vmware-nsx/quantum/db/models_v2.py
Nachi Ueno fcac32f04f Routing table configuration support on L3
Implements bp quantum-l3-routes

  -- Adding the extraroute extension
  -- Updating the routing table based on routes attribute on route
  -- Updated OVS plugin, linuxbridge plugin, metaplugin
     NEC plugin, Ryu plugin

  User can configure the routes through quantum client API by
  using the extension feature.
  sample
  quantum router-update <router_id> \
        --routes type=dict list=true destination=40.0.1.0/24,nexthop=10.1.0.10

Change-Id: I2a11486709e55d3143373858254febaabb93cfe8
2013-02-19 15:05:34 -08:00

163 lines
6.6 KiB
Python

# vim: tabstop=4 shiftwidth=4 softtabstop=4
# Copyright (c) 2012 OpenStack LLC.
# All Rights Reserved.
#
# 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.
import sqlalchemy as sa
from sqlalchemy import orm
from quantum.db import model_base
from quantum.openstack.common import uuidutils
class HasTenant(object):
"""Tenant mixin, add to subclasses that have a tenant."""
# NOTE(jkoelker) tenant_id is just a free form string ;(
tenant_id = sa.Column(sa.String(255))
class HasId(object):
"""id mixin, add to subclasses that have an id."""
id = sa.Column(sa.String(36),
primary_key=True,
default=uuidutils.generate_uuid)
class IPAvailabilityRange(model_base.BASEV2):
"""Internal representation of available IPs for Quantum subnets.
Allocation - first entry from the range will be allocated.
If the first entry is equal to the last entry then this row
will be deleted.
Recycling ips involves appending to existing ranges. This is
only done if the range is contiguous. If not, the first_ip will be
the same as the last_ip. When adjacent ips are recycled the ranges
will be merged.
"""
allocation_pool_id = sa.Column(sa.String(36),
sa.ForeignKey('ipallocationpools.id',
ondelete="CASCADE"),
nullable=False,
primary_key=True)
first_ip = sa.Column(sa.String(64), nullable=False, primary_key=True)
last_ip = sa.Column(sa.String(64), nullable=False, primary_key=True)
def __repr__(self):
return "%s - %s" % (self.first_ip, self.last_ip)
class IPAllocationPool(model_base.BASEV2, HasId):
"""Representation of an allocation pool in a Quantum subnet."""
subnet_id = sa.Column(sa.String(36), sa.ForeignKey('subnets.id',
ondelete="CASCADE"),
nullable=True)
first_ip = sa.Column(sa.String(64), nullable=False)
last_ip = sa.Column(sa.String(64), nullable=False)
available_ranges = orm.relationship(IPAvailabilityRange,
backref='ipallocationpool',
lazy="dynamic",
cascade='delete')
def __repr__(self):
return "%s - %s" % (self.first_ip, self.last_ip)
class IPAllocation(model_base.BASEV2):
"""Internal representation of allocated IP addresses in a Quantum subnet.
"""
port_id = sa.Column(sa.String(36), sa.ForeignKey('ports.id',
ondelete="CASCADE"),
nullable=True)
ip_address = sa.Column(sa.String(64), nullable=False, primary_key=True)
subnet_id = sa.Column(sa.String(36), sa.ForeignKey('subnets.id',
ondelete="CASCADE"),
nullable=False, primary_key=True)
network_id = sa.Column(sa.String(36), sa.ForeignKey("networks.id",
ondelete="CASCADE"),
nullable=False, primary_key=True)
expiration = sa.Column(sa.DateTime, nullable=True)
class Route(object):
"""mixin of a route."""
destination = sa.Column(sa.String(64), nullable=False, primary_key=True)
nexthop = sa.Column(sa.String(64), nullable=False, primary_key=True)
class SubnetRoute(model_base.BASEV2, Route):
subnet_id = sa.Column(sa.String(36),
sa.ForeignKey('subnets.id',
ondelete="CASCADE"),
primary_key=True)
class Port(model_base.BASEV2, HasId, HasTenant):
"""Represents a port on a quantum v2 network."""
name = sa.Column(sa.String(255))
network_id = sa.Column(sa.String(36), sa.ForeignKey("networks.id"),
nullable=False)
fixed_ips = orm.relationship(IPAllocation, backref='ports', lazy="dynamic")
mac_address = sa.Column(sa.String(32), nullable=False)
admin_state_up = sa.Column(sa.Boolean(), nullable=False)
status = sa.Column(sa.String(16), nullable=False)
device_id = sa.Column(sa.String(255), nullable=False)
device_owner = sa.Column(sa.String(255), nullable=False)
class DNSNameServer(model_base.BASEV2):
"""Internal representation of a DNS nameserver."""
address = sa.Column(sa.String(128), nullable=False, primary_key=True)
subnet_id = sa.Column(sa.String(36),
sa.ForeignKey('subnets.id',
ondelete="CASCADE"),
primary_key=True)
class Subnet(model_base.BASEV2, HasId, HasTenant):
"""Represents a quantum subnet.
When a subnet is created the first and last entries will be created. These
are used for the IP allocation.
"""
name = sa.Column(sa.String(255))
network_id = sa.Column(sa.String(36), sa.ForeignKey('networks.id'))
ip_version = sa.Column(sa.Integer, nullable=False)
cidr = sa.Column(sa.String(64), nullable=False)
gateway_ip = sa.Column(sa.String(64))
allocation_pools = orm.relationship(IPAllocationPool,
backref='subnet',
lazy="dynamic",
cascade='delete')
enable_dhcp = sa.Column(sa.Boolean())
dns_nameservers = orm.relationship(DNSNameServer,
backref='subnet',
cascade='delete')
routes = orm.relationship(SubnetRoute,
backref='subnet',
cascade='delete')
shared = sa.Column(sa.Boolean)
class Network(model_base.BASEV2, HasId, HasTenant):
"""Represents a v2 quantum network."""
name = sa.Column(sa.String(255))
ports = orm.relationship(Port, backref='networks')
subnets = orm.relationship(Subnet, backref='networks')
status = sa.Column(sa.String(16))
admin_state_up = sa.Column(sa.Boolean)
shared = sa.Column(sa.Boolean)