393 lines
17 KiB
Python
393 lines
17 KiB
Python
# Copyright 2015 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 itertools
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import random
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import netaddr
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from neutron_lib import exceptions as n_exc
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from neutron_lib.plugins import directory
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from oslo_db import exception as db_exc
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from oslo_log import log
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from oslo_utils import uuidutils
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from neutron._i18n import _
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from neutron.ipam import driver as ipam_base
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from neutron.ipam.drivers.neutrondb_ipam import db_api as ipam_db_api
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from neutron.ipam import exceptions as ipam_exc
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from neutron.ipam import requests as ipam_req
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from neutron.ipam import subnet_alloc
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from neutron.ipam import utils as ipam_utils
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LOG = log.getLogger(__name__)
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MAX_WIN = 1000
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MULTIPLIER = 100
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MAX_WIN_MULTI = MAX_WIN * MULTIPLIER
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class NeutronDbSubnet(ipam_base.Subnet):
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"""Manage IP addresses for Neutron DB IPAM driver.
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This class implements the strategy for IP address allocation and
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deallocation for the Neutron DB IPAM driver.
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"""
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@classmethod
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def create_allocation_pools(cls, subnet_manager, context, pools, cidr):
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for pool in pools:
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# IPv6 addresses that start '::1', '::2', etc cause IP version
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# ambiguity when converted to integers by pool.first and pool.last.
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# Infer the IP version from the subnet cidr.
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ip_version = cidr.version
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subnet_manager.create_pool(
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context,
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netaddr.IPAddress(pool.first, ip_version).format(),
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netaddr.IPAddress(pool.last, ip_version).format())
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@classmethod
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def create_from_subnet_request(cls, subnet_request, ctx):
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ipam_subnet_id = uuidutils.generate_uuid()
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subnet_manager = ipam_db_api.IpamSubnetManager(
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ipam_subnet_id,
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subnet_request.subnet_id)
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# Create subnet resource
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subnet_manager.create(ctx)
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# If allocation pools are not specified, define them around
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# the subnet's gateway IP
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if not subnet_request.allocation_pools:
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pools = ipam_utils.generate_pools(subnet_request.subnet_cidr,
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subnet_request.gateway_ip)
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else:
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pools = subnet_request.allocation_pools
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# Create IPAM allocation pools
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cls.create_allocation_pools(subnet_manager, ctx, pools,
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subnet_request.subnet_cidr)
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return cls(ipam_subnet_id,
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ctx,
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cidr=subnet_request.subnet_cidr,
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allocation_pools=pools,
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gateway_ip=subnet_request.gateway_ip,
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tenant_id=subnet_request.tenant_id,
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subnet_id=subnet_request.subnet_id)
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@classmethod
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def load(cls, neutron_subnet_id, ctx):
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"""Load an IPAM subnet from the database given its neutron ID.
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:param neutron_subnet_id: neutron subnet identifier.
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"""
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ipam_subnet = ipam_db_api.IpamSubnetManager.load_by_neutron_subnet_id(
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ctx, neutron_subnet_id)
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if not ipam_subnet:
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LOG.error("IPAM subnet referenced to "
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"Neutron subnet %s does not exist", neutron_subnet_id)
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raise n_exc.SubnetNotFound(subnet_id=neutron_subnet_id)
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pools = []
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for pool in ipam_subnet.allocation_pools:
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pools.append(netaddr.IPRange(pool['first_ip'], pool['last_ip']))
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neutron_subnet_obj = cls._fetch_subnet(ctx, neutron_subnet_id)
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return cls(ipam_subnet['id'],
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ctx,
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cidr=neutron_subnet_obj.cidr,
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allocation_pools=pools,
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gateway_ip=neutron_subnet_obj.gateway_ip,
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tenant_id=neutron_subnet_obj.tenant_id,
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subnet_id=neutron_subnet_id)
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@classmethod
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def _fetch_subnet(cls, context, id):
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plugin = directory.get_plugin()
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return plugin._get_subnet_object(context, id)
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def __init__(self, internal_id, ctx, cidr=None,
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allocation_pools=None, gateway_ip=None, tenant_id=None,
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subnet_id=None):
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# NOTE: In theory it could have been possible to grant the IPAM
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# driver direct access to the database. While this is possible,
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# it would have led to duplicate code and/or non-trivial
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# refactorings in neutron.db.db_base_plugin_v2.
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# This is because in the Neutron V2 plugin logic DB management is
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# encapsulated within the plugin.
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self._cidr = cidr
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self._pools = allocation_pools
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self._gateway_ip = gateway_ip
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self._tenant_id = tenant_id
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self._subnet_id = subnet_id
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self.subnet_manager = ipam_db_api.IpamSubnetManager(internal_id,
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self._subnet_id)
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self._context = ctx
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def _verify_ip(self, context, ip_address):
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"""Verify whether IP address can be allocated on subnet.
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:param context: neutron api request context
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:param ip_address: String representing the IP address to verify
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:raises: InvalidInput, IpAddressAlreadyAllocated
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"""
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# Ensure that the IP's are unique
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if not self.subnet_manager.check_unique_allocation(context,
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ip_address):
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raise ipam_exc.IpAddressAlreadyAllocated(
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subnet_id=self.subnet_manager.neutron_id,
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ip=ip_address)
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# Ensure that the IP is valid on the subnet
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if not ipam_utils.check_subnet_ip(self._cidr, ip_address):
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raise ipam_exc.InvalidIpForSubnet(
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subnet_id=self.subnet_manager.neutron_id,
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ip=ip_address)
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def _generate_ip(self, context, prefer_next=False):
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"""Generate an IP address from the set of available addresses."""
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return self._generate_ips(context, prefer_next)[0]
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def _generate_ips(self, context, prefer_next=False, num_addresses=1):
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"""Generate a set of IPs from the set of available addresses."""
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allocated_ips = []
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requested_num_addresses = num_addresses
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allocations = self.subnet_manager.list_allocations(context)
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# It is better not to use 'netaddr.IPSet.add',
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# because _compact_single_network in 'IPSet.add'
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# is quite time consuming.
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ip_allocations = netaddr.IPSet(
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[netaddr.IPAddress(allocation.ip_address)
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for allocation in allocations])
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for ip_pool in self.subnet_manager.list_pools(context):
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ip_set = netaddr.IPSet()
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ip_set.add(netaddr.IPRange(ip_pool.first_ip, ip_pool.last_ip))
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av_set = ip_set.difference(ip_allocations)
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if av_set.size == 0:
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continue
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if av_set.size < requested_num_addresses:
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# All addresses of the address pool are allocated
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# for the first time and the remaining addresses
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# will be allocated in the next address pools.
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allocated_num_addresses = av_set.size
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else:
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# All expected addresses can be assigned in this loop.
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allocated_num_addresses = requested_num_addresses
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if prefer_next:
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allocated_ip_pool = list(itertools.islice(
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av_set, allocated_num_addresses))
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allocated_ips.extend([str(allocated_ip)
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for allocated_ip in allocated_ip_pool])
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requested_num_addresses -= allocated_num_addresses
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if requested_num_addresses:
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# More addresses need to be allocated in the next loop.
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continue
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return allocated_ips
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window = min(av_set.size, MAX_WIN)
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# NOTE(gryf): If there is more than one address, make the window
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# bigger, so that are chances to fulfill demanded amount of IPs.
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if allocated_num_addresses > 1:
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window = min(av_set.size,
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allocated_num_addresses * MULTIPLIER,
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MAX_WIN_MULTI)
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if window < allocated_num_addresses:
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continue
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# Maximize randomness by using the random module's built in
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# sampling function
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av_ips = list(itertools.islice(av_set, 0, window))
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allocated_ip_pool = random.sample(av_ips,
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allocated_num_addresses)
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allocated_ips.extend([str(allocated_ip)
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for allocated_ip in allocated_ip_pool])
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requested_num_addresses -= allocated_num_addresses
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if requested_num_addresses:
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# More addresses need to be allocated in the next loop.
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continue
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return allocated_ips
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raise ipam_exc.IpAddressGenerationFailure(
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subnet_id=self.subnet_manager.neutron_id)
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def allocate(self, address_request):
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# NOTE(pbondar): Ipam driver is always called in context of already
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# running transaction, which is started on create_port or upper level.
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# To be able to do rollback/retry actions correctly ipam driver
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# should not create new nested transaction blocks.
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# NOTE(salv-orlando): It would probably better to have a simpler
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# model for address requests and just check whether there is a
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# specific IP address specified in address_request
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if isinstance(address_request, ipam_req.SpecificAddressRequest):
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# This handles both specific and automatic address requests
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# Check availability of requested IP
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ip_address = str(address_request.address)
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self._verify_ip(self._context, ip_address)
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else:
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prefer_next = isinstance(address_request,
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ipam_req.PreferNextAddressRequest)
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ip_address = self._generate_ip(self._context, prefer_next)
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# Create IP allocation request object
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# The only defined status at this stage is 'ALLOCATED'.
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# More states will be available in the future - e.g.: RECYCLABLE
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try:
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# TODO(ataraday): revisit this after objects switched to
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# new enginefacade
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with self._context.session.begin(subtransactions=True):
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# NOTE(kevinbenton): we use a subtransaction to force
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# a flush here so we can capture DBReferenceErrors due
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# to concurrent subnet deletions. (galera would deadlock
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# later on final commit)
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self.subnet_manager.create_allocation(self._context,
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ip_address)
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except db_exc.DBReferenceError:
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raise n_exc.SubnetNotFound(
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subnet_id=self.subnet_manager.neutron_id)
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return ip_address
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def bulk_allocate(self, address_request):
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# The signature of this function differs from allocate only in that it
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# returns a list of addresses, as opposed to a single address.
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if not isinstance(address_request, ipam_req.BulkAddressRequest):
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return [self.allocate(address_request)]
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num_addrs = address_request.num_addresses
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allocated_ip_pool = self._generate_ips(self._context,
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False,
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num_addrs)
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# Create IP allocation request objects
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try:
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with self._context.session.begin(subtransactions=True):
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for ip_address in allocated_ip_pool:
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self.subnet_manager.create_allocation(self._context,
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ip_address)
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except db_exc.DBReferenceError:
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raise n_exc.SubnetNotFound(
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subnet_id=self.subnet_manager.neutron_id)
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return allocated_ip_pool
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def deallocate(self, address):
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# This is almost a no-op because the Neutron DB IPAM driver does not
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# delete IPAllocation objects at every deallocation. The only
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# operation it performs is to delete an IPRequest entry.
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count = self.subnet_manager.delete_allocation(
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self._context, address)
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# count can hardly be greater than 1, but it can be 0...
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if not count:
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raise ipam_exc.IpAddressAllocationNotFound(
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subnet_id=self.subnet_manager.neutron_id,
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ip_address=address)
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def _no_pool_changes(self, context, pools):
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"""Check if pool updates in db are required."""
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db_pools = self.subnet_manager.list_pools(context)
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iprange_pools = [netaddr.IPRange(pool.first_ip, pool.last_ip)
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for pool in db_pools]
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return pools == iprange_pools
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def update_allocation_pools(self, pools, cidr):
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# Pools have already been validated in the subnet request object which
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# was sent to the subnet pool driver. Further validation should not be
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# required.
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if self._no_pool_changes(self._context, pools):
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return
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self.subnet_manager.delete_allocation_pools(self._context)
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self.create_allocation_pools(self.subnet_manager, self._context, pools,
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cidr)
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self._pools = pools
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def get_details(self):
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"""Return subnet data as a SpecificSubnetRequest"""
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return ipam_req.SpecificSubnetRequest(
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self._tenant_id, self.subnet_manager.neutron_id,
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self._cidr, self._gateway_ip, self._pools)
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class NeutronDbPool(subnet_alloc.SubnetAllocator):
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"""Subnet pools backed by Neutron Database.
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As this driver does not implement yet the subnet pool concept, most
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operations are either trivial or no-ops.
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"""
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def get_subnet(self, subnet_id):
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"""Retrieve an IPAM subnet.
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:param subnet_id: Neutron subnet identifier
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:returns: a NeutronDbSubnet instance
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"""
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return NeutronDbSubnet.load(subnet_id, self._context)
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def allocate_subnet(self, subnet_request):
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"""Create an IPAMSubnet object for the provided cidr.
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This method does not actually do any operation in the driver, given
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its simplified nature.
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:param cidr: subnet's CIDR
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:returns: a NeutronDbSubnet instance
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"""
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if self._subnetpool:
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subnet = super(NeutronDbPool, self).allocate_subnet(subnet_request)
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subnet_request = subnet.get_details()
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# SubnetRequest must be an instance of SpecificSubnet
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if not isinstance(subnet_request, ipam_req.SpecificSubnetRequest):
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raise ipam_exc.InvalidSubnetRequestType(
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subnet_type=type(subnet_request))
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return NeutronDbSubnet.create_from_subnet_request(subnet_request,
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self._context)
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def update_subnet(self, subnet_request):
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"""Update subnet info the in the IPAM driver.
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The only update subnet information the driver needs to be aware of
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are allocation pools.
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"""
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if not subnet_request.subnet_id:
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raise ipam_exc.InvalidSubnetRequest(
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reason=_("An identifier must be specified when updating "
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"a subnet"))
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if subnet_request.allocation_pools is None:
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LOG.debug("Update subnet request for subnet %s did not specify "
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"new allocation pools, there is nothing to do",
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subnet_request.subnet_id)
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return
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subnet = NeutronDbSubnet.load(subnet_request.subnet_id, self._context)
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cidr = netaddr.IPNetwork(subnet._cidr)
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subnet.update_allocation_pools(subnet_request.allocation_pools, cidr)
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return subnet
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def remove_subnet(self, subnet_id):
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"""Remove data structures for a given subnet.
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IPAM-related data has no foreign key relationships to neutron subnet,
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so removing ipam subnet manually
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"""
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count = ipam_db_api.IpamSubnetManager.delete(self._context,
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subnet_id)
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if count < 1:
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LOG.error("IPAM subnet referenced to "
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"Neutron subnet %s does not exist", subnet_id)
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raise n_exc.SubnetNotFound(subnet_id=subnet_id)
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def needs_rollback(self):
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return False
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