Add accepted egress direct flow

Do not flood the packets to bridge, since we have the
bridge port list, we can add a simple direct flow to
the right port only.

Closes-Bug: #1732067
Related-Bug: #1841622
Change-Id: I14fefe289a19b718b247bf0740ca9bc47f8903f4
(cherry picked from commit efa8dd0895)
This commit is contained in:
LIU Yulong 2019-06-24 00:08:12 +08:00 committed by Slawek Kaplonski
parent 53c3a433fb
commit 6c1cf88667
12 changed files with 396 additions and 42 deletions

View File

@ -23,11 +23,14 @@ from neutron_lib.callbacks import events as callbacks_events
from neutron_lib.callbacks import registry as callbacks_registry
from neutron_lib.callbacks import resources as callbacks_resources
from neutron_lib import constants as lib_const
from neutron_lib.plugins import utils as p_utils
from neutron_lib.utils import helpers
from oslo_config import cfg
from oslo_log import log as logging
from oslo_utils import netutils
from neutron._i18n import _
from neutron.agent.common import ovs_lib
from neutron.agent import firewall
from neutron.agent.linux.openvswitch_firewall import constants as ovsfw_consts
from neutron.agent.linux.openvswitch_firewall import exceptions
@ -82,6 +85,26 @@ def get_segmentation_id_from_other_config(bridge, port_name):
pass
def get_network_type_from_other_config(bridge, port_name):
"""Return network_type stored in OVSDB other_config metadata.
:param bridge: OVSBridge instance where port is.
:param port_name: Name of the port.
"""
other_config = bridge.db_get_val('Port', port_name, 'other_config')
return other_config.get('network_type')
def get_physical_network_from_other_config(bridge, port_name):
"""Return physical_network stored in OVSDB other_config metadata.
:param bridge: OVSBridge instance where port is.
:param port_name: Name of the port.
"""
other_config = bridge.db_get_val('Port', port_name, 'other_config')
return other_config.get('physical_network')
def get_tag_from_other_config(bridge, port_name):
"""Return tag stored in OVSDB other_config metadata.
@ -135,7 +158,8 @@ class SecurityGroup(object):
class OFPort(object):
def __init__(self, port_dict, ovs_port, vlan_tag, segment_id=None):
def __init__(self, port_dict, ovs_port, vlan_tag, segment_id=None,
network_type=None, physical_network=None):
self.id = port_dict['device']
self.vlan_tag = vlan_tag
self.segment_id = segment_id
@ -148,6 +172,8 @@ class OFPort(object):
self.neutron_port_dict = port_dict.copy()
self.allowed_pairs_v4 = self._get_allowed_pairs(port_dict, version=4)
self.allowed_pairs_v6 = self._get_allowed_pairs(port_dict, version=6)
self.network_type = network_type
self.physical_network = physical_network
@staticmethod
def _get_allowed_pairs(port_dict, version):
@ -538,6 +564,14 @@ class OVSFirewallDriver(firewall.FirewallDriver):
return get_segmentation_id_from_other_config(
self.int_br.br, port_name)
def _get_port_network_type(self, port_name):
return get_network_type_from_other_config(
self.int_br.br, port_name)
def _get_port_physical_network(self, port_name):
return get_physical_network_from_other_config(
self.int_br.br, port_name)
def get_ofport(self, port):
port_id = port['device']
return self.sg_port_map.ports.get(port_id)
@ -555,8 +589,13 @@ class OVSFirewallDriver(firewall.FirewallDriver):
port_vlan_id = self._get_port_vlan_tag(ovs_port.port_name)
segment_id = self._get_port_segmentation_id(
ovs_port.port_name)
network_type = self._get_port_network_type(
ovs_port.port_name)
physical_network = self._get_port_physical_network(
ovs_port.port_name)
of_port = OFPort(port, ovs_port, port_vlan_id,
segment_id)
segment_id,
network_type, physical_network)
self.sg_port_map.create_port(of_port, port)
else:
if of_port.ofport != ovs_port.ofport:
@ -835,7 +874,7 @@ class OVSFirewallDriver(firewall.FirewallDriver):
{'port_id': port_id,
'err': not_found_e})
return
self.sg_port_map.unfiltered[port_id] = ovs_port.ofport
self.sg_port_map.unfiltered[port_id] = (ovs_port, vlan_tag)
self._add_flow(
table=ovs_consts.TRANSIENT_TABLE,
priority=100,
@ -857,20 +896,33 @@ class OVSFirewallDriver(firewall.FirewallDriver):
ovs_consts.ACCEPTED_EGRESS_TRAFFIC_NORMAL_TABLE)
)
tunnel_direct_info = {
"network_type": self._get_port_network_type(ovs_port.port_name),
"physical_network": self._get_port_physical_network(
ovs_port.port_name)
}
self.install_accepted_egress_direct_flow(
ovs_port.vif_mac, vlan_tag, ovs_port.ofport,
tunnel_direct_info=tunnel_direct_info)
def _remove_egress_no_port_security(self, port_id):
try:
ofport = self.sg_port_map.unfiltered[port_id]
ovs_port, vlan_tag = self.sg_port_map.unfiltered[port_id]
except KeyError:
raise exceptions.OVSFWPortNotHandled(port_id=port_id)
self._delete_flows(
table=ovs_consts.TRANSIENT_TABLE,
in_port=ofport
in_port=ovs_port.ofport
)
self._delete_flows(
table=ovs_consts.ACCEPT_OR_INGRESS_TABLE,
reg_port=ofport
reg_port=ovs_port.ofport
)
self.delete_accepted_egress_direct_flow(
ovs_port.vif_mac, vlan_tag)
del self.sg_port_map.unfiltered[port_id]
def _initialize_egress(self, port):
@ -1030,6 +1082,72 @@ class OVSFirewallDriver(firewall.FirewallDriver):
ovs_consts.ACCEPTED_EGRESS_TRAFFIC_NORMAL_TABLE)
)
tunnel_direct_info = {"network_type": port.network_type,
"physical_network": port.physical_network}
self.install_accepted_egress_direct_flow(
port.mac, port.vlan_tag, port.ofport,
tunnel_direct_info=tunnel_direct_info)
def install_accepted_egress_direct_flow(self, mac, vlan_tag, dst_port,
tunnel_direct_info=None):
if not cfg.CONF.AGENT.explicitly_egress_direct:
return
# Prevent flood for accepted egress traffic
self._add_flow(
table=ovs_consts.ACCEPTED_EGRESS_TRAFFIC_NORMAL_TABLE,
priority=12,
dl_dst=mac,
reg_net=vlan_tag,
actions='output:{:d}'.format(dst_port)
)
# The former flow may not match, that means the destination port is
# not in this host. So, we direct the packet to mapped bridge(s).
if tunnel_direct_info:
patch_ofport = ovs_lib.INVALID_OFPORT
if tunnel_direct_info["network_type"] in (
lib_const.TYPE_VXLAN, lib_const.TYPE_GRE,
lib_const.TYPE_GENEVE):
# Some ports like router internal gateway will not install
# the l2pop related flows, so we will transmit the ARP request
# packet to tunnel bridge use NORMAL action as usual.
port_name = cfg.CONF.OVS.int_peer_patch_port
patch_ofport = self.int_br.br.get_port_ofport(port_name)
elif tunnel_direct_info["network_type"] == lib_const.TYPE_VLAN:
physical_network = tunnel_direct_info["physical_network"]
if not physical_network:
return
bridge_mappings = helpers.parse_mappings(
cfg.CONF.OVS.bridge_mappings)
bridge = bridge_mappings.get(physical_network)
port_name = p_utils.get_interface_name(
bridge, prefix=ovs_consts.PEER_INTEGRATION_PREFIX)
patch_ofport = self.int_br.br.get_port_ofport(port_name)
if patch_ofport is not ovs_lib.INVALID_OFPORT:
self._add_flow(
table=ovs_consts.ACCEPTED_EGRESS_TRAFFIC_NORMAL_TABLE,
priority=10,
dl_src=mac,
dl_dst="00:00:00:00:00:00/01:00:00:00:00:00",
reg_net=vlan_tag,
actions='mod_vlan_vid:{:d},output:{:d}'.format(
vlan_tag,
patch_ofport)
)
def delete_accepted_egress_direct_flow(self, mac, vlan_tag):
self._delete_flows(
table=ovs_consts.ACCEPTED_EGRESS_TRAFFIC_NORMAL_TABLE,
dl_dst=mac,
reg_net=vlan_tag)
self._delete_flows(
table=ovs_consts.ACCEPTED_EGRESS_TRAFFIC_NORMAL_TABLE,
dl_src=mac,
reg_net=vlan_tag)
def _initialize_tracked_egress(self, port):
# Drop invalid packets
self._add_flow(
@ -1291,6 +1409,9 @@ class OVSFirewallDriver(firewall.FirewallDriver):
self.delete_vlan_direct_flow(mac_addr, port.segment_id)
self._delete_flows(table=ovs_consts.ACCEPT_OR_INGRESS_TABLE,
dl_dst=mac_addr, reg_net=port.vlan_tag)
self.delete_accepted_egress_direct_flow(
port.mac, port.vlan_tag)
self._strict_delete_flow(priority=100,
table=ovs_consts.TRANSIENT_TABLE,
in_port=port.ofport)
@ -1298,6 +1419,9 @@ class OVSFirewallDriver(firewall.FirewallDriver):
def delete_flows_for_ip_addresses(
self, ip_addresses, direction, ethertype, vlan_tag):
if not cfg.CONF.AGENT.explicitly_egress_direct:
return
for ip_addr in ip_addresses:
# Generate deletion template with bogus conj_id.
flows = rules.create_flows_for_ip_address(

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@ -123,6 +123,10 @@ class SecurityGroupAgentRpc(object):
*args, **kwargs)
return decorated_function
@skip_if_noopfirewall_or_firewall_disabled
def init_ovs_dvr_firewall(self, dvr_agent):
dvr_agent.set_firewall(self.firewall)
@skip_if_noopfirewall_or_firewall_disabled
def prepare_devices_filter(self, device_ids):
if not device_ids:

View File

@ -169,6 +169,12 @@ agent_opts = [
help=_("Selects the Agent Type reported.")),
cfg.BoolOpt('baremetal_smartnic', default=False,
help=_("Enable the agent to process Smart NIC ports.")),
cfg.BoolOpt('explicitly_egress_direct', default=False,
help=_("When set to True, the accepted egress unicast "
"traffic will not use action NORMAL. The accepted "
"egress packets will be taken care of in the final "
"egress tables direct output flows for unicast "
"traffic.")),
]

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@ -56,6 +56,7 @@ MAC_SPOOF_TABLE = 25
# Table to decide whether further filtering is needed
TRANSIENT_TABLE = 60
TRANSIENT_EGRESS_TABLE = 61
# Tables used for ovs firewall
BASE_EGRESS_TABLE = 71
@ -86,6 +87,7 @@ INT_BR_ALL_TABLES = (
ARP_SPOOF_TABLE,
MAC_SPOOF_TABLE,
TRANSIENT_TABLE,
TRANSIENT_EGRESS_TABLE,
BASE_EGRESS_TABLE,
RULES_EGRESS_TABLE,
ACCEPT_OR_INGRESS_TABLE,

View File

@ -48,6 +48,10 @@ class OVSIntegrationBridge(ovs_bridge.OVSAgentBridge):
self.install_drop(table_id=constants.LOCAL_SWITCHING,
priority=constants.OPENFLOW_MAX_PRIORITY,
vlan_vid=constants.DEAD_VLAN_TAG)
# When openflow firewall is not enabled, we use this table to
# deal with all egress flow.
self.install_normal(table_id=constants.TRANSIENT_EGRESS_TABLE,
priority=3)
def setup_canary_table(self):
self.install_drop(constants.CANARY_TABLE)
@ -157,7 +161,7 @@ class OVSIntegrationBridge(ovs_bridge.OVSAgentBridge):
ofpp.OFPInstructionGotoTable(table_id=constants.TRANSIENT_TABLE),
]
self.install_instructions(table_id=table_id,
priority=4,
priority=20,
match=match,
instructions=instructions)
actions = [
@ -165,7 +169,7 @@ class OVSIntegrationBridge(ovs_bridge.OVSAgentBridge):
ofpp.OFPActionOutput(dst_port, 0),
]
self.install_apply_actions(table_id=constants.TRANSIENT_TABLE,
priority=4,
priority=20,
match=match,
actions=actions)
@ -176,7 +180,7 @@ class OVSIntegrationBridge(ovs_bridge.OVSAgentBridge):
vlan_tag=vlan_tag, dst_mac=dst_mac)
for table in (table_id, constants.TRANSIENT_TABLE):
self.uninstall_flows(
strict=True, priority=4, table_id=table, match=match)
strict=True, priority=20, table_id=table, match=match)
def add_dvr_mac_vlan(self, mac, port):
self.install_goto(table_id=constants.LOCAL_SWITCHING,

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@ -17,11 +17,13 @@ import sys
import netaddr
from neutron_lib import constants as n_const
from oslo_config import cfg
from oslo_log import log as logging
import oslo_messaging
from oslo_utils import excutils
from osprofiler import profiler
from neutron.agent.linux.openvswitch_firewall import firewall as ovs_firewall
from neutron.common import utils as n_utils
from neutron.plugins.ml2.drivers.openvswitch.agent.common import constants
@ -137,6 +139,11 @@ class OVSDVRNeutronAgent(object):
self.arp_responder_enabled = arp_responder_enabled
if self.enable_distributed_routing:
self.get_dvr_mac_address()
self.conf = cfg.CONF
self.firewall = None
def set_firewall(self, firewall=None):
self.firewall = firewall
def setup_dvr_flows(self):
self.setup_dvr_flows_on_integ_br()
@ -392,6 +399,15 @@ class OVSDVRNeutronAgent(object):
subnet_info = ldm.get_subnet_info()
ip_version = subnet_info['ip_version']
if self.firewall and isinstance(self.firewall,
ovs_firewall.OVSFirewallDriver):
tunnel_direct_info = {"network_type": lvm.network_type,
"physical_network": lvm.physical_network}
self.firewall.install_accepted_egress_direct_flow(
subnet_info['gateway_mac'], lvm.vlan, port.ofport,
tunnel_direct_info=tunnel_direct_info)
local_compute_ports = (
self.plugin_rpc.get_ports_on_host_by_subnet(
self.context, self.host, subnet_uuid))
@ -657,6 +673,11 @@ class OVSDVRNeutronAgent(object):
vlan_tag=lvm.vlan, gateway_mac=subnet_info['gateway_mac'])
ovsport.remove_subnet(sub_uuid)
if self.firewall and isinstance(self.firewall,
ovs_firewall.OVSFirewallDriver):
self.firewall.delete_accepted_egress_direct_flow(
subnet_info['gateway_mac'], lvm.vlan)
if lvm.network_type == n_const.TYPE_VLAN:
br = self.phys_brs[physical_network]
if lvm.network_type in constants.TUNNEL_NETWORK_TYPES:

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@ -21,6 +21,7 @@ import signal
import sys
import time
import eventlet
import netaddr
from neutron_lib.agent import constants as agent_consts
from neutron_lib.agent import topics
@ -53,6 +54,7 @@ from neutron.agent.common import ip_lib
from neutron.agent.common import ovs_lib
from neutron.agent.common import polling
from neutron.agent.common import utils
from neutron.agent import firewall as agent_firewall
from neutron.agent.l2 import l2_agent_extensions_manager as ext_manager
from neutron.agent.linux import xenapi_root_helper
from neutron.agent import rpc as agent_rpc
@ -283,6 +285,8 @@ class OVSNeutronAgent(l2population_rpc.L2populationRpcCallBackTunnelMixin,
self.sg_plugin_rpc.register_legacy_sg_notification_callbacks(
self.sg_agent)
self.sg_agent.init_ovs_dvr_firewall(self.dvr_agent)
# we default to False to provide backward compat with out of tree
# firewall drivers that expect the logic that existed on the Neutron
# server which only enabled hybrid plugging based on the use of the
@ -622,26 +626,49 @@ class OVSNeutronAgent(l2population_rpc.L2populationRpcCallBackTunnelMixin,
port_set.remove(port_id)
break
def _get_port_local_vlan(self, port_id):
for network_id, port_set in self.network_ports.items():
if port_id in port_set:
lvm = self.vlan_manager.get(network_id)
return lvm.vlan
def process_deleted_ports(self, port_info):
# don't try to process removed ports as deleted ports since
# they are already gone
if 'removed' in port_info:
self.deleted_ports -= port_info['removed']
deleted_ports = list(self.deleted_ports)
while self.deleted_ports:
port_id = self.deleted_ports.pop()
port = self.int_br.get_vif_port_by_id(port_id)
self._clean_network_ports(port_id)
self.ext_manager.delete_port(self.context,
{"vif_port": port,
"port_id": port_id})
# move to dead VLAN so deleted ports no
# longer have access to the network
if port:
# don't log errors since there is a chance someone will be
# removing the port from the bridge at the same time
self.port_dead(port, log_errors=False)
self.port_unbound(port_id)
with self.int_br.deferred(full_ordered=True,
use_bundle=True) as int_br:
while self.deleted_ports:
port_id = self.deleted_ports.pop()
port = self.int_br.get_vif_port_by_id(port_id)
if (isinstance(self.sg_agent.firewall,
agent_firewall.NoopFirewallDriver) or
not agent_sg_rpc.is_firewall_enabled()):
try:
self.delete_accepted_egress_direct_flow(
int_br,
port.ofport,
port.mac, self._get_port_local_vlan(port_id))
except Exception as err:
LOG.debug("Failed to remove accepted egress flows "
"for port %s, error: %s", port_id, err)
self._clean_network_ports(port_id)
self.ext_manager.delete_port(self.context,
{"vif_port": port,
"port_id": port_id})
# move to dead VLAN so deleted ports no
# longer have access to the network
if port:
# don't log errors since there is a chance someone will be
# removing the port from the bridge at the same time
self.port_dead(port, log_errors=False)
self.port_unbound(port_id)
# Flush firewall rules after ports are put on dead VLAN to be
# more secure
self.sg_agent.remove_devices_filter(deleted_ports)
@ -1997,6 +2024,9 @@ class OVSNeutronAgent(l2population_rpc.L2populationRpcCallBackTunnelMixin,
added_ports = (port_info.get('added', set()) - skipped_devices -
binding_no_activated_devices)
self._add_port_tag_info(need_binding_devices)
self.process_install_ports_egress_flows(need_binding_devices)
self.sg_agent.setup_port_filters(added_ports,
port_info.get('updated', set()))
LOG.info("process_network_ports - iteration:%(iter_num)d - "
@ -2022,6 +2052,83 @@ class OVSNeutronAgent(l2population_rpc.L2populationRpcCallBackTunnelMixin,
'elapsed': time.time() - start})
return failed_devices
def process_install_ports_egress_flows(self, ports):
if not self.conf.AGENT.explicitly_egress_direct:
return
if (isinstance(self.sg_agent.firewall,
agent_firewall.NoopFirewallDriver) or
not agent_sg_rpc.is_firewall_enabled()):
with self.int_br.deferred(full_ordered=True,
use_bundle=True) as int_br:
for port in ports:
try:
self.install_accepted_egress_direct_flow(port, int_br)
# give other coroutines a chance to run
eventlet.sleep(0)
except Exception as err:
LOG.debug("Failed to install accepted egress flows "
"for port %s, error: %s",
port['port_id'], err)
def install_accepted_egress_direct_flow(self, port_detail, br_int):
lvm = self.vlan_manager.get(port_detail['network_id'])
port = port_detail['vif_port']
br_int.add_flow(
table=constants.TRANSIENT_TABLE,
priority=9,
in_port=port.ofport,
dl_src=port_detail['mac_address'],
actions='resubmit(,{:d})'.format(
constants.TRANSIENT_EGRESS_TABLE))
br_int.add_flow(
table=constants.TRANSIENT_EGRESS_TABLE,
priority=12,
dl_dst=port_detail['mac_address'],
actions='output:{:d}'.format(port.ofport))
patch_ofport = None
if lvm.network_type in (
n_const.TYPE_VXLAN, n_const.TYPE_GRE,
n_const.TYPE_GENEVE):
port_name = self.conf.OVS.int_peer_patch_port
patch_ofport = self.int_br.get_port_ofport(port_name)
elif lvm.network_type == n_const.TYPE_VLAN:
bridge = self.bridge_mappings.get(lvm.physical_network)
port_name = plugin_utils.get_interface_name(
bridge, prefix=constants.PEER_INTEGRATION_PREFIX)
patch_ofport = self.int_br.get_port_ofport(port_name)
if patch_ofport is not None:
br_int.add_flow(
table=constants.TRANSIENT_EGRESS_TABLE,
priority=10,
dl_src=port_detail['mac_address'],
dl_dst="00:00:00:00:00:00/01:00:00:00:00:00",
in_port=port.ofport,
actions='mod_vlan_vid:{:d},'
'output:{:d}'.format(
lvm.vlan,
patch_ofport))
def delete_accepted_egress_direct_flow(self, br_int, ofport, mac, vlan):
if not self.conf.AGENT.explicitly_egress_direct:
return
br_int.delete_flows(
table=constants.TRANSIENT_TABLE,
in_port=ofport,
dl_src=mac)
self.delete_flows(
table=constants.TRANSIENT_EGRESS_TABLE,
dl_dst=mac)
self.delete_flows(
table=constants.TRANSIENT_EGRESS_TABLE,
dl_src=mac,
in_port=ofport)
def process_ancillary_network_ports(self, port_info):
failed_devices = {'added': set(), 'removed': set()}
if 'added' in port_info and port_info['added']:

View File

@ -17,6 +17,8 @@ from neutron_lib.callbacks import events as callbacks_events
from neutron_lib.callbacks import registry as callbacks_registry
from neutron_lib.callbacks import resources as callbacks_resources
from neutron_lib import constants
from neutron_lib.utils import helpers
from oslo_config import cfg
import testtools
from neutron.agent.common import ovs_lib
@ -35,11 +37,13 @@ TESTING_VLAN_TAG = 1
TESTING_SEGMENT = 1000
def create_ofport(port_dict):
def create_ofport(port_dict, network_type=None, physical_network=None):
ovs_port = mock.Mock(vif_mac='00:00:00:00:00:00', ofport=1,
port_name="port-name")
return ovsfw.OFPort(port_dict, ovs_port, vlan_tag=TESTING_VLAN_TAG,
segment_id=TESTING_SEGMENT)
segment_id=TESTING_SEGMENT,
network_type=network_type,
physical_network=physical_network)
class TestCreateRegNumbers(base.BaseTestCase):
@ -381,6 +385,7 @@ class TestOVSFirewallDriver(base.BaseTestCase):
self.fake_ovs_port = FakeOVSPort('port', 1, '00:00:00:00:00:00')
self.mock_bridge.br.get_vif_port_by_id.return_value = \
self.fake_ovs_port
cfg.CONF.set_override('explicitly_egress_direct', True, 'AGENT')
def _prepare_security_group(self):
security_group_rules = [
@ -572,10 +577,14 @@ class TestOVSFirewallDriver(base.BaseTestCase):
port_dict = {
'device': 'port-id',
'security_groups': [1]}
of_port = create_ofport(port_dict)
of_port = create_ofport(port_dict,
network_type=constants.TYPE_VXLAN)
self.firewall.sg_port_map.ports[of_port.id] = of_port
port = self.firewall.get_or_create_ofport(port_dict)
fake_patch_port = 999
self.mock_bridge.br.get_port_ofport.return_value = fake_patch_port
self.firewall.initialize_port_flows(port)
call_args1 = {
@ -624,11 +633,29 @@ class TestOVSFirewallDriver(base.BaseTestCase):
self.mock_bridge.br.add_flow.assert_has_calls(
[egress_flow_call, ingress_flow_call1, ingress_flow_call2])
def test_initialize_port_flows_vlan_dvr_conntrack_direct_vlan(self):
port_dict = {
'device': 'port-id',
'security_groups': [1]}
of_port = create_ofport(port_dict,
network_type=constants.TYPE_VLAN,
physical_network='vlan1')
self.firewall.sg_port_map.ports[of_port.id] = of_port
port = self.firewall.get_or_create_ofport(port_dict)
fake_patch_port = 999
self.mock_bridge.br.get_port_ofport.return_value = fake_patch_port
with mock.patch.object(helpers, "parse_mappings",
return_value={"vlan1": "br-vlan1"}):
self.firewall.initialize_port_flows(port)
def test_delete_all_port_flows(self):
port_dict = {
'device': 'port-id',
'security_groups': [1]}
of_port = create_ofport(port_dict)
of_port = create_ofport(port_dict,
network_type=constants.TYPE_VXLAN)
self.firewall.sg_port_map.ports[of_port.id] = of_port
port = self.firewall.get_or_create_ofport(port_dict)
@ -662,8 +689,18 @@ class TestOVSFirewallDriver(base.BaseTestCase):
call_args5 = {"reg5": port.ofport}
flow5 = mock.call(**call_args5)
call_args6 = {"table": ovs_consts.ACCEPTED_EGRESS_TRAFFIC_NORMAL_TABLE,
"dl_dst": port.mac,
"reg6": port.vlan_tag}
flow6 = mock.call(**call_args6)
call_args7 = {"table": ovs_consts.ACCEPTED_EGRESS_TRAFFIC_NORMAL_TABLE,
"dl_src": port.mac,
"reg6": port.vlan_tag}
flow7 = mock.call(**call_args7)
self.mock_bridge.br.delete_flows.assert_has_calls(
[flow1, flow2, flow3, flow4, flow5])
[flow1, flow2, flow3, flow6, flow7, flow4, flow5])
def test_prepare_port_filter_initialized_port(self):
port_dict = {'device': 'port-id',
@ -830,7 +867,8 @@ class TestOVSFirewallDriver(base.BaseTestCase):
def test__remove_egress_no_port_security_deletes_flow(self):
self.mock_bridge.br.db_get_val.return_value = {'tag': TESTING_VLAN_TAG}
self.firewall.sg_port_map.unfiltered['port_id'] = 1
self.firewall.sg_port_map.unfiltered['port_id'] = (
self.fake_ovs_port, 100)
self.firewall._remove_egress_no_port_security('port_id')
expected_call = mock.call(
table=ovs_consts.TRANSIENT_TABLE,
@ -848,9 +886,10 @@ class TestOVSFirewallDriver(base.BaseTestCase):
with mock.patch.object(self.firewall.int_br.br, 'get_vifs_by_ids',
return_value={'port_id': vif_port}):
self.firewall.process_trusted_ports(['port_id'])
self.assertEqual(1, len(self.firewall.sg_port_map.unfiltered))
self.assertEqual(vif_port.ofport,
self.firewall.sg_port_map.unfiltered['port_id'])
self.assertEqual(1,
len(self.firewall.sg_port_map.unfiltered.keys()))
ofport, _ = self.firewall.sg_port_map.unfiltered['port_id']
self.assertEqual(vif_port.ofport, ofport.ofport)
def test_process_trusted_ports_port_not_found(self):
"""Check that exception is not propagated outside."""
@ -861,7 +900,8 @@ class TestOVSFirewallDriver(base.BaseTestCase):
self.assertEqual(0, len(self.firewall.sg_port_map.unfiltered))
def test_remove_trusted_ports_clears_cached_port_id(self):
self.firewall.sg_port_map.unfiltered['port_id'] = 1
self.firewall.sg_port_map.unfiltered['port_id'] = (
self.fake_ovs_port, 100)
self.firewall.remove_trusted_ports(['port_id'])
self.assertNotIn('port_id', self.firewall.sg_port_map.unfiltered)

View File

@ -77,6 +77,18 @@ class OVSIntegrationBridgeTest(ovs_bridge_test_base.OVSBridgeTestBase):
priority=65535,
table_id=0),
active_bundle=None),
call._send_msg(ofpp.OFPFlowMod(dp,
cookie=self.stamp,
instructions=[
ofpp.OFPInstructionActions(
ofp.OFPIT_APPLY_ACTIONS, [
ofpp.OFPActionOutput(ofp.OFPP_NORMAL, 0)
]),
],
match=ofpp.OFPMatch(),
priority=3,
table_id=61),
active_bundle=None),
]
self.assertEqual(expected, self.mock.mock_calls)
@ -183,7 +195,7 @@ class OVSIntegrationBridgeTest(ovs_bridge_test_base.OVSBridgeTestBase):
match=ofpp.OFPMatch(
eth_dst=dst_mac,
vlan_vid=vlan_tag | ofp.OFPVID_PRESENT),
priority=4,
priority=20,
table_id=1),
active_bundle=None),
call._send_msg(ofpp.OFPFlowMod(dp,
@ -197,7 +209,7 @@ class OVSIntegrationBridgeTest(ovs_bridge_test_base.OVSBridgeTestBase):
match=ofpp.OFPMatch(
eth_dst=dst_mac,
vlan_vid=vlan_tag | ofp.OFPVID_PRESENT),
priority=4,
priority=20,
table_id=60),
active_bundle=None),
]
@ -214,14 +226,14 @@ class OVSIntegrationBridgeTest(ovs_bridge_test_base.OVSBridgeTestBase):
expected = [
call.uninstall_flows(
strict=True,
priority=4,
priority=20,
table_id=1,
match=ofpp.OFPMatch(
eth_dst=dst_mac,
vlan_vid=vlan_tag | ofp.OFPVID_PRESENT)),
call.uninstall_flows(
strict=True,
priority=4,
priority=20,
table_id=60,
match=ofpp.OFPMatch(
eth_dst=dst_mac,
@ -253,7 +265,7 @@ class OVSIntegrationBridgeTest(ovs_bridge_test_base.OVSBridgeTestBase):
match=ofpp.OFPMatch(
eth_dst=dst_mac,
vlan_vid=vlan_tag | ofp.OFPVID_PRESENT),
priority=4,
priority=20,
table_id=2),
active_bundle=None),
call._send_msg(ofpp.OFPFlowMod(dp,
@ -267,7 +279,7 @@ class OVSIntegrationBridgeTest(ovs_bridge_test_base.OVSBridgeTestBase):
match=ofpp.OFPMatch(
eth_dst=dst_mac,
vlan_vid=vlan_tag | ofp.OFPVID_PRESENT),
priority=4,
priority=20,
table_id=60),
active_bundle=None),
]
@ -284,14 +296,14 @@ class OVSIntegrationBridgeTest(ovs_bridge_test_base.OVSBridgeTestBase):
expected = [
call.uninstall_flows(
strict=True,
priority=4,
priority=20,
table_id=2,
match=ofpp.OFPMatch(
eth_dst=dst_mac,
vlan_vid=vlan_tag | ofp.OFPVID_PRESENT)),
call.uninstall_flows(
strict=True,
priority=4,
priority=20,
table_id=60,
match=ofpp.OFPMatch(
eth_dst=dst_mac,

View File

@ -12,6 +12,7 @@
# License for the specific language governing permissions and limitations
# under the License.
import contextlib
import sys
import time
@ -1310,6 +1311,12 @@ class TestOvsNeutronAgent(object):
self.agent.port_delete(context=None, port_id=TEST_PORT_ID1)
self.agent.sg_agent = mock.Mock()
self.agent.int_br = mock.Mock()
@contextlib.contextmanager
def bridge_deferred(*args, **kwargs):
yield
self.agent.int_br.deferred = mock.Mock(side_effect=bridge_deferred)
self.agent.process_deleted_ports(port_info={})
self.assertEqual(set(), self.agent.network_ports[TEST_NETWORK_ID1])

View File

@ -88,6 +88,7 @@ class TunnelTest(object):
'neutron.agent.firewall.NoopFirewallDriver',
group='SECURITYGROUP')
cfg.CONF.set_override('report_interval', 0, 'AGENT')
cfg.CONF.set_override('explicitly_egress_direct', True, 'AGENT')
self.INT_BRIDGE = 'integration_bridge'
self.TUN_BRIDGE = 'tunnel_bridge'
@ -576,8 +577,14 @@ class TunnelTest(object):
self.mock_int_bridge_expected += [
mock.call.check_canary_table(),
mock.call.deferred(full_ordered=True, use_bundle=True),
mock.call.deferred().__enter__(),
mock.call.deferred().__exit__(None, None, None),
mock.call.cleanup_flows(),
mock.call.check_canary_table()
mock.call.check_canary_table(),
mock.call.deferred(full_ordered=True, use_bundle=True),
mock.call.deferred().__enter__(),
mock.call.deferred().__exit__(None, None, None),
]
self.mock_map_tun_bridge_expected += [
mock.call.cleanup_flows(),

View File

@ -0,0 +1,20 @@
---
fixes:
- |
Bug https://bugs.launchpad.net/neutron/+bug/1732067 described a flooding
issue on the neutron-ovs-agent integration bridge. And bug
https://bugs.launchpad.net/neutron/+bug/1841622 proposed a solution for
it. The accepted egress packets will be taken care in the final egress
tables (61 when openflow firewall is not enabled, table 94 otherwise) with
direct output flows for unicast traffic with a minimum influence on the
existing cloud networking.
A new config option ``explicitly_egress_direct``, with default value False,
was added for the aim of distinguishing clouds which are running the
network node mixed with compute services, upstream neutron CI should be
an example. In such situation, this ``explicitly_egress_direct`` should be
set to False, because there are numerous cases from HA routers which can
not be covered, particularly when you have centralized floating IPs running
in such mixed hosts.
Otherwise, set ``explicitly_egress_direct`` to True to avoid the flooding.
One more note is if your network nodes are for networing services only, we
recommand you disable all the security_group to get a higher performance.