#!/usr/bin/env python3 # # Copyright 2014-2017 Cumulus Networks, Inc. All rights reserved. # Author: Roopa Prabhu, roopa@cumulusnetworks.com # import os import glob import ipaddress import subprocess from collections import deque try: from ifupdown2.lib.addon import Addon from ifupdown2.ifupdown.iface import * from ifupdown2.ifupdown.utils import utils from ifupdown2.nlmanager.nlpacket import Link from ifupdown2.ifupdownaddons.modulebase import moduleBase import ifupdown2.nlmanager.ipnetwork as ipnetwork import ifupdown2.ifupdown.statemanager as statemanager import ifupdown2.ifupdown.policymanager as policymanager import ifupdown2.ifupdown.ifupdownflags as ifupdownflags import ifupdown2.ifupdown.ifupdownconfig as ifupdownconfig except (ImportError, ModuleNotFoundError): from lib.addon import Addon from ifupdown.iface import * from ifupdown.utils import utils from nlmanager.nlpacket import Link from ifupdownaddons.modulebase import moduleBase import nlmanager.ipnetwork as ipnetwork import ifupdown.statemanager as statemanager import ifupdown.policymanager as policymanager import ifupdown.ifupdownflags as ifupdownflags import ifupdown.ifupdownconfig as ifupdownconfig class addressvirtual(Addon, moduleBase): """ ifupdown2 addon module to configure virtual addresses """ _modinfo = { "mhelp": "address module configures virtual addresses for interfaces. " "It creates a macvlan interface for every mac ip address-virtual line", "attrs": { "address-virtual": { "help": "bridge router virtual mac and ips", "multivalue": True, "validvals": ["", ], "example": ["address-virtual 00:11:22:33:44:01 11.0.1.1/24 11.0.1.2/24"] }, "address-virtual-ipv6-addrgen": { "help": "enable disable ipv6 link addrgenmode", "validvals": ["on", "off"], "default": "on", "example": [ "address-virtual-ipv6-addrgen on", "address-virtual-ipv6-addrgen off" ] }, "vrrp": { "help": "VRRP support", "multivalue": True, "example": [ "vrrp 1 10.0.0.15/24 2001:0db8::0370:7334/64", "vrrp 42 10.0.0.42/24" ] } } } DEFAULT_IP_METRIC = 1024 ADDR_METRIC_SUPPORT = None def __init__(self, *args, **kargs): Addon.__init__(self) moduleBase.__init__(self, *args, **kargs) self._bridge_fdb_query_cache = {} self.addressvirtual_with_route_metric = utils.get_boolean_from_string( policymanager.policymanager_api.get_module_globals( module_name=self.__class__.__name__, attr='addressvirtual_with_route_metric' ), default=True ) self.address_virtual_ipv6_addrgen_value_dict = {'on': 0, 'yes': 0, '0': 0, 'off': 1, 'no': 1, '1': 1} if addressvirtual.ADDR_METRIC_SUPPORT is None: try: cmd = [utils.ip_cmd, 'addr', 'help'] self.logger.info('executing %s addr help' % utils.ip_cmd) process = subprocess.Popen(cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE) stdout, stderr = process.communicate() addressvirtual.ADDR_METRIC_SUPPORT = '[ metric METRIC ]' in stderr.decode() or '' self.logger.info('address metric support: %s' % ('OK' if addressvirtual.ADDR_METRIC_SUPPORT else 'KO')) except Exception: addressvirtual.ADDR_METRIC_SUPPORT = False self.logger.info('address metric support: KO') @classmethod def addr_metric_support(cls): return cls.ADDR_METRIC_SUPPORT @classmethod def get_default_ip_metric(cls): return cls.DEFAULT_IP_METRIC def get_dependent_ifacenames(self, ifaceobj, ifacenames_all=None): if ifaceobj.get_attr_value('address-virtual') or ifaceobj.get_attr_value("vrrp"): ifaceobj.link_privflags |= ifaceLinkPrivFlags.ADDRESS_VIRTUAL_SLAVE def _get_macvlan_prefix(self, ifaceobj): return '%s-v' %ifaceobj.name[0:13].replace('.', '-') def get_vrrp_prefix(self, ifname, family): return "vrrp%s-%s-" % (family, self.cache.get_ifindex(ifname)) def _add_addresses_to_bridge(self, ifaceobj, hwaddress): # XXX: batch the addresses if ifaceobj.link_kind & ifaceLinkKind.VLAN: bridgename = ifaceobj.lowerifaces[0] vlan = self._get_vlan_id(ifaceobj) if self.cache.bridge_is_vlan_aware(bridgename): [self.iproute2.bridge_fdb_add(bridgename, addr, vlan) for addr in hwaddress] elif self.cache.link_is_bridge(ifaceobj.name): [self.iproute2.bridge_fdb_add(ifaceobj.name, addr) for addr in hwaddress] def _remove_addresses_from_bridge(self, ifaceobj, hwaddress): # XXX: batch the addresses if ifaceobj.link_kind & ifaceLinkKind.VLAN: bridgename = ifaceobj.lowerifaces[0] vlan = self._get_vlan_id(ifaceobj) if self.cache.bridge_is_vlan_aware(bridgename): for addr in hwaddress: try: self.iproute2.bridge_fdb_del(bridgename, addr, vlan) except Exception as e: self.logger.debug("%s: %s" %(ifaceobj.name, str(e))) pass elif self.cache.link_is_bridge(ifaceobj.name): for addr in hwaddress: try: self.iproute2.bridge_fdb_del(ifaceobj.name, addr) except Exception as e: self.logger.debug("%s: %s" %(ifaceobj.name, str(e))) pass def _get_bridge_fdbs(self, bridgename, vlan): fdbs = self._bridge_fdb_query_cache.get(bridgename) if not fdbs: fdbs = self.iproute2.bridge_fdb_show_dev(bridgename) if not fdbs: return self._bridge_fdb_query_cache[bridgename] = fdbs return fdbs.get(vlan) def _check_addresses_in_bridge(self, ifaceobj, hwaddress): """ If the device is a bridge, make sure the addresses are in the bridge """ if ifaceobj.link_kind & ifaceLinkKind.VLAN: bridgename = ifaceobj.lowerifaces[0] vlan = self._get_vlan_id(ifaceobj) if self.cache.bridge_is_vlan_aware(bridgename): fdb_addrs = self._get_bridge_fdbs(bridgename, str(vlan)) if not fdb_addrs: return False hwaddress_int = utils.mac_str_to_int(hwaddress) for mac in fdb_addrs: if utils.mac_str_to_int(mac) == hwaddress_int: return True return False return True def _fix_connected_route(self, ifaceobj, vifacename, addr): # # XXX: Hack to make sure the primary address # is the first in the routing table. # # We use `ip route get` on the vrr network to see which # device the kernel returns. if it is the mac vlan device, # flap the macvlan device to adjust the routing table entry. # # flapping the macvlan device makes sure the macvlan # connected route goes through delete + add, hence adjusting # the order in the routing table. # try: self.logger.info('%s: checking route entry ...' %ifaceobj.name) # here we need to convert the ip address using the standard IPNetwork # object from the ipaddress not the custom IPNetwork object from # python3-nlmanager, because the standard IPNetwork will automatically # convert our ip address with prefixlen: # >>> ipaddress.ip_network("10.10.10.242/10", False) # IPv4Network('10.0.0.0/10') ip = ipaddress.ip_network(addr, False) # we don't support ip6 route fix yet if ip.version == 6: return if ifaceobj.link_privflags & ifaceLinkPrivFlags.VRF_SLAVE: vrf_master = self.cache.get_master(ifaceobj.name) else: vrf_master = None dev = self.iproute2.ip_route_get_dev(ip.with_prefixlen, vrf_master=vrf_master) if dev and dev != ifaceobj.name: self.logger.info('%s: preferred routing entry ' %ifaceobj.name + 'seems to be of the macvlan dev %s' %vifacename + ' .. flapping macvlan dev to fix entry.') self.iproute2.link_down(vifacename) self.iproute2.link_up(vifacename) except Exception as e: self.logger.debug('%s: fixing route entry failed (%s)' % (ifaceobj.name, str(e))) pass def _get_macs_from_old_config(self, ifaceobj=None): """ This method returns a list of the mac addresses in the address-virtual attribute for the bridge. """ maclist = [] saved_ifaceobjs = statemanager.statemanager_api.get_ifaceobjs(ifaceobj.name) if not saved_ifaceobjs: return maclist # we need the old saved configs from the statemanager for oldifaceobj in saved_ifaceobjs: if not oldifaceobj.get_attr_value('address-virtual'): continue for av in oldifaceobj.get_attr_value('address-virtual'): macip = av.split() if len(macip) < 2: self.logger.debug("%s: incorrect old address-virtual attrs '%s'" %(oldifaceobj.name, av)) continue maclist.append(macip[0]) return maclist def get_addressvirtual_ipv6_addrgen_user_conf(self, ifaceobj): ipv6_addrgen = ifaceobj.get_attr_value_first('address-virtual-ipv6-addrgen') if ipv6_addrgen: # IFLA_INET6_ADDR_GEN_MODE values: # 0 = eui64 # 1 = none ipv6_addrgen_nl = self.address_virtual_ipv6_addrgen_value_dict.get(ipv6_addrgen.lower(), None) if ipv6_addrgen_nl is None: self.logger.warning('%s: invalid value "%s" for attribute address-virtual-ipv6-addrgen' % (ifaceobj.name, ipv6_addrgen)) else: return True, ipv6_addrgen_nl else: # if user didn't configure ipv6-addrgen, should we reset to default? ipv6_addrgen_nl = self.address_virtual_ipv6_addrgen_value_dict.get( self.get_attr_default_value('address-virtual-ipv6-addrgen'), None ) if ipv6_addrgen_nl is not None: return True, ipv6_addrgen_nl return False, None def _remove_running_address_config(self, ifaceobj): if not self.cache.link_exists(ifaceobj.name): return hwaddress = [] for macvlan_prefix in [ self._get_macvlan_prefix(ifaceobj), self.get_vrrp_prefix(ifaceobj.name, "4"), self.get_vrrp_prefix(ifaceobj.name, "6") ]: for macvlan_ifacename in glob.glob("/sys/class/net/%s*" % macvlan_prefix): macvlan_ifacename = os.path.basename(macvlan_ifacename) if not self.cache.link_exists(macvlan_ifacename) or not self.cache.get_link_kind(macvlan_ifacename) == "macvlan": continue hwaddress.append(self.cache.get_link_address(macvlan_ifacename)) self.netlink.link_del(os.path.basename(macvlan_ifacename)) # XXX: Also delete any fdb addresses. This requires, checking mac address # on individual macvlan interfaces and deleting the vlan from that. if any(hwaddress): self._remove_addresses_from_bridge(ifaceobj, hwaddress) def _remove_address_config(self, ifaceobj, address_virtual_list=None): if not address_virtual_list: self._remove_running_address_config(ifaceobj) return if not self.cache.link_exists(ifaceobj.name): return hwaddress = [] av_idx = 0 macvlan_prefix = self._get_macvlan_prefix(ifaceobj) for av in address_virtual_list: av_attrs = av.split() # Delete the macvlan device on this device macvlan_ifacename = '%s%d' %(macvlan_prefix, av_idx) self.netlink.link_del(os.path.basename(macvlan_ifacename)) if av_attrs[0] != 'None': hwaddress.append(av_attrs[0]) av_idx += 1 self._remove_addresses_from_bridge(ifaceobj, hwaddress) def check_mac_address(self, ifaceobj, mac): if mac == 'none': return True try: if int(mac.split(":")[0], 16) & 1 : self.log_error("%s: Multicast bit is set in the virtual mac address '%s'" % (ifaceobj.name, mac), ifaceobj=ifaceobj) return False return True except ValueError: return False def _fixup_vrf_enslavements(self, ifaceobj, ifaceobj_getfunc=None): """ This function fixes up address virtual interfaces (macvlans) on vrf slaves. Since this fixup is an overhead, this must be called only in cases when ifupdown2 is called on the vrf device or its slave and not when ifupdown2 is called for all devices. When all interfaces are brought up, the expectation is that the normal path will fix up a vrf device or its slaves""" if not ifaceobj_getfunc: return if ((ifaceobj.link_kind & ifaceLinkKind.VRF) and self.cache.link_exists(ifaceobj.name)): # if I am a vrf device and I have slaves # that have address virtual config, # enslave the slaves 'address virtual # interfaces (macvlans)' to myself: running_slaves = self.sysfs.link_get_lowers(ifaceobj.name) if running_slaves: # pick up any existing slaves of a vrf device and # look for their upperdevices and enslave them to the # vrf device: for s in running_slaves: sobjs = ifaceobj_getfunc(s) if (sobjs and (sobjs[0].link_privflags & ifaceLinkPrivFlags.ADDRESS_VIRTUAL_SLAVE)): # enslave all its upper devices to # the vrf device upperdevs = self.sysfs.link_get_uppers(sobjs[0].name) if not upperdevs: continue for u in upperdevs: # skip vrf device which # will also show up in the # upper device list if u == ifaceobj.name: continue self.netlink.link_set_master(u, ifaceobj.name) self.netlink.link_up(u) elif ((ifaceobj.link_privflags & ifaceLinkPrivFlags.ADDRESS_VIRTUAL_SLAVE) and (ifaceobj.link_privflags & ifaceLinkPrivFlags.VRF_SLAVE) and self.cache.link_exists(ifaceobj.name)): # If I am a vrf slave and I have 'address virtual' # config, make sure my addrress virtual interfaces # (macvlans) are also enslaved to the vrf device vrfname = ifaceobj.get_attr_value_first('vrf') if not vrfname or not self.cache.link_exists(vrfname): return running_uppers = self.sysfs.link_get_uppers(ifaceobj.name) if not running_uppers: return macvlan_prefix = self._get_macvlan_prefix(ifaceobj) if not macvlan_prefix: return for u in running_uppers: if u == vrfname: continue if u.startswith(macvlan_prefix): self.netlink.link_set_master(u, vrfname) self.netlink.link_up(u) def sync_macvlan_forwarding_state(self, ifname, macvlan_ifname): try: self.write_file( "/proc/sys/net/ipv4/conf/%s/forwarding" % macvlan_ifname, self.read_file_oneline("/proc/sys/net/ipv4/conf/%s/forwarding" % ifname) ) except Exception as e: self.logger.info("%s: syncing macvlan forwarding with lower device forwarding state failed: %s" % str(e)) def create_macvlan_and_apply_config(self, ifaceobj, intf_config_list, vrrp=False): """ intf_config_list = [ { "ifname": "macvlan_ifname", "hwaddress": "macvlan_hwaddress", "ips": [str(IPNetwork), ] }, ] """ hw_address_list = [] if not intf_config_list: return hw_address_list user_configured_ipv6_addrgenmode, ipv6_addrgen_user_value = self.get_addressvirtual_ipv6_addrgen_user_conf(ifaceobj) purge_existing = False if ifupdownflags.flags.PERFMODE else True ifname = ifaceobj.name update_mtu = lower_iface_mtu = lower_iface_mtu_str = None if ifupdownconfig.config.get("adjust_logical_dev_mtu", "1") != "0": if ifaceobj.lowerifaces and intf_config_list: update_mtu = True if update_mtu: lower_iface_mtu = self.cache.get_link_mtu(ifaceobj.name) lower_iface_mtu_str = str(lower_iface_mtu) self.iproute2.batch_start() # TODO: make sure we only do 1 ip link set down and set up (only one flap in the batch) for intf_config_dict in intf_config_list: link_created = False macvlan_ifname = intf_config_dict.get("ifname") macvlan_hwaddr = intf_config_dict.get("hwaddress") macvlan_mode = intf_config_dict.get("mode") ips = intf_config_dict.get("ips") if not self.cache.link_exists(macvlan_ifname): # When creating VRRP macvlan with bridge mode, the kernel # return an error: 'Invalid argument' (22) # so for now we should only use the iproute2 API. # try: # self.netlink.link_add_macvlan(ifname, macvlan_ifname) # except Exception: self.iproute2.link_add_macvlan(ifname, macvlan_ifname, macvlan_mode) self.sync_macvlan_forwarding_state(ifname, macvlan_ifname) link_created = True # first thing we need to handle vrf enslavement if ifaceobj.link_privflags & ifaceLinkPrivFlags.VRF_SLAVE: vrf_ifname = self.cache.get_master(ifaceobj.name) if vrf_ifname: self.iproute2.link_set_master(macvlan_ifname, vrf_ifname) # if we are dealing with a VRRP macvlan we need to set addrgenmode # to RANDOM, and protodown on if vrrp: try: self.iproute2.link_set_ipv6_addrgen( macvlan_ifname, Link.IN6_ADDR_GEN_MODE_RANDOM, link_created ) except Exception as e: self.logger.warning("%s: %s: ip link set dev %s addrgenmode random: " "operation not supported: %s" % (ifname, macvlan_ifname, macvlan_ifname, str(e))) try: if link_created: self.netlink.link_set_protodown_on(macvlan_ifname) except Exception as e: self.logger.warning("%s: %s: ip link set dev %s protodown on: operation not supported: %s" % (ifname, macvlan_ifname, macvlan_ifname, str(e))) elif user_configured_ipv6_addrgenmode: self.iproute2.link_set_ipv6_addrgen(macvlan_ifname, ipv6_addrgen_user_value, link_created) if macvlan_hwaddr: self.iproute2.link_set_address_and_keep_down( macvlan_ifname, macvlan_hwaddr, keep_down=ifaceobj.link_privflags & ifaceLinkPrivFlags.KEEP_LINK_DOWN ) hw_address_list.append(macvlan_hwaddr) if self.addressvirtual_with_route_metric and self.addr_metric_support(): metric = self.get_default_ip_metric() else: metric = None self.iproute2.add_addresses( ifaceobj, macvlan_ifname, ips, purge_existing, metric=metric ) if ifaceobj.link_privflags & ifaceLinkPrivFlags.KEEP_LINK_DOWN: self.logger.info("%s: keeping macvlan down - link-down yes on lower device %s" % (macvlan_ifname, ifname)) self.netlink.link_down(macvlan_ifname) # If link existed before, flap the link if not link_created: if not self.addressvirtual_with_route_metric or not self.addr_metric_support(): # if the system doesn't support ip addr set METRIC # we need to do manually check the ordering of the ip4 routes self._fix_connected_route(ifaceobj, macvlan_ifname, ips[0]) if update_mtu: update_mtu = False try: self.sysfs.link_set_mtu(macvlan_ifname, mtu_str=lower_iface_mtu_str, mtu_int=lower_iface_mtu) except Exception as e: self.logger.info('%s: failed to set mtu %s: %s' % (macvlan_ifname, lower_iface_mtu, e)) # set macvlan device to up in anycase. # since we auto create them here..we are responsible # to bring them up here in the case they were brought down # by some other entity in the system. if not ifaceobj.link_privflags & ifaceLinkPrivFlags.KEEP_LINK_DOWN: self.netlink.link_up(macvlan_ifname) else: try: if not self.addressvirtual_with_route_metric or not self.addr_metric_support(): # if the system doesn't support ip addr set METRIC # we need to do manually check the ordering of the ip6 routes self.iproute2.fix_ipv6_route_metric(ifaceobj, macvlan_ifname, ips) except Exception as e: self.logger.debug('fix_vrf_slave_ipv6_route_metric: failed: %s' % e) # Disable IPv6 duplicate address detection on VRR interfaces sysctl_prefix = "net.ipv6.conf.%s" % macvlan_ifname try: syskey = "%s.%s" % (sysctl_prefix, "enhanced_dad") if self.sysctl_get(syskey) != "0": self.sysctl_set(syskey, "0") except Exception as e: self.logger.info("sysctl failure: operation not supported: %s" % str(e)) for key, sysval in { "accept_dad": "0", "dad_transmits": "0" }.items(): syskey = "%s.%s" % (sysctl_prefix, key) if self.sysctl_get(syskey) != sysval: self.sysctl_set(syskey, sysval) self.iproute2.batch_commit() return hw_address_list def _up(self, ifaceobj, ifaceobj_getfunc=None): if not ifupdownflags.flags.ALL: self._fixup_vrf_enslavements(ifaceobj, ifaceobj_getfunc) address_virtual_list = ifaceobj.get_attr_value('address-virtual') vrr_config_list = ifaceobj.get_attr_value("vrrp") if not address_virtual_list and not vrr_config_list: # XXX: address virtual is not present. In which case, # delete stale macvlan devices. self._remove_running_address_config(ifaceobj) return if ifaceobj.upperifaces and not ifaceobj.link_privflags & ifaceLinkPrivFlags.VRF_SLAVE: self.log_error("%s: invalid placement of address-virtual/vrrp lines " "(must be configured under an interface " "with no upper interfaces or parent interfaces)" % ifaceobj.name, ifaceobj) if not self.cache.link_exists(ifaceobj.name): return addr_virtual_macs = self.create_macvlan_and_apply_config( ifaceobj, self.translate_addrvirtual_user_config_to_list( ifaceobj, address_virtual_list ) ) vrr_macs = self.create_macvlan_and_apply_config( ifaceobj, self.translate_vrr_user_config_to_list( ifaceobj, vrr_config_list ), vrrp=True ) hw_address_list = addr_virtual_macs + vrr_macs # check the statemanager for old configs. # We need to remove only the previously configured FDB entries oldmacs = self._get_macs_from_old_config(ifaceobj) # get a list of fdbs in old that are not in new config meaning they should # be removed since they are gone from the config removed_macs = [mac for mac in oldmacs if mac.lower() not in hw_address_list] self._remove_addresses_from_bridge(ifaceobj, removed_macs) # if ifaceobj is a bridge and bridge is a vlan aware bridge # add the vid to the bridge self._add_addresses_to_bridge(ifaceobj, hw_address_list) def translate_vrr_user_config_to_list(self, ifaceobj, vrr_config_list, ifquery=False): """ If (IPv4 addresses provided): 00:00:5e:00:01: else if (IPv6 addresses provided): 00:00:5e:00:02: vrrp 1 10.0.0.15/24 vrrp 1 2001:0db8::0370:7334/64 # Translate: # vrrp 255 10.0.0.15/24 10.0.0.2/1 # To: # [ # { # "ifname": "macvlan_ifname", # "hwaddress": "macvlan_hwaddress", # "mode": "macvlan_mode", # "ips": [str(IPNetwork), ] # }, # ] """ ifname = ifaceobj.name user_config_list = [] for index, config in enumerate(vrr_config_list or []): vrrp_id, ip_addrs = config.split(" ", 1) hex_id = '%02x' % int(vrrp_id) ip4 = [] ip6 = [] for ip_addr in ip_addrs.split(): ip_network_obj = ipnetwork.IPNetwork(ip_addr) is_ip6 = ip_network_obj.version == 6 if is_ip6: ip6.append(ip_network_obj) else: ip4.append(ip_network_obj) macvlan_ip4_ifname = "%s%s" % (self.get_vrrp_prefix(ifname, "4"), vrrp_id) macvlan_ip6_ifname = "%s%s" % (self.get_vrrp_prefix(ifname, "6"), vrrp_id) if ip4 or ifquery: merged_with_existing_obj = False macvlan_ip4_mac = "00:00:5e:00:01:%s" % hex_id macvlan_ip4_mac_int = utils.mac_str_to_int(macvlan_ip4_mac) # if the vrr config is defined in different lines for the same ID # we need to save the ip4 and ip6 in the objects we previously # created, example: # vrrp 255 10.0.0.15/24 10.0.0.2/15 # vrrp 255 fe80::a00:27ff:fe04:42/64 for obj in user_config_list: if obj.get("hwaddress_int") == macvlan_ip4_mac_int: obj["ips"] += ip4 merged_with_existing_obj = True if not merged_with_existing_obj: # if ip4 config wasn't merge with an existing object # we need to insert it in our list user_config_list.append({ "ifname": macvlan_ip4_ifname, "hwaddress": macvlan_ip4_mac, "hwaddress_int": macvlan_ip4_mac_int, "mode": "bridge", "ips": ip4, "id": vrrp_id }) elif not ip4 and not ifquery: # special check to see if all ipv4 were removed from the vrrp # configuration, if so we need to remove the associated macvlan if self.cache.link_exists(macvlan_ip4_ifname): self.netlink.link_del(macvlan_ip4_ifname) if ip6 or ifquery: merged_with_existing_obj = False macvlan_ip6_mac = "00:00:5e:00:02:%s" % hex_id macvlan_ip6_mac_int = utils.mac_str_to_int(macvlan_ip6_mac) # if the vrr config is defined in different lines for the same ID # we need to save the ip4 and ip6 in the objects we previously # created, example: # vrrp 255 10.0.0.15/24 10.0.0.2/15 # vrrp 255 fe80::a00:27ff:fe04:42/64 for obj in user_config_list: if obj.get("hwaddress_int") == macvlan_ip6_mac_int: obj["ips"] += ip6 merged_with_existing_obj = True if not merged_with_existing_obj: # if ip6 config wasn't merge with an existing object # we need to insert it in our list user_config_list.append({ "ifname": macvlan_ip6_ifname, "hwaddress": macvlan_ip6_mac, "hwaddress_int": macvlan_ip6_mac_int, "mode": "bridge", "ips": ip6, "id": vrrp_id }) elif not ip6 and not ifquery: # special check to see if all ipv6 were removed from the vrrp # configuration, if so we need to remove the associated macvlan if self.cache.link_exists(macvlan_ip6_ifname): self.netlink.link_del(macvlan_ip6_ifname) if not ifquery: # check if vrrp attribute was removed/re-assigned old_vrr_ids = set() try: for old_ifaceobj in statemanager.statemanager_api.get_ifaceobjs(ifname) or []: for vrr_config in old_ifaceobj.get_attr_value("vrrp") or []: try: old_vrr_ids.add(vrr_config.split()[0]) except Exception: continue if old_vrr_ids: for config in user_config_list: try: old_vrr_ids.remove(config["id"]) except KeyError: pass for id_to_remove in old_vrr_ids: macvlan_ip4_ifname = "%s%s" % (self.get_vrrp_prefix(ifname, "4"), id_to_remove) macvlan_ip6_ifname = "%s%s" % (self.get_vrrp_prefix(ifname, "6"), id_to_remove) if self.cache.link_exists(macvlan_ip4_ifname): self.netlink.link_del(macvlan_ip4_ifname) if self.cache.link_exists(macvlan_ip6_ifname): self.netlink.link_del(macvlan_ip6_ifname) except Exception as e: self.logger.debug("%s: vrrp: failure while removing unused macvlan(s)" % ifname) return user_config_list def translate_addrvirtual_user_config_to_list(self, ifaceobj, address_virtual_list): """ # Translate: # address-virtual 00:11:22:33:44:01 2001:0db8::0370:7334/64 11.0.1.1/24 11.0.1.2/24 # To: # [ # { # "ifname": "macvlan_ifname", # "hwaddress": "macvlan_hwaddress", # "ips": [str(IPNetwork), ] # }, # ] """ user_config_list = [] if not address_virtual_list: return user_config_list macvlan_prefix = self._get_macvlan_prefix(ifaceobj) for index, addr_virtual in enumerate(address_virtual_list): av_attrs = addr_virtual.split() mac = av_attrs[0] if mac: mac = mac.lower() if not self.check_mac_address(ifaceobj, mac): continue config = { "ifname": "%s%d" % (macvlan_prefix, index), "mode": "private" } if mac != "none": config["hwaddress"] = mac config["hwaddress_int"] = utils.mac_str_to_int(mac) ip_network_obj_list = [] for ip in av_attrs[1:]: ip_network_obj_list.append(ipnetwork.IPNetwork(ip)) config["ips"] = ip_network_obj_list user_config_list.append(config) return user_config_list def _down(self, ifaceobj, ifaceobj_getfunc=None): try: self._remove_address_config(ifaceobj, ifaceobj.get_attr_value('address-virtual')) #### VRR hwaddress = [] for vrr_prefix in [self.get_vrrp_prefix(ifaceobj.name, "4"), self.get_vrrp_prefix(ifaceobj.name, "6")]: for macvlan_ifacename in glob.glob("/sys/class/net/%s*" % vrr_prefix): macvlan_ifacename = os.path.basename(macvlan_ifacename) if not self.cache.link_exists(macvlan_ifacename): continue hwaddress.append(self.cache.get_link_address(macvlan_ifacename)) self.netlink.link_del(macvlan_ifacename) # XXX: Also delete any fdb addresses. This requires, checking mac address # on individual macvlan interfaces and deleting the vlan from that. if any(hwaddress): self._remove_addresses_from_bridge(ifaceobj, hwaddress) except Exception as e: import traceback traceback.print_exc() self.log_warn(str(e)) def _query_check(self, ifaceobj, ifaceobjcurr): if not self.cache.link_exists(ifaceobj.name): return user_config_address_virtual_ipv6_addr = ifaceobj.get_attr_value_first('address-virtual-ipv6-addrgen') if user_config_address_virtual_ipv6_addr and user_config_address_virtual_ipv6_addr not in utils._string_values: ifaceobjcurr.update_config_with_status('address-virtual-ipv6-addrgen', user_config_address_virtual_ipv6_addr, 1) user_config_address_virtual_ipv6_addr = None address_virtual_list = ifaceobj.get_attr_value('address-virtual') macvlans_running_ipv6_addr_virtual = self.query_check_macvlan_config( ifaceobj, ifaceobjcurr, "address-virtual", user_config_address_virtual_ipv6_addr, virtual_addr_list_raw=address_virtual_list, macvlan_config_list=self.translate_addrvirtual_user_config_to_list( ifaceobj, address_virtual_list ) ) vrr_config_list = ifaceobj.get_attr_value("vrrp") macvlans_running_ipv6_addr_vrr = self.query_check_macvlan_config( ifaceobj, ifaceobjcurr, "vrrp", user_config_address_virtual_ipv6_addr, virtual_addr_list_raw=vrr_config_list, macvlan_config_list=self.translate_vrr_user_config_to_list( ifaceobj, vrr_config_list, ifquery=True ) ) macvlans_running_ipv6_addr = macvlans_running_ipv6_addr_virtual + macvlans_running_ipv6_addr_vrr if user_config_address_virtual_ipv6_addr: bool_user_ipv6_addrgen = utils.get_boolean_from_string(user_config_address_virtual_ipv6_addr) for running_ipv6_addrgen in macvlans_running_ipv6_addr: if (not bool_user_ipv6_addrgen) != running_ipv6_addrgen: ifaceobjcurr.update_config_with_status('address-virtual-ipv6-addrgen', user_config_address_virtual_ipv6_addr, 1) return ifaceobjcurr.update_config_with_status('address-virtual-ipv6-addrgen', user_config_address_virtual_ipv6_addr, 0) @staticmethod def compare_user_config_vs_running_state(running_addrs, user_addrs): ip4 = [] ip6 = [] for ip in user_addrs or []: if ip.version == 6: ip6.append(ip) else: ip4.append(ip) running_ipobj = [] for ip in running_addrs or []: running_ipobj.append(ip) return running_ipobj == (ip4 + ip6) def query_check_macvlan_config(self, ifaceobj, ifaceobjcurr, attr_name, user_config_address_virtual_ipv6_addr, virtual_addr_list_raw, macvlan_config_list): """ macvlan_config_list = [ { "ifname": "macvlan_ifname", "hwaddress": "macvlan_hwaddress", "ips": [str(IPNetwork), ] }, ] """ is_vrr = attr_name == "vrrp" macvlans_running_ipv6_addr = [] if not virtual_addr_list_raw: return macvlans_running_ipv6_addr macvlan_config_queue = deque(macvlan_config_list) while macvlan_config_queue: ip4_config = None ip6_config = None config = macvlan_config_queue.popleft() if is_vrr: ip4_config = config ip6_config = macvlan_config_queue.popleft() macvlan_ifacename = config.get("ifname") if not self.cache.link_exists(macvlan_ifacename): ifaceobjcurr.update_config_with_status(attr_name, "", 1) continue macvlan_hwaddress = config.get("hwaddress") macvlan_hwaddress_int = config.get("hwaddress_int") if user_config_address_virtual_ipv6_addr: macvlans_running_ipv6_addr.append(self.cache.get_link_ipv6_addrgen_mode(macvlan_ifacename)) # Check mac and ip address rhwaddress = ip4_macvlan_hwaddress = self.cache.get_link_address(macvlan_ifacename) raddrs = ip4_running_addrs = self.cache.get_managed_ip_addresses( ifname=macvlan_ifacename, ifaceobj_list=[ifaceobj], with_address_virtual=True ) if not is_vrr: ips = config.get("ips") if not rhwaddress: ifaceobjcurr.update_config_with_status(attr_name, "", 1) continue try: if utils.mac_str_to_int(rhwaddress) == macvlan_hwaddress_int \ and self.compare_user_config_vs_running_state(raddrs, ips) \ and self._check_addresses_in_bridge(ifaceobj, macvlan_hwaddress): ifaceobjcurr.update_config_with_status( attr_name, " ".join(virtual_addr_list_raw), 0 ) else: if raddrs: address_virtual_value = "%s %s" % (rhwaddress, " ".join(raddrs)) else: address_virtual_value = rhwaddress ifaceobjcurr.update_config_with_status(attr_name, address_virtual_value, 1) except Exception as e: self.logger.debug("addressvirtual: %s" % str(e)) if raddrs: address_virtual_value = "%s %s" % (rhwaddress, " ".join(raddrs)) else: address_virtual_value = rhwaddress ifaceobjcurr.update_config_with_status(attr_name, address_virtual_value, 1) else: # VRRP ok = False # check macvlan ip4 hwaddress (only if ip4 were provided by the user) if not ip4_config.get("ips") or ip4_macvlan_hwaddress == ip4_config.get("hwaddress"): ip6_macvlan_ifname = ip6_config.get("ifname") ip6_macvlan_hwaddress = ip6_config.get("hwaddress") # check macvlan ip6 hwaddress (only if ip6 were provided by the user) if not ip6_config.get("ips") or self.cache.get_link_address_raw(ip6_macvlan_ifname) == ip6_config.get("hwaddress_int"): # check all ip4 if self.compare_user_config_vs_running_state( ip4_running_addrs, ip4_config.get("ips") ) and self._check_addresses_in_bridge(ifaceobj, ip4_macvlan_hwaddress): ip6_running_addrs = self.cache.get_managed_ip_addresses( ifname=ip6_macvlan_ifname, ifaceobj_list=[ifaceobj], with_address_virtual=True ) # check all ip6 if self.compare_user_config_vs_running_state( ip6_running_addrs, ip6_config.get("ips") ) and self._check_addresses_in_bridge(ifaceobj, ip6_macvlan_hwaddress): ifaceobjcurr.update_config_with_status( attr_name, "%s %s" % (ip4_config.get("id"), " ".join(ip4_config.get("ips") + ip6_config.get("ips"))), 0 ) ok = True if not ok: ifaceobjcurr.update_config_with_status( attr_name, "%s %s" % (ip4_config.get("id"), " ".join(ip4_config.get("ips") + ip6_config.get("ips"))), 1 ) return macvlans_running_ipv6_addr def _query_running(self, ifaceobjrunning, ifaceobj_getfunc=None): macvlan_prefix = self._get_macvlan_prefix(ifaceobjrunning) address_virtuals = glob.glob("/sys/class/net/%s*" %macvlan_prefix) macvlans_ipv6_addrgen_list = [] for av in address_virtuals: macvlan_ifacename = os.path.basename(av) rhwaddress = self.cache.get_link_address(macvlan_ifacename) raddress = self.cache.get_managed_ip_addresses( ifname=ifaceobjrunning.name, ifaceobj_list=ifaceobj_getfunc(ifaceobjrunning.name) or [], with_address_virtual=True ) raddress = list(set(raddress)) if not raddress: self.logger.warning('%s: no running addresses' %ifaceobjrunning.name) raddress = [] ifaceobjrunning.update_config('address-virtual', '%s %s' %(rhwaddress, ' '.join([str(a) for a in raddress]))) macvlans_ipv6_addrgen_list.append((macvlan_ifacename, self.cache.get_link_ipv6_addrgen_mode(macvlan_ifacename))) macvlan_count = len(address_virtuals) if not macvlan_count: return ipv6_addrgen = macvlans_ipv6_addrgen_list[0][1] for macvlan_ifname, macvlan_ipv6_addrgen in macvlans_ipv6_addrgen_list: if macvlan_ipv6_addrgen != ipv6_addrgen: # one macvlan has a different ipv6-addrgen configuration # we simply return, ifquery-running will print the macvlan # stanzas with the ipv6-addrgen on/off attribute return ifaceobjrunning.update_config('address-virtual-ipv6-addrgen', 'off' if ipv6_addrgen else 'on') _run_ops = { 'up': _up, 'down': _down, 'query-checkcurr': _query_check, 'query-running': _query_running } def get_ops(self): """ returns list of ops supported by this module """ return list(self._run_ops.keys()) def run(self, ifaceobj, operation, query_ifaceobj=None, ifaceobj_getfunc=None, **extra_args): """ run vlan configuration on the interface object passed as argument Args: **ifaceobj** (object): iface object **operation** (str): any of 'pre-up', 'post-down', 'query-checkcurr', 'query-running' Kwargs: **query_ifaceobj** (object): query check ifaceobject. This is only valid when op is 'query-checkcurr'. It is an object same as ifaceobj, but contains running attribute values and its config status. The modules can use it to return queried running state of interfaces. status is success if the running state is same as user required state in ifaceobj. error otherwise. """ if ifaceobj.type == ifaceType.BRIDGE_VLAN: return op_handler = self._run_ops.get(operation) if not op_handler: return if operation == 'query-checkcurr': op_handler(self, ifaceobj, query_ifaceobj) else: op_handler(self, ifaceobj, ifaceobj_getfunc=ifaceobj_getfunc)