203 lines
8.4 KiB
Python
203 lines
8.4 KiB
Python
#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain 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,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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import re
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import netaddr
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from oslo_concurrency import lockutils
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from oslo_log import log as logging
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from neutron._i18n import _LE
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from neutron.agent.linux import utils as linux_utils
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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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LOG = logging.getLogger(__name__)
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CONTRACK_MGRS = {}
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MAX_CONNTRACK_ZONES = 65535
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@lockutils.synchronized('conntrack')
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def get_conntrack(get_rules_for_table_func, filtered_ports, unfiltered_ports,
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execute=None, namespace=None, zone_per_port=False):
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try:
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return CONTRACK_MGRS[namespace]
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except KeyError:
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ipconntrack = IpConntrackManager(get_rules_for_table_func,
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filtered_ports, unfiltered_ports,
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execute, namespace, zone_per_port)
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CONTRACK_MGRS[namespace] = ipconntrack
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return CONTRACK_MGRS[namespace]
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class IpConntrackManager(object):
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"""Smart wrapper for ip conntrack."""
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def __init__(self, get_rules_for_table_func, filtered_ports,
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unfiltered_ports, execute=None, namespace=None,
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zone_per_port=False):
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self.get_rules_for_table_func = get_rules_for_table_func
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self.execute = execute or linux_utils.execute
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self.namespace = namespace
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self.filtered_ports = filtered_ports
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self.unfiltered_ports = unfiltered_ports
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self.zone_per_port = zone_per_port # zone per port vs per network
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self._populate_initial_zone_map()
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@staticmethod
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def _generate_conntrack_cmd_by_rule(rule, namespace):
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ethertype = rule.get('ethertype')
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protocol = rule.get('protocol')
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direction = rule.get('direction')
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cmd = ['conntrack', '-D']
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if protocol:
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cmd.extend(['-p', str(protocol)])
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cmd.extend(['-f', str(ethertype).lower()])
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cmd.append('-d' if direction == 'ingress' else '-s')
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cmd_ns = []
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if namespace:
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cmd_ns.extend(['ip', 'netns', 'exec', namespace])
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cmd_ns.extend(cmd)
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return cmd_ns
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def _get_conntrack_cmds(self, device_info_list, rule, remote_ip=None):
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conntrack_cmds = set()
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cmd = self._generate_conntrack_cmd_by_rule(rule, self.namespace)
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ethertype = rule.get('ethertype')
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for device_info in device_info_list:
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zone_id = self.get_device_zone(device_info, create=False)
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if not zone_id:
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LOG.debug("No zone for device %(dev)s. Will not try to "
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"clear conntrack state. Zone map: %(zm)s",
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{'dev': device_info['device'],
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'zm': self._device_zone_map})
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continue
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ips = device_info.get('fixed_ips', [])
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for ip in ips:
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net = netaddr.IPNetwork(ip)
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if str(net.version) not in ethertype:
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continue
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ip_cmd = [str(net.ip), '-w', zone_id]
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if remote_ip and str(
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netaddr.IPNetwork(remote_ip).version) in ethertype:
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if rule.get('direction') == 'ingress':
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direction = '-s'
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else:
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direction = '-d'
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ip_cmd.extend([direction, str(remote_ip)])
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conntrack_cmds.add(tuple(cmd + ip_cmd))
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return conntrack_cmds
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def _delete_conntrack_state(self, device_info_list, rule, remote_ip=None):
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conntrack_cmds = self._get_conntrack_cmds(device_info_list,
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rule, remote_ip)
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for cmd in conntrack_cmds:
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try:
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self.execute(list(cmd), run_as_root=True,
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check_exit_code=True,
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extra_ok_codes=[1])
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except RuntimeError:
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LOG.exception(
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_LE("Failed execute conntrack command %s"), cmd)
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def delete_conntrack_state_by_rule(self, device_info_list, rule):
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self._delete_conntrack_state(device_info_list, rule)
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def delete_conntrack_state_by_remote_ips(self, device_info_list,
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ethertype, remote_ips):
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for direction in ['ingress', 'egress']:
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rule = {'ethertype': str(ethertype).lower(),
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'direction': direction}
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if remote_ips:
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for remote_ip in remote_ips:
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self._delete_conntrack_state(
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device_info_list, rule, remote_ip)
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else:
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self._delete_conntrack_state(device_info_list, rule)
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def _populate_initial_zone_map(self):
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"""Setup the map between devices and zones based on current rules."""
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self._device_zone_map = {}
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rules = self.get_rules_for_table_func('raw')
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for rule in rules:
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match = re.match(r'.* --physdev-in (?P<dev>[a-zA-Z0-9\-]+)'
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r'.* -j CT --zone (?P<zone>\d+).*', rule)
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if match:
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# strip off any prefix that the interface is using
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short_port_id = (match.group('dev')
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[n_const.LINUX_DEV_PREFIX_LEN:])
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self._device_zone_map[short_port_id] = int(match.group('zone'))
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LOG.debug("Populated conntrack zone map: %s", self._device_zone_map)
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def _device_key(self, port):
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# we have to key the device_zone_map based on the fragment of the
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# UUID that shows up in the interface name. This is because the initial
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# map is populated strictly based on interface names that we don't know
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# the full UUID of.
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if self.zone_per_port:
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identifier = port['device'][n_const.LINUX_DEV_PREFIX_LEN:]
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else:
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identifier = port['network_id']
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return identifier[:(n_const.LINUX_DEV_LEN -
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n_const.LINUX_DEV_PREFIX_LEN)]
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def get_device_zone(self, port, create=True):
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device_key = self._device_key(port)
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try:
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return self._device_zone_map[device_key]
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except KeyError:
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if create:
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return self._generate_device_zone(device_key)
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def _free_zones_from_removed_ports(self):
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"""Clears any entries from the zone map of removed ports."""
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existing_ports = [
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self._device_key(port)
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for port in (list(self.filtered_ports.values()) +
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list(self.unfiltered_ports.values()))
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]
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removed = set(self._device_zone_map) - set(existing_ports)
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for dev in removed:
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self._device_zone_map.pop(dev, None)
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def _generate_device_zone(self, short_device_id):
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"""Generates a unique conntrack zone for the passed in ID."""
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try:
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zone = self._find_open_zone()
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except n_exc.CTZoneExhaustedError:
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# Free some zones and try again, repeat failure will not be caught
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self._free_zones_from_removed_ports()
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zone = self._find_open_zone()
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self._device_zone_map[short_device_id] = zone
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LOG.debug("Assigned CT zone %(z)s to device %(dev)s.",
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{'z': zone, 'dev': short_device_id})
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return self._device_zone_map[short_device_id]
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def _find_open_zone(self):
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# call set to dedup because old ports may be mapped to the same zone.
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zones_in_use = sorted(set(self._device_zone_map.values()))
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if not zones_in_use:
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return 1
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# attempt to increment onto the highest used zone first. if we hit the
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# end, go back and look for any gaps left by removed devices.
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last = zones_in_use[-1]
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if last < MAX_CONNTRACK_ZONES:
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return last + 1
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for index, used in enumerate(zones_in_use):
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if used - index != 1:
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# gap found, let's use it!
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return index + 1
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# conntrack zones exhausted :( :(
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raise n_exc.CTZoneExhaustedError()
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