxlib.do_request(HTTP_PUT, path, jsonutils.dumps(lport_obj), cluster=cluster) LOG.debug("Updated logical port %(result)s " "on logical switch %(uuid)s", {'result': result['uuid'], 'uuid': lswitch_uuid}) return result except exception.NotFound as e: LOG.error("Port or Network not found, Error: %s", str(e)) raise exception.PortNotFoundOnNetwork( port_id=lport_uuid, net_id=lswitch_uuid) def create_lport(cluster, lswitch_uuid, tenant_id, neutron_port_id, display_name, device_id, admin_status_enabled, mac_address=None, fixed_ips=None, port_security_enabled=None, security_profiles=None, queue_id=None, mac_learning_enabled=None, allowed_address_pairs=None): """Creates a logical port on the assigned logical switch.""" display_name = utils.check_and_truncate(display_name) lport_obj = dict( admin_status_enabled=admin_status_enabled, display_name=display_name, tags=utils.get_tags(os_tid=tenant_id, q_port_id=neutron_port_id, vm_id=utils.device_id_to_vm_id(device_id)) ) _configure_extensions(lport_obj, mac_address, fixed_ips, port_security_enabled, security_profiles, queue_id, mac_learning_enabled, allowed_address_pairs) path = nsxlib._build_uri_path(LSWITCHPORT_RESOURCE, parent_resource_id=lswitch_uuid) result = nsxlib.do_request(HTTP_POST, path, jsonutils.dumps(lport_obj), cluster=cluster) LOG.debug("Created logical port %(result)s on logical switch %(uuid)s", {'result': result['uuid'], 'uuid': lswitch_uuid}) return result def get_port_status(cluster, lswitch_id, port_id): """Retrieve the operational status of the port.""" try: r = nsxlib.do_request(HTTP_GET, "/ws.v1/lswitch/%s/lport/%s/status" % (lswitch_id, port_id), cluster=cluster) except exception.NotFound as e: LOG.error("Port not found, Error: %s", str(e)) raise exception.PortNotFoundOnNetwork( port_id=port_id, net_id=lswitch_id) if r['link_status_up'] is True: return constants.PORT_STATUS_ACTIVE else: return constants.PORT_STATUS_DOWN def plug_interface(cluster, lswitch_id, lport_id, att_obj): return nsxlib.do_request(HTTP_PUT, nsxlib._build_uri_path(LSWITCHPORT_RESOURCE, lport_id, lswitch_id, is_attachment=True), jsonutils.dumps(att_obj), cluster=cluster) def plug_vif_interface( cluster, lswitch_id, port_id, port_type, attachment=None): """Plug a VIF Attachment object in a logical port.""" lport_obj = {} if attachment: lport_obj["vif_uuid"] = attachment lport_obj["type"] = port_type return plug_interface(cluster, lswitch_id, port_id, lport_obj)