5ae8de3574
Introduce new naming scheme, whilst preserving backward compatibility for the extensions affected. Deprecated extensions will be removed from Juno. Partial-implements blueprint: nicira-plugin-renaming Change-Id: Icd68e5db04aa008ac31994ae0cb5c1b7f2551303
295 lines
13 KiB
Python
295 lines
13 KiB
Python
# vim: tabstop=4 shiftwidth=4 softtabstop=4
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#
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# Copyright 2013 VMware, Inc. All rights reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License"); you may
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# not use this file except in compliance with the License. You may obtain
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# a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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# License for the specific language governing permissions and limitations
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# under the License.
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#
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import sqlalchemy as sa
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from sqlalchemy import orm
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from sqlalchemy.orm import exc
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from neutron.api.v2 import attributes as attr
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from neutron.db import db_base_plugin_v2
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from neutron.db import model_base
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from neutron.db import models_v2
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from neutron.openstack.common import log
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from neutron.openstack.common import uuidutils
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from neutron.plugins.nicira.extensions import qos
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LOG = log.getLogger(__name__)
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class QoSQueue(model_base.BASEV2, models_v2.HasId, models_v2.HasTenant):
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name = sa.Column(sa.String(255))
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default = sa.Column(sa.Boolean, default=False)
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min = sa.Column(sa.Integer, nullable=False)
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max = sa.Column(sa.Integer, nullable=True)
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qos_marking = sa.Column(sa.Enum('untrusted', 'trusted',
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name='qosqueues_qos_marking'))
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dscp = sa.Column(sa.Integer)
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class PortQueueMapping(model_base.BASEV2):
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port_id = sa.Column(sa.String(36),
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sa.ForeignKey("ports.id", ondelete="CASCADE"),
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primary_key=True)
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queue_id = sa.Column(sa.String(36), sa.ForeignKey("qosqueues.id"),
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primary_key=True)
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# Add a relationship to the Port model adding a backref which will
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# allow SQLAlchemy for eagerly load the queue binding
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port = orm.relationship(
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models_v2.Port,
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backref=orm.backref("qos_queue", uselist=False,
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cascade='delete', lazy='joined'))
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class NetworkQueueMapping(model_base.BASEV2):
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network_id = sa.Column(sa.String(36),
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sa.ForeignKey("networks.id", ondelete="CASCADE"),
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primary_key=True)
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queue_id = sa.Column(sa.String(36), sa.ForeignKey("qosqueues.id",
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ondelete="CASCADE"))
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# Add a relationship to the Network model adding a backref which will
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# allow SQLAlcremy for eagerly load the queue binding
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network = orm.relationship(
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models_v2.Network,
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backref=orm.backref("qos_queue", uselist=False,
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cascade='delete', lazy='joined'))
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class NVPQoSDbMixin(qos.QueuePluginBase):
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"""Mixin class to add queues."""
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def create_qos_queue(self, context, qos_queue):
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q = qos_queue['qos_queue']
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with context.session.begin(subtransactions=True):
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qos_queue = QoSQueue(id=q.get('id', uuidutils.generate_uuid()),
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name=q.get('name'),
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tenant_id=q['tenant_id'],
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default=q.get('default'),
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min=q.get('min'),
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max=q.get('max'),
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qos_marking=q.get('qos_marking'),
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dscp=q.get('dscp'))
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context.session.add(qos_queue)
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return self._make_qos_queue_dict(qos_queue)
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def get_qos_queue(self, context, queue_id, fields=None):
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return self._make_qos_queue_dict(
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self._get_qos_queue(context, queue_id), fields)
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def _get_qos_queue(self, context, queue_id):
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try:
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return self._get_by_id(context, QoSQueue, queue_id)
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except exc.NoResultFound:
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raise qos.QueueNotFound(id=queue_id)
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def get_qos_queues(self, context, filters=None, fields=None):
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return self._get_collection(context, QoSQueue,
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self._make_qos_queue_dict,
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filters=filters, fields=fields)
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def delete_qos_queue(self, context, queue_id):
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qos_queue = self._get_qos_queue(context, queue_id)
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with context.session.begin(subtransactions=True):
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context.session.delete(qos_queue)
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def _process_port_queue_mapping(self, context, port_data, queue_id):
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port_data[qos.QUEUE] = queue_id
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if not queue_id:
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return
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with context.session.begin(subtransactions=True):
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context.session.add(PortQueueMapping(port_id=port_data['id'],
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queue_id=queue_id))
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def _get_port_queue_bindings(self, context, filters=None, fields=None):
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return self._get_collection(context, PortQueueMapping,
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self._make_port_queue_binding_dict,
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filters=filters, fields=fields)
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def _delete_port_queue_mapping(self, context, port_id):
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query = self._model_query(context, PortQueueMapping)
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try:
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binding = query.filter(PortQueueMapping.port_id == port_id).one()
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except exc.NoResultFound:
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# return since this can happen if we are updating a port that
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# did not already have a queue on it. There is no need to check
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# if there is one before deleting if we return here.
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return
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with context.session.begin(subtransactions=True):
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context.session.delete(binding)
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def _process_network_queue_mapping(self, context, net_data, queue_id):
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net_data[qos.QUEUE] = queue_id
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if not queue_id:
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return
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with context.session.begin(subtransactions=True):
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context.session.add(
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NetworkQueueMapping(network_id=net_data['id'],
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queue_id=queue_id))
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def _get_network_queue_bindings(self, context, filters=None, fields=None):
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return self._get_collection(context, NetworkQueueMapping,
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self._make_network_queue_binding_dict,
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filters=filters, fields=fields)
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def _delete_network_queue_mapping(self, context, network_id):
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query = self._model_query(context, NetworkQueueMapping)
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with context.session.begin(subtransactions=True):
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binding = query.filter_by(network_id=network_id).first()
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if binding:
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context.session.delete(binding)
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def _extend_dict_qos_queue(self, obj_res, obj_db):
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queue_mapping = obj_db['qos_queue']
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if queue_mapping:
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obj_res[qos.QUEUE] = queue_mapping.get('queue_id')
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return obj_res
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def _extend_port_dict_qos_queue(self, port_res, port_db):
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self._extend_dict_qos_queue(port_res, port_db)
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def _extend_network_dict_qos_queue(self, network_res, network_db):
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self._extend_dict_qos_queue(network_res, network_db)
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# Register dict extend functions for networks and ports
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db_base_plugin_v2.NeutronDbPluginV2.register_dict_extend_funcs(
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attr.NETWORKS, ['_extend_network_dict_qos_queue'])
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db_base_plugin_v2.NeutronDbPluginV2.register_dict_extend_funcs(
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attr.PORTS, ['_extend_port_dict_qos_queue'])
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def _make_qos_queue_dict(self, queue, fields=None):
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res = {'id': queue['id'],
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'name': queue.get('name'),
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'default': queue.get('default'),
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'tenant_id': queue['tenant_id'],
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'min': queue.get('min'),
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'max': queue.get('max'),
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'qos_marking': queue.get('qos_marking'),
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'dscp': queue.get('dscp')}
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return self._fields(res, fields)
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def _make_port_queue_binding_dict(self, queue, fields=None):
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res = {'port_id': queue['port_id'],
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'queue_id': queue['queue_id']}
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return self._fields(res, fields)
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def _make_network_queue_binding_dict(self, queue, fields=None):
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res = {'network_id': queue['network_id'],
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'queue_id': queue['queue_id']}
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return self._fields(res, fields)
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def _check_for_queue_and_create(self, context, port):
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"""Check for queue and create.
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This function determines if a port should be associated with a
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queue. It works by first querying NetworkQueueMapping to determine
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if the network is associated with a queue. If so, then it queries
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NetworkQueueMapping for all the networks that are associated with
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this queue. Next, it queries against all the ports on these networks
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with the port device_id. Finally it queries PortQueueMapping. If that
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query returns a queue_id that is returned. Otherwise a queue is
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created that is the size of the queue associated with the network and
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that queue_id is returned.
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If the network is not associated with a queue we then query to see
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if there is a default queue in the system. If so, a copy of that is
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created and the queue_id is returned.
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Otherwise None is returned. None is also returned if the port does not
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have a device_id or if the device_owner is network:
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"""
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queue_to_create = None
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# If there is no device_id don't create a queue. The queue will be
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# created on update port when the device_id is present. Also don't
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# apply QoS to network ports.
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if (not port.get('device_id') or
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port['device_owner'].startswith('network:')):
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return
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# Check if there is a queue assocated with the network
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filters = {'network_id': [port['network_id']]}
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network_queue_id = self._get_network_queue_bindings(
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context, filters, ['queue_id'])
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if network_queue_id:
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# get networks that queue is assocated with
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filters = {'queue_id': [network_queue_id[0]['queue_id']]}
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networks_with_same_queue = self._get_network_queue_bindings(
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context, filters)
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# get the ports on these networks with the same_queue and device_id
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filters = {'device_id': [port.get('device_id')],
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'network_id': [network['network_id'] for
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network in networks_with_same_queue]}
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query = self._model_query(context, models_v2.Port.id)
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query = self._apply_filters_to_query(query, models_v2.Port,
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filters)
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ports_ids = [p[0] for p in query]
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if ports_ids:
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# shared queue already exists find the queue id
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queues = self._get_port_queue_bindings(context,
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{'port_id': ports_ids},
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['queue_id'])
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if queues:
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return queues[0]['queue_id']
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# get the size of the queue we want to create
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queue_to_create = self._get_qos_queue(
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context, network_queue_id[0]['queue_id'])
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else:
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# check for default queue
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filters = {'default': [True]}
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# context is elevated since default queue is owned by admin
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queue_to_create = self.get_qos_queues(context.elevated(), filters)
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if not queue_to_create:
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return
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queue_to_create = queue_to_create[0]
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# create the queue
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tenant_id = self._get_tenant_id_for_create(context, port)
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if port.get(qos.RXTX_FACTOR) and queue_to_create.get('max'):
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queue_to_create['max'] *= int(port[qos.RXTX_FACTOR])
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queue = {'qos_queue': {'name': queue_to_create.get('name'),
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'min': queue_to_create.get('min'),
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'max': queue_to_create.get('max'),
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'dscp': queue_to_create.get('dscp'),
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'qos_marking':
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queue_to_create.get('qos_marking'),
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'tenant_id': tenant_id}}
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return self.create_qos_queue(context, queue, False)['id']
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def _validate_qos_queue(self, context, qos_queue):
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if qos_queue.get('default'):
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if context.is_admin:
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if self.get_qos_queues(context, filters={'default': [True]}):
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raise qos.DefaultQueueAlreadyExists()
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else:
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raise qos.DefaultQueueCreateNotAdmin()
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if qos_queue.get('qos_marking') == 'trusted':
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dscp = qos_queue.pop('dscp')
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LOG.info(_("DSCP value (%s) will be ignored with 'trusted' "
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"marking"), dscp)
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max = qos_queue.get('max')
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min = qos_queue.get('min')
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# Max can be None
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if max and min > max:
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raise qos.QueueMinGreaterMax()
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