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-rw-r--r--build/neutron/agent/interface/interface.py552
-rw-r--r--build/neutron/agent/l3/namespaces.py142
-rw-r--r--build/neutron/agent/l3/router_info.py996
3 files changed, 1690 insertions, 0 deletions
diff --git a/build/neutron/agent/interface/interface.py b/build/neutron/agent/interface/interface.py
new file mode 100644
index 00000000..709fd677
--- /dev/null
+++ b/build/neutron/agent/interface/interface.py
@@ -0,0 +1,552 @@
+# Copyright 2012 OpenStack Foundation
+# All Rights Reserved.
+#
+# Licensed under the Apache License, Version 2.0 (the "License"); you may
+# not use this file except in compliance with the License. You may obtain
+# a copy of the License at
+#
+# http://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
+# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
+# License for the specific language governing permissions and limitations
+# under the License.
+
+import abc
+import eventlet
+import netaddr
+from oslo_config import cfg
+from oslo_log import log as logging
+import six
+
+from neutron._i18n import _, _LE, _LI, _LW
+from neutron.agent.common import ovs_lib
+from neutron.agent.linux import ip_lib
+from neutron.agent.linux import utils
+from neutron.common import constants as n_const
+from neutron.common import exceptions
+from neutron.common import ipv6_utils
+
+
+LOG = logging.getLogger(__name__)
+
+OPTS = [
+ cfg.StrOpt('ovs_integration_bridge',
+ default='br-int',
+ help=_('Name of Open vSwitch bridge to use')),
+ cfg.BoolOpt('ovs_use_veth',
+ default=False,
+ help=_('Uses veth for an OVS interface or not. '
+ 'Support kernels with limited namespace support '
+ '(e.g. RHEL 6.5) so long as ovs_use_veth is set to '
+ 'True.')),
+ cfg.IntOpt('network_device_mtu',
+ deprecated_for_removal=True,
+ help=_('MTU setting for device. This option will be removed in '
+ 'Newton. Please use the system-wide segment_mtu setting '
+ 'which the agents will take into account when wiring '
+ 'VIFs.')),
+]
+
+
+@six.add_metaclass(abc.ABCMeta)
+class LinuxInterfaceDriver(object):
+
+ # from linux IF_NAMESIZE
+ DEV_NAME_LEN = 14
+ DEV_NAME_PREFIX = n_const.TAP_DEVICE_PREFIX
+
+ def __init__(self, conf):
+ self.conf = conf
+ if self.conf.network_device_mtu:
+ self._validate_network_device_mtu()
+
+ def _validate_network_device_mtu(self):
+ if (ipv6_utils.is_enabled() and
+ self.conf.network_device_mtu < n_const.IPV6_MIN_MTU):
+ LOG.error(_LE("IPv6 protocol requires a minimum MTU of "
+ "%(min_mtu)s, while the configured value is "
+ "%(current_mtu)s"), {'min_mtu': n_const.IPV6_MIN_MTU,
+ 'current_mtu': self.conf.network_device_mtu})
+ raise SystemExit(1)
+
+ @property
+ def use_gateway_ips(self):
+ """Whether to use gateway IPs instead of unique IP allocations.
+
+ In each place where the DHCP agent runs, and for each subnet for
+ which DHCP is handling out IP addresses, the DHCP port needs -
+ at the Linux level - to have an IP address within that subnet.
+ Generally this needs to be a unique Neutron-allocated IP
+ address, because the subnet's underlying L2 domain is bridged
+ across multiple compute hosts and network nodes, and for HA
+ there may be multiple DHCP agents running on that same bridged
+ L2 domain.
+
+ However, if the DHCP ports - on multiple compute/network nodes
+ but for the same network - are _not_ bridged to each other,
+ they do not need each to have a unique IP address. Instead
+ they can all share the same address from the relevant subnet.
+ This works, without creating any ambiguity, because those
+ ports are not all present on the same L2 domain, and because
+ no data within the network is ever sent to that address.
+ (DHCP requests are broadcast, and it is the network's job to
+ ensure that such a broadcast will reach at least one of the
+ available DHCP servers. DHCP responses will be sent _from_
+ the DHCP port address.)
+
+ Specifically, for networking backends where it makes sense,
+ the DHCP agent allows all DHCP ports to use the subnet's
+ gateway IP address, and thereby to completely avoid any unique
+ IP address allocation. This behaviour is selected by running
+ the DHCP agent with a configured interface driver whose
+ 'use_gateway_ips' property is True.
+
+ When an operator deploys Neutron with an interface driver that
+ makes use_gateway_ips True, they should also ensure that a
+ gateway IP address is defined for each DHCP-enabled subnet,
+ and that the gateway IP address doesn't change during the
+ subnet's lifetime.
+ """
+ return False
+
+ def init_l3(self, device_name, ip_cidrs, namespace=None,
+ preserve_ips=None, clean_connections=False):
+ """Set the L3 settings for the interface using data from the port.
+
+ ip_cidrs: list of 'X.X.X.X/YY' strings
+ preserve_ips: list of ip cidrs that should not be removed from device
+ clean_connections: Boolean to indicate if we should cleanup connections
+ associated to removed ips
+ """
+ preserve_ips = preserve_ips or []
+ device = ip_lib.IPDevice(device_name, namespace=namespace)
+
+ # The LLA generated by the operating system is not known to
+ # Neutron, so it would be deleted if we added it to the 'previous'
+ # list here
+ default_ipv6_lla = ip_lib.get_ipv6_lladdr(device.link.address)
+ previous = {addr['cidr'] for addr in device.addr.list(
+ filters=['permanent'])} - {default_ipv6_lla}
+
+ # add new addresses
+ for ip_cidr in ip_cidrs:
+
+ net = netaddr.IPNetwork(ip_cidr)
+ # Convert to compact IPv6 address because the return values of
+ # "ip addr list" are compact.
+ if net.version == 6:
+ ip_cidr = str(net)
+ if ip_cidr in previous:
+ previous.remove(ip_cidr)
+ continue
+
+ device.addr.add(ip_cidr)
+
+ # clean up any old addresses
+ for ip_cidr in previous:
+ if ip_cidr not in preserve_ips:
+ if clean_connections:
+ device.delete_addr_and_conntrack_state(ip_cidr)
+ else:
+ device.addr.delete(ip_cidr)
+
+ def init_router_port(self,
+ device_name,
+ ip_cidrs,
+ namespace,
+ preserve_ips=None,
+ extra_subnets=None,
+ clean_connections=False):
+ """Set the L3 settings for a router interface using data from the port.
+
+ ip_cidrs: list of 'X.X.X.X/YY' strings
+ preserve_ips: list of ip cidrs that should not be removed from device
+ clean_connections: Boolean to indicate if we should cleanup connections
+ associated to removed ips
+ extra_subnets: An iterable of cidrs to add as routes without address
+ """
+ LOG.debug("init_router_port: device_name(%s), namespace(%s)",
+ device_name, namespace)
+ self.init_l3(device_name=device_name,
+ ip_cidrs=ip_cidrs,
+ namespace=namespace,
+ preserve_ips=preserve_ips or [],
+ clean_connections=clean_connections)
+
+ device = ip_lib.IPDevice(device_name, namespace=namespace)
+
+ # Manage on-link routes (routes without an associated address)
+ new_onlink_cidrs = set(s['cidr'] for s in extra_subnets or [])
+
+ v4_onlink = device.route.list_onlink_routes(n_const.IP_VERSION_4)
+ v6_onlink = device.route.list_onlink_routes(n_const.IP_VERSION_6)
+ existing_onlink_cidrs = set(r['cidr'] for r in v4_onlink + v6_onlink)
+
+ for route in new_onlink_cidrs - existing_onlink_cidrs:
+ LOG.debug("adding onlink route(%s)", route)
+ device.route.add_onlink_route(route)
+ for route in (existing_onlink_cidrs - new_onlink_cidrs -
+ set(preserve_ips or [])):
+ LOG.debug("deleting onlink route(%s)", route)
+ device.route.delete_onlink_route(route)
+
+ def add_ipv6_addr(self, device_name, v6addr, namespace, scope='global'):
+ device = ip_lib.IPDevice(device_name,
+ namespace=namespace)
+ net = netaddr.IPNetwork(v6addr)
+ device.addr.add(str(net), scope)
+
+ def delete_ipv6_addr(self, device_name, v6addr, namespace):
+ device = ip_lib.IPDevice(device_name,
+ namespace=namespace)
+ device.delete_addr_and_conntrack_state(v6addr)
+
+ def delete_ipv6_addr_with_prefix(self, device_name, prefix, namespace):
+ """Delete the first listed IPv6 address that falls within a given
+ prefix.
+ """
+ device = ip_lib.IPDevice(device_name, namespace=namespace)
+ net = netaddr.IPNetwork(prefix)
+ for address in device.addr.list(scope='global', filters=['permanent']):
+ ip_address = netaddr.IPNetwork(address['cidr'])
+ if ip_address in net:
+ device.delete_addr_and_conntrack_state(address['cidr'])
+ break
+
+ def get_ipv6_llas(self, device_name, namespace):
+ device = ip_lib.IPDevice(device_name,
+ namespace=namespace)
+
+ return device.addr.list(scope='link', ip_version=6)
+
+ def check_bridge_exists(self, bridge):
+ if not ip_lib.device_exists(bridge):
+ raise exceptions.BridgeDoesNotExist(bridge=bridge)
+
+ def get_device_name(self, port):
+ return (self.DEV_NAME_PREFIX + port.id)[:self.DEV_NAME_LEN]
+
+ @staticmethod
+ def configure_ipv6_ra(namespace, dev_name):
+ """Configure acceptance of IPv6 route advertisements on an intf."""
+ # Learn the default router's IP address via RAs
+ ip_lib.IPWrapper(namespace=namespace).netns.execute(
+ ['sysctl', '-w', 'net.ipv6.conf.%s.accept_ra=2' % dev_name])
+
+ @abc.abstractmethod
+ def plug_new(self, network_id, port_id, device_name, mac_address,
+ bridge=None, namespace=None, prefix=None, mtu=None):
+ """Plug in the interface only for new devices that don't exist yet."""
+
+ def plug(self, network_id, port_id, device_name, mac_address,
+ bridge=None, namespace=None, prefix=None, mtu=None):
+ if not ip_lib.device_exists(device_name,
+ namespace=namespace):
+ try:
+ self.plug_new(network_id, port_id, device_name, mac_address,
+ bridge, namespace, prefix, mtu)
+ except TypeError:
+ self.plug_new(network_id, port_id, device_name, mac_address,
+ bridge, namespace, prefix)
+ else:
+ LOG.info(_LI("Device %s already exists"), device_name)
+
+ @abc.abstractmethod
+ def unplug(self, device_name, bridge=None, namespace=None, prefix=None):
+ """Unplug the interface."""
+
+ @property
+ def bridged(self):
+ """Whether the DHCP port is bridged to the VM TAP interfaces.
+
+ When the DHCP port is bridged to the TAP interfaces for the
+ VMs for which it is providing DHCP service - as is the case
+ for most Neutron network implementations - the DHCP server
+ only needs to listen on the DHCP port, and will still receive
+ DHCP requests from all the relevant VMs.
+
+ If the DHCP port is not bridged to the relevant VM TAP
+ interfaces, the DHCP server needs to listen explicitly on
+ those TAP interfaces, and to treat those as aliases of the
+ DHCP port where the IP subnet is defined.
+ """
+ return True
+
+
+class NullDriver(LinuxInterfaceDriver):
+ def plug_new(self, network_id, port_id, device_name, mac_address,
+ bridge=None, namespace=None, prefix=None, mtu=None):
+ pass
+
+ def unplug(self, device_name, bridge=None, namespace=None, prefix=None):
+ pass
+
+class NSDriver(LinuxInterfaceDriver):
+ """Device independent driver enabling creation of a non device specific
+ interface in network spaces. Attachment to the device is not performed.
+ """
+ MAX_TIME_FOR_DEVICE_EXISTENCE = 30
+
+ @classmethod
+ def _device_is_created_in_time(cls, device_name):
+ """See if device is created, within time limit."""
+ attempt = 0
+ while attempt < NSDriver.MAX_TIME_FOR_DEVICE_EXISTENCE:
+ if ip_lib.device_exists(device_name):
+ return True
+ attempt += 1
+ eventlet.sleep(1)
+ LOG.error(_LE("Device %(dev)s was not created in %(time)d seconds"),
+ {'dev': device_name,
+ 'time': NSDriver.MAX_TIME_FOR_DEVICE_EXISTENCE})
+ return False
+
+ def _configure_mtu(self, ns_dev, mtu=None):
+ # Need to set MTU, after added to namespace. See review
+ # https://review.openstack.org/327651
+ try:
+ # Note: network_device_mtu will be deprecated in future
+ mtu_override = self.conf.network_device_mtu
+ except cfg.NoSuchOptError:
+ LOG.warning(_LW("Config setting for MTU deprecated - any "
+ "override will be ignored."))
+ mtu_override = None
+ if mtu_override:
+ mtu = mtu_override
+ LOG.debug("Overriding MTU to %d", mtu)
+ if mtu:
+ ns_dev.link.set_mtu(mtu)
+ else:
+ LOG.debug("No MTU provided - skipping setting value")
+
+ def plug(self, network_id, port_id, device_name, mac_address,
+ bridge=None, namespace=None, prefix=None, mtu=None):
+
+ # Overriding this, we still want to add an existing device into the
+ # namespace.
+ self.plug_new(network_id, port_id, device_name, mac_address,
+ bridge, namespace, prefix, mtu)
+
+ def plug_new(self, network_id, port_id, device_name, mac_address,
+ bridge=None, namespace=None, prefix=None, mtu=None):
+
+ ip = ip_lib.IPWrapper()
+ ns_dev = ip.device(device_name)
+
+ LOG.debug("Plugging dev: '%s' into namespace: '%s' ",
+ device_name, namespace)
+
+ # Wait for device creation
+ if not self._device_is_created_in_time(device_name):
+ return
+
+ ns_dev.link.set_address(mac_address)
+
+ if namespace:
+ namespace_obj = ip.ensure_namespace(namespace)
+ namespace_obj.add_device_to_namespace(ns_dev)
+
+ self._configure_mtu(ns_dev, mtu)
+
+ ns_dev.link.set_up()
+
+ def unplug(self, device_name, bridge=None, namespace=None, prefix=None):
+ # Device removal is done externally. Just remove the namespace
+ LOG.debug("Removing namespace: '%s'", namespace)
+ ip_lib.IPWrapper(namespace).garbage_collect_namespace()
+
+
+class OVSInterfaceDriver(LinuxInterfaceDriver):
+ """Driver for creating an internal interface on an OVS bridge."""
+
+ DEV_NAME_PREFIX = n_const.TAP_DEVICE_PREFIX
+
+ def __init__(self, conf):
+ super(OVSInterfaceDriver, self).__init__(conf)
+ if self.conf.ovs_use_veth:
+ self.DEV_NAME_PREFIX = 'ns-'
+
+ def _get_tap_name(self, dev_name, prefix=None):
+ if self.conf.ovs_use_veth:
+ dev_name = dev_name.replace(prefix or self.DEV_NAME_PREFIX,
+ n_const.TAP_DEVICE_PREFIX)
+ return dev_name
+
+ def _ovs_add_port(self, bridge, device_name, port_id, mac_address,
+ internal=True):
+ attrs = [('external_ids', {'iface-id': port_id,
+ 'iface-status': 'active',
+ 'attached-mac': mac_address})]
+ if internal:
+ attrs.insert(0, ('type', 'internal'))
+
+ ovs = ovs_lib.OVSBridge(bridge)
+ ovs.replace_port(device_name, *attrs)
+
+ def plug_new(self, network_id, port_id, device_name, mac_address,
+ bridge=None, namespace=None, prefix=None, mtu=None):
+ """Plug in the interface."""
+ if not bridge:
+ bridge = self.conf.ovs_integration_bridge
+
+ self.check_bridge_exists(bridge)
+
+ ip = ip_lib.IPWrapper()
+ tap_name = self._get_tap_name(device_name, prefix)
+
+ if self.conf.ovs_use_veth:
+ # Create ns_dev in a namespace if one is configured.
+ root_dev, ns_dev = ip.add_veth(tap_name,
+ device_name,
+ namespace2=namespace)
+ root_dev.disable_ipv6()
+ else:
+ ns_dev = ip.device(device_name)
+
+ internal = not self.conf.ovs_use_veth
+ self._ovs_add_port(bridge, tap_name, port_id, mac_address,
+ internal=internal)
+
+ ns_dev.link.set_address(mac_address)
+
+ # Add an interface created by ovs to the namespace.
+ if not self.conf.ovs_use_veth and namespace:
+ namespace_obj = ip.ensure_namespace(namespace)
+ namespace_obj.add_device_to_namespace(ns_dev)
+
+ # NOTE(ihrachys): the order here is significant: we must set MTU after
+ # the device is moved into a namespace, otherwise OVS bridge does not
+ # allow to set MTU that is higher than the least of all device MTUs on
+ # the bridge
+ mtu = self.conf.network_device_mtu or mtu
+ if mtu:
+ ns_dev.link.set_mtu(mtu)
+ if self.conf.ovs_use_veth:
+ root_dev.link.set_mtu(mtu)
+ else:
+ LOG.warning(_LW("No MTU configured for port %s"), port_id)
+
+ ns_dev.link.set_up()
+ if self.conf.ovs_use_veth:
+ root_dev.link.set_up()
+
+ def unplug(self, device_name, bridge=None, namespace=None, prefix=None):
+ """Unplug the interface."""
+ if not bridge:
+ bridge = self.conf.ovs_integration_bridge
+
+ tap_name = self._get_tap_name(device_name, prefix)
+ self.check_bridge_exists(bridge)
+ ovs = ovs_lib.OVSBridge(bridge)
+
+ try:
+ ovs.delete_port(tap_name)
+ if self.conf.ovs_use_veth:
+ device = ip_lib.IPDevice(device_name, namespace=namespace)
+ device.link.delete()
+ LOG.debug("Unplugged interface '%s'", device_name)
+ except RuntimeError:
+ LOG.error(_LE("Failed unplugging interface '%s'"),
+ device_name)
+
+
+class IVSInterfaceDriver(LinuxInterfaceDriver):
+ """Driver for creating an internal interface on an IVS bridge."""
+
+ DEV_NAME_PREFIX = n_const.TAP_DEVICE_PREFIX
+
+ def __init__(self, conf):
+ super(IVSInterfaceDriver, self).__init__(conf)
+ self.DEV_NAME_PREFIX = 'ns-'
+
+ def _get_tap_name(self, dev_name, prefix=None):
+ dev_name = dev_name.replace(prefix or self.DEV_NAME_PREFIX,
+ n_const.TAP_DEVICE_PREFIX)
+ return dev_name
+
+ def _ivs_add_port(self, device_name, port_id, mac_address):
+ cmd = ['ivs-ctl', 'add-port', device_name]
+ utils.execute(cmd, run_as_root=True)
+
+ def plug_new(self, network_id, port_id, device_name, mac_address,
+ bridge=None, namespace=None, prefix=None, mtu=None):
+ """Plug in the interface."""
+ ip = ip_lib.IPWrapper()
+ tap_name = self._get_tap_name(device_name, prefix)
+
+ root_dev, ns_dev = ip.add_veth(tap_name, device_name)
+ root_dev.disable_ipv6()
+
+ self._ivs_add_port(tap_name, port_id, mac_address)
+
+ ns_dev = ip.device(device_name)
+ ns_dev.link.set_address(mac_address)
+
+ mtu = self.conf.network_device_mtu or mtu
+ if mtu:
+ ns_dev.link.set_mtu(mtu)
+ root_dev.link.set_mtu(mtu)
+ else:
+ LOG.warning(_LW("No MTU configured for port %s"), port_id)
+
+ if namespace:
+ namespace_obj = ip.ensure_namespace(namespace)
+ namespace_obj.add_device_to_namespace(ns_dev)
+
+ ns_dev.link.set_up()
+ root_dev.link.set_up()
+
+ def unplug(self, device_name, bridge=None, namespace=None, prefix=None):
+ """Unplug the interface."""
+ tap_name = self._get_tap_name(device_name, prefix)
+ try:
+ cmd = ['ivs-ctl', 'del-port', tap_name]
+ utils.execute(cmd, run_as_root=True)
+ device = ip_lib.IPDevice(device_name, namespace=namespace)
+ device.link.delete()
+ LOG.debug("Unplugged interface '%s'", device_name)
+ except RuntimeError:
+ LOG.error(_LE("Failed unplugging interface '%s'"),
+ device_name)
+
+
+class BridgeInterfaceDriver(LinuxInterfaceDriver):
+ """Driver for creating bridge interfaces."""
+
+ DEV_NAME_PREFIX = 'ns-'
+
+ def plug_new(self, network_id, port_id, device_name, mac_address,
+ bridge=None, namespace=None, prefix=None, mtu=None):
+ """Plugin the interface."""
+ ip = ip_lib.IPWrapper()
+
+ # Enable agent to define the prefix
+ tap_name = device_name.replace(prefix or self.DEV_NAME_PREFIX,
+ n_const.TAP_DEVICE_PREFIX)
+ # Create ns_veth in a namespace if one is configured.
+ root_veth, ns_veth = ip.add_veth(tap_name, device_name,
+ namespace2=namespace)
+ root_veth.disable_ipv6()
+ ns_veth.link.set_address(mac_address)
+
+ mtu = self.conf.network_device_mtu or mtu
+ if mtu:
+ root_veth.link.set_mtu(mtu)
+ ns_veth.link.set_mtu(mtu)
+ else:
+ LOG.warning(_LW("No MTU configured for port %s"), port_id)
+
+ root_veth.link.set_up()
+ ns_veth.link.set_up()
+
+ def unplug(self, device_name, bridge=None, namespace=None, prefix=None):
+ """Unplug the interface."""
+ device = ip_lib.IPDevice(device_name, namespace=namespace)
+ try:
+ device.link.delete()
+ LOG.debug("Unplugged interface '%s'", device_name)
+ except RuntimeError:
+ LOG.error(_LE("Failed unplugging interface '%s'"),
+ device_name)
diff --git a/build/neutron/agent/l3/namespaces.py b/build/neutron/agent/l3/namespaces.py
new file mode 100644
index 00000000..aa282052
--- /dev/null
+++ b/build/neutron/agent/l3/namespaces.py
@@ -0,0 +1,142 @@
+# Copyright 2015 Hewlett-Packard Development Company, L.P.
+#
+# Licensed under the Apache License, Version 2.0 (the "License"); you may
+# not use this file except in compliance with the License. You may obtain
+# a copy of the License at
+#
+# http://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
+# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
+# License for the specific language governing permissions and limitations
+# under the License.
+#
+
+import functools
+
+from oslo_log import log as logging
+from oslo_utils import excutils
+
+from neutron.agent.linux.interface import OVSInterfaceDriver
+from neutron._i18n import _LE, _LW
+from neutron.agent.linux import ip_lib
+
+LOG = logging.getLogger(__name__)
+
+NS_PREFIX = 'qrouter-'
+INTERNAL_DEV_PREFIX = 'qr-'
+EXTERNAL_DEV_PREFIX = 'qg-'
+# TODO(Carl) It is odd that this file needs this. It is a dvr detail.
+ROUTER_2_FIP_DEV_PREFIX = 'rfp-'
+
+
+def build_ns_name(prefix, identifier):
+ """Builds a namespace name from the given prefix and identifier
+
+ :param prefix: The prefix which must end with '-' for legacy reasons
+ :param identifier: The id associated with the namespace
+ """
+ return prefix + identifier
+
+
+def get_prefix_from_ns_name(ns_name):
+ """Parses prefix from prefix-identifier
+
+ :param ns_name: The name of a namespace
+ :returns: The prefix ending with a '-' or None if there is no '-'
+ """
+ dash_index = ns_name.find('-')
+ if 0 <= dash_index:
+ return ns_name[:dash_index + 1]
+
+
+def get_id_from_ns_name(ns_name):
+ """Parses identifier from prefix-identifier
+
+ :param ns_name: The name of a namespace
+ :returns: Identifier or None if there is no - to end the prefix
+ """
+ dash_index = ns_name.find('-')
+ if 0 <= dash_index:
+ return ns_name[dash_index + 1:]
+
+
+def check_ns_existence(f):
+ @functools.wraps(f)
+ def wrapped(self, *args, **kwargs):
+ if not self.exists():
+ LOG.warning(_LW('Namespace %(name)s does not exists. Skipping '
+ '%(func)s'),
+ {'name': self.name, 'func': f.__name__})
+ return
+ try:
+ return f(self, *args, **kwargs)
+ except RuntimeError:
+ with excutils.save_and_reraise_exception() as ctx:
+ if not self.exists():
+ LOG.debug('Namespace %(name)s was concurrently deleted',
+ self.name)
+ ctx.reraise = False
+ return wrapped
+
+
+class Namespace(object):
+
+ def __init__(self, name, agent_conf, driver, use_ipv6):
+ self.name = name
+ self.ip_wrapper_root = ip_lib.IPWrapper()
+ self.agent_conf = agent_conf
+ self.driver = driver
+ self.use_ipv6 = use_ipv6
+
+ def create(self):
+ ip_wrapper = self.ip_wrapper_root.ensure_namespace(self.name)
+ cmd = ['sysctl', '-w', 'net.ipv4.ip_forward=1']
+ ip_wrapper.netns.execute(cmd)
+ if self.use_ipv6:
+ cmd = ['sysctl', '-w', 'net.ipv6.conf.all.forwarding=1']
+ ip_wrapper.netns.execute(cmd)
+
+ def delete(self):
+ try:
+ self.ip_wrapper_root.netns.delete(self.name)
+ except RuntimeError:
+ msg = _LE('Failed trying to delete namespace: %s')
+ LOG.exception(msg, self.name)
+
+ def exists(self):
+ return self.ip_wrapper_root.netns.exists(self.name)
+
+
+class RouterNamespace(Namespace):
+
+ def __init__(self, router_id, agent_conf, driver, use_ipv6, ovs_driver):
+ self.router_id = router_id
+ self.ovs_driver = ovs_driver
+ name = self._get_ns_name(router_id)
+ super(RouterNamespace, self).__init__(
+ name, agent_conf, driver, use_ipv6)
+
+ @classmethod
+ def _get_ns_name(cls, router_id):
+ return build_ns_name(NS_PREFIX, router_id)
+
+ @check_ns_existence
+ def delete(self):
+ ns_ip = ip_lib.IPWrapper(namespace=self.name)
+ for d in ns_ip.get_devices(exclude_loopback=True):
+ if d.name.startswith(INTERNAL_DEV_PREFIX):
+ # device is on default bridge
+ self.driver.unplug(d.name, namespace=self.name,
+ prefix=INTERNAL_DEV_PREFIX)
+ elif d.name.startswith(ROUTER_2_FIP_DEV_PREFIX):
+ ns_ip.del_veth(d.name)
+ elif d.name.startswith(EXTERNAL_DEV_PREFIX):
+ self.ovs_driver.unplug(
+ d.name,
+ bridge=self.agent_conf.external_network_bridge,
+ namespace=self.name,
+ prefix=EXTERNAL_DEV_PREFIX)
+
+ super(RouterNamespace, self).delete()
diff --git a/build/neutron/agent/l3/router_info.py b/build/neutron/agent/l3/router_info.py
new file mode 100644
index 00000000..0ddd1db5
--- /dev/null
+++ b/build/neutron/agent/l3/router_info.py
@@ -0,0 +1,996 @@
+# Copyright (c) 2014 OpenStack Foundation
+#
+# Licensed under the Apache License, Version 2.0 (the "License"); you may
+# not use this file except in compliance with the License. You may obtain
+# a copy of the License at
+#
+# http://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
+# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
+# License for the specific language governing permissions and limitations
+# under the License.
+
+import collections
+import netaddr
+from oslo_log import log as logging
+
+from neutron._i18n import _, _LE, _LW
+from neutron.agent.l3 import namespaces
+from neutron.agent.linux import ip_lib
+from neutron.agent.linux import iptables_manager
+from neutron.agent.linux import ra
+from neutron.common import constants as l3_constants
+from neutron.common import exceptions as n_exc
+from neutron.common import ipv6_utils
+from neutron.common import utils as common_utils
+from neutron.ipam import utils as ipam_utils
+from neutron.agent.linux.interface import OVSInterfaceDriver
+
+LOG = logging.getLogger(__name__)
+INTERNAL_DEV_PREFIX = namespaces.INTERNAL_DEV_PREFIX
+EXTERNAL_DEV_PREFIX = namespaces.EXTERNAL_DEV_PREFIX
+
+FLOATINGIP_STATUS_NOCHANGE = object()
+ADDRESS_SCOPE_MARK_MASK = "0xffff0000"
+ADDRESS_SCOPE_MARK_ID_MIN = 1024
+ADDRESS_SCOPE_MARK_ID_MAX = 2048
+DEFAULT_ADDRESS_SCOPE = "noscope"
+
+
+class RouterInfo(object):
+
+ def __init__(self,
+ router_id,
+ router,
+ agent_conf,
+ interface_driver,
+ use_ipv6=False):
+ self.ovs_driver = OVSInterfaceDriver(agent_conf)
+ self.router_id = router_id
+ self.ex_gw_port = None
+ self._snat_enabled = None
+ self.fip_map = {}
+ self.internal_ports = []
+ self.floating_ips = set()
+ # Invoke the setter for establishing initial SNAT action
+ self.router = router
+ self.use_ipv6 = use_ipv6
+ ns = namespaces.RouterNamespace(
+ router_id, agent_conf, interface_driver, use_ipv6, self.ovs_driver)
+ self.router_namespace = ns
+ self.ns_name = ns.name
+ self.available_mark_ids = set(range(ADDRESS_SCOPE_MARK_ID_MIN,
+ ADDRESS_SCOPE_MARK_ID_MAX))
+ self._address_scope_to_mark_id = {
+ DEFAULT_ADDRESS_SCOPE: self.available_mark_ids.pop()}
+ self.iptables_manager = iptables_manager.IptablesManager(
+ use_ipv6=use_ipv6,
+ namespace=self.ns_name)
+ self.routes = []
+ self.agent_conf = agent_conf
+ self.driver = interface_driver
+ # radvd is a neutron.agent.linux.ra.DaemonMonitor
+ self.radvd = None
+
+ def initialize(self, process_monitor):
+ """Initialize the router on the system.
+
+ This differs from __init__ in that this method actually affects the
+ system creating namespaces, starting processes, etc. The other merely
+ initializes the python object. This separates in-memory object
+ initialization from methods that actually go do stuff to the system.
+
+ :param process_monitor: The agent's process monitor instance.
+ """
+ self.process_monitor = process_monitor
+ self.radvd = ra.DaemonMonitor(self.router_id,
+ self.ns_name,
+ process_monitor,
+ self.get_internal_device_name,
+ self.agent_conf)
+
+ self.router_namespace.create()
+
+ @property
+ def router(self):
+ return self._router
+
+ @router.setter
+ def router(self, value):
+ self._router = value
+ if not self._router:
+ return
+ # enable_snat by default if it wasn't specified by plugin
+ self._snat_enabled = self._router.get('enable_snat', True)
+
+ def get_internal_device_name(self, port_id):
+ return (INTERNAL_DEV_PREFIX + port_id)[:self.driver.DEV_NAME_LEN]
+
+ def get_external_device_name(self, port_id):
+ return (EXTERNAL_DEV_PREFIX + port_id)[:self.driver.DEV_NAME_LEN]
+
+ def get_external_device_interface_name(self, ex_gw_port):
+ return self.get_external_device_name(ex_gw_port['id'])
+
+ def _update_routing_table(self, operation, route, namespace):
+ cmd = ['ip', 'route', operation, 'to', route['destination'],
+ 'via', route['nexthop']]
+ ip_wrapper = ip_lib.IPWrapper(namespace=namespace)
+ ip_wrapper.netns.execute(cmd, check_exit_code=False)
+
+ def update_routing_table(self, operation, route):
+ self._update_routing_table(operation, route, self.ns_name)
+
+ def routes_updated(self, old_routes, new_routes):
+ adds, removes = common_utils.diff_list_of_dict(old_routes,
+ new_routes)
+ for route in adds:
+ LOG.debug("Added route entry is '%s'", route)
+ # remove replaced route from deleted route
+ for del_route in removes:
+ if route['destination'] == del_route['destination']:
+ removes.remove(del_route)
+ #replace success even if there is no existing route
+ self.update_routing_table('replace', route)
+ for route in removes:
+ LOG.debug("Removed route entry is '%s'", route)
+ self.update_routing_table('delete', route)
+
+ def get_ex_gw_port(self):
+ return self.router.get('gw_port')
+
+ def get_floating_ips(self):
+ """Filter Floating IPs to be hosted on this agent."""
+ return self.router.get(l3_constants.FLOATINGIP_KEY, [])
+
+ def floating_forward_rules(self, floating_ip, fixed_ip):
+ return [('PREROUTING', '-d %s/32 -j DNAT --to-destination %s' %
+ (floating_ip, fixed_ip)),
+ ('OUTPUT', '-d %s/32 -j DNAT --to-destination %s' %
+ (floating_ip, fixed_ip)),
+ ('float-snat', '-s %s/32 -j SNAT --to-source %s' %
+ (fixed_ip, floating_ip))]
+
+ def floating_mangle_rules(self, floating_ip, fixed_ip, internal_mark):
+ mark_traffic_to_floating_ip = (
+ 'floatingip', '-d %s -j MARK --set-xmark %s' % (
+ floating_ip, internal_mark))
+ mark_traffic_from_fixed_ip = (
+ 'FORWARD', '-s %s -j $float-snat' % fixed_ip)
+ return [mark_traffic_to_floating_ip, mark_traffic_from_fixed_ip]
+
+ def get_address_scope_mark_mask(self, address_scope=None):
+ if not address_scope:
+ address_scope = DEFAULT_ADDRESS_SCOPE
+
+ if address_scope not in self._address_scope_to_mark_id:
+ self._address_scope_to_mark_id[address_scope] = (
+ self.available_mark_ids.pop())
+
+ mark_id = self._address_scope_to_mark_id[address_scope]
+ # NOTE: Address scopes use only the upper 16 bits of the 32 fwmark
+ return "%s/%s" % (hex(mark_id << 16), ADDRESS_SCOPE_MARK_MASK)
+
+ def get_port_address_scope_mark(self, port):
+ """Get the IP version 4 and 6 address scope mark for the port
+
+ :param port: A port dict from the RPC call
+ :returns: A dict mapping the address family to the address scope mark
+ """
+ port_scopes = port.get('address_scopes', {})
+
+ address_scope_mark_masks = (
+ (int(k), self.get_address_scope_mark_mask(v))
+ for k, v in port_scopes.items())
+ return collections.defaultdict(self.get_address_scope_mark_mask,
+ address_scope_mark_masks)
+
+ def process_floating_ip_nat_rules(self):
+ """Configure NAT rules for the router's floating IPs.
+
+ Configures iptables rules for the floating ips of the given router
+ """
+ # Clear out all iptables rules for floating ips
+ self.iptables_manager.ipv4['nat'].clear_rules_by_tag('floating_ip')
+
+ floating_ips = self.get_floating_ips()
+ # Loop once to ensure that floating ips are configured.
+ for fip in floating_ips:
+ # Rebuild iptables rules for the floating ip.
+ fixed = fip['fixed_ip_address']
+ fip_ip = fip['floating_ip_address']
+ for chain, rule in self.floating_forward_rules(fip_ip, fixed):
+ self.iptables_manager.ipv4['nat'].add_rule(chain, rule,
+ tag='floating_ip')
+
+ self.iptables_manager.apply()
+
+ def process_floating_ip_address_scope_rules(self):
+ """Configure address scope related iptables rules for the router's
+ floating IPs.
+ """
+
+ # Clear out all iptables rules for floating ips
+ self.iptables_manager.ipv4['mangle'].clear_rules_by_tag('floating_ip')
+ all_floating_ips = self.get_floating_ips()
+ ext_scope = self._get_external_address_scope()
+ # Filter out the floating ips that have fixed ip in the same address
+ # scope. Because the packets for them will always be in one address
+ # scope, no need to manipulate MARK/CONNMARK for them.
+ floating_ips = [fip for fip in all_floating_ips
+ if fip.get('fixed_ip_address_scope') != ext_scope]
+ if floating_ips:
+ ext_scope_mark = self.get_address_scope_mark_mask(ext_scope)
+ ports_scopemark = self._get_address_scope_mark()
+ devices_in_ext_scope = {
+ device for device, mark
+ in ports_scopemark[l3_constants.IP_VERSION_4].items()
+ if mark == ext_scope_mark}
+ # Add address scope for floatingip egress
+ for device in devices_in_ext_scope:
+ self.iptables_manager.ipv4['mangle'].add_rule(
+ 'float-snat',
+ '-o %s -j MARK --set-xmark %s'
+ % (device, ext_scope_mark),
+ tag='floating_ip')
+
+ # Loop once to ensure that floating ips are configured.
+ for fip in floating_ips:
+ # Rebuild iptables rules for the floating ip.
+ fip_ip = fip['floating_ip_address']
+ # Send the floating ip traffic to the right address scope
+ fixed_ip = fip['fixed_ip_address']
+ fixed_scope = fip.get('fixed_ip_address_scope')
+ internal_mark = self.get_address_scope_mark_mask(fixed_scope)
+ mangle_rules = self.floating_mangle_rules(
+ fip_ip, fixed_ip, internal_mark)
+ for chain, rule in mangle_rules:
+ self.iptables_manager.ipv4['mangle'].add_rule(
+ chain, rule, tag='floating_ip')
+
+ def process_snat_dnat_for_fip(self):
+ try:
+ self.process_floating_ip_nat_rules()
+ except Exception:
+ # TODO(salv-orlando): Less broad catching
+ msg = _('L3 agent failure to setup NAT for floating IPs')
+ LOG.exception(msg)
+ raise n_exc.FloatingIpSetupException(msg)
+
+ def _add_fip_addr_to_device(self, fip, device):
+ """Configures the floating ip address on the device.
+ """
+ try:
+ ip_cidr = common_utils.ip_to_cidr(fip['floating_ip_address'])
+ device.addr.add(ip_cidr)
+ return True
+ except RuntimeError:
+ # any exception occurred here should cause the floating IP
+ # to be set in error state
+ LOG.warning(_LW("Unable to configure IP address for "
+ "floating IP: %s"), fip['id'])
+
+ def add_floating_ip(self, fip, interface_name, device):
+ raise NotImplementedError()
+
+ def remove_floating_ip(self, device, ip_cidr):
+ device.delete_addr_and_conntrack_state(ip_cidr)
+
+ def move_floating_ip(self, fip):
+ return l3_constants.FLOATINGIP_STATUS_ACTIVE
+
+ def remove_external_gateway_ip(self, device, ip_cidr):
+ device.delete_addr_and_conntrack_state(ip_cidr)
+
+ def get_router_cidrs(self, device):
+ return set([addr['cidr'] for addr in device.addr.list()])
+
+ def process_floating_ip_addresses(self, interface_name):
+ """Configure IP addresses on router's external gateway interface.
+
+ Ensures addresses for existing floating IPs and cleans up
+ those that should not longer be configured.
+ """
+
+ fip_statuses = {}
+ if interface_name is None:
+ LOG.debug('No Interface for floating IPs router: %s',
+ self.router['id'])
+ return fip_statuses
+
+ device = ip_lib.IPDevice(interface_name, namespace=self.ns_name)
+ existing_cidrs = self.get_router_cidrs(device)
+ new_cidrs = set()
+
+ floating_ips = self.get_floating_ips()
+ # Loop once to ensure that floating ips are configured.
+ for fip in floating_ips:
+ fip_ip = fip['floating_ip_address']
+ ip_cidr = common_utils.ip_to_cidr(fip_ip)
+ new_cidrs.add(ip_cidr)
+ fip_statuses[fip['id']] = l3_constants.FLOATINGIP_STATUS_ACTIVE
+ if ip_cidr not in existing_cidrs:
+ fip_statuses[fip['id']] = self.add_floating_ip(
+ fip, interface_name, device)
+ LOG.debug('Floating ip %(id)s added, status %(status)s',
+ {'id': fip['id'],
+ 'status': fip_statuses.get(fip['id'])})
+ elif (fip_ip in self.fip_map and
+ self.fip_map[fip_ip] != fip['fixed_ip_address']):
+ LOG.debug("Floating IP was moved from fixed IP "
+ "%(old)s to %(new)s",
+ {'old': self.fip_map[fip_ip],
+ 'new': fip['fixed_ip_address']})
+ fip_statuses[fip['id']] = self.move_floating_ip(fip)
+ elif fip_statuses[fip['id']] == fip['status']:
+ # mark the status as not changed. we can't remove it because
+ # that's how the caller determines that it was removed
+ fip_statuses[fip['id']] = FLOATINGIP_STATUS_NOCHANGE
+ fips_to_remove = (
+ ip_cidr for ip_cidr in existing_cidrs - new_cidrs
+ if common_utils.is_cidr_host(ip_cidr))
+ for ip_cidr in fips_to_remove:
+ LOG.debug("Removing floating ip %s from interface %s in "
+ "namespace %s", ip_cidr, interface_name, self.ns_name)
+ self.remove_floating_ip(device, ip_cidr)
+
+ return fip_statuses
+
+ def configure_fip_addresses(self, interface_name):
+ try:
+ return self.process_floating_ip_addresses(interface_name)
+ except Exception:
+ # TODO(salv-orlando): Less broad catching
+ msg = _('L3 agent failure to setup floating IPs')
+ LOG.exception(msg)
+ raise n_exc.FloatingIpSetupException(msg)
+
+ def put_fips_in_error_state(self):
+ fip_statuses = {}
+ for fip in self.router.get(l3_constants.FLOATINGIP_KEY, []):
+ fip_statuses[fip['id']] = l3_constants.FLOATINGIP_STATUS_ERROR
+ return fip_statuses
+
+ def delete(self, agent):
+ self.router['gw_port'] = None
+ self.router[l3_constants.INTERFACE_KEY] = []
+ self.router[l3_constants.FLOATINGIP_KEY] = []
+ self.process_delete(agent)
+ self.disable_radvd()
+ self.router_namespace.delete()
+
+ def _internal_network_updated(self, port, subnet_id, prefix, old_prefix,
+ updated_cidrs):
+ interface_name = self.get_internal_device_name(port['id'])
+ if prefix != l3_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'],
+ self.agent_conf)
+
+ 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(exclude_loopback=True)
+ return [ip_dev.name for ip_dev in ip_devs]
+
+ @staticmethod
+ def _get_updated_ports(existing_ports, current_ports):
+ updated_ports = dict()
+ 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:
+ if (sorted(existing_port['fixed_ips'],
+ key=common_utils.safe_sort_key) !=
+ sorted(current_port['fixed_ips'],
+ key=common_utils.safe_sort_key)):
+ updated_ports[current_port['id']] = 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'] != l3_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):
+ 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, pd):
+ existing_port_ids = set(p['id'] for p in self.internal_ports)
+
+ internal_ports = self.router.get(l3_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.internal_ports.append(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'])
+ pd.enable_subnet(self.router_id, subnet['id'],
+ subnet['cidr'],
+ interface_name, p['mac_address'])
+
+ 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):
+ pd.disable_subnet(self.router_id, subnet['id'])
+
+ updated_cidrs = []
+ if updated_ports:
+ for index, p in enumerate(internal_ports):
+ if not updated_ports.get(p['id']):
+ continue
+ self.internal_ports[index] = updated_ports[p['id']]
+ 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)
+ 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 = 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)
+ 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)
+ 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.ovs_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'))
+
+ 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 _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)
+ enable_ra_on_gw = False
+ if self.use_ipv6 and not self.is_v6_gateway_set(gateway_ips):
+ # There is no IPv6 gw_ip, use RouterAdvt for default route.
+ enable_ra_on_gw = True
+
+ self._add_route_to_gw(ex_gw_port, device_name=interface_name,
+ namespace=ns_name, preserve_ips=preserve_ips)
+ self.ovs_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)
+ for ip in gateway_ips or []:
+ device.route.add_gateway(ip)
+
+ if enable_ra_on_gw:
+ self.driver.configure_ipv6_ra(ns_name, interface_name)
+
+ for fixed_ip in ex_gw_port['fixed_ips']:
+ ip_lib.send_ip_addr_adv_notif(ns_name,
+ interface_name,
+ fixed_ip['ip_address'],
+ self.agent_conf)
+
+ 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()
+ 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()
+ 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']:
+ self.remove_external_gateway_ip(device,
+ common_utils.ip_to_cidr(
+ ip_addr['ip_address'],
+ ip_addr['prefixlen']))
+ self.ovs_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 _process_external_gateway(self, ex_gw_port, pd):
+ # 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)
+ 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)
+ pd.remove_gw_interface(self.router['id'])
+
+ 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)
+ pd.remove_gw_interface(self.router['id'])
+ self.ovs_driver.unplug(stale_dev,
+ bridge=self.agent_conf.external_network_bridge,
+ namespace=self.ns_name,
+ prefix=EXTERNAL_DEV_PREFIX)
+
+ # 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
+ snat_internal_traffic_to_floating_ip = (
+ 'snat', '-m mark ! --mark %s/%s '
+ '-m conntrack --ctstate DNAT '
+ '-j SNAT --to-source %s'
+ % (ext_in_mark, l3_constants.ROUTER_MARK_MASK, ex_gw_ip))
+ 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):
+ snat_normal_external_traffic = (
+ 'snat', '-o %s -j SNAT --to-source %s' %
+ (interface_name, ex_gw_ip))
+ return [snat_normal_external_traffic]
+
+ 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, l3_constants.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, agent):
+ fip_statuses = {}
+ try:
+ ex_gw_port = self.get_ex_gw_port()
+ self._process_external_gateway(ex_gw_port, agent.pd)
+ 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(_LE("Failed to process floating IPs."))
+ fip_statuses = self.put_fips_in_error_state()
+ finally:
+ self.update_fip_statuses(agent, fip_statuses)
+
+ def process_external(self, agent):
+ fip_statuses = {}
+ try:
+ with self.iptables_manager.defer_apply():
+ ex_gw_port = self.get_ex_gw_port()
+ self._process_external_gateway(ex_gw_port, agent.pd)
+ 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(_LE("Failed to process floating IPs."))
+ fip_statuses = self.put_fips_in_error_state()
+ finally:
+ self.update_fip_statuses(agent, fip_statuses)
+
+ def update_fip_statuses(self, agent, 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] = l3_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
+ agent.plugin_rpc.update_floatingip_statuses(
+ agent.context, self.router_id, fip_statuses)
+
+ def _get_port_devicename_scopemark(self, ports, name_generator):
+ devicename_scopemark = {l3_constants.IP_VERSION_4: dict(),
+ l3_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 {ip_lib.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(l3_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 (l3_constants.IP_VERSION_4,
+ l3_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 (l3_constants.IP_VERSION_4,
+ l3_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 == l3_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))
+
+ 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(l3_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, agent):
+ """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 router delete")
+ if self.router_namespace.exists():
+ self._process_internal_ports(agent.pd)
+ agent.pd.sync_router(self.router['id'])
+ self._process_external_on_delete(agent)
+ else:
+ LOG.warning(_LW("Can't gracefully delete the router %s: "
+ "no router namespace found."), self.router['id'])
+
+ @common_utils.exception_logger()
+ def process(self, agent):
+ """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 router updates")
+ self._process_internal_ports(agent.pd)
+ agent.pd.sync_router(self.router['id'])
+ self.process_external(agent)
+ 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 and enable_snat 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()])
+ # TODO(Carl) FWaaS uses this. Why is it set after processing is done?
+ self.enable_snat = self.router.get('enable_snat')