# Copyright 2015 Intel Corporation. # Copyright 2015 Isaku Yamahata # # 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 collections import functools import os from pyroute2.netlink import exceptions \ as netlink_exceptions # pylint: disable=no-name-in-module from neutron.agent.linux import ip_lib from neutron.privileged.agent.linux import ip_lib as priv_ip_lib # NOTE(toabctl): Don't use /sys/devices/virtual/net here because not all tap # devices are listed here (i.e. when using Xen) BRIDGE_FS = "/sys/class/net/" BRIDGE_INTERFACE_FS = BRIDGE_FS + "%(bridge)s/brif/%(interface)s" BRIDGE_INTERFACES_FS = BRIDGE_FS + "%s/brif/" BRIDGE_PORT_FS_FOR_DEVICE = BRIDGE_FS + "%s/brport" BRIDGE_PATH_FOR_DEVICE = BRIDGE_PORT_FS_FOR_DEVICE + '/bridge' def catch_exceptions(function): """Catch bridge command exceptions Returns True if succeeds and False if fails """ @functools.wraps(function) def decorated_function(self, *args, **kwargs): try: function(self, *args, **kwargs) return True except (RuntimeError, OSError, netlink_exceptions.NetlinkError): return False return decorated_function def is_bridged_interface(interface): if not interface: return False else: return os.path.exists(BRIDGE_PORT_FS_FOR_DEVICE % interface) def get_interface_ifindex(interface): try: with open(os.path.join(BRIDGE_FS, interface, 'ifindex'), 'r') as fh: return int(fh.read().strip()) except (IOError, ValueError): pass def get_bridge_names(): return os.listdir(BRIDGE_FS) class BridgeDevice(ip_lib.IPDevice): @classmethod def addbr(cls, name, namespace=None): bridge = cls(name, namespace, 'bridge') try: bridge.link.create() except priv_ip_lib.InterfaceAlreadyExists: pass return bridge @classmethod def get_interface_bridge(cls, interface): try: path = os.readlink(BRIDGE_PATH_FOR_DEVICE % interface) except OSError: return None else: name = path.rpartition('/')[-1] return cls(name) def delbr(self): return self.link.delete() @catch_exceptions def addif(self, interface): priv_ip_lib.set_link_bridge_master(interface, self.name, namespace=self.namespace) @catch_exceptions def delif(self, interface): priv_ip_lib.set_link_bridge_master(interface, None, namespace=self.namespace) @catch_exceptions def setfd(self, fd): priv_ip_lib.set_link_bridge_forward_delay(self.name, fd, namespace=self.namespace) @catch_exceptions def disable_stp(self): priv_ip_lib.set_link_bridge_stp(self.name, 0, namespace=self.namespace) @catch_exceptions def enable_stp(self): priv_ip_lib.set_link_bridge_stp(self.name, 1, namespace=self.namespace) def owns_interface(self, interface): return os.path.exists( BRIDGE_INTERFACE_FS % {'bridge': self.name, 'interface': interface}) def get_interfaces(self): try: return os.listdir(BRIDGE_INTERFACES_FS % self.name) except OSError: return [] class FdbInterface(object): """Provide basic functionality to edit the FDB table""" @staticmethod @catch_exceptions def add(mac, dev, dst_ip=None, namespace=None, **kwargs): priv_ip_lib.add_bridge_fdb(mac, dev, dst_ip=dst_ip, namespace=namespace, **kwargs) @staticmethod @catch_exceptions def append(mac, dev, dst_ip=None, namespace=None, **kwargs): priv_ip_lib.append_bridge_fdb(mac, dev, dst_ip=dst_ip, namespace=namespace, **kwargs) @staticmethod @catch_exceptions def replace(mac, dev, dst_ip=None, namespace=None, **kwargs): try: priv_ip_lib.delete_bridge_fdb(mac, dev, namespace=namespace, **kwargs) except (RuntimeError, OSError, netlink_exceptions.NetlinkError): pass priv_ip_lib.add_bridge_fdb(mac, dev, dst_ip=dst_ip, namespace=namespace, **kwargs) @staticmethod @catch_exceptions def delete(mac, dev, dst_ip=None, namespace=None, **kwargs): priv_ip_lib.delete_bridge_fdb(mac, dev, dst_ip=dst_ip, namespace=namespace, **kwargs) @staticmethod def show(dev=None, namespace=None, **kwargs): """List the FDB entries in a namespace :parameter dev: device name to filter the query :parameter namespace: namespace name :returns: a dictionary with the device names and the list of entries per device. """ def find_device_name(ifindex, devices): for device in (device for device in devices if device['index'] == ifindex): return device['name'] ret = collections.defaultdict(list) fdbs = priv_ip_lib.list_bridge_fdb(namespace=namespace, **kwargs) devices = ip_lib.get_devices_info(namespace) for fdb in fdbs: name = find_device_name(fdb['ifindex'], devices) if dev and dev != name: continue master = find_device_name(ip_lib.get_attr(fdb, 'NDA_MASTER'), devices) fdb_info = {'mac': ip_lib.get_attr(fdb, 'NDA_LLADDR'), 'master': master, 'vlan': ip_lib.get_attr(fdb, 'NDA_VLAN'), 'dst_ip': ip_lib.get_attr(fdb, 'NDA_DST')} ret[name].append(fdb_info) return ret