# vim: tabstop=4 shiftwidth=4 softtabstop=4 # # Copyright 2013 Mellanox Technologies, Ltd # # 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 sqlalchemy.orm import exc from neutron.common import exceptions as q_exc import neutron.db.api as db from neutron.db import models_v2 from neutron.db import securitygroups_db as sg_db from neutron import manager from neutron.openstack.common import log as logging from neutron.plugins.mlnx.common import config # noqa from neutron.plugins.mlnx.db import mlnx_models_v2 LOG = logging.getLogger(__name__) def initialize(): db.configure_db() def _remove_non_allocatable_vlans(session, allocations, physical_network, vlan_ids): if physical_network in allocations: for entry in allocations[physical_network]: try: # see if vlan is allocatable vlan_ids.remove(entry.segmentation_id) except KeyError: # it's not allocatable, so check if its allocated if not entry.allocated: # it's not, so remove it from table LOG.debug(_( "Removing vlan %(seg_id)s on " "physical network " "%(net)s from pool"), {'seg_id': entry.segmentation_id, 'net': physical_network}) session.delete(entry) del allocations[physical_network] def _add_missing_allocatable_vlans(session, physical_network, vlan_ids): for vlan_id in sorted(vlan_ids): entry = mlnx_models_v2.SegmentationIdAllocation(physical_network, vlan_id) session.add(entry) def _remove_unconfigured_vlans(session, allocations): for entries in allocations.itervalues(): for entry in entries: if not entry.allocated: LOG.debug(_("Removing vlan %(seg_id)s on physical " "network %(net)s from pool"), {'seg_id': entry.segmentation_id, 'net': entry.physical_network}) session.delete(entry) def sync_network_states(network_vlan_ranges): """Synchronize network_states table with current configured VLAN ranges.""" session = db.get_session() with session.begin(): # get existing allocations for all physical networks allocations = dict() entries = (session.query(mlnx_models_v2.SegmentationIdAllocation). all()) for entry in entries: allocations.setdefault(entry.physical_network, set()).add(entry) # process vlan ranges for each configured physical network for physical_network, vlan_ranges in network_vlan_ranges.iteritems(): # determine current configured allocatable vlans for this # physical network vlan_ids = set() for vlan_range in vlan_ranges: vlan_ids |= set(xrange(vlan_range[0], vlan_range[1] + 1)) # remove from table unallocated vlans not currently allocatable _remove_non_allocatable_vlans(session, allocations, physical_network, vlan_ids) # add missing allocatable vlans to table _add_missing_allocatable_vlans(session, physical_network, vlan_ids) # remove from table unallocated vlans for any unconfigured physical # networks _remove_unconfigured_vlans(session, allocations) def get_network_state(physical_network, segmentation_id): """Get entry of specified network.""" session = db.get_session() qry = session.query(mlnx_models_v2.SegmentationIdAllocation) qry = qry.filter_by(physical_network=physical_network, segmentation_id=segmentation_id) return qry.first() def reserve_network(session): with session.begin(subtransactions=True): entry = (session.query(mlnx_models_v2.SegmentationIdAllocation). filter_by(allocated=False). with_lockmode('update'). first()) if not entry: raise q_exc.NoNetworkAvailable() LOG.debug(_("Reserving vlan %(seg_id)s on physical network " "%(net)s from pool"), {'seg_id': entry.segmentation_id, 'net': entry.physical_network}) entry.allocated = True return (entry.physical_network, entry.segmentation_id) def reserve_specific_network(session, physical_network, segmentation_id): with session.begin(subtransactions=True): log_args = {'seg_id': segmentation_id, 'phy_net': physical_network} try: entry = (session.query(mlnx_models_v2.SegmentationIdAllocation). filter_by(physical_network=physical_network, segmentation_id=segmentation_id). with_lockmode('update'). one()) if entry.allocated: raise q_exc.VlanIdInUse(vlan_id=segmentation_id, physical_network=physical_network) LOG.debug(_("Reserving specific vlan %(seg_id)s " "on physical network %(phy_net)s from pool"), log_args) entry.allocated = True except exc.NoResultFound: LOG.debug(_("Reserving specific vlan %(seg_id)s on " "physical network %(phy_net)s outside pool"), log_args) entry = mlnx_models_v2.SegmentationIdAllocation(physical_network, segmentation_id) entry.allocated = True session.add(entry) def release_network(session, physical_network, segmentation_id, network_vlan_ranges): with session.begin(subtransactions=True): log_args = {'seg_id': segmentation_id, 'phy_net': physical_network} try: state = (session.query(mlnx_models_v2.SegmentationIdAllocation). filter_by(physical_network=physical_network, segmentation_id=segmentation_id). with_lockmode('update'). one()) state.allocated = False inside = False for vlan_range in network_vlan_ranges.get(physical_network, []): if (segmentation_id >= vlan_range[0] and segmentation_id <= vlan_range[1]): inside = True break if inside: LOG.debug(_("Releasing vlan %(seg_id)s " "on physical network " "%(phy_net)s to pool"), log_args) else: LOG.debug(_("Releasing vlan %(seg_id)s " "on physical network " "%(phy_net)s outside pool"), log_args) session.delete(state) except exc.NoResultFound: LOG.warning(_("vlan_id %(seg_id)s on physical network " "%(phy_net)s not found"), log_args) def add_network_binding(session, network_id, network_type, physical_network, vlan_id): with session.begin(subtransactions=True): binding = mlnx_models_v2.NetworkBinding(network_id, network_type, physical_network, vlan_id) session.add(binding) def get_network_binding(session, network_id): return (session.query(mlnx_models_v2.NetworkBinding). filter_by(network_id=network_id).first()) def add_port_profile_binding(session, port_id, vnic_type): with session.begin(subtransactions=True): binding = mlnx_models_v2.PortProfileBinding(port_id, vnic_type) session.add(binding) def get_port_profile_binding(session, port_id): return (session.query(mlnx_models_v2.PortProfileBinding). filter_by(port_id=port_id).first()) def get_port_from_device(device): """Get port from database.""" LOG.debug(_("get_port_from_device() called")) session = db.get_session() sg_binding_port = sg_db.SecurityGroupPortBinding.port_id query = session.query(models_v2.Port, sg_db.SecurityGroupPortBinding.security_group_id) query = query.outerjoin(sg_db.SecurityGroupPortBinding, models_v2.Port.id == sg_binding_port) query = query.filter(models_v2.Port.id.startswith(device)) port_and_sgs = query.all() if not port_and_sgs: return port = port_and_sgs[0][0] plugin = manager.NeutronManager.get_plugin() port_dict = plugin._make_port_dict(port) port_dict['security_groups'] = [ sg_id for port_in_db, sg_id in port_and_sgs if sg_id ] port_dict['security_group_rules'] = [] port_dict['security_group_source_groups'] = [] port_dict['fixed_ips'] = [ip['ip_address'] for ip in port['fixed_ips']] return port_dict def get_port_from_device_mac(device_mac): """Get port from database.""" LOG.debug(_("Get_port_from_device_mac() called")) session = db.get_session() qry = session.query(models_v2.Port).filter_by(mac_address=device_mac) return qry.first() def set_port_status(port_id, status): """Set the port status.""" LOG.debug(_("Set_port_status as %s called"), status) session = db.get_session() try: port = session.query(models_v2.Port).filter_by(id=port_id).one() port['status'] = status session.merge(port) session.flush() except exc.NoResultFound: raise q_exc.PortNotFound(port_id=port_id)