77f2f276d3
When a port is created the initial status will be 'DOWN'. The agent in turn will update the plugin of the actual port status. Change-Id: I66b51501304f7cb3f0157a4adaec4b82c62b30a3
1349 lines
59 KiB
Python
1349 lines
59 KiB
Python
# vim: tabstop=4 shiftwidth=4 softtabstop=4
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# Copyright (c) 2012 OpenStack LLC.
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# 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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import datetime
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import random
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import netaddr
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from sqlalchemy import orm
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from sqlalchemy.orm import exc
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from quantum.api.v2 import attributes
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from quantum.common import constants
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from quantum.common import exceptions as q_exc
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from quantum.db import api as db
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from quantum.db import models_v2
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from quantum.openstack.common import cfg
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from quantum.openstack.common import log as logging
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from quantum.openstack.common import timeutils
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from quantum.openstack.common import uuidutils
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from quantum import quantum_plugin_base_v2
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LOG = logging.getLogger(__name__)
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AGENT_OWNER_PREFIX = 'network:'
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# Ports with the following 'device_owner' values will not prevent
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# network deletion. If delete_network() finds that all ports on a
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# network have these owners, it will explicitly delete each port
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# and allow network deletion to continue. Similarly, if delete_subnet()
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# finds out that all existing IP Allocations are associated with ports
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# with these owners, it will allow subnet deletion to proceed with the
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# IP allocations being cleaned up by cascade.
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AUTO_DELETE_PORT_OWNERS = ['network:dhcp', 'network:router_interface']
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class QuantumDbPluginV2(quantum_plugin_base_v2.QuantumPluginBaseV2):
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""" A class that implements the v2 Quantum plugin interface
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using SQLAlchemy models. Whenever a non-read call happens
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the plugin will call an event handler class method (e.g.,
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network_created()). The result is that this class can be
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sub-classed by other classes that add custom behaviors on
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certain events.
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"""
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# This attribute specifies whether the plugin supports or not
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# bulk operations. Name mangling is used in order to ensure it
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# is qualified by class
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__native_bulk_support = True
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# Plugins, mixin classes implementing extension will register
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# hooks into the dict below for "augmenting" the "core way" of
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# building a query for retrieving objects from a model class.
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# To this aim, the register_model_query_hook and unregister_query_hook
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# from this class should be invoked
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_model_query_hooks = {}
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def __init__(self):
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# NOTE(jkoelker) This is an incomlete implementation. Subclasses
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# must override __init__ and setup the database
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# and not call into this class's __init__.
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# This connection is setup as memory for the tests.
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db.configure_db()
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def _get_tenant_id_for_create(self, context, resource):
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if context.is_admin and 'tenant_id' in resource:
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tenant_id = resource['tenant_id']
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elif ('tenant_id' in resource and
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resource['tenant_id'] != context.tenant_id):
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reason = _('Cannot create resource for another tenant')
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raise q_exc.AdminRequired(reason=reason)
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else:
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tenant_id = context.tenant_id
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return tenant_id
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def _model_query(self, context, model):
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query = context.session.query(model)
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# define basic filter condition for model query
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# NOTE(jkoelker) non-admin queries are scoped to their tenant_id
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# NOTE(salvatore-orlando): unless the model allows for shared objects
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query_filter = None
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if not context.is_admin and hasattr(model, 'tenant_id'):
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if hasattr(model, 'shared'):
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query_filter = ((model.tenant_id == context.tenant_id) |
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(model.shared))
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else:
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query_filter = (model.tenant_id == context.tenant_id)
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# Execute query hooks registered from mixins and plugins
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for _name, hooks in self._model_query_hooks.get(model,
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{}).iteritems():
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query_hook = hooks.get('query')
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filter_hook = hooks.get('filter')
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if query_hook:
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query = query_hook(self, context, model, query)
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if filter_hook:
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query_filter = filter_hook(self, context, model, query_filter)
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# NOTE(salvatore-orlando): 'if query_filter' will try to evaluate the
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# condition, raising an exception
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if query_filter is not None:
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query = query.filter(query_filter)
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return query
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@classmethod
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def register_model_query_hook(cls, model, name, query_hook, filter_hook):
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""" register an hook to be invoked when a query is executed.
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Add the hooks to the _model_query_hooks dict. Models are the keys
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of this dict, whereas the value is another dict mapping hook names to
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callables performing the hook.
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Each hook has a "query" component, used to build the query expression
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and a "filter" component, which is used to build the filter expression.
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Query hooks take as input the query being built and return a
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transformed query expression.
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Filter hooks take as input the filter expression being built and return
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a transformed filter expression
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"""
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model_hooks = cls._model_query_hooks.get(model)
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if not model_hooks:
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# add key to dict
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model_hooks = {}
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cls._model_query_hooks[model] = model_hooks
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model_hooks[name] = {'query': query_hook, 'filter': filter_hook}
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def _get_by_id(self, context, model, id):
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query = self._model_query(context, model)
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return query.filter(model.id == id).one()
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def _get_network(self, context, id):
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try:
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network = self._get_by_id(context, models_v2.Network, id)
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except exc.NoResultFound:
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raise q_exc.NetworkNotFound(net_id=id)
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except exc.MultipleResultsFound:
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LOG.error(_('Multiple networks match for %s'), id)
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raise q_exc.NetworkNotFound(net_id=id)
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return network
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def _get_subnet(self, context, id):
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try:
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subnet = self._get_by_id(context, models_v2.Subnet, id)
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except exc.NoResultFound:
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raise q_exc.SubnetNotFound(subnet_id=id)
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except exc.MultipleResultsFound:
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LOG.error(_('Multiple subnets match for %s'), id)
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raise q_exc.SubnetNotFound(subnet_id=id)
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return subnet
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def _get_port(self, context, id):
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try:
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port = self._get_by_id(context, models_v2.Port, id)
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except exc.NoResultFound:
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# NOTE(jkoelker) The PortNotFound exceptions requires net_id
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# kwarg in order to set the message correctly
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raise q_exc.PortNotFound(port_id=id, net_id=None)
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except exc.MultipleResultsFound:
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LOG.error(_('Multiple ports match for %s'), id)
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raise q_exc.PortNotFound(port_id=id)
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return port
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def _get_dns_by_subnet(self, context, subnet_id):
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try:
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dns_qry = context.session.query(models_v2.DNSNameServer)
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return dns_qry.filter_by(subnet_id=subnet_id).all()
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except exc.NoResultFound:
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return []
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def _get_route_by_subnet(self, context, subnet_id):
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route_qry = context.session.query(models_v2.Route)
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return route_qry.filter_by(subnet_id=subnet_id).all()
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def _get_subnets_by_network(self, context, network_id):
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subnet_qry = context.session.query(models_v2.Subnet)
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return subnet_qry.filter_by(network_id=network_id).all()
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def _get_all_subnets(self, context):
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# NOTE(salvatore-orlando): This query might end up putting
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# a lot of stress on the db. Consider adding a cache layer
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return context.session.query(models_v2.Subnet).all()
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def _fields(self, resource, fields):
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if fields:
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return dict(((key, item) for key, item in resource.iteritems()
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if key in fields))
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return resource
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def _apply_filters_to_query(self, query, model, filters):
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if filters:
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for key, value in filters.iteritems():
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column = getattr(model, key, None)
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if column:
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query = query.filter(column.in_(value))
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return query
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def _get_collection_query(self, context, model, filters=None):
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collection = self._model_query(context, model)
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collection = self._apply_filters_to_query(collection, model, filters)
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return collection
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def _get_collection(self, context, model, dict_func, filters=None,
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fields=None):
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query = self._get_collection_query(context, model, filters)
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return [dict_func(c, fields) for c in query.all()]
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def _get_collection_count(self, context, model, filters=None):
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return self._get_collection_query(context, model, filters).count()
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@staticmethod
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def _generate_mac(context, network_id):
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base_mac = cfg.CONF.base_mac.split(':')
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max_retries = cfg.CONF.mac_generation_retries
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for i in range(max_retries):
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mac = [int(base_mac[0], 16), int(base_mac[1], 16),
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int(base_mac[2], 16), random.randint(0x00, 0xff),
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random.randint(0x00, 0xff), random.randint(0x00, 0xff)]
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if base_mac[3] != '00':
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mac[3] = int(base_mac[3], 16)
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mac_address = ':'.join(map(lambda x: "%02x" % x, mac))
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if QuantumDbPluginV2._check_unique_mac(context, network_id,
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mac_address):
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LOG.debug(_("Generated mac for network %(network_id)s "
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"is %(mac_address)s"), locals())
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return mac_address
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else:
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LOG.debug(_("Generated mac %(mac_address)s exists. Remaining "
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"attempts %(max_retries)s."),
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{'mac_address': mac_address,
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'max_retries': max_retries - (i + 1)})
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LOG.error(_("Unable to generate mac address after %s attempts"),
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max_retries)
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raise q_exc.MacAddressGenerationFailure(net_id=network_id)
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@staticmethod
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def _check_unique_mac(context, network_id, mac_address):
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mac_qry = context.session.query(models_v2.Port)
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try:
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mac_qry.filter_by(network_id=network_id,
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mac_address=mac_address).one()
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except exc.NoResultFound:
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return True
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return False
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@staticmethod
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def _hold_ip(context, network_id, subnet_id, port_id, ip_address):
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alloc_qry = context.session.query(models_v2.IPAllocation)
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allocated = alloc_qry.filter_by(network_id=network_id,
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port_id=port_id,
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ip_address=ip_address,
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subnet_id=subnet_id).one()
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if not allocated:
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return
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if allocated.expiration < timeutils.utcnow():
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# immediately delete expired allocations
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QuantumDbPluginV2._recycle_ip(
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context, network_id, subnet_id, ip_address)
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else:
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LOG.debug(_("Hold allocated IP %(ip_address)s "
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"(%(network_id)s/%(subnet_id)s/%(port_id)s)"),
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locals())
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allocated.port_id = None
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@staticmethod
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def _recycle_expired_ip_allocations(context, network_id):
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"""Return held ip allocations with expired leases back to the pool."""
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if network_id in getattr(context, '_recycled_networks', set()):
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return
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expired_qry = context.session.query(models_v2.IPAllocation)
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expired_qry = expired_qry.filter_by(network_id=network_id,
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port_id=None)
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expired_qry = expired_qry.filter(
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models_v2.IPAllocation.expiration <= timeutils.utcnow())
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for expired in expired_qry.all():
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QuantumDbPluginV2._recycle_ip(context,
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network_id,
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expired['subnet_id'],
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expired['ip_address'])
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if hasattr(context, '_recycled_networks'):
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context._recycled_networks.add(network_id)
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else:
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context._recycled_networks = set([network_id])
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@staticmethod
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def _recycle_ip(context, network_id, subnet_id, ip_address):
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"""Return an IP address to the pool of free IP's on the network
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subnet.
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"""
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# Grab all allocation pools for the subnet
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pool_qry = context.session.query(models_v2.IPAllocationPool)
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allocation_pools = pool_qry.filter_by(subnet_id=subnet_id).all()
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# Find the allocation pool for the IP to recycle
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pool_id = None
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for allocation_pool in allocation_pools:
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allocation_pool_range = netaddr.IPRange(
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allocation_pool['first_ip'],
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allocation_pool['last_ip'])
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if netaddr.IPAddress(ip_address) in allocation_pool_range:
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pool_id = allocation_pool['id']
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break
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if not pool_id:
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error_message = _("No allocation pool found for "
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"ip address:%s") % ip_address
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raise q_exc.InvalidInput(error_message=error_message)
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# Two requests will be done on the database. The first will be to
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# search if an entry starts with ip_address + 1 (r1). The second
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# will be to see if an entry ends with ip_address -1 (r2).
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# If 1 of the above holds true then the specific entry will be
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# modified. If both hold true then the two ranges will be merged.
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# If there are no entries then a single entry will be added.
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range_qry = context.session.query(models_v2.IPAvailabilityRange)
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ip_first = str(netaddr.IPAddress(ip_address) + 1)
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ip_last = str(netaddr.IPAddress(ip_address) - 1)
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LOG.debug(_("Recycle %s"), ip_address)
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try:
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r1 = range_qry.filter_by(allocation_pool_id=pool_id,
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first_ip=ip_first).one()
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LOG.debug(_("Recycle: first match for %(first_ip)s-%(last_ip)s"),
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{'first_ip': r1['first_ip'], 'last_ip': r1['last_ip']})
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except exc.NoResultFound:
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r1 = []
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try:
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r2 = range_qry.filter_by(allocation_pool_id=pool_id,
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last_ip=ip_last).one()
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LOG.debug(_("Recycle: last match for %(first_ip)s-%(last_ip)s"),
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{'first_ip': r2['first_ip'], 'last_ip': r2['last_ip']})
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except exc.NoResultFound:
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r2 = []
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if r1 and r2:
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# Merge the two ranges
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ip_range = models_v2.IPAvailabilityRange(
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allocation_pool_id=pool_id,
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first_ip=r2['first_ip'],
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last_ip=r1['last_ip'])
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context.session.add(ip_range)
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LOG.debug(_("Recycle: merged %(first_ip1)s-%(last_ip1)s and "
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"%(first_ip2)s-%(last_ip2)s"),
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{'first_ip1': r2['first_ip'], 'last_ip1': r2['last_ip'],
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'first_ip2': r1['first_ip'], 'last_ip2': r1['last_ip']})
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context.session.delete(r1)
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context.session.delete(r2)
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elif r1:
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# Update the range with matched first IP
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r1['first_ip'] = ip_address
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LOG.debug(_("Recycle: updated first %(first_ip)s-%(last_ip)s"),
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{'first_ip': r1['first_ip'], 'last_ip': r1['last_ip']})
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elif r2:
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# Update the range with matched last IP
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r2['last_ip'] = ip_address
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LOG.debug(_("Recycle: updated last %(first_ip)s-%(last_ip)s"),
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{'first_ip': r2['first_ip'], 'last_ip': r2['last_ip']})
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else:
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# Create a new range
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ip_range = models_v2.IPAvailabilityRange(
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allocation_pool_id=pool_id,
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first_ip=ip_address,
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last_ip=ip_address)
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context.session.add(ip_range)
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LOG.debug(_("Recycle: created new %(first_ip)s-%(last_ip)s"),
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{'first_ip': ip_address, 'last_ip': ip_address})
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QuantumDbPluginV2._delete_ip_allocation(context, network_id, subnet_id,
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ip_address)
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@staticmethod
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def _default_allocation_expiration():
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return (timeutils.utcnow() +
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datetime.timedelta(seconds=cfg.CONF.dhcp_lease_duration))
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def update_fixed_ip_lease_expiration(self, context, network_id,
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ip_address, lease_remaining):
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expiration = (timeutils.utcnow() +
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datetime.timedelta(seconds=lease_remaining))
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query = context.session.query(models_v2.IPAllocation)
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query = query.filter_by(network_id=network_id, ip_address=ip_address)
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try:
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fixed_ip = query.one()
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fixed_ip.expiration = expiration
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except exc.NoResultFound:
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LOG.debug(_("No fixed IP found that matches the network "
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"%(network_id)s and ip address %(ip_address)s."),
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locals())
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@staticmethod
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def _delete_ip_allocation(context, network_id, subnet_id, ip_address):
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# Delete the IP address from the IPAllocate table
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LOG.debug(_("Delete allocated IP %(ip_address)s "
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"(%(network_id)s/%(subnet_id)s)"), locals())
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alloc_qry = context.session.query(models_v2.IPAllocation)
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allocated = alloc_qry.filter_by(network_id=network_id,
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ip_address=ip_address,
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subnet_id=subnet_id).delete()
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|
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@staticmethod
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def _generate_ip(context, subnets):
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"""Generate an IP address.
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The IP address will be generated from one of the subnets defined on
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the network.
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"""
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range_qry = context.session.query(
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models_v2.IPAvailabilityRange).join(
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models_v2.IPAllocationPool)
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for subnet in subnets:
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range = range_qry.filter_by(subnet_id=subnet['id']).first()
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if not range:
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LOG.debug(_("All IP's from subnet %(subnet_id)s (%(cidr)s) "
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"allocated"),
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{'subnet_id': subnet['id'], 'cidr': subnet['cidr']})
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continue
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ip_address = range['first_ip']
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LOG.debug(_("Allocated IP - %(ip_address)s from %(first_ip)s "
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"to %(last_ip)s"),
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{'ip_address': ip_address,
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'first_ip': range['first_ip'],
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'last_ip': range['last_ip']})
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if range['first_ip'] == range['last_ip']:
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# No more free indices on subnet => delete
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LOG.debug(_("No more free IP's in slice. Deleting allocation "
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"pool."))
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context.session.delete(range)
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else:
|
|
# increment the first free
|
|
range['first_ip'] = str(netaddr.IPAddress(ip_address) + 1)
|
|
return {'ip_address': ip_address, 'subnet_id': subnet['id']}
|
|
raise q_exc.IpAddressGenerationFailure(net_id=subnets[0]['network_id'])
|
|
|
|
@staticmethod
|
|
def _allocate_specific_ip(context, subnet_id, ip_address):
|
|
"""Allocate a specific IP address on the subnet."""
|
|
ip = int(netaddr.IPAddress(ip_address))
|
|
range_qry = context.session.query(
|
|
models_v2.IPAvailabilityRange,
|
|
models_v2.IPAllocationPool).join(
|
|
models_v2.IPAllocationPool)
|
|
results = range_qry.filter_by(subnet_id=subnet_id).all()
|
|
for (range, pool) in results:
|
|
first = int(netaddr.IPAddress(range['first_ip']))
|
|
last = int(netaddr.IPAddress(range['last_ip']))
|
|
if first <= ip <= last:
|
|
if first == last:
|
|
context.session.delete(range)
|
|
return
|
|
elif first == ip:
|
|
range['first_ip'] = str(netaddr.IPAddress(ip_address) + 1)
|
|
return
|
|
elif last == ip:
|
|
range['last_ip'] = str(netaddr.IPAddress(ip_address) - 1)
|
|
return
|
|
else:
|
|
# Split into two ranges
|
|
new_first = str(netaddr.IPAddress(ip_address) + 1)
|
|
new_last = range['last_ip']
|
|
range['last_ip'] = str(netaddr.IPAddress(ip_address) - 1)
|
|
ip_range = models_v2.IPAvailabilityRange(
|
|
allocation_pool_id=pool['id'],
|
|
first_ip=new_first,
|
|
last_ip=new_last)
|
|
context.session.add(ip_range)
|
|
return
|
|
|
|
@staticmethod
|
|
def _check_unique_ip(context, network_id, subnet_id, ip_address):
|
|
"""Validate that the IP address on the subnet is not in use."""
|
|
ip_qry = context.session.query(models_v2.IPAllocation)
|
|
try:
|
|
ip_qry.filter_by(network_id=network_id,
|
|
subnet_id=subnet_id,
|
|
ip_address=ip_address).one()
|
|
except exc.NoResultFound:
|
|
return True
|
|
return False
|
|
|
|
@staticmethod
|
|
def _check_subnet_ip(cidr, ip_address):
|
|
"""Validate that the IP address is on the subnet."""
|
|
ip = netaddr.IPAddress(ip_address)
|
|
net = netaddr.IPNetwork(cidr)
|
|
# Check that the IP is valid on subnet. This cannot be the
|
|
# network or the broadcast address
|
|
if (ip != net.network and
|
|
ip != net.broadcast and
|
|
net.netmask & ip == net.ip):
|
|
return True
|
|
return False
|
|
|
|
@staticmethod
|
|
def _check_ip_in_allocation_pool(context, subnet_id, gateway_ip,
|
|
ip_address):
|
|
"""Validate IP in allocation pool.
|
|
|
|
Validates that the IP address is either the default gateway or
|
|
in the allocation pools of the subnet.
|
|
"""
|
|
# Check if the IP is the gateway
|
|
if ip_address == gateway_ip:
|
|
# Gateway is not in allocation pool
|
|
return False
|
|
|
|
# Check if the requested IP is in a defined allocation pool
|
|
pool_qry = context.session.query(models_v2.IPAllocationPool)
|
|
allocation_pools = pool_qry.filter_by(subnet_id=subnet_id).all()
|
|
ip = netaddr.IPAddress(ip_address)
|
|
for allocation_pool in allocation_pools:
|
|
allocation_pool_range = netaddr.IPRange(
|
|
allocation_pool['first_ip'],
|
|
allocation_pool['last_ip'])
|
|
if ip in allocation_pool_range:
|
|
return True
|
|
return False
|
|
|
|
def _test_fixed_ips_for_port(self, context, network_id, fixed_ips):
|
|
"""Test fixed IPs for port.
|
|
|
|
Check that configured subnets are valid prior to allocating any
|
|
IPs. Include the subnet_id in the result if only an IP address is
|
|
configured.
|
|
|
|
:raises: InvalidInput, IpAddressInUse
|
|
"""
|
|
fixed_ip_set = []
|
|
for fixed in fixed_ips:
|
|
found = False
|
|
if 'subnet_id' not in fixed:
|
|
if 'ip_address' not in fixed:
|
|
msg = _('IP allocation requires subnet_id or ip_address')
|
|
raise q_exc.InvalidInput(error_message=msg)
|
|
|
|
filter = {'network_id': [network_id]}
|
|
subnets = self.get_subnets(context, filters=filter)
|
|
for subnet in subnets:
|
|
if QuantumDbPluginV2._check_subnet_ip(subnet['cidr'],
|
|
fixed['ip_address']):
|
|
found = True
|
|
subnet_id = subnet['id']
|
|
break
|
|
if not found:
|
|
msg = _('IP address %s is not a valid IP for the defined '
|
|
'networks subnets') % fixed['ip_address']
|
|
raise q_exc.InvalidInput(error_message=msg)
|
|
else:
|
|
subnet = self._get_subnet(context, fixed['subnet_id'])
|
|
if subnet['network_id'] != network_id:
|
|
msg = (_("Failed to create port on network %(network_id)s"
|
|
", because fixed_ips included invalid subnet "
|
|
"%(subnet_id)s") %
|
|
{'network_id': network_id,
|
|
'subnet_id': fixed['subnet_id']})
|
|
raise q_exc.InvalidInput(error_message=msg)
|
|
subnet_id = subnet['id']
|
|
|
|
if 'ip_address' in fixed:
|
|
# Ensure that the IP's are unique
|
|
if not QuantumDbPluginV2._check_unique_ip(context, network_id,
|
|
subnet_id,
|
|
fixed['ip_address']):
|
|
raise q_exc.IpAddressInUse(net_id=network_id,
|
|
ip_address=fixed['ip_address'])
|
|
|
|
# Ensure that the IP is valid on the subnet
|
|
if (not found and
|
|
not QuantumDbPluginV2._check_subnet_ip(
|
|
subnet['cidr'], fixed['ip_address'])):
|
|
msg = _('IP address %s is not a valid IP for the defined '
|
|
'subnet') % fixed['ip_address']
|
|
raise q_exc.InvalidInput(error_message=msg)
|
|
|
|
fixed_ip_set.append({'subnet_id': subnet_id,
|
|
'ip_address': fixed['ip_address']})
|
|
else:
|
|
fixed_ip_set.append({'subnet_id': subnet_id})
|
|
return fixed_ip_set
|
|
|
|
def _allocate_fixed_ips(self, context, network, fixed_ips):
|
|
"""Allocate IP addresses according to the configured fixed_ips."""
|
|
ips = []
|
|
for fixed in fixed_ips:
|
|
if 'ip_address' in fixed:
|
|
# Remove the IP address from the allocation pool
|
|
QuantumDbPluginV2._allocate_specific_ip(
|
|
context, fixed['subnet_id'], fixed['ip_address'])
|
|
ips.append({'ip_address': fixed['ip_address'],
|
|
'subnet_id': fixed['subnet_id']})
|
|
# Only subnet ID is specified => need to generate IP
|
|
# from subnet
|
|
else:
|
|
subnets = [self._get_subnet(context, fixed['subnet_id'])]
|
|
# IP address allocation
|
|
result = self._generate_ip(context, subnets)
|
|
ips.append({'ip_address': result['ip_address'],
|
|
'subnet_id': result['subnet_id']})
|
|
return ips
|
|
|
|
def _update_ips_for_port(self, context, network_id, port_id, original_ips,
|
|
new_ips):
|
|
"""Add or remove IPs from the port."""
|
|
ips = []
|
|
|
|
# Remove all of the intersecting elements
|
|
for original_ip in original_ips[:]:
|
|
for new_ip in new_ips[:]:
|
|
if 'ip_address' in new_ip:
|
|
if (original_ip['ip_address'] == new_ip['ip_address']
|
|
and
|
|
original_ip['subnet_id'] == new_ip['subnet_id']):
|
|
original_ips.remove(original_ip)
|
|
new_ips.remove(new_ip)
|
|
|
|
# Check if the IP's to add are OK
|
|
to_add = self._test_fixed_ips_for_port(context, network_id, new_ips)
|
|
for ip in original_ips:
|
|
LOG.debug(_("Port update. Hold %s"), ip)
|
|
QuantumDbPluginV2._hold_ip(context,
|
|
network_id,
|
|
ip['subnet_id'],
|
|
port_id,
|
|
ip['ip_address'])
|
|
|
|
if to_add:
|
|
LOG.debug(_("Port update. Adding %s"), to_add)
|
|
network = self._get_network(context, network_id)
|
|
ips = self._allocate_fixed_ips(context, network, to_add)
|
|
return ips
|
|
|
|
def _allocate_ips_for_port(self, context, network, port):
|
|
"""Allocate IP addresses for the port.
|
|
|
|
If port['fixed_ips'] is set to 'ATTR_NOT_SPECIFIED', allocate IP
|
|
addresses for the port. If port['fixed_ips'] contains an IP address or
|
|
a subnet_id then allocate an IP address accordingly.
|
|
"""
|
|
p = port['port']
|
|
ips = []
|
|
|
|
fixed_configured = p['fixed_ips'] is not attributes.ATTR_NOT_SPECIFIED
|
|
if fixed_configured:
|
|
configured_ips = self._test_fixed_ips_for_port(context,
|
|
p["network_id"],
|
|
p['fixed_ips'])
|
|
ips = self._allocate_fixed_ips(context, network, configured_ips)
|
|
else:
|
|
filter = {'network_id': [p['network_id']]}
|
|
subnets = self.get_subnets(context, filters=filter)
|
|
# Split into v4 and v6 subnets
|
|
v4 = []
|
|
v6 = []
|
|
for subnet in subnets:
|
|
if subnet['ip_version'] == 4:
|
|
v4.append(subnet)
|
|
else:
|
|
v6.append(subnet)
|
|
version_subnets = [v4, v6]
|
|
for subnets in version_subnets:
|
|
if subnets:
|
|
result = QuantumDbPluginV2._generate_ip(context, subnets)
|
|
ips.append({'ip_address': result['ip_address'],
|
|
'subnet_id': result['subnet_id']})
|
|
return ips
|
|
|
|
def _validate_subnet_cidr(self, context, network, new_subnet_cidr):
|
|
"""Validate the CIDR for a subnet.
|
|
|
|
Verifies the specified CIDR does not overlap with the ones defined
|
|
for the other subnets specified for this network, or with any other
|
|
CIDR if overlapping IPs are disabled.
|
|
|
|
"""
|
|
new_subnet_ipset = netaddr.IPSet([new_subnet_cidr])
|
|
subnet_list = network.subnets
|
|
if not cfg.CONF.allow_overlapping_ips:
|
|
subnet_list = self._get_all_subnets(context)
|
|
for subnet in subnet_list:
|
|
if (netaddr.IPSet([subnet.cidr]) & new_subnet_ipset):
|
|
# don't give out details of the overlapping subnet
|
|
err_msg = (_("Requested subnet with cidr: %(cidr)s for "
|
|
"network: %(network_id)s overlaps with another "
|
|
"subnet") %
|
|
{'cidr': new_subnet_cidr,
|
|
'network_id': network.id})
|
|
LOG.error(_("Validation for CIDR: %(new_cidr)s failed - "
|
|
"overlaps with subnet %(subnet_id)s "
|
|
"(CIDR: %(cidr)s)"),
|
|
{'new_cidr': new_subnet_cidr,
|
|
'subnet_id': subnet.id,
|
|
'cidr': subnet.cidr})
|
|
raise q_exc.InvalidInput(error_message=err_msg)
|
|
|
|
def _validate_allocation_pools(self, ip_pools, gateway_ip, subnet_cidr):
|
|
"""Validate IP allocation pools.
|
|
|
|
Verify start and end address for each allocation pool are valid,
|
|
ie: constituted by valid and appropriately ordered IP addresses.
|
|
Also, verify pools do not overlap among themselves and with the
|
|
gateway IP. Finally, verify that each range, and the gateway IP,
|
|
fall within the subnet's CIDR.
|
|
|
|
"""
|
|
|
|
subnet = netaddr.IPNetwork(subnet_cidr)
|
|
subnet_first_ip = netaddr.IPAddress(subnet.first + 1)
|
|
subnet_last_ip = netaddr.IPAddress(subnet.last - 1)
|
|
|
|
LOG.debug(_("Performing IP validity checks on allocation pools"))
|
|
ip_sets = []
|
|
for ip_pool in ip_pools:
|
|
try:
|
|
start_ip = netaddr.IPAddress(ip_pool['start'])
|
|
end_ip = netaddr.IPAddress(ip_pool['end'])
|
|
except netaddr.AddrFormatError:
|
|
LOG.error(_("Found invalid IP address in pool: "
|
|
"%(start)s - %(end)s:"),
|
|
{'start': ip_pool['start'],
|
|
'end': ip_pool['end']})
|
|
raise q_exc.InvalidAllocationPool(pool=ip_pool)
|
|
if (start_ip.version != subnet.version or
|
|
end_ip.version != subnet.version):
|
|
LOG.error(_("Specified IP addresses do not match "
|
|
"the subnet IP version"))
|
|
raise q_exc.InvalidAllocationPool(pool=ip_pool)
|
|
if end_ip < start_ip:
|
|
LOG.error(_("Start IP (%(start)s) is greater than end IP "
|
|
"(%(end)s)"),
|
|
{'start': ip_pool['start'], 'end': ip_pool['end']})
|
|
raise q_exc.InvalidAllocationPool(pool=ip_pool)
|
|
if start_ip < subnet_first_ip or end_ip > subnet_last_ip:
|
|
LOG.error(_("Found pool larger than subnet "
|
|
"CIDR:%(start)s - %(end)s"),
|
|
{'start': ip_pool['start'],
|
|
'end': ip_pool['end']})
|
|
raise q_exc.OutOfBoundsAllocationPool(
|
|
pool=ip_pool,
|
|
subnet_cidr=subnet_cidr)
|
|
# Valid allocation pool
|
|
# Create an IPSet for it for easily verifying overlaps
|
|
ip_sets.append(netaddr.IPSet(netaddr.IPRange(
|
|
ip_pool['start'],
|
|
ip_pool['end']).cidrs()))
|
|
|
|
LOG.debug(_("Checking for overlaps among allocation pools "
|
|
"and gateway ip"))
|
|
ip_ranges = ip_pools[:]
|
|
# Treat gw as IPset as well
|
|
if gateway_ip:
|
|
ip_ranges.append(gateway_ip)
|
|
ip_sets.append(netaddr.IPSet([gateway_ip]))
|
|
# Use integer cursors as an efficient way for implementing
|
|
# comparison and avoiding comparing the same pair twice
|
|
for l_cursor in range(len(ip_sets)):
|
|
for r_cursor in range(l_cursor + 1, len(ip_sets)):
|
|
if ip_sets[l_cursor] & ip_sets[r_cursor]:
|
|
l_range = ip_ranges[l_cursor]
|
|
r_range = ip_ranges[r_cursor]
|
|
LOG.error(_("Found overlapping ranges: %(l_range)s and "
|
|
"%(r_range)s"), locals())
|
|
raise q_exc.OverlappingAllocationPools(
|
|
pool_1=l_range,
|
|
pool_2=r_range,
|
|
subnet_cidr=subnet_cidr)
|
|
|
|
def _validate_host_route(self, route, ip_version):
|
|
try:
|
|
netaddr.IPNetwork(route['destination'])
|
|
netaddr.IPAddress(route['nexthop'])
|
|
except netaddr.core.AddrFormatError:
|
|
err_msg = _("Invalid route: %s") % route
|
|
raise q_exc.InvalidInput(error_message=err_msg)
|
|
except ValueError:
|
|
# netaddr.IPAddress would raise this
|
|
err_msg = _("Invalid route: %s") % route
|
|
raise q_exc.InvalidInput(error_message=err_msg)
|
|
self._validate_ip_version(ip_version, route['nexthop'], 'nexthop')
|
|
self._validate_ip_version(ip_version, route['destination'],
|
|
'destination')
|
|
|
|
def _allocate_pools_for_subnet(self, context, subnet):
|
|
"""Create IP allocation pools for a given subnet
|
|
|
|
Pools are defined by the 'allocation_pools' attribute,
|
|
a list of dict objects with 'start' and 'end' keys for
|
|
defining the pool range.
|
|
|
|
"""
|
|
|
|
pools = []
|
|
if subnet['allocation_pools'] is attributes.ATTR_NOT_SPECIFIED:
|
|
# Auto allocate the pool around gateway_ip
|
|
net = netaddr.IPNetwork(subnet['cidr'])
|
|
first_ip = net.first + 1
|
|
last_ip = net.last - 1
|
|
gw_ip = int(netaddr.IPAddress(subnet['gateway_ip'] or net.last))
|
|
# Use the gw_ip to find a point for splitting allocation pools
|
|
# for this subnet
|
|
split_ip = min(max(gw_ip, net.first), net.last)
|
|
if split_ip > first_ip:
|
|
pools.append({'start': str(netaddr.IPAddress(first_ip)),
|
|
'end': str(netaddr.IPAddress(split_ip - 1))})
|
|
if split_ip < last_ip:
|
|
pools.append({'start': str(netaddr.IPAddress(split_ip + 1)),
|
|
'end': str(netaddr.IPAddress(last_ip))})
|
|
# return auto-generated pools
|
|
# no need to check for their validity
|
|
return pools
|
|
else:
|
|
pools = subnet['allocation_pools']
|
|
self._validate_allocation_pools(pools,
|
|
subnet['gateway_ip'],
|
|
subnet['cidr'])
|
|
return pools
|
|
|
|
def _validate_shared_update(self, context, id, original, updated):
|
|
# The only case that needs to be validated is when 'shared'
|
|
# goes from True to False
|
|
if updated['shared'] == original.shared or updated['shared']:
|
|
return
|
|
ports = self._model_query(
|
|
context, models_v2.Port).filter(
|
|
models_v2.Port.network_id == id).all()
|
|
subnets = self._model_query(
|
|
context, models_v2.Subnet).filter(
|
|
models_v2.Subnet.network_id == id).all()
|
|
tenant_ids = set([port['tenant_id'] for port in ports] +
|
|
[subnet['tenant_id'] for subnet in subnets])
|
|
# raise if multiple tenants found or if the only tenant found
|
|
# is not the owner of the network
|
|
if (len(tenant_ids) > 1 or len(tenant_ids) == 1 and
|
|
tenant_ids.pop() != original.tenant_id):
|
|
raise q_exc.InvalidSharedSetting(network=original.name)
|
|
|
|
def _make_network_dict(self, network, fields=None):
|
|
res = {'id': network['id'],
|
|
'name': network['name'],
|
|
'tenant_id': network['tenant_id'],
|
|
'admin_state_up': network['admin_state_up'],
|
|
'status': network['status'],
|
|
'shared': network['shared'],
|
|
'subnets': [subnet['id']
|
|
for subnet in network['subnets']]}
|
|
|
|
return self._fields(res, fields)
|
|
|
|
def _make_subnet_dict(self, subnet, fields=None):
|
|
res = {'id': subnet['id'],
|
|
'name': subnet['name'],
|
|
'tenant_id': subnet['tenant_id'],
|
|
'network_id': subnet['network_id'],
|
|
'ip_version': subnet['ip_version'],
|
|
'cidr': subnet['cidr'],
|
|
'allocation_pools': [{'start': pool['first_ip'],
|
|
'end': pool['last_ip']}
|
|
for pool in subnet['allocation_pools']],
|
|
'gateway_ip': subnet['gateway_ip'],
|
|
'enable_dhcp': subnet['enable_dhcp'],
|
|
'dns_nameservers': [dns['address']
|
|
for dns in subnet['dns_nameservers']],
|
|
'host_routes': [{'destination': route['destination'],
|
|
'nexthop': route['nexthop']}
|
|
for route in subnet['routes']],
|
|
'shared': subnet['shared']
|
|
}
|
|
return self._fields(res, fields)
|
|
|
|
def _make_port_dict(self, port, fields=None):
|
|
res = {"id": port["id"],
|
|
'name': port['name'],
|
|
"network_id": port["network_id"],
|
|
'tenant_id': port['tenant_id'],
|
|
"mac_address": port["mac_address"],
|
|
"admin_state_up": port["admin_state_up"],
|
|
"status": port["status"],
|
|
"fixed_ips": [{'subnet_id': ip["subnet_id"],
|
|
'ip_address': ip["ip_address"]}
|
|
for ip in port["fixed_ips"]],
|
|
"device_id": port["device_id"],
|
|
"device_owner": port["device_owner"]}
|
|
return self._fields(res, fields)
|
|
|
|
def _create_bulk(self, resource, context, request_items):
|
|
objects = []
|
|
collection = "%ss" % resource
|
|
items = request_items[collection]
|
|
context.session.begin(subtransactions=True)
|
|
try:
|
|
for item in items:
|
|
obj_creator = getattr(self, 'create_%s' % resource)
|
|
objects.append(obj_creator(context, item))
|
|
context.session.commit()
|
|
except Exception as e:
|
|
LOG.exception(_("An exception occured while creating "
|
|
"the %(resource)s:%(item)s"), locals())
|
|
context.session.rollback()
|
|
raise e
|
|
return objects
|
|
|
|
def create_network_bulk(self, context, networks):
|
|
return self._create_bulk('network', context, networks)
|
|
|
|
def create_network(self, context, network):
|
|
""" handle creation of a single network """
|
|
# single request processing
|
|
n = network['network']
|
|
# NOTE(jkoelker) Get the tenant_id outside of the session to avoid
|
|
# unneeded db action if the operation raises
|
|
tenant_id = self._get_tenant_id_for_create(context, n)
|
|
with context.session.begin(subtransactions=True):
|
|
args = {'tenant_id': tenant_id,
|
|
'id': n.get('id') or uuidutils.generate_uuid(),
|
|
'name': n['name'],
|
|
'admin_state_up': n['admin_state_up'],
|
|
'shared': n['shared'],
|
|
'status': constants.NET_STATUS_ACTIVE}
|
|
network = models_v2.Network(**args)
|
|
context.session.add(network)
|
|
return self._make_network_dict(network)
|
|
|
|
def update_network(self, context, id, network):
|
|
n = network['network']
|
|
with context.session.begin(subtransactions=True):
|
|
network = self._get_network(context, id)
|
|
# validate 'shared' parameter
|
|
if 'shared' in n:
|
|
self._validate_shared_update(context, id, network, n)
|
|
network.update(n)
|
|
# also update shared in all the subnets for this network
|
|
subnets = self._get_subnets_by_network(context, id)
|
|
for subnet in subnets:
|
|
subnet['shared'] = network['shared']
|
|
return self._make_network_dict(network)
|
|
|
|
def delete_network(self, context, id):
|
|
with context.session.begin(subtransactions=True):
|
|
network = self._get_network(context, id)
|
|
|
|
filter = {'network_id': [id]}
|
|
ports = self.get_ports(context, filters=filter)
|
|
|
|
# check if there are any tenant owned ports in-use
|
|
only_auto_del = all(p['device_owner'] in AUTO_DELETE_PORT_OWNERS
|
|
for p in ports)
|
|
|
|
if not only_auto_del:
|
|
raise q_exc.NetworkInUse(net_id=id)
|
|
|
|
# clean up network owned ports
|
|
for port in ports:
|
|
self._delete_port(context, port['id'])
|
|
|
|
# clean up subnets
|
|
subnets_qry = context.session.query(models_v2.Subnet)
|
|
subnets_qry.filter_by(network_id=id).delete()
|
|
context.session.delete(network)
|
|
|
|
def get_network(self, context, id, fields=None):
|
|
network = self._get_network(context, id)
|
|
return self._make_network_dict(network, fields)
|
|
|
|
def get_networks(self, context, filters=None, fields=None):
|
|
return self._get_collection(context, models_v2.Network,
|
|
self._make_network_dict,
|
|
filters=filters, fields=fields)
|
|
|
|
def get_networks_count(self, context, filters=None):
|
|
return self._get_collection_count(context, models_v2.Network,
|
|
filters=filters)
|
|
|
|
def create_subnet_bulk(self, context, subnets):
|
|
return self._create_bulk('subnet', context, subnets)
|
|
|
|
def _validate_ip_version(self, ip_version, addr, name):
|
|
"""Check IP field of a subnet match specified ip version"""
|
|
ip = netaddr.IPNetwork(addr)
|
|
if ip.version != ip_version:
|
|
msg = _("%(name)s '%(addr)s' does not match "
|
|
"the ip_version '%(ip_version)s'") % locals()
|
|
raise q_exc.InvalidInput(error_message=msg)
|
|
|
|
def _validate_subnet(self, s):
|
|
"""Validate a subnet spec"""
|
|
|
|
# The method requires the subnet spec 's' has 'ip_version' field.
|
|
# If 's' dict does not have 'ip_version' field in an API call
|
|
# (e.g., update_subnet()), you need to set 'ip_version' field
|
|
# before calling this method.
|
|
ip_ver = s['ip_version']
|
|
|
|
if 'cidr' in s:
|
|
self._validate_ip_version(ip_ver, s['cidr'], 'cidr')
|
|
if attributes.is_attr_set(s.get('gateway_ip')):
|
|
self._validate_ip_version(ip_ver, s['gateway_ip'], 'gateway_ip')
|
|
if (cfg.CONF.force_gateway_on_subnet and
|
|
not QuantumDbPluginV2._check_subnet_ip(s['cidr'],
|
|
s['gateway_ip'])):
|
|
error_message = _("Gateway is not valid on subnet")
|
|
raise q_exc.InvalidInput(error_message=error_message)
|
|
|
|
if attributes.is_attr_set(s.get('dns_nameservers')):
|
|
if len(s['dns_nameservers']) > cfg.CONF.max_dns_nameservers:
|
|
raise q_exc.DNSNameServersExhausted(
|
|
subnet_id=id,
|
|
quota=cfg.CONF.max_dns_nameservers)
|
|
for dns in s['dns_nameservers']:
|
|
try:
|
|
netaddr.IPAddress(dns)
|
|
except Exception:
|
|
raise q_exc.InvalidInput(
|
|
error_message=(_("Error parsing dns address %s") %
|
|
dns))
|
|
self._validate_ip_version(ip_ver, dns, 'dns_nameserver')
|
|
|
|
if attributes.is_attr_set(s.get('host_routes')):
|
|
if len(s['host_routes']) > cfg.CONF.max_subnet_host_routes:
|
|
raise q_exc.HostRoutesExhausted(
|
|
subnet_id=id,
|
|
quota=cfg.CONF.max_subnet_host_routes)
|
|
# check if the routes are all valid
|
|
for rt in s['host_routes']:
|
|
self._validate_host_route(rt, ip_ver)
|
|
|
|
def create_subnet(self, context, subnet):
|
|
s = subnet['subnet']
|
|
self._validate_subnet(s)
|
|
|
|
net = netaddr.IPNetwork(s['cidr'])
|
|
if s['gateway_ip'] is attributes.ATTR_NOT_SPECIFIED:
|
|
s['gateway_ip'] = str(netaddr.IPAddress(net.first + 1))
|
|
|
|
tenant_id = self._get_tenant_id_for_create(context, s)
|
|
with context.session.begin(subtransactions=True):
|
|
network = self._get_network(context, s["network_id"])
|
|
self._validate_subnet_cidr(context, network, s['cidr'])
|
|
# The 'shared' attribute for subnets is for internal plugin
|
|
# use only. It is not exposed through the API
|
|
args = {'tenant_id': tenant_id,
|
|
'id': s.get('id') or uuidutils.generate_uuid(),
|
|
'name': s['name'],
|
|
'network_id': s['network_id'],
|
|
'ip_version': s['ip_version'],
|
|
'cidr': s['cidr'],
|
|
'enable_dhcp': s['enable_dhcp'],
|
|
'gateway_ip': s['gateway_ip'],
|
|
'shared': network.shared}
|
|
subnet = models_v2.Subnet(**args)
|
|
|
|
# perform allocate pools first, since it might raise an error
|
|
pools = self._allocate_pools_for_subnet(context, s)
|
|
|
|
context.session.add(subnet)
|
|
if s['dns_nameservers'] is not attributes.ATTR_NOT_SPECIFIED:
|
|
for addr in s['dns_nameservers']:
|
|
ns = models_v2.DNSNameServer(address=addr,
|
|
subnet_id=subnet.id)
|
|
context.session.add(ns)
|
|
|
|
if s['host_routes'] is not attributes.ATTR_NOT_SPECIFIED:
|
|
for rt in s['host_routes']:
|
|
route = models_v2.Route(subnet_id=subnet.id,
|
|
destination=rt['destination'],
|
|
nexthop=rt['nexthop'])
|
|
context.session.add(route)
|
|
for pool in pools:
|
|
ip_pool = models_v2.IPAllocationPool(subnet=subnet,
|
|
first_ip=pool['start'],
|
|
last_ip=pool['end'])
|
|
context.session.add(ip_pool)
|
|
ip_range = models_v2.IPAvailabilityRange(
|
|
ipallocationpool=ip_pool,
|
|
first_ip=pool['start'],
|
|
last_ip=pool['end'])
|
|
context.session.add(ip_range)
|
|
|
|
return self._make_subnet_dict(subnet)
|
|
|
|
def update_subnet(self, context, id, subnet):
|
|
"""Update the subnet with new info. The change however will not be
|
|
realized until the client renew the dns lease or we support
|
|
gratuitous DHCP offers"""
|
|
|
|
s = subnet['subnet']
|
|
# Fill 'ip_version' field with the current value since
|
|
# _validate_subnet() expects subnet spec has 'ip_version' field.
|
|
s['ip_version'] = self._get_subnet(context, id).ip_version
|
|
self._validate_subnet(s)
|
|
|
|
with context.session.begin(subtransactions=True):
|
|
if "dns_nameservers" in s:
|
|
old_dns_list = self._get_dns_by_subnet(context, id)
|
|
|
|
new_dns_addr_set = set(s["dns_nameservers"])
|
|
old_dns_addr_set = set([dns['address']
|
|
for dns in old_dns_list])
|
|
|
|
for dns_addr in old_dns_addr_set - new_dns_addr_set:
|
|
for dns in old_dns_list:
|
|
if dns['address'] == dns_addr:
|
|
context.session.delete(dns)
|
|
for dns_addr in new_dns_addr_set - old_dns_addr_set:
|
|
dns = models_v2.DNSNameServer(
|
|
address=dns_addr,
|
|
subnet_id=id)
|
|
context.session.add(dns)
|
|
del s["dns_nameservers"]
|
|
|
|
def _combine(ht):
|
|
return ht['destination'] + "_" + ht['nexthop']
|
|
|
|
if "host_routes" in s:
|
|
old_route_list = self._get_route_by_subnet(context, id)
|
|
|
|
new_route_set = set([_combine(route)
|
|
for route in s['host_routes']])
|
|
|
|
old_route_set = set([_combine(route)
|
|
for route in old_route_list])
|
|
|
|
for route_str in old_route_set - new_route_set:
|
|
for route in old_route_list:
|
|
if _combine(route) == route_str:
|
|
context.session.delete(route)
|
|
for route_str in new_route_set - old_route_set:
|
|
route = models_v2.Route(
|
|
destination=route_str.partition("_")[0],
|
|
nexthop=route_str.partition("_")[2],
|
|
subnet_id=id)
|
|
context.session.add(route)
|
|
del s["host_routes"]
|
|
|
|
subnet = self._get_subnet(context, id)
|
|
subnet.update(s)
|
|
return self._make_subnet_dict(subnet)
|
|
|
|
def delete_subnet(self, context, id):
|
|
with context.session.begin(subtransactions=True):
|
|
subnet = self._get_subnet(context, id)
|
|
# Check if any tenant owned ports are using this subnet
|
|
allocated_qry = context.session.query(models_v2.IPAllocation)
|
|
allocated_qry = allocated_qry.options(orm.joinedload('ports'))
|
|
allocated = allocated_qry.filter_by(subnet_id=id).all()
|
|
|
|
only_auto_del = all(not a.port_id or
|
|
a.ports.device_owner in AUTO_DELETE_PORT_OWNERS
|
|
for a in allocated)
|
|
if not only_auto_del:
|
|
raise q_exc.SubnetInUse(subnet_id=id)
|
|
|
|
# remove network owned ports
|
|
for allocation in allocated:
|
|
context.session.delete(allocation)
|
|
|
|
context.session.delete(subnet)
|
|
|
|
def get_subnet(self, context, id, fields=None):
|
|
subnet = self._get_subnet(context, id)
|
|
return self._make_subnet_dict(subnet, fields)
|
|
|
|
def get_subnets(self, context, filters=None, fields=None):
|
|
return self._get_collection(context, models_v2.Subnet,
|
|
self._make_subnet_dict,
|
|
filters=filters, fields=fields)
|
|
|
|
def get_subnets_count(self, context, filters=None):
|
|
return self._get_collection_count(context, models_v2.Subnet,
|
|
filters=filters)
|
|
|
|
def create_port_bulk(self, context, ports):
|
|
return self._create_bulk('port', context, ports)
|
|
|
|
def create_port(self, context, port):
|
|
p = port['port']
|
|
port_id = p.get('id') or uuidutils.generate_uuid()
|
|
network_id = p['network_id']
|
|
mac_address = p['mac_address']
|
|
# NOTE(jkoelker) Get the tenant_id outside of the session to avoid
|
|
# unneeded db action if the operation raises
|
|
tenant_id = self._get_tenant_id_for_create(context, p)
|
|
|
|
with context.session.begin(subtransactions=True):
|
|
self._recycle_expired_ip_allocations(context, network_id)
|
|
network = self._get_network(context, network_id)
|
|
|
|
# Ensure that a MAC address is defined and it is unique on the
|
|
# network
|
|
if mac_address is attributes.ATTR_NOT_SPECIFIED:
|
|
mac_address = QuantumDbPluginV2._generate_mac(context,
|
|
network_id)
|
|
else:
|
|
# Ensure that the mac on the network is unique
|
|
if not QuantumDbPluginV2._check_unique_mac(context,
|
|
network_id,
|
|
mac_address):
|
|
raise q_exc.MacAddressInUse(net_id=network_id,
|
|
mac=mac_address)
|
|
|
|
# Returns the IP's for the port
|
|
ips = self._allocate_ips_for_port(context, network, port)
|
|
|
|
if 'status' not in p:
|
|
status = constants.PORT_STATUS_ACTIVE
|
|
else:
|
|
status = p['status']
|
|
|
|
port = models_v2.Port(tenant_id=tenant_id,
|
|
name=p['name'],
|
|
id=port_id,
|
|
network_id=network_id,
|
|
mac_address=mac_address,
|
|
admin_state_up=p['admin_state_up'],
|
|
status=status,
|
|
device_id=p['device_id'],
|
|
device_owner=p['device_owner'])
|
|
context.session.add(port)
|
|
|
|
# Update the allocated IP's
|
|
if ips:
|
|
for ip in ips:
|
|
ip_address = ip['ip_address']
|
|
subnet_id = ip['subnet_id']
|
|
LOG.debug(_("Allocated IP %(ip_address)s "
|
|
"(%(network_id)s/%(subnet_id)s/%(port_id)s)"),
|
|
locals())
|
|
allocated = models_v2.IPAllocation(
|
|
network_id=network_id,
|
|
port_id=port_id,
|
|
ip_address=ip_address,
|
|
subnet_id=subnet_id,
|
|
expiration=self._default_allocation_expiration()
|
|
)
|
|
context.session.add(allocated)
|
|
|
|
return self._make_port_dict(port)
|
|
|
|
def update_port(self, context, id, port):
|
|
p = port['port']
|
|
|
|
with context.session.begin(subtransactions=True):
|
|
port = self._get_port(context, id)
|
|
# Check if the IPs need to be updated
|
|
if 'fixed_ips' in p:
|
|
self._recycle_expired_ip_allocations(context,
|
|
port['network_id'])
|
|
original = self._make_port_dict(port)
|
|
ips = self._update_ips_for_port(context,
|
|
port["network_id"],
|
|
id,
|
|
original["fixed_ips"],
|
|
p['fixed_ips'])
|
|
# 'fixed_ip's not part of DB so it is deleted
|
|
del p['fixed_ips']
|
|
|
|
# Update ips if necessary
|
|
for ip in ips:
|
|
allocated = models_v2.IPAllocation(
|
|
network_id=port['network_id'], port_id=port.id,
|
|
ip_address=ip['ip_address'], subnet_id=ip['subnet_id'],
|
|
expiration=self._default_allocation_expiration())
|
|
context.session.add(allocated)
|
|
|
|
port.update(p)
|
|
|
|
return self._make_port_dict(port)
|
|
|
|
def delete_port(self, context, id):
|
|
with context.session.begin(subtransactions=True):
|
|
self._delete_port(context, id)
|
|
|
|
def _delete_port(self, context, id):
|
|
port = self._get_port(context, id)
|
|
|
|
allocated_qry = context.session.query(models_v2.IPAllocation)
|
|
# recycle all of the IP's
|
|
allocated = allocated_qry.filter_by(port_id=id).all()
|
|
if allocated:
|
|
for a in allocated:
|
|
subnet = self._get_subnet(context, a['subnet_id'])
|
|
# Check if IP was allocated from allocation pool
|
|
if QuantumDbPluginV2._check_ip_in_allocation_pool(
|
|
context, a['subnet_id'], subnet['gateway_ip'],
|
|
a['ip_address']):
|
|
QuantumDbPluginV2._hold_ip(context,
|
|
a['network_id'],
|
|
a['subnet_id'],
|
|
id,
|
|
a['ip_address'])
|
|
else:
|
|
# IPs out of allocation pool will not be recycled, but
|
|
# we do need to delete the allocation from the DB
|
|
QuantumDbPluginV2._delete_ip_allocation(
|
|
context, a['network_id'],
|
|
a['subnet_id'], a['ip_address'])
|
|
msg_dict = dict(address=a['ip_address'],
|
|
subnet_id=a['subnet_id'])
|
|
msg = _("%(address)s (%(subnet_id)s) is not "
|
|
"recycled") % msg_dict
|
|
LOG.debug(msg)
|
|
|
|
context.session.delete(port)
|
|
|
|
def get_port(self, context, id, fields=None):
|
|
port = self._get_port(context, id)
|
|
return self._make_port_dict(port, fields)
|
|
|
|
def _get_ports_query(self, context, filters=None):
|
|
Port = models_v2.Port
|
|
IPAllocation = models_v2.IPAllocation
|
|
|
|
if not filters:
|
|
filters = {}
|
|
|
|
query = self._model_query(context, Port)
|
|
|
|
fixed_ips = filters.pop('fixed_ips', {})
|
|
ip_addresses = fixed_ips.get('ip_address')
|
|
subnet_ids = fixed_ips.get('subnet_id')
|
|
if ip_addresses or subnet_ids:
|
|
query = query.join(Port.fixed_ips)
|
|
if ip_addresses:
|
|
query = query.filter(IPAllocation.ip_address.in_(ip_addresses))
|
|
if subnet_ids:
|
|
query = query.filter(IPAllocation.subnet_id.in_(subnet_ids))
|
|
|
|
query = self._apply_filters_to_query(query, Port, filters)
|
|
return query
|
|
|
|
def get_ports(self, context, filters=None, fields=None):
|
|
query = self._get_ports_query(context, filters)
|
|
return [self._make_port_dict(c, fields) for c in query.all()]
|
|
|
|
def get_ports_count(self, context, filters=None):
|
|
return self._get_ports_query(context, filters).count()
|