1dd35515d4
We have a problem with SNAT with too many connections using the
same source and destination on the network nodes.
In addition we can see in the conntrack table that the who
"instert_failed" increases.
This might be a generic problem with conntrack and linux.
We suspect that we encounter the following "limitation / bug"
in the kernel.
There seems to be a workaround to alleviate this behavior by
setting the -random-fully flag in iptables for port consumption.
This patch fixes the problem by adding the --random-fully to
the SNAT rules.
Conflicts:
neutron/agent/linux/iptables_manager.py
neutron/common/constants.py
neutron/tests/unit/agent/l3/test_agent.py
Change-Id: I246c1f56df889bad9c7e140b56c3614124d80a19
Closes-Bug: #1814002
(cherry picked from commit 30f35e08f9
)
1204 lines
53 KiB
Python
1204 lines
53 KiB
Python
# Copyright (c) 2014 OpenStack Foundation
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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 collections
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import netaddr
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from neutron_lib import constants as lib_constants
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from neutron_lib.utils import helpers
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from oslo_log import log as logging
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from neutron._i18n import _
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from neutron.agent.l3 import namespaces
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from neutron.agent.linux import ip_lib
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from neutron.agent.linux import iptables_manager
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from neutron.agent.linux import ra
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from neutron.common import constants as n_const
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from neutron.common import exceptions as n_exc
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from neutron.common import ipv6_utils
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from neutron.common import utils as common_utils
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from neutron.ipam import utils as ipam_utils
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LOG = logging.getLogger(__name__)
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INTERNAL_DEV_PREFIX = namespaces.INTERNAL_DEV_PREFIX
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EXTERNAL_DEV_PREFIX = namespaces.EXTERNAL_DEV_PREFIX
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FLOATINGIP_STATUS_NOCHANGE = object()
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ADDRESS_SCOPE_MARK_MASK = "0xffff0000"
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ADDRESS_SCOPE_MARK_ID_MIN = 1024
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ADDRESS_SCOPE_MARK_ID_MAX = 2048
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DEFAULT_ADDRESS_SCOPE = "noscope"
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class RouterInfo(object):
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def __init__(self,
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agent,
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router_id,
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router,
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agent_conf,
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interface_driver,
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use_ipv6=False):
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self.agent = agent
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self.router_id = router_id
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self.agent_conf = agent_conf
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self.ex_gw_port = None
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self._snat_enabled = None
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self.fip_map = {}
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self.internal_ports = []
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self.pd_subnets = {}
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self.floating_ips = set()
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# Invoke the setter for establishing initial SNAT action
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self.router = router
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self.use_ipv6 = use_ipv6
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ns = self.create_router_namespace_object(
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router_id, agent_conf, interface_driver, use_ipv6)
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self.router_namespace = ns
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self.ns_name = ns.name
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self.available_mark_ids = set(range(ADDRESS_SCOPE_MARK_ID_MIN,
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ADDRESS_SCOPE_MARK_ID_MAX))
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self._address_scope_to_mark_id = {
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DEFAULT_ADDRESS_SCOPE: self.available_mark_ids.pop()}
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self.iptables_manager = iptables_manager.IptablesManager(
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use_ipv6=use_ipv6,
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namespace=self.ns_name)
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self.initialize_address_scope_iptables()
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self.initialize_metadata_iptables()
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self.routes = []
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self.driver = interface_driver
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self.process_monitor = None
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# radvd is a neutron.agent.linux.ra.DaemonMonitor
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self.radvd = None
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self.centralized_port_forwarding_fip_set = set()
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self.fip_managed_by_port_forwardings = None
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def initialize(self, process_monitor):
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"""Initialize the router on the system.
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This differs from __init__ in that this method actually affects the
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system creating namespaces, starting processes, etc. The other merely
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initializes the python object. This separates in-memory object
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initialization from methods that actually go do stuff to the system.
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:param process_monitor: The agent's process monitor instance.
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"""
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self.process_monitor = process_monitor
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self.radvd = ra.DaemonMonitor(self.router_id,
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self.ns_name,
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process_monitor,
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self.get_internal_device_name,
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self.agent_conf)
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self.router_namespace.create()
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def create_router_namespace_object(
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self, router_id, agent_conf, iface_driver, use_ipv6):
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return namespaces.RouterNamespace(
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router_id, agent_conf, iface_driver, use_ipv6)
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@property
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def router(self):
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return self._router
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@router.setter
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def router(self, value):
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self._router = value
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if not self._router:
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return
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# enable_snat by default if it wasn't specified by plugin
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self._snat_enabled = self._router.get('enable_snat', True)
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def is_router_master(self):
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return True
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def get_internal_device_name(self, port_id):
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return (INTERNAL_DEV_PREFIX + port_id)[:self.driver.DEV_NAME_LEN]
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def get_external_device_name(self, port_id):
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return (EXTERNAL_DEV_PREFIX + port_id)[:self.driver.DEV_NAME_LEN]
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def get_external_device_interface_name(self, ex_gw_port):
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return self.get_external_device_name(ex_gw_port['id'])
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def get_gw_ns_name(self):
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return self.ns_name
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def _update_routing_table(self, operation, route, namespace):
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cmd = ['ip', 'route', operation, 'to', route['destination'],
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'via', route['nexthop']]
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ip_wrapper = ip_lib.IPWrapper(namespace=namespace)
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ip_wrapper.netns.execute(cmd, check_exit_code=False)
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def update_routing_table(self, operation, route):
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self._update_routing_table(operation, route, self.ns_name)
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def routes_updated(self, old_routes, new_routes):
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adds, removes = helpers.diff_list_of_dict(old_routes,
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new_routes)
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for route in adds:
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LOG.debug("Added route entry is '%s'", route)
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# remove replaced route from deleted route
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for del_route in removes:
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if route['destination'] == del_route['destination']:
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removes.remove(del_route)
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# replace success even if there is no existing route
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self.update_routing_table('replace', route)
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for route in removes:
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LOG.debug("Removed route entry is '%s'", route)
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self.update_routing_table('delete', route)
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def get_ex_gw_port(self):
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return self.router.get('gw_port')
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def get_floating_ips(self):
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"""Filter Floating IPs to be hosted on this agent."""
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return self.router.get(lib_constants.FLOATINGIP_KEY, [])
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def floating_forward_rules(self, fip):
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fixed_ip = fip['fixed_ip_address']
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floating_ip = fip['floating_ip_address']
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to_source = '-s %s/32 -j SNAT --to-source %s' % (fixed_ip, floating_ip)
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if self.iptables_manager.random_fully:
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to_source += ' --random-fully'
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return [('PREROUTING', '-d %s/32 -j DNAT --to-destination %s' %
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(floating_ip, fixed_ip)),
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('OUTPUT', '-d %s/32 -j DNAT --to-destination %s' %
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(floating_ip, fixed_ip)),
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('float-snat', to_source)]
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def floating_mangle_rules(self, floating_ip, fixed_ip, internal_mark):
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mark_traffic_to_floating_ip = (
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'floatingip', '-d %s/32 -j MARK --set-xmark %s' % (
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floating_ip, internal_mark))
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mark_traffic_from_fixed_ip = (
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'FORWARD', '-s %s/32 -j $float-snat' % fixed_ip)
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return [mark_traffic_to_floating_ip, mark_traffic_from_fixed_ip]
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def get_address_scope_mark_mask(self, address_scope=None):
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if not address_scope:
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address_scope = DEFAULT_ADDRESS_SCOPE
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if address_scope not in self._address_scope_to_mark_id:
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self._address_scope_to_mark_id[address_scope] = (
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self.available_mark_ids.pop())
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mark_id = self._address_scope_to_mark_id[address_scope]
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# NOTE: Address scopes use only the upper 16 bits of the 32 fwmark
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return "%s/%s" % (hex(mark_id << 16), ADDRESS_SCOPE_MARK_MASK)
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def get_port_address_scope_mark(self, port):
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"""Get the IP version 4 and 6 address scope mark for the port
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:param port: A port dict from the RPC call
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:returns: A dict mapping the address family to the address scope mark
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"""
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port_scopes = port.get('address_scopes', {})
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address_scope_mark_masks = (
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(int(k), self.get_address_scope_mark_mask(v))
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for k, v in port_scopes.items())
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return collections.defaultdict(self.get_address_scope_mark_mask,
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address_scope_mark_masks)
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def process_floating_ip_nat_rules(self):
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"""Configure NAT rules for the router's floating IPs.
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Configures iptables rules for the floating ips of the given router
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"""
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# Clear out all iptables rules for floating ips
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self.iptables_manager.ipv4['nat'].clear_rules_by_tag('floating_ip')
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floating_ips = self.get_floating_ips()
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# Loop once to ensure that floating ips are configured.
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for fip in floating_ips:
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# Rebuild iptables rules for the floating ip.
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for chain, rule in self.floating_forward_rules(fip):
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self.iptables_manager.ipv4['nat'].add_rule(chain, rule,
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tag='floating_ip')
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self.iptables_manager.apply()
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def _process_pd_iptables_rules(self, prefix, subnet_id):
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"""Configure iptables rules for prefix delegated subnets"""
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ext_scope = self._get_external_address_scope()
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ext_scope_mark = self.get_address_scope_mark_mask(ext_scope)
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ex_gw_device = self.get_external_device_name(
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self.get_ex_gw_port()['id'])
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scope_rule = self.address_scope_mangle_rule(ex_gw_device,
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ext_scope_mark)
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self.iptables_manager.ipv6['mangle'].add_rule(
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'scope',
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'-d %s ' % prefix + scope_rule,
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tag=('prefix_delegation_%s' % subnet_id))
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def process_floating_ip_address_scope_rules(self):
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"""Configure address scope related iptables rules for the router's
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floating IPs.
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"""
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# Clear out all iptables rules for floating ips
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self.iptables_manager.ipv4['mangle'].clear_rules_by_tag('floating_ip')
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all_floating_ips = self.get_floating_ips()
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ext_scope = self._get_external_address_scope()
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# Filter out the floating ips that have fixed ip in the same address
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# scope. Because the packets for them will always be in one address
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# scope, no need to manipulate MARK/CONNMARK for them.
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floating_ips = [fip for fip in all_floating_ips
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if fip.get('fixed_ip_address_scope') != ext_scope]
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if floating_ips:
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ext_scope_mark = self.get_address_scope_mark_mask(ext_scope)
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ports_scopemark = self._get_address_scope_mark()
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devices_in_ext_scope = {
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device for device, mark
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in ports_scopemark[lib_constants.IP_VERSION_4].items()
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if mark == ext_scope_mark}
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# Add address scope for floatingip egress
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for device in devices_in_ext_scope:
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self.iptables_manager.ipv4['mangle'].add_rule(
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'float-snat',
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'-o %s -j MARK --set-xmark %s'
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% (device, ext_scope_mark),
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tag='floating_ip')
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# Loop once to ensure that floating ips are configured.
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for fip in floating_ips:
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# Rebuild iptables rules for the floating ip.
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fip_ip = fip['floating_ip_address']
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# Send the floating ip traffic to the right address scope
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fixed_ip = fip['fixed_ip_address']
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fixed_scope = fip.get('fixed_ip_address_scope')
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internal_mark = self.get_address_scope_mark_mask(fixed_scope)
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mangle_rules = self.floating_mangle_rules(
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fip_ip, fixed_ip, internal_mark)
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for chain, rule in mangle_rules:
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self.iptables_manager.ipv4['mangle'].add_rule(
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chain, rule, tag='floating_ip')
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def process_snat_dnat_for_fip(self):
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try:
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self.process_floating_ip_nat_rules()
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except Exception:
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# TODO(salv-orlando): Less broad catching
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msg = _('L3 agent failure to setup NAT for floating IPs')
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LOG.exception(msg)
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raise n_exc.FloatingIpSetupException(msg)
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def _add_fip_addr_to_device(self, fip, device):
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"""Configures the floating ip address on the device.
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"""
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try:
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ip_cidr = common_utils.ip_to_cidr(fip['floating_ip_address'])
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device.addr.add(ip_cidr)
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return True
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except RuntimeError:
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# any exception occurred here should cause the floating IP
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# to be set in error state
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LOG.warning("Unable to configure IP address for "
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"floating IP: %s", fip['id'])
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def add_floating_ip(self, fip, interface_name, device):
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raise NotImplementedError()
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def migrate_centralized_floating_ip(self, fip, interface_name, device):
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pass
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def gateway_redirect_cleanup(self, rtr_interface):
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pass
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def remove_floating_ip(self, device, ip_cidr):
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device.delete_addr_and_conntrack_state(ip_cidr)
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def move_floating_ip(self, fip):
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return lib_constants.FLOATINGIP_STATUS_ACTIVE
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def remove_external_gateway_ip(self, device, ip_cidr):
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device.delete_addr_and_conntrack_state(ip_cidr)
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def get_router_cidrs(self, device):
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return set([addr['cidr'] for addr in device.addr.list()])
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def get_centralized_fip_cidr_set(self):
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return set()
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def process_floating_ip_addresses(self, interface_name):
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"""Configure IP addresses on router's external gateway interface.
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Ensures addresses for existing floating IPs and cleans up
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those that should not longer be configured.
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"""
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fip_statuses = {}
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if interface_name is None:
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LOG.debug('No Interface for floating IPs router: %s',
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self.router['id'])
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return fip_statuses
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device = ip_lib.IPDevice(interface_name, namespace=self.ns_name)
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existing_cidrs = self.get_router_cidrs(device)
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new_cidrs = set()
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gw_cidrs = self._get_gw_ips_cidr()
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centralized_fip_cidrs = self.get_centralized_fip_cidr_set()
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floating_ips = self.get_floating_ips()
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# Loop once to ensure that floating ips are configured.
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for fip in floating_ips:
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fip_ip = fip['floating_ip_address']
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ip_cidr = common_utils.ip_to_cidr(fip_ip)
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new_cidrs.add(ip_cidr)
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fip_statuses[fip['id']] = lib_constants.FLOATINGIP_STATUS_ACTIVE
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if ip_cidr not in existing_cidrs:
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fip_statuses[fip['id']] = self.add_floating_ip(
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fip, interface_name, device)
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LOG.debug('Floating ip %(id)s added, status %(status)s',
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{'id': fip['id'],
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'status': fip_statuses.get(fip['id'])})
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elif (fip_ip in self.fip_map and
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self.fip_map[fip_ip] != fip['fixed_ip_address']):
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LOG.debug("Floating IP was moved from fixed IP "
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"%(old)s to %(new)s",
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{'old': self.fip_map[fip_ip],
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'new': fip['fixed_ip_address']})
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fip_statuses[fip['id']] = self.move_floating_ip(fip)
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elif (ip_cidr in centralized_fip_cidrs and
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fip.get('host') == self.host):
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LOG.debug("Floating IP is migrating from centralized "
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"to distributed: %s", fip)
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fip_statuses[fip['id']] = self.migrate_centralized_floating_ip(
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fip, interface_name, device)
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elif fip_statuses[fip['id']] == fip['status']:
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# mark the status as not changed. we can't remove it because
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# that's how the caller determines that it was removed
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fip_statuses[fip['id']] = FLOATINGIP_STATUS_NOCHANGE
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fips_to_remove = (
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ip_cidr
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for ip_cidr in (existing_cidrs - new_cidrs - gw_cidrs -
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self.centralized_port_forwarding_fip_set)
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if common_utils.is_cidr_host(ip_cidr))
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for ip_cidr in fips_to_remove:
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LOG.debug("Removing floating ip %s from interface %s in "
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"namespace %s", ip_cidr, interface_name, self.ns_name)
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self.remove_floating_ip(device, ip_cidr)
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return fip_statuses
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|
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def _get_gw_ips_cidr(self):
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gw_cidrs = set()
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ex_gw_port = self.get_ex_gw_port()
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if ex_gw_port:
|
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for ip_addr in ex_gw_port['fixed_ips']:
|
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ex_gw_ip = ip_addr['ip_address']
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addr = netaddr.IPAddress(ex_gw_ip)
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if addr.version == lib_constants.IP_VERSION_4:
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gw_cidrs.add(common_utils.ip_to_cidr(ex_gw_ip))
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return gw_cidrs
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|
|
|
def configure_fip_addresses(self, interface_name):
|
|
try:
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return self.process_floating_ip_addresses(interface_name)
|
|
except Exception:
|
|
# TODO(salv-orlando): Less broad catching
|
|
msg = _('L3 agent failure to setup floating IPs')
|
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LOG.exception(msg)
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raise n_exc.FloatingIpSetupException(msg)
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|
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def put_fips_in_error_state(self):
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fip_statuses = {}
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for fip in self.router.get(lib_constants.FLOATINGIP_KEY, []):
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fip_statuses[fip['id']] = lib_constants.FLOATINGIP_STATUS_ERROR
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return fip_statuses
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|
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def delete(self):
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self.router['gw_port'] = None
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self.router[lib_constants.INTERFACE_KEY] = []
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self.router[lib_constants.FLOATINGIP_KEY] = []
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self.process_delete()
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self.disable_radvd()
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self.router_namespace.delete()
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|
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def _internal_network_updated(self, port, subnet_id, prefix, old_prefix,
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|
updated_cidrs):
|
|
interface_name = self.get_internal_device_name(port['id'])
|
|
if prefix != lib_constants.PROVISIONAL_IPV6_PD_PREFIX:
|
|
fixed_ips = port['fixed_ips']
|
|
for fixed_ip in fixed_ips:
|
|
if fixed_ip['subnet_id'] == subnet_id:
|
|
v6addr = common_utils.ip_to_cidr(fixed_ip['ip_address'],
|
|
fixed_ip.get('prefixlen'))
|
|
if v6addr not in updated_cidrs:
|
|
self.driver.add_ipv6_addr(interface_name, v6addr,
|
|
self.ns_name)
|
|
else:
|
|
self.driver.delete_ipv6_addr_with_prefix(interface_name,
|
|
old_prefix,
|
|
self.ns_name)
|
|
|
|
def _internal_network_added(self, ns_name, network_id, port_id,
|
|
fixed_ips, mac_address,
|
|
interface_name, prefix, mtu=None):
|
|
LOG.debug("adding internal network: prefix(%s), port(%s)",
|
|
prefix, port_id)
|
|
self.driver.plug(network_id, port_id, interface_name, mac_address,
|
|
namespace=ns_name,
|
|
prefix=prefix, mtu=mtu)
|
|
|
|
ip_cidrs = common_utils.fixed_ip_cidrs(fixed_ips)
|
|
self.driver.init_router_port(
|
|
interface_name, ip_cidrs, namespace=ns_name)
|
|
for fixed_ip in fixed_ips:
|
|
ip_lib.send_ip_addr_adv_notif(ns_name,
|
|
interface_name,
|
|
fixed_ip['ip_address'])
|
|
|
|
def internal_network_added(self, port):
|
|
network_id = port['network_id']
|
|
port_id = port['id']
|
|
fixed_ips = port['fixed_ips']
|
|
mac_address = port['mac_address']
|
|
|
|
interface_name = self.get_internal_device_name(port_id)
|
|
|
|
self._internal_network_added(self.ns_name,
|
|
network_id,
|
|
port_id,
|
|
fixed_ips,
|
|
mac_address,
|
|
interface_name,
|
|
INTERNAL_DEV_PREFIX,
|
|
mtu=port.get('mtu'))
|
|
|
|
def internal_network_removed(self, port):
|
|
interface_name = self.get_internal_device_name(port['id'])
|
|
LOG.debug("removing internal network: port(%s) interface(%s)",
|
|
port['id'], interface_name)
|
|
if ip_lib.device_exists(interface_name, namespace=self.ns_name):
|
|
self.driver.unplug(interface_name, namespace=self.ns_name,
|
|
prefix=INTERNAL_DEV_PREFIX)
|
|
|
|
def _get_existing_devices(self):
|
|
ip_wrapper = ip_lib.IPWrapper(namespace=self.ns_name)
|
|
ip_devs = ip_wrapper.get_devices()
|
|
return [ip_dev.name for ip_dev in ip_devs]
|
|
|
|
def _update_internal_ports_cache(self, port):
|
|
# NOTE(slaweq): self.internal_ports is a list of port objects but
|
|
# when it is updated in _process_internal_ports() method,
|
|
# but it can be based only on indexes of elements in
|
|
# self.internal_ports as index of element to updated is unknown.
|
|
# It has to be done based on port_id and this method is doing exactly
|
|
# that.
|
|
for index, p in enumerate(self.internal_ports):
|
|
if p['id'] == port['id']:
|
|
self.internal_ports[index] = port
|
|
break
|
|
else:
|
|
self.internal_ports.append(port)
|
|
|
|
@staticmethod
|
|
def _get_updated_ports(existing_ports, current_ports):
|
|
updated_ports = []
|
|
current_ports_dict = {p['id']: p for p in current_ports}
|
|
for existing_port in existing_ports:
|
|
current_port = current_ports_dict.get(existing_port['id'])
|
|
if current_port:
|
|
fixed_ips_changed = (
|
|
sorted(existing_port['fixed_ips'],
|
|
key=helpers.safe_sort_key) !=
|
|
sorted(current_port['fixed_ips'],
|
|
key=helpers.safe_sort_key))
|
|
mtu_changed = existing_port['mtu'] != current_port['mtu']
|
|
if fixed_ips_changed or mtu_changed:
|
|
updated_ports.append(current_port)
|
|
return updated_ports
|
|
|
|
@staticmethod
|
|
def _port_has_ipv6_subnet(port):
|
|
if 'subnets' in port:
|
|
for subnet in port['subnets']:
|
|
if (netaddr.IPNetwork(subnet['cidr']).version == 6 and
|
|
subnet['cidr'] !=
|
|
lib_constants.PROVISIONAL_IPV6_PD_PREFIX):
|
|
return True
|
|
|
|
def enable_radvd(self, internal_ports=None):
|
|
LOG.debug('Spawning radvd daemon in router device: %s', self.router_id)
|
|
if not internal_ports:
|
|
internal_ports = self.internal_ports
|
|
self.radvd.enable(internal_ports)
|
|
|
|
def disable_radvd(self):
|
|
LOG.debug('Terminating radvd daemon in router device: %s',
|
|
self.router_id)
|
|
self.radvd.disable()
|
|
|
|
def internal_network_updated(self, interface_name, ip_cidrs, mtu):
|
|
self.driver.set_mtu(interface_name, mtu, namespace=self.ns_name,
|
|
prefix=INTERNAL_DEV_PREFIX)
|
|
self.driver.init_router_port(
|
|
interface_name,
|
|
ip_cidrs=ip_cidrs,
|
|
namespace=self.ns_name)
|
|
|
|
def address_scope_mangle_rule(self, device_name, mark_mask):
|
|
return '-i %s -j MARK --set-xmark %s' % (device_name, mark_mask)
|
|
|
|
def address_scope_filter_rule(self, device_name, mark_mask):
|
|
return '-o %s -m mark ! --mark %s -j DROP' % (
|
|
device_name, mark_mask)
|
|
|
|
def _process_internal_ports(self):
|
|
existing_port_ids = set(p['id'] for p in self.internal_ports)
|
|
|
|
internal_ports = self.router.get(lib_constants.INTERFACE_KEY, [])
|
|
current_port_ids = set(p['id'] for p in internal_ports
|
|
if p['admin_state_up'])
|
|
|
|
new_port_ids = current_port_ids - existing_port_ids
|
|
new_ports = [p for p in internal_ports if p['id'] in new_port_ids]
|
|
old_ports = [p for p in self.internal_ports
|
|
if p['id'] not in current_port_ids]
|
|
updated_ports = self._get_updated_ports(self.internal_ports,
|
|
internal_ports)
|
|
|
|
enable_ra = False
|
|
for p in new_ports:
|
|
self.internal_network_added(p)
|
|
LOG.debug("appending port %s to internal_ports cache", p)
|
|
self._update_internal_ports_cache(p)
|
|
enable_ra = enable_ra or self._port_has_ipv6_subnet(p)
|
|
for subnet in p['subnets']:
|
|
if ipv6_utils.is_ipv6_pd_enabled(subnet):
|
|
interface_name = self.get_internal_device_name(p['id'])
|
|
self.agent.pd.enable_subnet(self.router_id, subnet['id'],
|
|
subnet['cidr'],
|
|
interface_name, p['mac_address'])
|
|
if (subnet['cidr'] !=
|
|
lib_constants.PROVISIONAL_IPV6_PD_PREFIX):
|
|
self.pd_subnets[subnet['id']] = subnet['cidr']
|
|
|
|
for p in old_ports:
|
|
self.internal_network_removed(p)
|
|
LOG.debug("removing port %s from internal_ports cache", p)
|
|
self.internal_ports.remove(p)
|
|
enable_ra = enable_ra or self._port_has_ipv6_subnet(p)
|
|
for subnet in p['subnets']:
|
|
if ipv6_utils.is_ipv6_pd_enabled(subnet):
|
|
self.agent.pd.disable_subnet(self.router_id, subnet['id'])
|
|
del self.pd_subnets[subnet['id']]
|
|
|
|
updated_cidrs = []
|
|
for p in updated_ports:
|
|
self._update_internal_ports_cache(p)
|
|
interface_name = self.get_internal_device_name(p['id'])
|
|
ip_cidrs = common_utils.fixed_ip_cidrs(p['fixed_ips'])
|
|
LOG.debug("updating internal network for port %s", p)
|
|
updated_cidrs += ip_cidrs
|
|
self.internal_network_updated(
|
|
interface_name, ip_cidrs, p['mtu'])
|
|
enable_ra = enable_ra or self._port_has_ipv6_subnet(p)
|
|
|
|
# Check if there is any pd prefix update
|
|
for p in internal_ports:
|
|
if p['id'] in (set(current_port_ids) & set(existing_port_ids)):
|
|
for subnet in p.get('subnets', []):
|
|
if ipv6_utils.is_ipv6_pd_enabled(subnet):
|
|
old_prefix = self.agent.pd.update_subnet(
|
|
self.router_id,
|
|
subnet['id'],
|
|
subnet['cidr'])
|
|
if old_prefix:
|
|
self._internal_network_updated(p, subnet['id'],
|
|
subnet['cidr'],
|
|
old_prefix,
|
|
updated_cidrs)
|
|
self.pd_subnets[subnet['id']] = subnet['cidr']
|
|
enable_ra = True
|
|
|
|
# Enable RA
|
|
if enable_ra:
|
|
self.enable_radvd(internal_ports)
|
|
|
|
existing_devices = self._get_existing_devices()
|
|
current_internal_devs = set(n for n in existing_devices
|
|
if n.startswith(INTERNAL_DEV_PREFIX))
|
|
current_port_devs = set(self.get_internal_device_name(port_id)
|
|
for port_id in current_port_ids)
|
|
stale_devs = current_internal_devs - current_port_devs
|
|
for stale_dev in stale_devs:
|
|
LOG.debug('Deleting stale internal router device: %s',
|
|
stale_dev)
|
|
self.agent.pd.remove_stale_ri_ifname(self.router_id, stale_dev)
|
|
self.driver.unplug(stale_dev,
|
|
namespace=self.ns_name,
|
|
prefix=INTERNAL_DEV_PREFIX)
|
|
|
|
def _list_floating_ip_cidrs(self):
|
|
# Compute a list of addresses this router is supposed to have.
|
|
# This avoids unnecessarily removing those addresses and
|
|
# causing a momentarily network outage.
|
|
floating_ips = self.get_floating_ips()
|
|
return [common_utils.ip_to_cidr(ip['floating_ip_address'])
|
|
for ip in floating_ips]
|
|
|
|
def _plug_external_gateway(self, ex_gw_port, interface_name, ns_name):
|
|
self.driver.plug(ex_gw_port['network_id'],
|
|
ex_gw_port['id'],
|
|
interface_name,
|
|
ex_gw_port['mac_address'],
|
|
bridge=self.agent_conf.external_network_bridge,
|
|
namespace=ns_name,
|
|
prefix=EXTERNAL_DEV_PREFIX,
|
|
mtu=ex_gw_port.get('mtu'))
|
|
if self.agent_conf.external_network_bridge:
|
|
# NOTE(slaweq): for OVS implementations remove the DEAD VLAN tag
|
|
# on ports. DEAD VLAN tag is added to each newly created port
|
|
# and should be removed by L2 agent but if
|
|
# external_network_bridge is set than external gateway port is
|
|
# created in this bridge and will not be touched by L2 agent.
|
|
# This is related to lp#1767422
|
|
self.driver.remove_vlan_tag(
|
|
self.agent_conf.external_network_bridge, interface_name)
|
|
|
|
def _get_external_gw_ips(self, ex_gw_port):
|
|
gateway_ips = []
|
|
if 'subnets' in ex_gw_port:
|
|
gateway_ips = [subnet['gateway_ip']
|
|
for subnet in ex_gw_port['subnets']
|
|
if subnet['gateway_ip']]
|
|
if self.use_ipv6 and not self.is_v6_gateway_set(gateway_ips):
|
|
# No IPv6 gateway is available, but IPv6 is enabled.
|
|
if self.agent_conf.ipv6_gateway:
|
|
# ipv6_gateway configured, use address for default route.
|
|
gateway_ips.append(self.agent_conf.ipv6_gateway)
|
|
return gateway_ips
|
|
|
|
def _add_route_to_gw(self, ex_gw_port, device_name,
|
|
namespace, preserve_ips):
|
|
# Note: ipv6_gateway is an ipv6 LLA
|
|
# and so doesn't need a special route
|
|
for subnet in ex_gw_port.get('subnets', []):
|
|
is_gateway_not_in_subnet = (subnet['gateway_ip'] and
|
|
not ipam_utils.check_subnet_ip(
|
|
subnet['cidr'],
|
|
subnet['gateway_ip']))
|
|
if is_gateway_not_in_subnet:
|
|
preserve_ips.append(subnet['gateway_ip'])
|
|
device = ip_lib.IPDevice(device_name, namespace=namespace)
|
|
device.route.add_route(subnet['gateway_ip'], scope='link')
|
|
|
|
def _configure_ipv6_params_on_gw(self, ex_gw_port, ns_name, interface_name,
|
|
enabled):
|
|
if not self.use_ipv6:
|
|
return
|
|
|
|
disable_ra = not enabled
|
|
if enabled:
|
|
gateway_ips = self._get_external_gw_ips(ex_gw_port)
|
|
if not self.is_v6_gateway_set(gateway_ips):
|
|
# There is no IPv6 gw_ip, use RouterAdvt for default route.
|
|
self.driver.configure_ipv6_ra(
|
|
ns_name, interface_name, n_const.ACCEPT_RA_WITH_FORWARDING)
|
|
else:
|
|
# Otherwise, disable it
|
|
disable_ra = True
|
|
if disable_ra:
|
|
self.driver.configure_ipv6_ra(ns_name, interface_name,
|
|
n_const.ACCEPT_RA_DISABLED)
|
|
self.driver.configure_ipv6_forwarding(ns_name, interface_name, enabled)
|
|
# This will make sure the 'all' setting is the same as the interface,
|
|
# which is needed for forwarding to work. Don't disable once it's
|
|
# been enabled so as to not send spurious MLDv2 packets out.
|
|
if enabled:
|
|
self.driver.configure_ipv6_forwarding(ns_name, 'all', enabled)
|
|
|
|
def _external_gateway_added(self, ex_gw_port, interface_name,
|
|
ns_name, preserve_ips):
|
|
LOG.debug("External gateway added: port(%s), interface(%s), ns(%s)",
|
|
ex_gw_port, interface_name, ns_name)
|
|
self._plug_external_gateway(ex_gw_port, interface_name, ns_name)
|
|
|
|
# Build up the interface and gateway IP addresses that
|
|
# will be added to the interface.
|
|
ip_cidrs = common_utils.fixed_ip_cidrs(ex_gw_port['fixed_ips'])
|
|
|
|
gateway_ips = self._get_external_gw_ips(ex_gw_port)
|
|
|
|
self._add_route_to_gw(ex_gw_port, device_name=interface_name,
|
|
namespace=ns_name, preserve_ips=preserve_ips)
|
|
self.driver.init_router_port(
|
|
interface_name,
|
|
ip_cidrs,
|
|
namespace=ns_name,
|
|
extra_subnets=ex_gw_port.get('extra_subnets', []),
|
|
preserve_ips=preserve_ips,
|
|
clean_connections=True)
|
|
|
|
device = ip_lib.IPDevice(interface_name, namespace=ns_name)
|
|
current_gateways = set()
|
|
for ip_version in (lib_constants.IP_VERSION_4,
|
|
lib_constants.IP_VERSION_6):
|
|
gateway = device.route.get_gateway(ip_version=ip_version)
|
|
if gateway and gateway.get('gateway'):
|
|
current_gateways.add(gateway.get('gateway'))
|
|
for ip in current_gateways - set(gateway_ips):
|
|
device.route.delete_gateway(ip)
|
|
for ip in gateway_ips:
|
|
device.route.add_gateway(ip)
|
|
|
|
self._configure_ipv6_params_on_gw(ex_gw_port, ns_name, interface_name,
|
|
True)
|
|
|
|
for fixed_ip in ex_gw_port['fixed_ips']:
|
|
ip_lib.send_ip_addr_adv_notif(ns_name,
|
|
interface_name,
|
|
fixed_ip['ip_address'])
|
|
|
|
def is_v6_gateway_set(self, gateway_ips):
|
|
"""Check to see if list of gateway_ips has an IPv6 gateway.
|
|
"""
|
|
# Note - don't require a try-except here as all
|
|
# gateway_ips elements are valid addresses, if they exist.
|
|
return any(netaddr.IPAddress(gw_ip).version == 6
|
|
for gw_ip in gateway_ips)
|
|
|
|
def external_gateway_added(self, ex_gw_port, interface_name):
|
|
preserve_ips = self._list_floating_ip_cidrs() + list(
|
|
self.centralized_port_forwarding_fip_set)
|
|
preserve_ips.extend(self.agent.pd.get_preserve_ips(self.router_id))
|
|
self._external_gateway_added(
|
|
ex_gw_port, interface_name, self.ns_name, preserve_ips)
|
|
|
|
def external_gateway_updated(self, ex_gw_port, interface_name):
|
|
preserve_ips = self._list_floating_ip_cidrs() + list(
|
|
self.centralized_port_forwarding_fip_set)
|
|
preserve_ips.extend(self.agent.pd.get_preserve_ips(self.router_id))
|
|
self._external_gateway_added(
|
|
ex_gw_port, interface_name, self.ns_name, preserve_ips)
|
|
|
|
def external_gateway_removed(self, ex_gw_port, interface_name):
|
|
LOG.debug("External gateway removed: port(%s), interface(%s)",
|
|
ex_gw_port, interface_name)
|
|
device = ip_lib.IPDevice(interface_name, namespace=self.ns_name)
|
|
for ip_addr in ex_gw_port['fixed_ips']:
|
|
prefixlen = ip_addr.get('prefixlen')
|
|
self.remove_external_gateway_ip(device,
|
|
common_utils.ip_to_cidr(
|
|
ip_addr['ip_address'],
|
|
prefixlen))
|
|
self.driver.unplug(interface_name,
|
|
bridge=self.agent_conf.external_network_bridge,
|
|
namespace=self.ns_name,
|
|
prefix=EXTERNAL_DEV_PREFIX)
|
|
|
|
@staticmethod
|
|
def _gateway_ports_equal(port1, port2):
|
|
return port1 == port2
|
|
|
|
def _delete_stale_external_devices(self, interface_name):
|
|
existing_devices = self._get_existing_devices()
|
|
stale_devs = [dev for dev in existing_devices
|
|
if dev.startswith(EXTERNAL_DEV_PREFIX) and
|
|
dev != interface_name]
|
|
for stale_dev in stale_devs:
|
|
LOG.debug('Deleting stale external router device: %s', stale_dev)
|
|
self.agent.pd.remove_gw_interface(self.router['id'])
|
|
self.driver.unplug(stale_dev,
|
|
bridge=self.agent_conf.external_network_bridge,
|
|
namespace=self.ns_name,
|
|
prefix=EXTERNAL_DEV_PREFIX)
|
|
|
|
def _process_external_gateway(self, ex_gw_port):
|
|
# TODO(Carl) Refactor to clarify roles of ex_gw_port vs self.ex_gw_port
|
|
ex_gw_port_id = (ex_gw_port and ex_gw_port['id'] or
|
|
self.ex_gw_port and self.ex_gw_port['id'])
|
|
|
|
interface_name = None
|
|
if ex_gw_port_id:
|
|
interface_name = self.get_external_device_name(ex_gw_port_id)
|
|
if ex_gw_port:
|
|
if not self.ex_gw_port:
|
|
self.external_gateway_added(ex_gw_port, interface_name)
|
|
self.agent.pd.add_gw_interface(self.router['id'],
|
|
interface_name)
|
|
elif not self._gateway_ports_equal(ex_gw_port, self.ex_gw_port):
|
|
self.external_gateway_updated(ex_gw_port, interface_name)
|
|
elif not ex_gw_port and self.ex_gw_port:
|
|
self.external_gateway_removed(self.ex_gw_port, interface_name)
|
|
self.agent.pd.remove_gw_interface(self.router['id'])
|
|
elif not ex_gw_port and not self.ex_gw_port:
|
|
for p in self.internal_ports:
|
|
interface_name = self.get_internal_device_name(p['id'])
|
|
self.gateway_redirect_cleanup(interface_name)
|
|
|
|
self._delete_stale_external_devices(interface_name)
|
|
|
|
# Process SNAT rules for external gateway
|
|
gw_port = self._router.get('gw_port')
|
|
self._handle_router_snat_rules(gw_port, interface_name)
|
|
|
|
def _prevent_snat_for_internal_traffic_rule(self, interface_name):
|
|
return (
|
|
'POSTROUTING', '! -i %(interface_name)s '
|
|
'! -o %(interface_name)s -m conntrack ! '
|
|
'--ctstate DNAT -j ACCEPT' %
|
|
{'interface_name': interface_name})
|
|
|
|
def external_gateway_nat_fip_rules(self, ex_gw_ip, interface_name):
|
|
dont_snat_traffic_to_internal_ports_if_not_to_floating_ip = (
|
|
self._prevent_snat_for_internal_traffic_rule(interface_name))
|
|
# Makes replies come back through the router to reverse DNAT
|
|
ext_in_mark = self.agent_conf.external_ingress_mark
|
|
to_source = ('-m mark ! --mark %s/%s '
|
|
'-m conntrack --ctstate DNAT '
|
|
'-j SNAT --to-source %s'
|
|
% (ext_in_mark, n_const.ROUTER_MARK_MASK, ex_gw_ip))
|
|
if self.iptables_manager.random_fully:
|
|
to_source += ' --random-fully'
|
|
snat_internal_traffic_to_floating_ip = ('snat', to_source)
|
|
return [dont_snat_traffic_to_internal_ports_if_not_to_floating_ip,
|
|
snat_internal_traffic_to_floating_ip]
|
|
|
|
def external_gateway_nat_snat_rules(self, ex_gw_ip, interface_name):
|
|
to_source = '-o %s -j SNAT --to-source %s' % (interface_name, ex_gw_ip)
|
|
if self.iptables_manager.random_fully:
|
|
to_source += ' --random-fully'
|
|
return [('snat', to_source)]
|
|
|
|
def external_gateway_mangle_rules(self, interface_name):
|
|
mark = self.agent_conf.external_ingress_mark
|
|
mark_packets_entering_external_gateway_port = (
|
|
'mark', '-i %s -j MARK --set-xmark %s/%s' %
|
|
(interface_name, mark, n_const.ROUTER_MARK_MASK))
|
|
return [mark_packets_entering_external_gateway_port]
|
|
|
|
def _empty_snat_chains(self, iptables_manager):
|
|
iptables_manager.ipv4['nat'].empty_chain('POSTROUTING')
|
|
iptables_manager.ipv4['nat'].empty_chain('snat')
|
|
iptables_manager.ipv4['mangle'].empty_chain('mark')
|
|
iptables_manager.ipv4['mangle'].empty_chain('POSTROUTING')
|
|
|
|
def _add_snat_rules(self, ex_gw_port, iptables_manager,
|
|
interface_name):
|
|
self.process_external_port_address_scope_routing(iptables_manager)
|
|
|
|
if ex_gw_port:
|
|
# ex_gw_port should not be None in this case
|
|
# NAT rules are added only if ex_gw_port has an IPv4 address
|
|
for ip_addr in ex_gw_port['fixed_ips']:
|
|
ex_gw_ip = ip_addr['ip_address']
|
|
if netaddr.IPAddress(ex_gw_ip).version == 4:
|
|
if self._snat_enabled:
|
|
rules = self.external_gateway_nat_snat_rules(
|
|
ex_gw_ip, interface_name)
|
|
for rule in rules:
|
|
iptables_manager.ipv4['nat'].add_rule(*rule)
|
|
|
|
rules = self.external_gateway_nat_fip_rules(
|
|
ex_gw_ip, interface_name)
|
|
for rule in rules:
|
|
iptables_manager.ipv4['nat'].add_rule(*rule)
|
|
rules = self.external_gateway_mangle_rules(interface_name)
|
|
for rule in rules:
|
|
iptables_manager.ipv4['mangle'].add_rule(*rule)
|
|
|
|
break
|
|
|
|
def _handle_router_snat_rules(self, ex_gw_port, interface_name):
|
|
self._empty_snat_chains(self.iptables_manager)
|
|
|
|
self.iptables_manager.ipv4['nat'].add_rule('snat', '-j $float-snat')
|
|
|
|
self._add_snat_rules(ex_gw_port,
|
|
self.iptables_manager,
|
|
interface_name)
|
|
|
|
def _process_external_on_delete(self):
|
|
fip_statuses = {}
|
|
try:
|
|
ex_gw_port = self.get_ex_gw_port()
|
|
self._process_external_gateway(ex_gw_port)
|
|
if not ex_gw_port:
|
|
return
|
|
|
|
interface_name = self.get_external_device_interface_name(
|
|
ex_gw_port)
|
|
fip_statuses = self.configure_fip_addresses(interface_name)
|
|
|
|
except n_exc.FloatingIpSetupException:
|
|
# All floating IPs must be put in error state
|
|
LOG.exception("Failed to process floating IPs.")
|
|
fip_statuses = self.put_fips_in_error_state()
|
|
finally:
|
|
self.update_fip_statuses(fip_statuses)
|
|
|
|
def process_external(self):
|
|
fip_statuses = {}
|
|
try:
|
|
with self.iptables_manager.defer_apply():
|
|
ex_gw_port = self.get_ex_gw_port()
|
|
self._process_external_gateway(ex_gw_port)
|
|
if not ex_gw_port:
|
|
return
|
|
|
|
# Process SNAT/DNAT rules and addresses for floating IPs
|
|
self.process_snat_dnat_for_fip()
|
|
|
|
# Once NAT rules for floating IPs are safely in place
|
|
# configure their addresses on the external gateway port
|
|
interface_name = self.get_external_device_interface_name(
|
|
ex_gw_port)
|
|
fip_statuses = self.configure_fip_addresses(interface_name)
|
|
|
|
except (n_exc.FloatingIpSetupException,
|
|
n_exc.IpTablesApplyException):
|
|
# All floating IPs must be put in error state
|
|
LOG.exception("Failed to process floating IPs.")
|
|
fip_statuses = self.put_fips_in_error_state()
|
|
finally:
|
|
self.update_fip_statuses(fip_statuses)
|
|
|
|
def update_fip_statuses(self, fip_statuses):
|
|
# Identify floating IPs which were disabled
|
|
existing_floating_ips = self.floating_ips
|
|
self.floating_ips = set(fip_statuses.keys())
|
|
for fip_id in existing_floating_ips - self.floating_ips:
|
|
fip_statuses[fip_id] = lib_constants.FLOATINGIP_STATUS_DOWN
|
|
# filter out statuses that didn't change
|
|
fip_statuses = {f: stat for f, stat in fip_statuses.items()
|
|
if stat != FLOATINGIP_STATUS_NOCHANGE}
|
|
if not fip_statuses:
|
|
return
|
|
LOG.debug('Sending floating ip statuses: %s', fip_statuses)
|
|
# Update floating IP status on the neutron server
|
|
self.agent.plugin_rpc.update_floatingip_statuses(
|
|
self.agent.context, self.router_id, fip_statuses)
|
|
|
|
def initialize_address_scope_iptables(self):
|
|
self._initialize_address_scope_iptables(self.iptables_manager)
|
|
|
|
def _initialize_address_scope_iptables(self, iptables_manager):
|
|
# Add address scope related chains
|
|
iptables_manager.ipv4['mangle'].add_chain('scope')
|
|
iptables_manager.ipv6['mangle'].add_chain('scope')
|
|
|
|
iptables_manager.ipv4['mangle'].add_chain('floatingip')
|
|
iptables_manager.ipv4['mangle'].add_chain('float-snat')
|
|
|
|
iptables_manager.ipv4['filter'].add_chain('scope')
|
|
iptables_manager.ipv6['filter'].add_chain('scope')
|
|
iptables_manager.ipv4['filter'].add_rule('FORWARD', '-j $scope')
|
|
iptables_manager.ipv6['filter'].add_rule('FORWARD', '-j $scope')
|
|
|
|
# Add rules for marking traffic for address scopes
|
|
mark_new_ingress_address_scope_by_interface = (
|
|
'-j $scope')
|
|
copy_address_scope_for_existing = (
|
|
'-m connmark ! --mark 0x0/0xffff0000 '
|
|
'-j CONNMARK --restore-mark '
|
|
'--nfmask 0xffff0000 --ctmask 0xffff0000')
|
|
mark_new_ingress_address_scope_by_floatingip = (
|
|
'-j $floatingip')
|
|
save_mark_to_connmark = (
|
|
'-m connmark --mark 0x0/0xffff0000 '
|
|
'-j CONNMARK --save-mark '
|
|
'--nfmask 0xffff0000 --ctmask 0xffff0000')
|
|
|
|
iptables_manager.ipv4['mangle'].add_rule(
|
|
'PREROUTING', mark_new_ingress_address_scope_by_interface)
|
|
iptables_manager.ipv4['mangle'].add_rule(
|
|
'PREROUTING', copy_address_scope_for_existing)
|
|
# The floating ip scope rules must come after the CONNTRACK rules
|
|
# because the (CONN)MARK targets are non-terminating (this is true
|
|
# despite them not being documented as such) and the floating ip
|
|
# rules need to override the mark from CONNMARK to cross scopes.
|
|
iptables_manager.ipv4['mangle'].add_rule(
|
|
'PREROUTING', mark_new_ingress_address_scope_by_floatingip)
|
|
iptables_manager.ipv4['mangle'].add_rule(
|
|
'float-snat', save_mark_to_connmark)
|
|
iptables_manager.ipv6['mangle'].add_rule(
|
|
'PREROUTING', mark_new_ingress_address_scope_by_interface)
|
|
iptables_manager.ipv6['mangle'].add_rule(
|
|
'PREROUTING', copy_address_scope_for_existing)
|
|
|
|
def initialize_metadata_iptables(self):
|
|
# Always mark incoming metadata requests, that way any stray
|
|
# requests that arrive before the filter metadata redirect
|
|
# rule is installed will be dropped.
|
|
mark_metadata_for_internal_interfaces = (
|
|
'-d 169.254.169.254/32 '
|
|
'-i %(interface_name)s '
|
|
'-p tcp -m tcp --dport 80 '
|
|
'-j MARK --set-xmark %(value)s/%(mask)s' %
|
|
{'interface_name': INTERNAL_DEV_PREFIX + '+',
|
|
'value': self.agent_conf.metadata_access_mark,
|
|
'mask': n_const.ROUTER_MARK_MASK})
|
|
self.iptables_manager.ipv4['mangle'].add_rule(
|
|
'PREROUTING', mark_metadata_for_internal_interfaces)
|
|
|
|
def _get_port_devicename_scopemark(self, ports, name_generator):
|
|
devicename_scopemark = {lib_constants.IP_VERSION_4: dict(),
|
|
lib_constants.IP_VERSION_6: dict()}
|
|
for p in ports:
|
|
device_name = name_generator(p['id'])
|
|
ip_cidrs = common_utils.fixed_ip_cidrs(p['fixed_ips'])
|
|
port_as_marks = self.get_port_address_scope_mark(p)
|
|
for ip_version in {common_utils.get_ip_version(cidr)
|
|
for cidr in ip_cidrs}:
|
|
devicename_scopemark[ip_version][device_name] = (
|
|
port_as_marks[ip_version])
|
|
|
|
return devicename_scopemark
|
|
|
|
def _get_address_scope_mark(self):
|
|
# Prepare address scope iptables rule for internal ports
|
|
internal_ports = self.router.get(lib_constants.INTERFACE_KEY, [])
|
|
ports_scopemark = self._get_port_devicename_scopemark(
|
|
internal_ports, self.get_internal_device_name)
|
|
|
|
# Prepare address scope iptables rule for external port
|
|
external_port = self.get_ex_gw_port()
|
|
if external_port:
|
|
external_port_scopemark = self._get_port_devicename_scopemark(
|
|
[external_port], self.get_external_device_name)
|
|
for ip_version in (lib_constants.IP_VERSION_4,
|
|
lib_constants.IP_VERSION_6):
|
|
ports_scopemark[ip_version].update(
|
|
external_port_scopemark[ip_version])
|
|
return ports_scopemark
|
|
|
|
def _add_address_scope_mark(self, iptables_manager, ports_scopemark):
|
|
external_device_name = None
|
|
external_port = self.get_ex_gw_port()
|
|
if external_port:
|
|
external_device_name = self.get_external_device_name(
|
|
external_port['id'])
|
|
|
|
# Process address scope iptables rules
|
|
for ip_version in (lib_constants.IP_VERSION_4,
|
|
lib_constants.IP_VERSION_6):
|
|
scopemarks = ports_scopemark[ip_version]
|
|
iptables = iptables_manager.get_tables(ip_version)
|
|
iptables['mangle'].empty_chain('scope')
|
|
iptables['filter'].empty_chain('scope')
|
|
dont_block_external = (ip_version == lib_constants.IP_VERSION_4 and
|
|
self._snat_enabled and external_port)
|
|
for device_name, mark in scopemarks.items():
|
|
# Add address scope iptables rule
|
|
iptables['mangle'].add_rule(
|
|
'scope',
|
|
self.address_scope_mangle_rule(device_name, mark))
|
|
if dont_block_external and device_name == external_device_name:
|
|
continue
|
|
iptables['filter'].add_rule(
|
|
'scope',
|
|
self.address_scope_filter_rule(device_name, mark))
|
|
for subnet_id, prefix in self.pd_subnets.items():
|
|
if prefix != lib_constants.PROVISIONAL_IPV6_PD_PREFIX:
|
|
self._process_pd_iptables_rules(prefix, subnet_id)
|
|
|
|
def process_ports_address_scope_iptables(self):
|
|
ports_scopemark = self._get_address_scope_mark()
|
|
self._add_address_scope_mark(self.iptables_manager, ports_scopemark)
|
|
|
|
def _get_external_address_scope(self):
|
|
external_port = self.get_ex_gw_port()
|
|
if not external_port:
|
|
return
|
|
|
|
scopes = external_port.get('address_scopes', {})
|
|
return scopes.get(str(lib_constants.IP_VERSION_4))
|
|
|
|
def process_external_port_address_scope_routing(self, iptables_manager):
|
|
if not self._snat_enabled:
|
|
return
|
|
|
|
external_port = self.get_ex_gw_port()
|
|
if not external_port:
|
|
return
|
|
|
|
external_devicename = self.get_external_device_name(
|
|
external_port['id'])
|
|
|
|
# Saves the originating address scope by saving the packet MARK to
|
|
# the CONNMARK for new connections so that returning traffic can be
|
|
# match to it.
|
|
rule = ('-o %s -m connmark --mark 0x0/0xffff0000 '
|
|
'-j CONNMARK --save-mark '
|
|
'--nfmask 0xffff0000 --ctmask 0xffff0000' %
|
|
external_devicename)
|
|
|
|
iptables_manager.ipv4['mangle'].add_rule('POSTROUTING', rule)
|
|
|
|
address_scope = self._get_external_address_scope()
|
|
if not address_scope:
|
|
return
|
|
|
|
# Prevents snat within the same address scope
|
|
rule = '-o %s -m connmark --mark %s -j ACCEPT' % (
|
|
external_devicename,
|
|
self.get_address_scope_mark_mask(address_scope))
|
|
iptables_manager.ipv4['nat'].add_rule('snat', rule)
|
|
|
|
def process_address_scope(self):
|
|
with self.iptables_manager.defer_apply():
|
|
self.process_ports_address_scope_iptables()
|
|
self.process_floating_ip_address_scope_rules()
|
|
|
|
@common_utils.exception_logger()
|
|
def process_delete(self):
|
|
"""Process the delete of this router
|
|
|
|
This method is the point where the agent requests that this router
|
|
be deleted. This is a separate code path from process in that it
|
|
avoids any changes to the qrouter namespace that will be removed
|
|
at the end of the operation.
|
|
|
|
:param agent: Passes the agent in order to send RPC messages.
|
|
"""
|
|
LOG.debug("Process delete, router %s", self.router['id'])
|
|
if self.router_namespace.exists():
|
|
self._process_internal_ports()
|
|
self.agent.pd.sync_router(self.router['id'])
|
|
self._process_external_on_delete()
|
|
else:
|
|
LOG.warning("Can't gracefully delete the router %s: "
|
|
"no router namespace found", self.router['id'])
|
|
|
|
@common_utils.exception_logger()
|
|
def process(self):
|
|
"""Process updates to this router
|
|
|
|
This method is the point where the agent requests that updates be
|
|
applied to this router.
|
|
|
|
:param agent: Passes the agent in order to send RPC messages.
|
|
"""
|
|
LOG.debug("Process updates, router %s", self.router['id'])
|
|
self.centralized_port_forwarding_fip_set = set(self.router.get(
|
|
'port_forwardings_fip_set', set()))
|
|
self._process_internal_ports()
|
|
self.agent.pd.sync_router(self.router['id'])
|
|
self.process_external()
|
|
self.process_address_scope()
|
|
# Process static routes for router
|
|
self.routes_updated(self.routes, self.router['routes'])
|
|
self.routes = self.router['routes']
|
|
|
|
# Update ex_gw_port on the router info cache
|
|
self.ex_gw_port = self.get_ex_gw_port()
|
|
self.fip_map = dict([(fip['floating_ip_address'],
|
|
fip['fixed_ip_address'])
|
|
for fip in self.get_floating_ips()])
|
|
self.fip_managed_by_port_forwardings = self.router.get(
|
|
'fip_managed_by_port_forwardings')
|