vmware-nsx/quantum/db/db_base_plugin_v2.py
Aaron Rosen 6c510bce81 Change lazy='dynamic' to 'joined' in models_v2
Previously several models were defined with lazy='dynamic'. This would
then cause Ports.fixed_ips (or w/e was specified as dynamic) to be defined
as a AppenderQuery object and when accessed would query for the result.
Therefore in get_ports() for example, when fixed_ips was accessed
in _make_port_dict() we would be issuing an addition query to the database
to lookup the fixed_ips information.

This patch changes update_port/subnet() so that it keeps track of what
changed so it does not have to query the db for values it should already
know about.

This patch also adds a unit test for update_subnet() adding host routes
where there was missing code coverage.

Implements blueprint improve-db-performance

Change-Id: I0b2214604042a1fd362cbbf3fd70e31adf0ce279
2013-06-08 18:59:35 -07:00

1493 lines
66 KiB
Python

# vim: tabstop=4 shiftwidth=4 softtabstop=4
# Copyright (c) 2012 OpenStack Foundation.
# 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 datetime
import random
import netaddr
from oslo.config import cfg
from sqlalchemy import orm
from sqlalchemy.orm import exc
from quantum.api.v2 import attributes
from quantum.common import constants
from quantum.common import exceptions as q_exc
from quantum.db import api as db
from quantum.db import models_v2
from quantum.db import sqlalchemyutils
from quantum.openstack.common import log as logging
from quantum.openstack.common import timeutils
from quantum.openstack.common import uuidutils
from quantum import quantum_plugin_base_v2
LOG = logging.getLogger(__name__)
AGENT_OWNER_PREFIX = 'network:'
# Ports with the following 'device_owner' values will not prevent
# network deletion. If delete_network() finds that all ports on a
# network have these owners, it will explicitly delete each port
# and allow network deletion to continue. Similarly, if delete_subnet()
# finds out that all existing IP Allocations are associated with ports
# with these owners, it will allow subnet deletion to proceed with the
# IP allocations being cleaned up by cascade.
AUTO_DELETE_PORT_OWNERS = ['network:dhcp']
class CommonDbMixin(object):
"""Common methods used in core and service plugins."""
# Plugins, mixin classes implementing extension will register
# hooks into the dict below for "augmenting" the "core way" of
# building a query for retrieving objects from a model class.
# To this aim, the register_model_query_hook and unregister_query_hook
# from this class should be invoked
_model_query_hooks = {}
@classmethod
def register_model_query_hook(cls, model, name, query_hook, filter_hook,
result_filters=None):
"""Register a hook to be invoked when a query is executed.
Add the hooks to the _model_query_hooks dict. Models are the keys
of this dict, whereas the value is another dict mapping hook names to
callables performing the hook.
Each hook has a "query" component, used to build the query expression
and a "filter" component, which is used to build the filter expression.
Query hooks take as input the query being built and return a
transformed query expression.
Filter hooks take as input the filter expression being built and return
a transformed filter expression
"""
model_hooks = cls._model_query_hooks.get(model)
if not model_hooks:
# add key to dict
model_hooks = {}
cls._model_query_hooks[model] = model_hooks
model_hooks[name] = {'query': query_hook, 'filter': filter_hook,
'result_filters': result_filters}
def _model_query(self, context, model):
query = context.session.query(model)
# define basic filter condition for model query
# NOTE(jkoelker) non-admin queries are scoped to their tenant_id
# NOTE(salvatore-orlando): unless the model allows for shared objects
query_filter = None
if not context.is_admin and hasattr(model, 'tenant_id'):
if hasattr(model, 'shared'):
query_filter = ((model.tenant_id == context.tenant_id) |
(model.shared == True))
else:
query_filter = (model.tenant_id == context.tenant_id)
# Execute query hooks registered from mixins and plugins
for _name, hooks in self._model_query_hooks.get(model,
{}).iteritems():
query_hook = hooks.get('query')
filter_hook = hooks.get('filter')
if query_hook:
query = query_hook(self, context, model, query)
if filter_hook:
query_filter = filter_hook(self, context, model, query_filter)
# NOTE(salvatore-orlando): 'if query_filter' will try to evaluate the
# condition, raising an exception
if query_filter is not None:
query = query.filter(query_filter)
return query
def _fields(self, resource, fields):
if fields:
return dict(((key, item) for key, item in resource.items()
if key in fields))
return resource
def _get_tenant_id_for_create(self, context, resource):
if context.is_admin and 'tenant_id' in resource:
tenant_id = resource['tenant_id']
elif ('tenant_id' in resource and
resource['tenant_id'] != context.tenant_id):
reason = _('Cannot create resource for another tenant')
raise q_exc.AdminRequired(reason=reason)
else:
tenant_id = context.tenant_id
return tenant_id
def _get_by_id(self, context, model, id):
query = self._model_query(context, model)
return query.filter(model.id == id).one()
def _apply_filters_to_query(self, query, model, filters):
if filters:
for key, value in filters.iteritems():
column = getattr(model, key, None)
if column:
query = query.filter(column.in_(value))
for _name, hooks in self._model_query_hooks.get(model,
{}).iteritems():
result_filter = hooks.get('result_filters', None)
if result_filter:
query = result_filter(self, query, filters)
return query
def _get_collection_query(self, context, model, filters=None,
sorts=None, limit=None, marker_obj=None,
page_reverse=False):
collection = self._model_query(context, model)
collection = self._apply_filters_to_query(collection, model, filters)
if limit and page_reverse and sorts:
sorts = [(s[0], not s[1]) for s in sorts]
collection = sqlalchemyutils.paginate_query(collection, model, limit,
sorts,
marker_obj=marker_obj)
return collection
def _get_collection(self, context, model, dict_func, filters=None,
fields=None, sorts=None, limit=None, marker_obj=None,
page_reverse=False):
query = self._get_collection_query(context, model, filters=filters,
sorts=sorts,
limit=limit,
marker_obj=marker_obj,
page_reverse=page_reverse)
items = [dict_func(c, fields) for c in query]
if limit and page_reverse:
items.reverse()
return items
def _get_collection_count(self, context, model, filters=None):
return self._get_collection_query(context, model, filters).count()
class QuantumDbPluginV2(quantum_plugin_base_v2.QuantumPluginBaseV2,
CommonDbMixin):
"""V2 Quantum plugin interface implementation using SQLAlchemy models.
Whenever a non-read call happens the plugin will call an event handler
class method (e.g., network_created()). The result is that this class
can be sub-classed by other classes that add custom behaviors on certain
events.
"""
# This attribute specifies whether the plugin supports or not
# bulk/pagination/sorting operations. Name mangling is used in
# order to ensure it is qualified by class
__native_bulk_support = True
__native_pagination_support = True
__native_sorting_support = True
# This dictionary will store methods for extending attributes of
# api resources. Mixins can use this dict for adding their own methods
# TODO(salvatore-orlando): Avoid using class-level variables
_dict_extend_functions = {}
def __init__(self):
# NOTE(jkoelker) This is an incomlete implementation. Subclasses
# must override __init__ and setup the database
# and not call into this class's __init__.
# This connection is setup as memory for the tests.
db.configure_db()
@classmethod
def register_dict_extend_funcs(cls, resource, funcs):
cur_funcs = cls._dict_extend_functions.get(resource, [])
cur_funcs.extend(funcs)
cls._dict_extend_functions[resource] = cur_funcs
def _filter_non_model_columns(self, data, model):
"""Remove all the attributes from data which are not columns of
the model passed as second parameter.
"""
columns = [c.name for c in model.__table__.columns]
return dict((k, v) for (k, v) in
data.iteritems() if k in columns)
def _get_network(self, context, id):
try:
network = self._get_by_id(context, models_v2.Network, id)
except exc.NoResultFound:
raise q_exc.NetworkNotFound(net_id=id)
return network
def _get_subnet(self, context, id):
try:
subnet = self._get_by_id(context, models_v2.Subnet, id)
except exc.NoResultFound:
raise q_exc.SubnetNotFound(subnet_id=id)
return subnet
def _get_port(self, context, id):
try:
port = self._get_by_id(context, models_v2.Port, id)
except exc.NoResultFound:
# NOTE(jkoelker) The PortNotFound exceptions requires net_id
# kwarg in order to set the message correctly
raise q_exc.PortNotFound(port_id=id, net_id=None)
return port
def _get_dns_by_subnet(self, context, subnet_id):
dns_qry = context.session.query(models_v2.DNSNameServer)
return dns_qry.filter_by(subnet_id=subnet_id).all()
def _get_route_by_subnet(self, context, subnet_id):
route_qry = context.session.query(models_v2.SubnetRoute)
return route_qry.filter_by(subnet_id=subnet_id).all()
def _get_subnets_by_network(self, context, network_id):
subnet_qry = context.session.query(models_v2.Subnet)
return subnet_qry.filter_by(network_id=network_id).all()
def _get_all_subnets(self, context):
# NOTE(salvatore-orlando): This query might end up putting
# a lot of stress on the db. Consider adding a cache layer
return context.session.query(models_v2.Subnet).all()
@staticmethod
def _generate_mac(context, network_id):
base_mac = cfg.CONF.base_mac.split(':')
max_retries = cfg.CONF.mac_generation_retries
for i in range(max_retries):
mac = [int(base_mac[0], 16), int(base_mac[1], 16),
int(base_mac[2], 16), random.randint(0x00, 0xff),
random.randint(0x00, 0xff), random.randint(0x00, 0xff)]
if base_mac[3] != '00':
mac[3] = int(base_mac[3], 16)
mac_address = ':'.join(map(lambda x: "%02x" % x, mac))
if QuantumDbPluginV2._check_unique_mac(context, network_id,
mac_address):
LOG.debug(_("Generated mac for network %(network_id)s "
"is %(mac_address)s"),
{'network_id': network_id,
'mac_address': mac_address})
return mac_address
else:
LOG.debug(_("Generated mac %(mac_address)s exists. Remaining "
"attempts %(max_retries)s."),
{'mac_address': mac_address,
'max_retries': max_retries - (i + 1)})
LOG.error(_("Unable to generate mac address after %s attempts"),
max_retries)
raise q_exc.MacAddressGenerationFailure(net_id=network_id)
@staticmethod
def _check_unique_mac(context, network_id, mac_address):
mac_qry = context.session.query(models_v2.Port)
try:
mac_qry.filter_by(network_id=network_id,
mac_address=mac_address).one()
except exc.NoResultFound:
return True
return False
@staticmethod
def _hold_ip(context, network_id, subnet_id, port_id, ip_address):
alloc_qry = context.session.query(
models_v2.IPAllocation).with_lockmode('update')
allocated = alloc_qry.filter_by(network_id=network_id,
port_id=port_id,
ip_address=ip_address,
subnet_id=subnet_id).one()
if not allocated:
return
if allocated.expiration < timeutils.utcnow():
# immediately delete expired allocations
QuantumDbPluginV2._recycle_ip(
context, network_id, subnet_id, ip_address)
else:
LOG.debug(_("Hold allocated IP %(ip_address)s "
"(%(network_id)s/%(subnet_id)s/%(port_id)s)"),
{'ip_address': ip_address,
'network_id': network_id,
'subnet_id': subnet_id,
'port_id': port_id})
allocated.port_id = None
@staticmethod
def _recycle_expired_ip_allocations(context, network_id):
"""Return held ip allocations with expired leases back to the pool."""
if network_id in getattr(context, '_recycled_networks', set()):
return
expired_qry = context.session.query(
models_v2.IPAllocation).with_lockmode('update')
expired_qry = expired_qry.filter_by(network_id=network_id,
port_id=None)
expired_qry = expired_qry.filter(
models_v2.IPAllocation.expiration <= timeutils.utcnow())
for expired in expired_qry:
QuantumDbPluginV2._recycle_ip(context,
network_id,
expired['subnet_id'],
expired['ip_address'])
if hasattr(context, '_recycled_networks'):
context._recycled_networks.add(network_id)
else:
context._recycled_networks = set([network_id])
@staticmethod
def _recycle_ip(context, network_id, subnet_id, ip_address):
"""Return an IP address to the pool of free IP's on the network
subnet.
"""
# Grab all allocation pools for the subnet
pool_qry = context.session.query(
models_v2.IPAllocationPool).with_lockmode('update')
allocation_pools = pool_qry.filter_by(subnet_id=subnet_id)
# Find the allocation pool for the IP to recycle
pool_id = None
for allocation_pool in allocation_pools:
allocation_pool_range = netaddr.IPRange(
allocation_pool['first_ip'],
allocation_pool['last_ip'])
if netaddr.IPAddress(ip_address) in allocation_pool_range:
pool_id = allocation_pool['id']
break
if not pool_id:
error_message = _("No allocation pool found for "
"ip address:%s") % ip_address
raise q_exc.InvalidInput(error_message=error_message)
# Two requests will be done on the database. The first will be to
# search if an entry starts with ip_address + 1 (r1). The second
# will be to see if an entry ends with ip_address -1 (r2).
# If 1 of the above holds true then the specific entry will be
# modified. If both hold true then the two ranges will be merged.
# If there are no entries then a single entry will be added.
range_qry = context.session.query(
models_v2.IPAvailabilityRange).with_lockmode('update')
ip_first = str(netaddr.IPAddress(ip_address) + 1)
ip_last = str(netaddr.IPAddress(ip_address) - 1)
LOG.debug(_("Recycle %s"), ip_address)
try:
r1 = range_qry.filter_by(allocation_pool_id=pool_id,
first_ip=ip_first).one()
LOG.debug(_("Recycle: first match for %(first_ip)s-%(last_ip)s"),
{'first_ip': r1['first_ip'], 'last_ip': r1['last_ip']})
except exc.NoResultFound:
r1 = []
try:
r2 = range_qry.filter_by(allocation_pool_id=pool_id,
last_ip=ip_last).one()
LOG.debug(_("Recycle: last match for %(first_ip)s-%(last_ip)s"),
{'first_ip': r2['first_ip'], 'last_ip': r2['last_ip']})
except exc.NoResultFound:
r2 = []
if r1 and r2:
# Merge the two ranges
ip_range = models_v2.IPAvailabilityRange(
allocation_pool_id=pool_id,
first_ip=r2['first_ip'],
last_ip=r1['last_ip'])
context.session.add(ip_range)
LOG.debug(_("Recycle: merged %(first_ip1)s-%(last_ip1)s and "
"%(first_ip2)s-%(last_ip2)s"),
{'first_ip1': r2['first_ip'], 'last_ip1': r2['last_ip'],
'first_ip2': r1['first_ip'], 'last_ip2': r1['last_ip']})
context.session.delete(r1)
context.session.delete(r2)
elif r1:
# Update the range with matched first IP
r1['first_ip'] = ip_address
LOG.debug(_("Recycle: updated first %(first_ip)s-%(last_ip)s"),
{'first_ip': r1['first_ip'], 'last_ip': r1['last_ip']})
elif r2:
# Update the range with matched last IP
r2['last_ip'] = ip_address
LOG.debug(_("Recycle: updated last %(first_ip)s-%(last_ip)s"),
{'first_ip': r2['first_ip'], 'last_ip': r2['last_ip']})
else:
# Create a new range
ip_range = models_v2.IPAvailabilityRange(
allocation_pool_id=pool_id,
first_ip=ip_address,
last_ip=ip_address)
context.session.add(ip_range)
LOG.debug(_("Recycle: created new %(first_ip)s-%(last_ip)s"),
{'first_ip': ip_address, 'last_ip': ip_address})
QuantumDbPluginV2._delete_ip_allocation(context, network_id, subnet_id,
ip_address)
@staticmethod
def _default_allocation_expiration():
return (timeutils.utcnow() +
datetime.timedelta(seconds=cfg.CONF.dhcp_lease_duration))
def update_fixed_ip_lease_expiration(self, context, network_id,
ip_address, lease_remaining):
expiration = (timeutils.utcnow() +
datetime.timedelta(seconds=lease_remaining))
query = context.session.query(models_v2.IPAllocation)
query = query.filter_by(network_id=network_id, ip_address=ip_address)
try:
with context.session.begin(subtransactions=True):
fixed_ip = query.one()
fixed_ip.expiration = expiration
except exc.NoResultFound:
LOG.debug(_("No fixed IP found that matches the network "
"%(network_id)s and ip address %(ip_address)s."),
{'network_id': network_id,
'ip_address': ip_address})
@staticmethod
def _delete_ip_allocation(context, network_id, subnet_id, ip_address):
# Delete the IP address from the IPAllocate table
LOG.debug(_("Delete allocated IP %(ip_address)s "
"(%(network_id)s/%(subnet_id)s)"),
{'ip_address': ip_address,
'network_id': network_id,
'subnet_id': subnet_id})
alloc_qry = context.session.query(
models_v2.IPAllocation).with_lockmode('update')
alloc_qry.filter_by(network_id=network_id,
ip_address=ip_address,
subnet_id=subnet_id).delete()
@staticmethod
def _generate_ip(context, subnets):
"""Generate an IP address.
The IP address will be generated from one of the subnets defined on
the network.
"""
range_qry = context.session.query(
models_v2.IPAvailabilityRange).join(
models_v2.IPAllocationPool).with_lockmode('update')
for subnet in subnets:
range = range_qry.filter_by(subnet_id=subnet['id']).first()
if not range:
LOG.debug(_("All IP's from subnet %(subnet_id)s (%(cidr)s) "
"allocated"),
{'subnet_id': subnet['id'], 'cidr': subnet['cidr']})
continue
ip_address = range['first_ip']
LOG.debug(_("Allocated IP - %(ip_address)s from %(first_ip)s "
"to %(last_ip)s"),
{'ip_address': ip_address,
'first_ip': range['first_ip'],
'last_ip': range['last_ip']})
if range['first_ip'] == range['last_ip']:
# No more free indices on subnet => delete
LOG.debug(_("No more free IP's in slice. Deleting allocation "
"pool."))
context.session.delete(range)
else:
# increment the first free
range['first_ip'] = str(netaddr.IPAddress(ip_address) + 1)
return {'ip_address': ip_address, 'subnet_id': subnet['id']}
raise q_exc.IpAddressGenerationFailure(net_id=subnets[0]['network_id'])
@staticmethod
def _allocate_specific_ip(context, subnet_id, ip_address):
"""Allocate a specific IP address on the subnet."""
ip = int(netaddr.IPAddress(ip_address))
range_qry = context.session.query(
models_v2.IPAvailabilityRange,
models_v2.IPAllocationPool).join(
models_v2.IPAllocationPool).with_lockmode('update')
results = range_qry.filter_by(subnet_id=subnet_id)
for (range, pool) in results:
first = int(netaddr.IPAddress(range['first_ip']))
last = int(netaddr.IPAddress(range['last_ip']))
if first <= ip <= last:
if first == last:
context.session.delete(range)
return
elif first == ip:
range['first_ip'] = str(netaddr.IPAddress(ip_address) + 1)
return
elif last == ip:
range['last_ip'] = str(netaddr.IPAddress(ip_address) - 1)
return
else:
# Split into two ranges
new_first = str(netaddr.IPAddress(ip_address) + 1)
new_last = range['last_ip']
range['last_ip'] = str(netaddr.IPAddress(ip_address) - 1)
ip_range = models_v2.IPAvailabilityRange(
allocation_pool_id=pool['id'],
first_ip=new_first,
last_ip=new_last)
context.session.add(ip_range)
return
@staticmethod
def _check_unique_ip(context, network_id, subnet_id, ip_address):
"""Validate that the IP address on the subnet is not in use."""
ip_qry = context.session.query(models_v2.IPAllocation)
try:
ip_qry.filter_by(network_id=network_id,
subnet_id=subnet_id,
ip_address=ip_address).one()
except exc.NoResultFound:
return True
return False
@staticmethod
def _check_subnet_ip(cidr, ip_address):
"""Validate that the IP address is on the subnet."""
ip = netaddr.IPAddress(ip_address)
net = netaddr.IPNetwork(cidr)
# Check that the IP is valid on subnet. This cannot be the
# network or the broadcast address
if (ip != net.network and
ip != net.broadcast and
net.netmask & ip == net.ip):
return True
return False
@staticmethod
def _check_ip_in_allocation_pool(context, subnet_id, gateway_ip,
ip_address):
"""Validate IP in allocation pool.
Validates that the IP address is either the default gateway or
in the allocation pools of the subnet.
"""
# Check if the IP is the gateway
if ip_address == gateway_ip:
# Gateway is not in allocation pool
return False
# Check if the requested IP is in a defined allocation pool
pool_qry = context.session.query(models_v2.IPAllocationPool)
allocation_pools = pool_qry.filter_by(subnet_id=subnet_id)
ip = netaddr.IPAddress(ip_address)
for allocation_pool in allocation_pools:
allocation_pool_range = netaddr.IPRange(
allocation_pool['first_ip'],
allocation_pool['last_ip'])
if ip in allocation_pool_range:
return True
return False
def _test_fixed_ips_for_port(self, context, network_id, fixed_ips):
"""Test fixed IPs for port.
Check that configured subnets are valid prior to allocating any
IPs. Include the subnet_id in the result if only an IP address is
configured.
:raises: InvalidInput, IpAddressInUse
"""
fixed_ip_set = []
for fixed in fixed_ips:
found = False
if 'subnet_id' not in fixed:
if 'ip_address' not in fixed:
msg = _('IP allocation requires subnet_id or ip_address')
raise q_exc.InvalidInput(error_message=msg)
filter = {'network_id': [network_id]}
subnets = self.get_subnets(context, filters=filter)
for subnet in subnets:
if QuantumDbPluginV2._check_subnet_ip(subnet['cidr'],
fixed['ip_address']):
found = True
subnet_id = subnet['id']
break
if not found:
msg = _('IP address %s is not a valid IP for the defined '
'networks subnets') % fixed['ip_address']
raise q_exc.InvalidInput(error_message=msg)
else:
subnet = self._get_subnet(context, fixed['subnet_id'])
if subnet['network_id'] != network_id:
msg = (_("Failed to create port on network %(network_id)s"
", because fixed_ips included invalid subnet "
"%(subnet_id)s") %
{'network_id': network_id,
'subnet_id': fixed['subnet_id']})
raise q_exc.InvalidInput(error_message=msg)
subnet_id = subnet['id']
if 'ip_address' in fixed:
# Ensure that the IP's are unique
if not QuantumDbPluginV2._check_unique_ip(context, network_id,
subnet_id,
fixed['ip_address']):
raise q_exc.IpAddressInUse(net_id=network_id,
ip_address=fixed['ip_address'])
# Ensure that the IP is valid on the subnet
if (not found and
not QuantumDbPluginV2._check_subnet_ip(
subnet['cidr'], fixed['ip_address'])):
msg = _('IP address %s is not a valid IP for the defined '
'subnet') % fixed['ip_address']
raise q_exc.InvalidInput(error_message=msg)
fixed_ip_set.append({'subnet_id': subnet_id,
'ip_address': fixed['ip_address']})
else:
fixed_ip_set.append({'subnet_id': subnet_id})
if len(fixed_ip_set) > cfg.CONF.max_fixed_ips_per_port:
msg = _('Exceeded maximim amount of fixed ips per port')
raise q_exc.InvalidInput(error_message=msg)
return fixed_ip_set
def _allocate_fixed_ips(self, context, network, fixed_ips):
"""Allocate IP addresses according to the configured fixed_ips."""
ips = []
for fixed in fixed_ips:
if 'ip_address' in fixed:
# Remove the IP address from the allocation pool
QuantumDbPluginV2._allocate_specific_ip(
context, fixed['subnet_id'], fixed['ip_address'])
ips.append({'ip_address': fixed['ip_address'],
'subnet_id': fixed['subnet_id']})
# Only subnet ID is specified => need to generate IP
# from subnet
else:
subnets = [self._get_subnet(context, fixed['subnet_id'])]
# IP address allocation
result = self._generate_ip(context, subnets)
ips.append({'ip_address': result['ip_address'],
'subnet_id': result['subnet_id']})
return ips
def _update_ips_for_port(self, context, network_id, port_id, original_ips,
new_ips):
"""Add or remove IPs from the port."""
ips = []
# These ips are still on the port and haven't been removed
prev_ips = []
# the new_ips contain all of the fixed_ips that are to be updated
if len(new_ips) > cfg.CONF.max_fixed_ips_per_port:
msg = _('Exceeded maximim amount of fixed ips per port')
raise q_exc.InvalidInput(error_message=msg)
# Remove all of the intersecting elements
for original_ip in original_ips[:]:
for new_ip in new_ips[:]:
if ('ip_address' in new_ip and
original_ip['ip_address'] == new_ip['ip_address']):
original_ips.remove(original_ip)
new_ips.remove(new_ip)
prev_ips.append(original_ip)
# Check if the IP's to add are OK
to_add = self._test_fixed_ips_for_port(context, network_id, new_ips)
for ip in original_ips:
LOG.debug(_("Port update. Hold %s"), ip)
QuantumDbPluginV2._hold_ip(context,
network_id,
ip['subnet_id'],
port_id,
ip['ip_address'])
if to_add:
LOG.debug(_("Port update. Adding %s"), to_add)
network = self._get_network(context, network_id)
ips = self._allocate_fixed_ips(context, network, to_add)
return ips, prev_ips
def _allocate_ips_for_port(self, context, network, port):
"""Allocate IP addresses for the port.
If port['fixed_ips'] is set to 'ATTR_NOT_SPECIFIED', allocate IP
addresses for the port. If port['fixed_ips'] contains an IP address or
a subnet_id then allocate an IP address accordingly.
"""
p = port['port']
ips = []
fixed_configured = p['fixed_ips'] is not attributes.ATTR_NOT_SPECIFIED
if fixed_configured:
configured_ips = self._test_fixed_ips_for_port(context,
p["network_id"],
p['fixed_ips'])
ips = self._allocate_fixed_ips(context, network, configured_ips)
else:
filter = {'network_id': [p['network_id']]}
subnets = self.get_subnets(context, filters=filter)
# Split into v4 and v6 subnets
v4 = []
v6 = []
for subnet in subnets:
if subnet['ip_version'] == 4:
v4.append(subnet)
else:
v6.append(subnet)
version_subnets = [v4, v6]
for subnets in version_subnets:
if subnets:
result = QuantumDbPluginV2._generate_ip(context, subnets)
ips.append({'ip_address': result['ip_address'],
'subnet_id': result['subnet_id']})
return ips
def _validate_subnet_cidr(self, context, network, new_subnet_cidr):
"""Validate the CIDR for a subnet.
Verifies the specified CIDR does not overlap with the ones defined
for the other subnets specified for this network, or with any other
CIDR if overlapping IPs are disabled.
"""
new_subnet_ipset = netaddr.IPSet([new_subnet_cidr])
if cfg.CONF.allow_overlapping_ips:
subnet_list = network.subnets
else:
subnet_list = self._get_all_subnets(context)
for subnet in subnet_list:
if (netaddr.IPSet([subnet.cidr]) & new_subnet_ipset):
# don't give out details of the overlapping subnet
err_msg = (_("Requested subnet with cidr: %(cidr)s for "
"network: %(network_id)s overlaps with another "
"subnet") %
{'cidr': new_subnet_cidr,
'network_id': network.id})
LOG.error(_("Validation for CIDR: %(new_cidr)s failed - "
"overlaps with subnet %(subnet_id)s "
"(CIDR: %(cidr)s)"),
{'new_cidr': new_subnet_cidr,
'subnet_id': subnet.id,
'cidr': subnet.cidr})
raise q_exc.InvalidInput(error_message=err_msg)
def _validate_allocation_pools(self, ip_pools, subnet_cidr):
"""Validate IP allocation pools.
Verify start and end address for each allocation pool are valid,
ie: constituted by valid and appropriately ordered IP addresses.
Also, verify pools do not overlap among themselves.
Finally, verify that each range fall within the subnet's CIDR.
"""
subnet = netaddr.IPNetwork(subnet_cidr)
subnet_first_ip = netaddr.IPAddress(subnet.first + 1)
subnet_last_ip = netaddr.IPAddress(subnet.last - 1)
LOG.debug(_("Performing IP validity checks on allocation pools"))
ip_sets = []
for ip_pool in ip_pools:
try:
start_ip = netaddr.IPAddress(ip_pool['start'])
end_ip = netaddr.IPAddress(ip_pool['end'])
except netaddr.AddrFormatError:
LOG.error(_("Found invalid IP address in pool: "
"%(start)s - %(end)s:"),
{'start': ip_pool['start'],
'end': ip_pool['end']})
raise q_exc.InvalidAllocationPool(pool=ip_pool)
if (start_ip.version != subnet.version or
end_ip.version != subnet.version):
LOG.error(_("Specified IP addresses do not match "
"the subnet IP version"))
raise q_exc.InvalidAllocationPool(pool=ip_pool)
if end_ip < start_ip:
LOG.error(_("Start IP (%(start)s) is greater than end IP "
"(%(end)s)"),
{'start': ip_pool['start'], 'end': ip_pool['end']})
raise q_exc.InvalidAllocationPool(pool=ip_pool)
if start_ip < subnet_first_ip or end_ip > subnet_last_ip:
LOG.error(_("Found pool larger than subnet "
"CIDR:%(start)s - %(end)s"),
{'start': ip_pool['start'],
'end': ip_pool['end']})
raise q_exc.OutOfBoundsAllocationPool(
pool=ip_pool,
subnet_cidr=subnet_cidr)
# Valid allocation pool
# Create an IPSet for it for easily verifying overlaps
ip_sets.append(netaddr.IPSet(netaddr.IPRange(
ip_pool['start'],
ip_pool['end']).cidrs()))
LOG.debug(_("Checking for overlaps among allocation pools "
"and gateway ip"))
ip_ranges = ip_pools[:]
# Use integer cursors as an efficient way for implementing
# comparison and avoiding comparing the same pair twice
for l_cursor in range(len(ip_sets)):
for r_cursor in range(l_cursor + 1, len(ip_sets)):
if ip_sets[l_cursor] & ip_sets[r_cursor]:
l_range = ip_ranges[l_cursor]
r_range = ip_ranges[r_cursor]
LOG.error(_("Found overlapping ranges: %(l_range)s and "
"%(r_range)s"),
{'l_range': l_range, 'r_range': r_range})
raise q_exc.OverlappingAllocationPools(
pool_1=l_range,
pool_2=r_range,
subnet_cidr=subnet_cidr)
def _validate_host_route(self, route, ip_version):
try:
netaddr.IPNetwork(route['destination'])
netaddr.IPAddress(route['nexthop'])
except netaddr.core.AddrFormatError:
err_msg = _("Invalid route: %s") % route
raise q_exc.InvalidInput(error_message=err_msg)
except ValueError:
# netaddr.IPAddress would raise this
err_msg = _("Invalid route: %s") % route
raise q_exc.InvalidInput(error_message=err_msg)
self._validate_ip_version(ip_version, route['nexthop'], 'nexthop')
self._validate_ip_version(ip_version, route['destination'],
'destination')
def _allocate_pools_for_subnet(self, context, subnet):
"""Create IP allocation pools for a given subnet
Pools are defined by the 'allocation_pools' attribute,
a list of dict objects with 'start' and 'end' keys for
defining the pool range.
"""
pools = []
# Auto allocate the pool around gateway_ip
net = netaddr.IPNetwork(subnet['cidr'])
first_ip = net.first + 1
last_ip = net.last - 1
gw_ip = int(netaddr.IPAddress(subnet['gateway_ip'] or net.last))
# Use the gw_ip to find a point for splitting allocation pools
# for this subnet
split_ip = min(max(gw_ip, net.first), net.last)
if split_ip > first_ip:
pools.append({'start': str(netaddr.IPAddress(first_ip)),
'end': str(netaddr.IPAddress(split_ip - 1))})
if split_ip < last_ip:
pools.append({'start': str(netaddr.IPAddress(split_ip + 1)),
'end': str(netaddr.IPAddress(last_ip))})
# return auto-generated pools
# no need to check for their validity
return pools
def _validate_shared_update(self, context, id, original, updated):
# The only case that needs to be validated is when 'shared'
# goes from True to False
if updated['shared'] == original.shared or updated['shared']:
return
ports = self._model_query(
context, models_v2.Port).filter(
models_v2.Port.network_id == id)
subnets = self._model_query(
context, models_v2.Subnet).filter(
models_v2.Subnet.network_id == id)
tenant_ids = set([port['tenant_id'] for port in ports] +
[subnet['tenant_id'] for subnet in subnets])
# raise if multiple tenants found or if the only tenant found
# is not the owner of the network
if (len(tenant_ids) > 1 or len(tenant_ids) == 1 and
tenant_ids.pop() != original.tenant_id):
raise q_exc.InvalidSharedSetting(network=original.name)
def _make_network_dict(self, network, fields=None):
res = {'id': network['id'],
'name': network['name'],
'tenant_id': network['tenant_id'],
'admin_state_up': network['admin_state_up'],
'status': network['status'],
'shared': network['shared'],
'subnets': [subnet['id']
for subnet in network['subnets']]}
return self._fields(res, fields)
def _make_subnet_dict(self, subnet, fields=None):
res = {'id': subnet['id'],
'name': subnet['name'],
'tenant_id': subnet['tenant_id'],
'network_id': subnet['network_id'],
'ip_version': subnet['ip_version'],
'cidr': subnet['cidr'],
'allocation_pools': [{'start': pool['first_ip'],
'end': pool['last_ip']}
for pool in subnet['allocation_pools']],
'gateway_ip': subnet['gateway_ip'],
'enable_dhcp': subnet['enable_dhcp'],
'dns_nameservers': [dns['address']
for dns in subnet['dns_nameservers']],
'host_routes': [{'destination': route['destination'],
'nexthop': route['nexthop']}
for route in subnet['routes']],
'shared': subnet['shared']
}
return self._fields(res, fields)
def _make_port_dict(self, port, fields=None,
process_extensions=True):
res = {"id": port["id"],
'name': port['name'],
"network_id": port["network_id"],
'tenant_id': port['tenant_id'],
"mac_address": port["mac_address"],
"admin_state_up": port["admin_state_up"],
"status": port["status"],
"fixed_ips": [{'subnet_id': ip["subnet_id"],
'ip_address': ip["ip_address"]}
for ip in port["fixed_ips"]],
"device_id": port["device_id"],
"device_owner": port["device_owner"]}
# Call auxiliary extend functions, if any
if process_extensions:
for func in self._dict_extend_functions.get(attributes.PORTS,
[]):
func(self, res, port)
return self._fields(res, fields)
def _create_bulk(self, resource, context, request_items):
objects = []
collection = "%ss" % resource
items = request_items[collection]
context.session.begin(subtransactions=True)
try:
for item in items:
obj_creator = getattr(self, 'create_%s' % resource)
objects.append(obj_creator(context, item))
context.session.commit()
except Exception as e:
LOG.exception(_("An exception occured while creating "
"the %(resource)s:%(item)s"),
{'resource': resource, 'item': item})
context.session.rollback()
raise e
return objects
def _get_marker_obj(self, context, resource, limit, marker):
if limit and marker:
return getattr(self, '_get_%s' % resource)(context, marker)
return None
def create_network_bulk(self, context, networks):
return self._create_bulk('network', context, networks)
def create_network(self, context, network):
"""Handle creation of a single network."""
# single request processing
n = network['network']
# NOTE(jkoelker) Get the tenant_id outside of the session to avoid
# unneeded db action if the operation raises
tenant_id = self._get_tenant_id_for_create(context, n)
with context.session.begin(subtransactions=True):
args = {'tenant_id': tenant_id,
'id': n.get('id') or uuidutils.generate_uuid(),
'name': n['name'],
'admin_state_up': n['admin_state_up'],
'shared': n['shared'],
'status': constants.NET_STATUS_ACTIVE}
network = models_v2.Network(**args)
context.session.add(network)
return self._make_network_dict(network)
def update_network(self, context, id, network):
n = network['network']
with context.session.begin(subtransactions=True):
network = self._get_network(context, id)
# validate 'shared' parameter
if 'shared' in n:
self._validate_shared_update(context, id, network, n)
network.update(n)
# also update shared in all the subnets for this network
subnets = self._get_subnets_by_network(context, id)
for subnet in subnets:
subnet['shared'] = network['shared']
return self._make_network_dict(network)
def delete_network(self, context, id):
with context.session.begin(subtransactions=True):
network = self._get_network(context, id)
filter = {'network_id': [id]}
ports = self.get_ports(context, filters=filter)
# check if there are any tenant owned ports in-use
only_auto_del = all(p['device_owner'] in AUTO_DELETE_PORT_OWNERS
for p in ports)
if not only_auto_del:
raise q_exc.NetworkInUse(net_id=id)
# clean up network owned ports
for port in ports:
self._delete_port(context, port['id'])
# clean up subnets
subnets_qry = context.session.query(models_v2.Subnet)
subnets_qry.filter_by(network_id=id).delete()
context.session.delete(network)
def get_network(self, context, id, fields=None):
network = self._get_network(context, id)
return self._make_network_dict(network, fields)
def get_networks(self, context, filters=None, fields=None,
sorts=None, limit=None, marker=None,
page_reverse=False):
marker_obj = self._get_marker_obj(context, 'network', limit, marker)
return self._get_collection(context, models_v2.Network,
self._make_network_dict,
filters=filters, fields=fields,
sorts=sorts,
limit=limit,
marker_obj=marker_obj,
page_reverse=page_reverse)
def get_networks_count(self, context, filters=None):
return self._get_collection_count(context, models_v2.Network,
filters=filters)
def create_subnet_bulk(self, context, subnets):
return self._create_bulk('subnet', context, subnets)
def _validate_ip_version(self, ip_version, addr, name):
"""Check IP field of a subnet match specified ip version."""
ip = netaddr.IPNetwork(addr)
if ip.version != ip_version:
data = {'name': name,
'addr': addr,
'ip_version': ip_version}
msg = _("%(name)s '%(addr)s' does not match "
"the ip_version '%(ip_version)s'") % data
raise q_exc.InvalidInput(error_message=msg)
def _validate_subnet(self, s):
"""Validate a subnet spec."""
# This method will validate attributes which may change during
# create_subnet() and update_subnet().
# The method requires the subnet spec 's' has 'ip_version' field.
# If 's' dict does not have 'ip_version' field in an API call
# (e.g., update_subnet()), you need to set 'ip_version' field
# before calling this method.
ip_ver = s['ip_version']
if 'cidr' in s:
self._validate_ip_version(ip_ver, s['cidr'], 'cidr')
if attributes.is_attr_set(s.get('gateway_ip')):
self._validate_ip_version(ip_ver, s['gateway_ip'], 'gateway_ip')
if (cfg.CONF.force_gateway_on_subnet and
not QuantumDbPluginV2._check_subnet_ip(s['cidr'],
s['gateway_ip'])):
error_message = _("Gateway is not valid on subnet")
raise q_exc.InvalidInput(error_message=error_message)
if attributes.is_attr_set(s.get('dns_nameservers')):
if len(s['dns_nameservers']) > cfg.CONF.max_dns_nameservers:
raise q_exc.DNSNameServersExhausted(
subnet_id=id,
quota=cfg.CONF.max_dns_nameservers)
for dns in s['dns_nameservers']:
try:
netaddr.IPAddress(dns)
except Exception:
raise q_exc.InvalidInput(
error_message=(_("Error parsing dns address %s") %
dns))
self._validate_ip_version(ip_ver, dns, 'dns_nameserver')
if attributes.is_attr_set(s.get('host_routes')):
if len(s['host_routes']) > cfg.CONF.max_subnet_host_routes:
raise q_exc.HostRoutesExhausted(
subnet_id=id,
quota=cfg.CONF.max_subnet_host_routes)
# check if the routes are all valid
for rt in s['host_routes']:
self._validate_host_route(rt, ip_ver)
def _validate_gw_out_of_pools(self, gateway_ip, pools):
for allocation_pool in pools:
pool_range = netaddr.IPRange(
allocation_pool['start'],
allocation_pool['end'])
if netaddr.IPAddress(gateway_ip) in pool_range:
raise q_exc.GatewayConflictWithAllocationPools(
pool=pool_range,
ip_address=gateway_ip)
def create_subnet(self, context, subnet):
s = subnet['subnet']
net = netaddr.IPNetwork(s['cidr'])
if s['gateway_ip'] is attributes.ATTR_NOT_SPECIFIED:
s['gateway_ip'] = str(netaddr.IPAddress(net.first + 1))
if s['allocation_pools'] == attributes.ATTR_NOT_SPECIFIED:
s['allocation_pools'] = self._allocate_pools_for_subnet(context, s)
else:
self._validate_allocation_pools(s['allocation_pools'], s['cidr'])
if s['gateway_ip'] is not None:
self._validate_gw_out_of_pools(s['gateway_ip'],
s['allocation_pools'])
self._validate_subnet(s)
tenant_id = self._get_tenant_id_for_create(context, s)
with context.session.begin(subtransactions=True):
network = self._get_network(context, s["network_id"])
self._validate_subnet_cidr(context, network, s['cidr'])
# The 'shared' attribute for subnets is for internal plugin
# use only. It is not exposed through the API
args = {'tenant_id': tenant_id,
'id': s.get('id') or uuidutils.generate_uuid(),
'name': s['name'],
'network_id': s['network_id'],
'ip_version': s['ip_version'],
'cidr': s['cidr'],
'enable_dhcp': s['enable_dhcp'],
'gateway_ip': s['gateway_ip'],
'shared': network.shared}
subnet = models_v2.Subnet(**args)
context.session.add(subnet)
if s['dns_nameservers'] is not attributes.ATTR_NOT_SPECIFIED:
for addr in s['dns_nameservers']:
ns = models_v2.DNSNameServer(address=addr,
subnet_id=subnet.id)
context.session.add(ns)
if s['host_routes'] is not attributes.ATTR_NOT_SPECIFIED:
for rt in s['host_routes']:
route = models_v2.SubnetRoute(
subnet_id=subnet.id,
destination=rt['destination'],
nexthop=rt['nexthop'])
context.session.add(route)
for pool in s['allocation_pools']:
ip_pool = models_v2.IPAllocationPool(subnet=subnet,
first_ip=pool['start'],
last_ip=pool['end'])
context.session.add(ip_pool)
ip_range = models_v2.IPAvailabilityRange(
ipallocationpool=ip_pool,
first_ip=pool['start'],
last_ip=pool['end'])
context.session.add(ip_range)
return self._make_subnet_dict(subnet)
def update_subnet(self, context, id, subnet):
"""Update the subnet with new info.
The change however will not be realized until the client renew the
dns lease or we support gratuitous DHCP offers
"""
s = subnet['subnet']
changed_host_routes = False
changed_dns = False
db_subnet = self._get_subnet(context, id)
# Fill 'ip_version' and 'allocation_pools' fields with the current
# value since _validate_subnet() expects subnet spec has 'ip_version'
# and 'allocation_pools' fields.
s['ip_version'] = db_subnet.ip_version
s['cidr'] = db_subnet.cidr
self._validate_subnet(s)
if 'gateway_ip' in s:
allocation_pools = [{'start': p['first_ip'], 'end': p['last_ip']}
for p in db_subnet.allocation_pools]
self._validate_gw_out_of_pools(s["gateway_ip"], allocation_pools)
with context.session.begin(subtransactions=True):
if "dns_nameservers" in s:
changed_dns = True
old_dns_list = self._get_dns_by_subnet(context, id)
new_dns_addr_set = set(s["dns_nameservers"])
old_dns_addr_set = set([dns['address']
for dns in old_dns_list])
new_dns = list(new_dns_addr_set)
for dns_addr in old_dns_addr_set - new_dns_addr_set:
for dns in old_dns_list:
if dns['address'] == dns_addr:
context.session.delete(dns)
for dns_addr in new_dns_addr_set - old_dns_addr_set:
dns = models_v2.DNSNameServer(
address=dns_addr,
subnet_id=id)
context.session.add(dns)
del s["dns_nameservers"]
def _combine(ht):
return ht['destination'] + "_" + ht['nexthop']
if "host_routes" in s:
changed_host_routes = True
old_route_list = self._get_route_by_subnet(context, id)
new_route_set = set([_combine(route)
for route in s['host_routes']])
old_route_set = set([_combine(route)
for route in old_route_list])
for route_str in old_route_set - new_route_set:
for route in old_route_list:
if _combine(route) == route_str:
context.session.delete(route)
for route_str in new_route_set - old_route_set:
route = models_v2.SubnetRoute(
destination=route_str.partition("_")[0],
nexthop=route_str.partition("_")[2],
subnet_id=id)
context.session.add(route)
# Gather host routes for result
new_routes = []
for route_str in new_route_set:
new_routes.append(
{'destination': route_str.partition("_")[0],
'nexthop': route_str.partition("_")[2]})
del s["host_routes"]
subnet = self._get_subnet(context, id)
subnet.update(s)
result = self._make_subnet_dict(subnet)
# Keep up with fields that changed
if changed_dns:
result['dns_nameservers'] = new_dns
if changed_host_routes:
result['host_routes'] = new_routes
return result
def delete_subnet(self, context, id):
with context.session.begin(subtransactions=True):
subnet = self._get_subnet(context, id)
# Check if any tenant owned ports are using this subnet
allocated_qry = context.session.query(models_v2.IPAllocation)
allocated_qry = allocated_qry.options(orm.joinedload('ports'))
allocated = allocated_qry.filter_by(subnet_id=id)
only_auto_del = all(not a.port_id or
a.ports.device_owner in AUTO_DELETE_PORT_OWNERS
for a in allocated)
if not only_auto_del:
raise q_exc.SubnetInUse(subnet_id=id)
# remove network owned ports
allocated.delete()
context.session.delete(subnet)
def get_subnet(self, context, id, fields=None):
subnet = self._get_subnet(context, id)
return self._make_subnet_dict(subnet, fields)
def get_subnets(self, context, filters=None, fields=None,
sorts=None, limit=None, marker=None,
page_reverse=False):
marker_obj = self._get_marker_obj(context, 'subnet', limit, marker)
return self._get_collection(context, models_v2.Subnet,
self._make_subnet_dict,
filters=filters, fields=fields,
sorts=sorts,
limit=limit,
marker_obj=marker_obj,
page_reverse=page_reverse)
def get_subnets_count(self, context, filters=None):
return self._get_collection_count(context, models_v2.Subnet,
filters=filters)
def create_port_bulk(self, context, ports):
return self._create_bulk('port', context, ports)
def create_port(self, context, port):
p = port['port']
port_id = p.get('id') or uuidutils.generate_uuid()
network_id = p['network_id']
mac_address = p['mac_address']
# NOTE(jkoelker) Get the tenant_id outside of the session to avoid
# unneeded db action if the operation raises
tenant_id = self._get_tenant_id_for_create(context, p)
with context.session.begin(subtransactions=True):
self._recycle_expired_ip_allocations(context, network_id)
network = self._get_network(context, network_id)
# Ensure that a MAC address is defined and it is unique on the
# network
if mac_address is attributes.ATTR_NOT_SPECIFIED:
mac_address = QuantumDbPluginV2._generate_mac(context,
network_id)
else:
# Ensure that the mac on the network is unique
if not QuantumDbPluginV2._check_unique_mac(context,
network_id,
mac_address):
raise q_exc.MacAddressInUse(net_id=network_id,
mac=mac_address)
# Returns the IP's for the port
ips = self._allocate_ips_for_port(context, network, port)
if 'status' not in p:
status = constants.PORT_STATUS_ACTIVE
else:
status = p['status']
port = models_v2.Port(tenant_id=tenant_id,
name=p['name'],
id=port_id,
network_id=network_id,
mac_address=mac_address,
admin_state_up=p['admin_state_up'],
status=status,
device_id=p['device_id'],
device_owner=p['device_owner'])
context.session.add(port)
# Update the allocated IP's
if ips:
for ip in ips:
ip_address = ip['ip_address']
subnet_id = ip['subnet_id']
LOG.debug(_("Allocated IP %(ip_address)s "
"(%(network_id)s/%(subnet_id)s/%(port_id)s)"),
{'ip_address': ip_address,
'network_id': network_id,
'subnet_id': subnet_id,
'port_id': port_id})
allocated = models_v2.IPAllocation(
network_id=network_id,
port_id=port_id,
ip_address=ip_address,
subnet_id=subnet_id,
expiration=self._default_allocation_expiration()
)
context.session.add(allocated)
return self._make_port_dict(port, process_extensions=False)
def update_port(self, context, id, port):
p = port['port']
changed_ips = False
with context.session.begin(subtransactions=True):
port = self._get_port(context, id)
# Check if the IPs need to be updated
if 'fixed_ips' in p:
changed_ips = True
self._recycle_expired_ip_allocations(context,
port['network_id'])
original = self._make_port_dict(port, process_extensions=False)
added_ips, prev_ips = self._update_ips_for_port(
context, port["network_id"], id, original["fixed_ips"],
p['fixed_ips'])
# Update ips if necessary
for ip in added_ips:
allocated = models_v2.IPAllocation(
network_id=port['network_id'], port_id=port.id,
ip_address=ip['ip_address'], subnet_id=ip['subnet_id'],
expiration=self._default_allocation_expiration())
context.session.add(allocated)
# Remove all attributes in p which are not in the port DB model
# and then update the port
port.update(self._filter_non_model_columns(p, models_v2.Port))
result = self._make_port_dict(port)
# Keep up with fields that changed
if changed_ips:
result['fixed_ips'] = prev_ips + added_ips
return result
def delete_port(self, context, id):
with context.session.begin(subtransactions=True):
self._delete_port(context, id)
def _delete_port(self, context, id):
port = self._get_port(context, id)
allocated_qry = context.session.query(
models_v2.IPAllocation).with_lockmode('update')
# recycle all of the IP's
allocated = allocated_qry.filter_by(port_id=id)
for a in allocated:
subnet = self._get_subnet(context, a['subnet_id'])
# Check if IP was allocated from allocation pool
if QuantumDbPluginV2._check_ip_in_allocation_pool(
context, a['subnet_id'], subnet['gateway_ip'],
a['ip_address']):
QuantumDbPluginV2._hold_ip(context,
a['network_id'],
a['subnet_id'],
id,
a['ip_address'])
else:
# IPs out of allocation pool will not be recycled, but
# we do need to delete the allocation from the DB
QuantumDbPluginV2._delete_ip_allocation(
context, a['network_id'],
a['subnet_id'], a['ip_address'])
msg_dict = {'address': a['ip_address'],
'subnet_id': a['subnet_id']}
msg = _("%(address)s (%(subnet_id)s) is not "
"recycled") % msg_dict
LOG.debug(msg)
context.session.delete(port)
def get_port(self, context, id, fields=None):
port = self._get_port(context, id)
return self._make_port_dict(port, fields)
def _get_ports_query(self, context, filters=None, sorts=None, limit=None,
marker_obj=None, page_reverse=False):
Port = models_v2.Port
IPAllocation = models_v2.IPAllocation
if not filters:
filters = {}
query = self._model_query(context, Port)
fixed_ips = filters.pop('fixed_ips', {})
ip_addresses = fixed_ips.get('ip_address')
subnet_ids = fixed_ips.get('subnet_id')
if ip_addresses or subnet_ids:
query = query.join(Port.fixed_ips)
if ip_addresses:
query = query.filter(IPAllocation.ip_address.in_(ip_addresses))
if subnet_ids:
query = query.filter(IPAllocation.subnet_id.in_(subnet_ids))
query = self._apply_filters_to_query(query, Port, filters)
if limit and page_reverse and sorts:
sorts = [(s[0], not s[1]) for s in sorts]
query = sqlalchemyutils.paginate_query(query, Port, limit,
sorts, marker_obj)
return query
def get_ports(self, context, filters=None, fields=None,
sorts=None, limit=None, marker=None,
page_reverse=False):
marker_obj = self._get_marker_obj(context, 'port', limit, marker)
query = self._get_ports_query(context, filters=filters,
sorts=sorts, limit=limit,
marker_obj=marker_obj,
page_reverse=page_reverse)
items = [self._make_port_dict(c, fields) for c in query]
if limit and page_reverse:
items.reverse()
return items
def get_ports_count(self, context, filters=None):
return self._get_ports_query(context, filters).count()