代码走读
from oslo_config import cfg
from oslo_db import exception as db_exc
from oslo_log import log
import six
import sqlalchemy as sa
from neutron.common import exceptions as exc
from neutron.db import model_base
from neutron.i18n import _LI, _LW
from neutron.plugins.common import constants as p_const
from neutron.plugins.ml2 import driver_api as api
from neutron.plugins.ml2.drivers import helpers
LOG = log.getLogger(__name__)
#注册配置
flat_opts = [
cfg.ListOpt('flat_networks',#配置字段
default=[],#list类型
help=_("List of physical_network names with which flat "
"networks can be created. Use * to allow flat "
"networks with arbitrary physical_network names."))
]
cfg.CONF.register_opts(flat_opts, "ml2_type_flat")
class FlatAllocation(model_base.BASEV2):
"""Represent persistent allocation state of a physical network.
If a record exists for a physical network, then that physical
network has been allocated as a flat network.
"""
__tablename__ = 'ml2_flat_allocations'
physical_network = sa.Column(sa.String(64), nullable=False,
primary_key=True)
class FlatTypeDriver(helpers.BaseTypeDriver):
"""Manage state for flat networks with ML2.
The FlatTypeDriver implements the 'flat' network_type. Flat
network segments provide connectivity between VMs and other
devices using any connected IEEE 802.1D conformant
physical_network, without the use of VLAN tags, tunneling, or
other segmentation mechanisms. Therefore at most one flat network
segment can exist on each available physical_network.
"""
def __init__(self):
super(FlatTypeDriver, self).__init__()
self._parse_networks(cfg.CONF.ml2_type_flat.flat_networks)
#从conf文件中解析配置,保存到flat_networks中
def _parse_networks(self, entries):
self.flat_networks = entries
if '*' in self.flat_networks:
LOG.info(_LI("Arbitrary flat physical_network names allowed"))
self.flat_networks = None
elif not all(self.flat_networks):
msg = _("physical network name is empty")
raise exc.InvalidInput(error_message=msg)
else:
LOG.info(_LI("Allowable flat physical_network names: %s"),
self.flat_networks)
def get_type(self):
return p_const.TYPE_FLAT
def initialize(self):
LOG.info(_LI("ML2 FlatTypeDriver initialization complete"))
def is_partial_segment(self, segment):
return False
def validate_provider_segment(self, segment):
physical_network = segment.get(api.PHYSICAL_NETWORK)
if not physical_network:
msg = _("physical_network required for flat provider network")
raise exc.InvalidInput(error_message=msg)
if self.flat_networks and physical_network not in self.flat_networks:
msg = (_("physical_network '%s' unknown for flat provider network")
% physical_network)
raise exc.InvalidInput(error_message=msg)
for key, value in six.iteritems(segment):
if value and key not in [api.NETWORK_TYPE,
api.PHYSICAL_NETWORK]:
msg = _("%s prohibited for flat provider network") % key
raise exc.InvalidInput(error_message=msg)
def reserve_provider_segment(self, session, segment):
physical_network = segment[api.PHYSICAL_NETWORK]
with session.begin(subtransactions=True):
try:
LOG.debug("Reserving flat network on physical "
"network %s", physical_network)
alloc = FlatAllocation(physical_network=physical_network)
alloc.save(session)
except db_exc.DBDuplicateEntry:
raise exc.FlatNetworkInUse(
physical_network=physical_network)
segment[api.MTU] = self.get_mtu(alloc.physical_network)
return segment
def allocate_tenant_segment(self, session):
# Tenant flat networks are not supported.
return
def release_segment(self, session, segment):
physical_network = segment[api.PHYSICAL_NETWORK]
with session.begin(subtransactions=True):
count = (session.query(FlatAllocation).
filter_by(physical_network=physical_network).
delete())
if count:
LOG.debug("Releasing flat network on physical network %s",
physical_network)
else:
LOG.warning(_LW("No flat network found on physical network %s"),
physical_network)
def get_mtu(self, physical_network):
seg_mtu = super(FlatTypeDriver, self).get_mtu()
mtu = []
if seg_mtu > 0:
mtu.append(seg_mtu)
if physical_network in self.physnet_mtus:
mtu.append(int(self.physnet_mtus[physical_network]))
return min(mtu) if mtu else 0