vmware-nsx/neutron/plugins/mlnx/db/mlnx_db_v2.py
Mark McClain 380b0e7db6 Rename Quantum to Neutron
This change renames everything to Neutron while providing backwards
compatible adjustments for Grizzly configuration files.

implements blueprint: remove-use-of-quantum

Change-Id: Ie7d07ba7c89857e13d4ddc8f0e9b68de020a3d19
2013-07-06 15:02:43 -04:00

242 lines
9.3 KiB
Python

# 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.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).
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).
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):
qry = session.query(mlnx_models_v2.NetworkBinding)
qry = qry.filter_by(network_id=network_id)
return qry.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):
qry = session.query(mlnx_models_v2.PortProfileBinding)
return qry.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()
ports = session.query(models_v2.Port).all()
for port in ports:
if port['id'].startswith(device):
return port
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)