#!/usr/bin/env python3 # # Copyright 2019-2020 Rubicon Communications, LLC (Netgate) # # SPDX-License-Identifier: Apache-2.0 # import unittest import time from socket import inet_pton, inet_ntop, AF_INET6 from vpp_object import VppObject from vpp_papi import VppEnum from scapy.packet import Raw from scapy.layers.l2 import Ether, ARP from scapy.layers.inet import IP, ICMP, icmptypes from scapy.layers.inet6 import IPv6, ipv6nh, IPv6ExtHdrHopByHop, \ ICMPv6MLReport2, ICMPv6ND_NA, ICMPv6ND_NS, ICMPv6NDOptDstLLAddr, \ ICMPv6NDOptSrcLLAddr, ICMPv6EchoRequest, ICMPv6EchoReply from scapy.contrib.igmpv3 import IGMPv3, IGMPv3mr, IGMPv3gr from scapy.layers.vrrp import IPPROTO_VRRP, VRRPv3 from scapy.utils6 import in6_getnsma, in6_getnsmac from framework import VppTestCase, VppTestRunner, running_extended_tests from util import ip6_normalize VRRP_VR_FLAG_PREEMPT = 1 VRRP_VR_FLAG_ACCEPT = 2 VRRP_VR_FLAG_UNICAST = 4 VRRP_VR_FLAG_IPV6 = 8 VRRP_VR_STATE_INIT = 0 VRRP_VR_STATE_BACKUP = 1 VRRP_VR_STATE_MASTER = 2 VRRP_VR_STATE_INTF_DOWN = 3 def is_non_arp(p): """ Want to filter out advertisements, igmp, etc""" if p.haslayer(ARP): return False return True def is_not_adv(p): """ Filter out everything but advertisements. E.g. multicast RD/ND """ if p.haslayer(VRRPv3): return False return True def is_not_echo_reply(p): """ filter out advertisements and other while waiting for echo reply """ if p.haslayer(IP) and p.haslayer(ICMP): if icmptypes[p[ICMP].type] == "echo-reply": return False elif p.haslayer(IPv6) and p.haslayer(ICMPv6EchoReply): return False return True class VppVRRPVirtualRouter(VppObject): def __init__(self, test, intf, vr_id, prio=100, intvl=100, flags=VRRP_VR_FLAG_PREEMPT, vips=None): self._test = test self._intf = intf self._sw_if_index = self._intf.sw_if_index self._vr_id = vr_id self._prio = prio self._intvl = intvl self._flags = flags if (flags & VRRP_VR_FLAG_IPV6): self._is_ipv6 = 1 self._adv_dest_mac = "33:33:00:00:00:12" self._virtual_mac = "00:00:5e:00:02:%02x" % vr_id self._adv_dest_ip = "ff02::12" self._vips = ([intf.local_ip6] if vips is None else vips) else: self._is_ipv6 = 0 self._adv_dest_mac = "01:00:5e:00:00:12" self._virtual_mac = "00:00:5e:00:01:%02x" % vr_id self._adv_dest_ip = "224.0.0.18" self._vips = ([intf.local_ip4] if vips is None else vips) self._tracked_ifs = [] def add_vpp_config(self): self._test.vapi.vrrp_vr_add_del(is_add=1, sw_if_index=self._intf.sw_if_index, vr_id=self._vr_id, priority=self._prio, interval=self._intvl, flags=self._flags, n_addrs=len(self._vips), addrs=self._vips) def query_vpp_config(self): vrs = self._test.vapi.vrrp_vr_dump(sw_if_index=self._intf.sw_if_index) for vr in vrs: if vr.config.vr_id != self._vr_id: continue is_ipv6 = (1 if (vr.config.flags & VRRP_VR_FLAG_IPV6) else 0) if is_ipv6 != self._is_ipv6: continue return vr return None def remove_vpp_config(self): self._test.vapi.vrrp_vr_add_del(is_add=0, sw_if_index=self._intf.sw_if_index, vr_id=self._vr_id, priority=self._prio, interval=self._intvl, flags=self._flags, n_addrs=len(self._vips), addrs=self._vips) def start_stop(self, is_start): self._test.vapi.vrrp_vr_start_stop(is_start=is_start, sw_if_index=self._intf.sw_if_index, vr_id=self._vr_id, is_ipv6=self._is_ipv6) self._start_time = (time.time() if is_start else None) def add_del_tracked_interface(self, is_add, sw_if_index, prio): args = { 'sw_if_index': self._intf.sw_if_index, 'is_ipv6': self._is_ipv6, 'vr_id': self._vr_id, 'is_add': is_add, 'n_ifs': 1, 'ifs': [{'sw_if_index': sw_if_index, 'priority': prio}] } self._test.vapi.vrrp_vr_track_if_add_del(**args) self._tracked_ifs.append(args['ifs'][0]) def set_unicast_peers(self, addrs): args = { 'sw_if_index': self._intf.sw_if_index, 'is_ipv6': self._is_ipv6, 'vr_id': self._vr_id, 'n_addrs': len(addrs), 'addrs': addrs } self._test.vapi.vrrp_vr_set_peers(**args) self._unicast_peers = addrs def vrrp_adv_packet(self, prio=None, src_ip=None): dst_ip = self._adv_dest_ip if prio is None: prio = self._prio eth = Ether(dst=self._adv_dest_mac, src=self._virtual_mac) vrrp = VRRPv3(vrid=self._vr_id, priority=prio, ipcount=len(self._vips), adv=self._intvl) if self._is_ipv6: src_ip = (self._intf.local_ip6_ll if src_ip is None else src_ip) ip = IPv6(src=src_ip, dst=dst_ip, nh=IPPROTO_VRRP, hlim=255) vrrp.addrlist = self._vips else: src_ip = (self._intf.local_ip4 if src_ip is None else src_ip) ip = IP(src=src_ip, dst=dst_ip, proto=IPPROTO_VRRP, ttl=255, id=0) vrrp.addrlist = self._vips # Fill in default values & checksums pkt = Ether(raw(eth / ip / vrrp)) return pkt def start_time(self): return self._start_time def virtual_mac(self): return self._virtual_mac def virtual_ips(self): return self._vips def adv_dest_mac(self): return self._adv_dest_mac def adv_dest_ip(self): return self._adv_dest_ip def priority(self): return self._prio def vr_id(self): return self._vr_id def adv_interval(self): return self._intvl def interface(self): return self._intf def assert_state_equals(self, state): vr_details = self.query_vpp_config() self._test.assertEqual(vr_details.runtime.state, state) def master_down_seconds(self): vr_details = self.query_vpp_config() return (vr_details.runtime.master_down_int * 0.01) @unittest.skipUnless(running_extended_tests, "part of extended tests") class TestVRRP4(VppTestCase): """ IPv4 VRRP Test Case """ @classmethod def setUpClass(cls): super(TestVRRP4, cls).setUpClass() @classmethod def tearDownClass(cls): super(TestVRRP4, cls).tearDownClass() def setUp(self): super(TestVRRP4, self).setUp() self.create_pg_interfaces(range(2)) for i in self.pg_interfaces: i.admin_up() i.config_ip4() i.generate_remote_hosts(5) i.configure_ipv4_neighbors() self._vrs = [] self._default_flags = VRRP_VR_FLAG_PREEMPT self._default_adv = 100 def tearDown(self): for vr in self._vrs: try: vr_api = vr.query_vpp_config() if vr_api.runtime.state != VRRP_VR_STATE_INIT: vr.start_stop(is_start=0) vr.remove_vpp_config() except: self.logger.error("Error cleaning up") for i in self.pg_interfaces: i.admin_down() i.unconfig_ip4() i.unconfig_ip6() self._vrs = [] super(TestVRRP4, self).tearDown() def verify_vrrp4_igmp(self, pkt): ip = pkt[IP] self.assertEqual(ip.dst, "224.0.0.22") self.assertEqual(ip.proto, 2) igmp = pkt[IGMPv3] self.assertEqual(IGMPv3.igmpv3types[igmp.type], "Version 3 Membership Report") igmpmr = pkt[IGMPv3mr] self.assertEqual(igmpmr.numgrp, 1) self.assertEqual(igmpmr.records[0].maddr, "224.0.0.18") def verify_vrrp4_garp(self, pkt, vip, vmac): arp = pkt[ARP] # ARP "who-has" op == 1 self.assertEqual(arp.op, 1) self.assertEqual(arp.pdst, arp.psrc) self.assertEqual(arp.pdst, vip) self.assertEqual(arp.hwsrc, vmac) def verify_vrrp4_adv(self, rx_pkt, vr, prio=None): vips = vr.virtual_ips() eth = rx_pkt[Ether] ip = rx_pkt[IP] vrrp = rx_pkt[VRRPv3] pkt = vr.vrrp_adv_packet(prio=prio) # Source MAC is virtual MAC, destination is multicast MAC self.assertEqual(eth.src, vr.virtual_mac()) self.assertEqual(eth.dst, vr.adv_dest_mac()) self.assertEqual(ip.dst, "224.0.0.18") self.assertEqual(ip.ttl, 255) self.assertEqual(ip.proto, IPPROTO_VRRP) self.assertEqual(vrrp.version, 3) self.assertEqual(vrrp.type, 1) self.assertEqual(vrrp.vrid, vr.vr_id()) if prio is None: prio = vr.priority() self.assertEqual(vrrp.priority, prio) self.assertEqual(vrrp.ipcount, len(vips)) self.assertEqual(vrrp.adv, vr.adv_interval()) self.assertListEqual(vrrp.addrlist, vips) # VR with priority 255 owns the virtual address and should # become master and start advertising immediately. def test_vrrp4_master_adv(self): """ IPv4 Master VR advertises """ self.pg_enable_capture(self.pg_interfaces) self.pg_start() prio = 255 intvl = self._default_adv vr = VppVRRPVirtualRouter(self, self.pg0, 100, prio=prio, intvl=intvl, flags=self._default_flags) vr.add_vpp_config() vr.start_stop(is_start=1) self.logger.info(self.vapi.cli("show vrrp vr")) vr.start_stop(is_start=0) self.logger.info(self.vapi.cli("show vrrp vr")) pkts = self.pg0.get_capture(4) # Init -> Master: IGMP Join, VRRP adv, gratuitous ARP are sent self.verify_vrrp4_igmp(pkts[0]) self.verify_vrrp4_adv(pkts[1], vr, prio=prio) self.verify_vrrp4_garp(pkts[2], vr.virtual_ips()[0], vr.virtual_mac()) # Master -> Init: Adv with priority 0 sent to force an election self.verify_vrrp4_adv(pkts[3], vr, prio=0) vr.remove_vpp_config() self._vrs = [] # VR with priority < 255 enters backup state and does not advertise as # long as it receives higher priority advertisements def test_vrrp4_backup_noadv(self): """ IPv4 Backup VR does not advertise """ self.pg_enable_capture(self.pg_interfaces) self.pg_start() vr_id = 100 prio = 100 intvl = self._default_adv intvl_s = intvl * 0.01 vr = VppVRRPVirtualRouter(self, self.pg0, vr_id, prio=prio, intvl=intvl, flags=self._default_flags, vips=[self.pg0.remote_ip4]) self._vrs.append(vr) vr.add_vpp_config() vr.start_stop(is_start=1) vr.assert_state_equals(VRRP_VR_STATE_BACKUP) # watch for advertisements for 2x the master down preemption timeout end_time = vr.start_time() + 2 * vr.master_down_seconds() # Init -> Backup: An IGMP join should be sent pkts = self.pg0.get_capture(1) self.verify_vrrp4_igmp(pkts[0]) # send higher prio advertisements, should not receive any src_ip = self.pg0.remote_ip4 pkts = [vr.vrrp_adv_packet(prio=prio+10, src_ip=src_ip)] while time.time() < end_time: self.send_and_assert_no_replies(self.pg0, pkts, timeout=intvl_s) self.logger.info(self.vapi.cli("show trace")) vr.start_stop(is_start=0) self.logger.info(self.vapi.cli("show vrrp vr")) vr.remove_vpp_config() self._vrs = [] def test_vrrp4_master_arp(self): """ IPv4 Master VR replies to ARP """ self.pg_start() # VR virtual IP is the default, which is the pg local IP vr_id = 100 prio = 255 intvl = self._default_adv vr = VppVRRPVirtualRouter(self, self.pg0, 100, prio=prio, intvl=intvl, flags=self._default_flags) self._vrs.append(vr) vr.add_vpp_config() # before the VR is up, ARP should resolve to interface MAC self.pg0.resolve_arp() self.assertNotEqual(self.pg0.local_mac, vr.virtual_mac()) # start the VR, ARP should now resolve to virtual MAC vr.start_stop(is_start=1) self.pg0.resolve_arp() self.assertEqual(self.pg0.local_mac, vr.virtual_mac()) # stop the VR, ARP should resolve to interface MAC again vr.start_stop(is_start=0) self.pg0.resolve_arp() self.assertNotEqual(self.pg0.local_mac, vr.virtual_mac()) vr.remove_vpp_config() self._vrs = [] def test_vrrp4_backup_noarp(self): """ IPv4 Backup VR ignores ARP """ # We need an address for a virtual IP that is not the IP that # ARP requests will originate from vr_id = 100 prio = 100 intvl = self._default_adv vip = self.pg0.remote_hosts[1].ip4 vr = VppVRRPVirtualRouter(self, self.pg0, vr_id, prio=prio, intvl=intvl, flags=self._default_flags, vips=[vip]) self._vrs.append(vr) vr.add_vpp_config() arp_req = (Ether(dst="ff:ff:ff:ff:ff:ff", src=self.pg0.remote_mac) / ARP(op=ARP.who_has, pdst=vip, psrc=self.pg0.remote_ip4, hwsrc=self.pg0.remote_mac)) # Before the VR is started make sure no reply to request for VIP self.pg_start() self.pg_enable_capture(self.pg_interfaces) self.send_and_assert_no_replies(self.pg0, [arp_req], timeout=1) # VR should start in backup state and still should not reply to ARP # send a higher priority adv to make sure it does not become master adv = vr.vrrp_adv_packet(prio=prio+10, src_ip=self.pg0.remote_ip4) vr.start_stop(is_start=1) self.send_and_assert_no_replies(self.pg0, [adv, arp_req], timeout=1) vr.start_stop(is_start=0) vr.remove_vpp_config() self._vrs = [] def test_vrrp4_election(self): """ IPv4 Backup VR becomes master if no advertisements received """ vr_id = 100 prio = 100 intvl = self._default_adv intvl_s = intvl * 0.01 vip = self.pg0.remote_ip4 vr = VppVRRPVirtualRouter(self, self.pg0, vr_id, prio=prio, intvl=intvl, flags=self._default_flags, vips=[vip]) self._vrs.append(vr) vr.add_vpp_config() # After adding the VR, it should be in the init state vr.assert_state_equals(VRRP_VR_STATE_INIT) self.pg_start() vr.start_stop(is_start=1) # VR should be in backup state after starting vr.assert_state_equals(VRRP_VR_STATE_BACKUP) end_time = vr.start_time() + vr.master_down_seconds() # should not receive adverts until timer expires & state transition self.pg_enable_capture(self.pg_interfaces) while (time.time() + intvl_s) < end_time: time.sleep(intvl_s) self.pg0.assert_nothing_captured(filter_out_fn=is_not_adv) # VR should be in master state, should send an adv self.pg0.enable_capture() self.pg0.wait_for_packet(intvl_s, is_not_adv) vr.assert_state_equals(VRRP_VR_STATE_MASTER) def test_vrrp4_backup_preempts(self): """ IPv4 Backup VR preempts lower priority master """ vr_id = 100 prio = 100 intvl = self._default_adv intvl_s = intvl * 0.01 vip = self.pg0.remote_ip4 vr = VppVRRPVirtualRouter(self, self.pg0, vr_id, prio=prio, intvl=intvl, flags=self._default_flags, vips=[vip]) self._vrs.append(vr) vr.add_vpp_config() # After adding the VR, it should be in the init state vr.assert_state_equals(VRRP_VR_STATE_INIT) self.pg_start() vr.start_stop(is_start=1) # VR should be in backup state after starting vr.assert_state_equals(VRRP_VR_STATE_BACKUP) end_time = vr.start_time() + vr.master_down_seconds() # send lower prio advertisements until timer expires src_ip = self.pg0.remote_ip4 pkts = [vr.vrrp_adv_packet(prio=prio-10, src_ip=src_ip)] while time.time() + intvl_s < end_time: self.send_and_assert_no_replies(self.pg0, pkts, timeout=intvl_s) self.logger.info(self.vapi.cli("show trace")) # when timer expires, VR should take over as master self.pg0.enable_capture() self.pg0.wait_for_packet(timeout=intvl_s, filter_out_fn=is_not_adv) vr.assert_state_equals(VRRP_VR_STATE_MASTER) def test_vrrp4_master_preempted(self): """ IPv4 Master VR preempted by higher priority backup """ # A prio 255 VR cannot be preempted so the prio has to be lower and # we have to wait for it to take over vr_id = 100 prio = 100 intvl = self._default_adv vip = self.pg0.remote_ip4 vr = VppVRRPVirtualRouter(self, self.pg0, vr_id, prio=prio, intvl=intvl, flags=self._default_flags, vips=[vip]) self._vrs.append(vr) vr.add_vpp_config() # After adding the VR, it should be in the init state vr.assert_state_equals(VRRP_VR_STATE_INIT) # start VR vr.start_stop(is_start=1) vr.assert_state_equals(VRRP_VR_STATE_BACKUP) # wait for VR to take over as master end_time = vr.start_time() + vr.master_down_seconds() sleep_s = end_time - time.time() time.sleep(sleep_s) vr.assert_state_equals(VRRP_VR_STATE_MASTER) # Build advertisement packet and send it pkts = [vr.vrrp_adv_packet(prio=255, src_ip=self.pg0.remote_ip4)] self.pg_send(self.pg0, pkts) # VR should be in backup state again vr.assert_state_equals(VRRP_VR_STATE_BACKUP) def test_vrrp4_accept_mode_disabled(self): """ IPv4 Master VR does not reply for VIP w/ accept mode off """ # accept mode only matters when prio < 255, so it will have to # come up as a backup and take over as master after the timeout vr_id = 100 prio = 100 intvl = self._default_adv vip = self.pg0.remote_hosts[4].ip4 vr = VppVRRPVirtualRouter(self, self.pg0, vr_id, prio=prio, intvl=intvl, flags=self._default_flags, vips=[vip]) self._vrs.append(vr) vr.add_vpp_config() # After adding the VR, it should be in the init state vr.assert_state_equals(VRRP_VR_STATE_INIT) # start VR vr.start_stop(is_start=1) vr.assert_state_equals(VRRP_VR_STATE_BACKUP) # wait for VR to take over as master end_time = vr.start_time() + vr.master_down_seconds() sleep_s = end_time - time.time() time.sleep(sleep_s) vr.assert_state_equals(VRRP_VR_STATE_MASTER) # send an ICMP echo to the VR virtual IP address echo = (Ether(dst=vr.virtual_mac(), src=self.pg0.remote_mac) / IP(dst=vip, src=self.pg0.remote_ip4) / ICMP(seq=1, id=self.pg0.sw_if_index, type='echo-request')) self.pg_send(self.pg0, [echo]) # wait for an echo reply. none should be received time.sleep(1) self.pg0.assert_nothing_captured(filter_out_fn=is_not_echo_reply) def test_vrrp4_accept_mode_enabled(self): """ IPv4 Master VR replies for VIP w/ accept mode on """ # A prio 255 VR cannot be preempted so the prio has to be lower and # we have to wait for it to take over vr_id = 100 prio = 100 intvl = self._default_adv vip = self.pg0.remote_hosts[4].ip4 flags = (VRRP_VR_FLAG_PREEMPT | VRRP_VR_FLAG_ACCEPT) vr = VppVRRPVirtualRouter(self, self.pg0, vr_id, prio=prio, intvl=intvl, flags=flags, vips=[vip]) self._vrs.append(vr) vr.add_vpp_config() # After adding the VR, it should be in the init state vr.assert_state_equals(VRRP_VR_STATE_INIT) # start VR vr.start_stop(is_start=1) vr.assert_state_equals(VRRP_VR_STATE_BACKUP) # wait for VR to take over as master end_time = vr.start_time() + vr.master_down_seconds() sleep_s = end_time - time.time() time.sleep(sleep_s) vr.assert_state_equals(VRRP_VR_STATE_MASTER) # send an ICMP echo to the VR virtual IP address echo = (Ether(dst=vr.virtual_mac(), src=self.pg0.remote_mac) / IP(dst=vip, src=self.pg0.remote_ip4) / ICMP(seq=1, id=self.pg0.sw_if_index, type='echo-request')) self.pg_send(self.pg0, [echo]) # wait for an echo reply. time.sleep(1) rx_pkts = self.pg0.get_capture(expected_count=1, timeout=1, filter_out_fn=is_not_echo_reply) self.assertEqual(rx_pkts[0][IP].src, vip) self.assertEqual(rx_pkts[0][IP].dst, self.pg0.remote_ip4) self.assertEqual(icmptypes[rx_pkts[0][ICMP].type], "echo-reply") self.assertEqual(rx_pkts[0][ICMP].seq, 1) self.assertEqual(rx_pkts[0][ICMP].id, self.pg0.sw_if_index) def test_vrrp4_intf_tracking(self): """ IPv4 Master VR adjusts priority based on tracked interface """ vr_id = 100 prio = 255 intvl = self._default_adv intvl_s = intvl * 0.01 vip = self.pg0.local_ip4 vr = VppVRRPVirtualRouter(self, self.pg0, vr_id, prio=prio, intvl=intvl, flags=self._default_flags, vips=[vip]) self._vrs.append(vr) vr.add_vpp_config() # After adding the VR, it should be in the init state vr.assert_state_equals(VRRP_VR_STATE_INIT) # add pg1 as a tracked interface and start the VR adjustment = 50 adjusted_prio = prio - adjustment vr.add_del_tracked_interface(is_add=1, sw_if_index=self.pg1.sw_if_index, prio=adjustment) vr.start_stop(is_start=1) vr.assert_state_equals(VRRP_VR_STATE_MASTER) adv_configured = vr.vrrp_adv_packet(prio=prio) adv_adjusted = vr.vrrp_adv_packet(prio=adjusted_prio) # tracked intf is up -> advertised priority == configured priority self.pg0.enable_capture() rx = self.pg0.wait_for_packet(timeout=intvl_s, filter_out_fn=is_not_adv) self.assertEqual(rx, adv_configured) # take down pg1, verify priority is now being adjusted self.pg1.admin_down() self.pg0.enable_capture() rx = self.pg0.wait_for_packet(timeout=intvl_s, filter_out_fn=is_not_adv) self.assertEqual(rx, adv_adjusted) # bring up pg1, verify priority now matches configured value self.pg1.admin_up() self.pg0.enable_capture() rx = self.pg0.wait_for_packet(timeout=intvl_s, filter_out_fn=is_not_adv) self.assertEqual(rx, adv_configured) # remove IP address from pg1, verify priority now being adjusted self.pg1.unconfig_ip4() self.pg0.enable_capture() rx = self.pg0.wait_for_packet(timeout=intvl_s, filter_out_fn=is_not_adv) self.assertEqual(rx, adv_adjusted) # add IP address to pg1, verify priority now matches configured value self.pg1.config_ip4() self.pg0.enable_capture() rx = self.pg0.wait_for_packet(timeout=intvl_s, filter_out_fn=is_not_adv) self.assertEqual(rx, adv_configured) def test_vrrp4_master_adv_unicast(self): """ IPv4 Master VR advertises (unicast) """ vr_id = 100 prio = 255 intvl = self._default_adv intvl_s = intvl * 0.01 vip = self.pg0.local_ip4 flags = (self._default_flags | VRRP_VR_FLAG_UNICAST) unicast_peer = self.pg0.remote_hosts[4] vr = VppVRRPVirtualRouter(self, self.pg0, vr_id, prio=prio, intvl=intvl, flags=flags, vips=[vip]) self._vrs.append(vr) vr.add_vpp_config() vr.set_unicast_peers([unicast_peer.ip4]) # After adding the VR, it should be in the init state vr.assert_state_equals(VRRP_VR_STATE_INIT) # Start VR, transition to master vr.start_stop(is_start=1) vr.assert_state_equals(VRRP_VR_STATE_MASTER) self.pg0.enable_capture() rx = self.pg0.wait_for_packet(timeout=intvl_s, filter_out_fn=is_not_adv) self.assertTrue(rx.haslayer(Ether)) self.assertTrue(rx.haslayer(IP)) self.assertTrue(rx.haslayer(VRRPv3)) self.assertEqual(rx[Ether].src, self.pg0.local_mac) self.assertEqual(rx[Ether].dst, unicast_peer.mac) self.assertEqual(rx[IP].src, self.pg0.local_ip4) self.assertEqual(rx[IP].dst, unicast_peer.ip4) self.assertEqual(rx[VRRPv3].vrid, vr_id) self.assertEqual(rx[VRRPv3].priority, prio) self.assertEqual(rx[VRRPv3].ipcount, 1) self.assertEqual(rx[VRRPv3].addrlist, [vip]) @unittest.skipUnless(running_extended_tests, "part of extended tests") class TestVRRP6(VppTestCase): """ IPv6 VRRP Test Case """ @classmethod def setUpClass(cls): super(TestVRRP6, cls).setUpClass() @classmethod def tearDownClass(cls): super(TestVRRP6, cls).tearDownClass() def setUp(self): super(TestVRRP6, self).setUp() self.create_pg_interfaces(range(2)) for i in self.pg_interfaces: i.admin_up() i.config_ip6() i.generate_remote_hosts(5) i.configure_ipv6_neighbors() self._vrs = [] self._default_flags = (VRRP_VR_FLAG_IPV6 | VRRP_VR_FLAG_PREEMPT) self._default_adv = 100 def tearDown(self): for vr in self._vrs: try: vr_api = vr.query_vpp_config() if vr_api.runtime.state != VRRP_VR_STATE_INIT: vr.start_stop(is_start=0) vr.remove_vpp_config() except: self.logger.error("Error cleaning up") for i in self.pg_interfaces: i.admin_down() i.unconfig_ip4() i.unconfig_ip6() self._vrs = [] super(TestVRRP6, self).tearDown() def verify_vrrp6_mlr(self, pkt, vr): ip6 = pkt[IPv6] self.assertEqual(ip6.dst, "ff02::16") self.assertEqual(ipv6nh[ip6.nh], "Hop-by-Hop Option Header") hbh = pkt[IPv6ExtHdrHopByHop] self.assertEqual(ipv6nh[hbh.nh], "ICMPv6") self.assertTrue(pkt.haslayer(ICMPv6MLReport2)) mlr = pkt[ICMPv6MLReport2] # should contain mc addr records for: # - VRRPv3 multicast addr # - solicited node mc addr record for each VR virtual IPv6 address vips = vr.virtual_ips() self.assertEqual(mlr.records_number, len(vips) + 1) self.assertEqual(mlr.records[0].dst, vr.adv_dest_ip()) def verify_vrrp6_adv(self, rx_pkt, vr, prio=None): self.assertTrue(rx_pkt.haslayer(Ether)) self.assertTrue(rx_pkt.haslayer(IPv6)) self.assertTrue(rx_pkt.haslayer(VRRPv3)) # generate a packet for this VR and compare it to the one received pkt = vr.vrrp_adv_packet(prio=prio) self.assertTrue(rx_pkt.haslayer(Ether)) self.assertTrue(rx_pkt.haslayer(IPv6)) self.assertTrue(rx_pkt.haslayer(VRRPv3)) self.assertEqual(pkt, rx_pkt) def verify_vrrp6_gna(self, pkt, vr): self.assertTrue(pkt.haslayer(Ether)) self.assertTrue(pkt.haslayer(IPv6)) self.assertTrue(pkt.haslayer(ICMPv6ND_NA)) self.assertTrue(pkt.haslayer(ICMPv6NDOptDstLLAddr)) self.assertEqual(pkt[Ether].dst, "33:33:00:00:00:01") self.assertEqual(pkt[IPv6].dst, "ff02::1") # convert addrs to packed format since string versions could differ src_addr = inet_pton(AF_INET6, pkt[IPv6].src) vr_ll_addr = inet_pton(AF_INET6, vr.interface().local_ip6_ll) self.assertEqual(src_addr, vr_ll_addr) self.assertTrue(pkt[ICMPv6ND_NA].tgt in vr.virtual_ips()) self.assertEqual(pkt[ICMPv6NDOptDstLLAddr].lladdr, vr.virtual_mac()) # VR with priority 255 owns the virtual address and should # become master and start advertising immediately. def test_vrrp6_master_adv(self): """ IPv6 Master VR advertises """ self.pg_enable_capture(self.pg_interfaces) self.pg_start() prio = 255 intvl = self._default_adv vr = VppVRRPVirtualRouter(self, self.pg0, 100, prio=prio, intvl=intvl, flags=self._default_flags) self._vrs.append(vr) vr.add_vpp_config() self.logger.info(self.vapi.cli("show vrrp vr")) vr.start_stop(is_start=1) self.logger.info(self.vapi.cli("show vrrp vr")) vr.start_stop(is_start=0) self.logger.info(self.vapi.cli("show vrrp vr")) pkts = self.pg0.get_capture(4, filter_out_fn=None) # Init -> Master: Multicast group Join, VRRP adv, gratuitous NAs sent self.verify_vrrp6_mlr(pkts[0], vr) self.verify_vrrp6_adv(pkts[1], vr, prio=prio) self.verify_vrrp6_gna(pkts[2], vr) # Master -> Init: Adv with priority 0 sent to force an election self.verify_vrrp6_adv(pkts[3], vr, prio=0) vr.remove_vpp_config() self._vrs = [] # VR with priority < 255 enters backup state and does not advertise as # long as it receives higher priority advertisements def test_vrrp6_backup_noadv(self): """ IPv6 Backup VR does not advertise """ self.pg_enable_capture(self.pg_interfaces) self.pg_start() vr_id = 100 prio = 100 intvl = self._default_adv intvl_s = intvl * 0.01 vr = VppVRRPVirtualRouter(self, self.pg0, vr_id, prio=prio, intvl=intvl, flags=self._default_flags, vips=[self.pg0.remote_ip6]) vr.add_vpp_config() self._vrs.append(vr) vr.start_stop(is_start=1) vr.assert_state_equals(VRRP_VR_STATE_BACKUP) # watch for advertisements for 2x the master down preemption timeout end_time = vr.start_time() + 2 * vr.master_down_seconds() # Init -> Backup: A multicast listener report should be sent pkts = self.pg0.get_capture(1, filter_out_fn=None) # send higher prio advertisements, should not see VPP send any src_ip = self.pg0.remote_ip6_ll num_advs = 5 pkts = [vr.vrrp_adv_packet(prio=prio+10, src_ip=src_ip)] self.logger.info(self.vapi.cli("show vlib graph")) while time.time() < end_time: self.send_and_assert_no_replies(self.pg0, pkts, timeout=intvl_s) self.logger.info(self.vapi.cli("show trace")) num_advs -= 1 vr.start_stop(is_start=0) self.logger.info(self.vapi.cli("show vrrp vr")) vr.remove_vpp_config() self._vrs = [] def test_vrrp6_master_nd(self): """ IPv6 Master VR replies to NDP """ self.pg_start() # VR virtual IP is the default, which is the pg local IP vr_id = 100 prio = 255 intvl = self._default_adv vr = VppVRRPVirtualRouter(self, self.pg0, 100, prio=prio, intvl=intvl, flags=self._default_flags) vr.add_vpp_config() self._vrs.append(vr) # before the VR is up, NDP should resolve to interface MAC self.pg0.resolve_ndp() self.assertNotEqual(self.pg0.local_mac, vr.virtual_mac()) # start the VR, NDP should now resolve to virtual MAC vr.start_stop(is_start=1) self.pg0.resolve_ndp() self.assertEqual(self.pg0.local_mac, vr.virtual_mac()) # stop the VR, ARP should resolve to interface MAC again vr.start_stop(is_start=0) self.pg0.resolve_ndp() self.assertNotEqual(self.pg0.local_mac, vr.virtual_mac()) vr.remove_vpp_config() self._vrs = [] def test_vrrp6_backup_nond(self): """ IPv6 Backup VR ignores NDP """ # We need an address for a virtual IP that is not the IP that # ARP requests will originate from vr_id = 100 prio = 100 intvl = self._default_adv intvl_s = intvl * 0.01 vip = self.pg0.remote_hosts[1].ip6 vr = VppVRRPVirtualRouter(self, self.pg0, vr_id, prio=prio, intvl=intvl, flags=self._default_flags, vips=[vip]) vr.add_vpp_config() self._vrs.append(vr) nsma = in6_getnsma(inet_pton(socket.AF_INET6, vip)) dmac = in6_getnsmac(nsma) dst_ip = inet_ntop(socket.AF_INET6, nsma) ndp_req = (Ether(dst=dmac, src=self.pg0.remote_mac) / IPv6(dst=dst_ip, src=self.pg0.remote_ip6) / ICMPv6ND_NS(tgt=vip) / ICMPv6NDOptSrcLLAddr(lladdr=self.pg0.remote_mac)) # Before the VR is started make sure no reply to request for VIP self.send_and_assert_no_replies(self.pg0, [ndp_req], timeout=1) # VR should start in backup state and still should not reply to NDP # send a higher priority adv to make sure it does not become master adv = vr.vrrp_adv_packet(prio=prio+10, src_ip=self.pg0.remote_ip6) pkts = [adv, ndp_req] vr.start_stop(is_start=1) self.send_and_assert_no_replies(self.pg0, pkts, timeout=intvl_s) vr.start_stop(is_start=0) def test_vrrp6_election(self): """ IPv6 Backup VR becomes master if no advertisements received """ vr_id = 100 prio = 100 intvl = self._default_adv intvl_s = intvl * 0.01 vip = self.pg0.remote_ip6 vr = VppVRRPVirtualRouter(self, self.pg0, vr_id, prio=prio, intvl=intvl, flags=self._default_flags, vips=[vip]) self._vrs.append(vr) vr.add_vpp_config() # After adding the VR, it should be in the init state vr.assert_state_equals(VRRP_VR_STATE_INIT) self.pg_start() vr.start_stop(is_start=1) # VR should be in backup state after starting vr.assert_state_equals(VRRP_VR_STATE_BACKUP) end_time = vr.start_time() + vr.master_down_seconds() # no advertisements should arrive until timer expires self.pg0.enable_capture() while (time.time() + intvl_s) < end_time: time.sleep(intvl_s) self.pg0.assert_nothing_captured(filter_out_fn=is_not_adv) # VR should be in master state after timer expires self.pg0.enable_capture() self.pg0.wait_for_packet(intvl_s, is_not_adv) vr.assert_state_equals(VRRP_VR_STATE_MASTER) def test_vrrp6_backup_preempts(self): """ IPv6 Backup VR preempts lower priority master """ vr_id = 100 prio = 100 intvl = self._default_adv intvl_s = intvl * 0.01 vip = self.pg0.remote_ip6 vr = VppVRRPVirtualRouter(self, self.pg0, vr_id, prio=prio, intvl=intvl, flags=self._default_flags, vips=[vip]) self._vrs.append(vr) vr.add_vpp_config() # After adding the VR, it should be in the init state vr.assert_state_equals(VRRP_VR_STATE_INIT) self.pg_start() vr.start_stop(is_start=1) # VR should be in backup state after starting vr.assert_state_equals(VRRP_VR_STATE_BACKUP) end_time = vr.start_time() + vr.master_down_seconds() # send lower prio advertisements until timer expires src_ip = self.pg0.remote_ip6 pkts = [vr.vrrp_adv_packet(prio=prio-10, src_ip=src_ip)] while (time.time() + intvl_s) < end_time: self.send_and_assert_no_replies(self.pg0, pkts, timeout=intvl_s) self.logger.info(self.vapi.cli("show trace")) # when timer expires, VR should take over as master self.pg0.enable_capture() self.pg0.wait_for_packet(timeout=intvl_s, filter_out_fn=is_not_adv) vr.assert_state_equals(VRRP_VR_STATE_MASTER) def test_vrrp6_master_preempted(self): """ IPv6 Master VR preempted by higher priority backup """ # A prio 255 VR cannot be preempted so the prio has to be lower and # we have to wait for it to take over vr_id = 100 prio = 100 intvl = self._default_adv vip = self.pg0.remote_ip6 vr = VppVRRPVirtualRouter(self, self.pg0, vr_id, prio=prio, intvl=intvl, flags=self._default_flags, vips=[vip]) self._vrs.append(vr) vr.add_vpp_config() # After adding the VR, it should be in the init state vr.assert_state_equals(VRRP_VR_STATE_INIT) # start VR vr.start_stop(is_start=1) vr.assert_state_equals(VRRP_VR_STATE_BACKUP) # wait for VR to take over as master end_time = vr.start_time() + vr.master_down_seconds() sleep_s = end_time - time.time() time.sleep(sleep_s) vr.assert_state_equals(VRRP_VR_STATE_MASTER) # Build advertisement packet and send it pkts = [vr.vrrp_adv_packet(prio=255, src_ip=self.pg0.remote_ip6)] self.pg_send(self.pg0, pkts) # VR should be in backup state again vr.assert_state_equals(VRRP_VR_STATE_BACKUP) def test_vrrp6_accept_mode_disabled(self): """ IPv6 Master VR does not reply for VIP w/ accept mode off """ # accept mode only matters when prio < 255, so it will have to # come up as a backup and take over as master after the timeout vr_id = 100 prio = 100 intvl = self._default_adv vip = self.pg0.remote_hosts[4].ip6 vr = VppVRRPVirtualRouter(self, self.pg0, vr_id, prio=prio, intvl=intvl, flags=self._default_flags, vips=[vip]) self._vrs.append(vr) vr.add_vpp_config() # After adding the VR, it should be in the init state vr.assert_state_equals(VRRP_VR_STATE_INIT) # start VR vr.start_stop(is_start=1) vr.assert_state_equals(VRRP_VR_STATE_BACKUP) # wait for VR to take over as master end_time = vr.start_time() + vr.master_down_seconds() sleep_s = end_time - time.time() time.sleep(sleep_s) vr.assert_state_equals(VRRP_VR_STATE_MASTER) # send an ICMPv6 echo to the VR virtual IP address echo = (Ether(dst=vr.virtual_mac(), src=self.pg0.remote_mac) / IPv6(dst=vip, src=self.pg0.remote_ip6) / ICMPv6EchoRequest(seq=1, id=self.pg0.sw_if_index)) self.pg_send(self.pg0, [echo]) # wait for an echo reply. none should be received time.sleep(1) self.pg0.assert_nothing_captured(filter_out_fn=is_not_echo_reply) def test_vrrp6_accept_mode_enabled(self): """ IPv6 Master VR replies for VIP w/ accept mode on """ # A prio 255 VR cannot be preempted so the prio has to be lower and # we have to wait for it to take over vr_id = 100 prio = 100 intvl = self._default_adv vip = self.pg0.remote_hosts[4].ip6 flags = (self._default_flags | VRRP_VR_FLAG_ACCEPT) vr = VppVRRPVirtualRouter(self, self.pg0, vr_id, prio=prio, intvl=intvl, flags=flags, vips=[vip]) self._vrs.append(vr) vr.add_vpp_config() # After adding the VR, it should be in the init state vr.assert_state_equals(VRRP_VR_STATE_INIT) # start VR vr.start_stop(is_start=1) vr.assert_state_equals(VRRP_VR_STATE_BACKUP) # wait for VR to take over as master end_time = vr.start_time() + vr.master_down_seconds() sleep_s = end_time - time.time() time.sleep(sleep_s) vr.assert_state_equals(VRRP_VR_STATE_MASTER) # send an ICMP echo to the VR virtual IP address echo = (Ether(dst=vr.virtual_mac(), src=self.pg0.remote_mac) / IPv6(dst=vip, src=self.pg0.remote_ip6) / ICMPv6EchoRequest(seq=1, id=self.pg0.sw_if_index)) self.pg_send(self.pg0, [echo]) # wait for an echo reply. time.sleep(1) rx_pkts = self.pg0.get_capture(expected_count=1, timeout=1, filter_out_fn=is_not_echo_reply) self.assertEqual(rx_pkts[0][IPv6].src, vip) self.assertEqual(rx_pkts[0][IPv6].dst, self.pg0.remote_ip6) self.assertEqual(rx_pkts[0][ICMPv6EchoReply].seq, 1) self.assertEqual(rx_pkts[0][ICMPv6EchoReply].id, self.pg0.sw_if_index) def test_vrrp6_intf_tracking(self): """ IPv6 Master VR adjusts priority based on tracked interface """ vr_id = 100 prio = 255 intvl = self._default_adv intvl_s = intvl * 0.01 vip = self.pg0.local_ip6 vr = VppVRRPVirtualRouter(self, self.pg0, vr_id, prio=prio, intvl=intvl, flags=self._default_flags, vips=[vip]) self._vrs.append(vr) vr.add_vpp_config() # After adding the VR, it should be in the init state vr.assert_state_equals(VRRP_VR_STATE_INIT) # add pg1 as a tracked interface and start the VR adjustment = 50 adjusted_prio = prio - adjustment vr.add_del_tracked_interface(is_add=1, sw_if_index=self.pg1.sw_if_index, prio=adjustment) vr.start_stop(is_start=1) vr.assert_state_equals(VRRP_VR_STATE_MASTER) adv_configured = vr.vrrp_adv_packet(prio=prio) adv_adjusted = vr.vrrp_adv_packet(prio=adjusted_prio) # tracked intf is up -> advertised priority == configured priority self.pg0.enable_capture() rx = self.pg0.wait_for_packet(timeout=intvl_s, filter_out_fn=is_not_adv) self.assertEqual(rx, adv_configured) # take down pg1, verify priority is now being adjusted self.pg1.admin_down() self.pg0.enable_capture() rx = self.pg0.wait_for_packet(timeout=intvl_s, filter_out_fn=is_not_adv) self.assertEqual(rx, adv_adjusted) # bring up pg1, verify priority now matches configured value self.pg1.admin_up() self.pg0.enable_capture() rx = self.pg0.wait_for_packet(timeout=intvl_s, filter_out_fn=is_not_adv) self.assertEqual(rx, adv_configured) # remove IP address from pg1, verify priority now being adjusted self.pg1.unconfig_ip6() self.pg0.enable_capture() rx = self.pg0.wait_for_packet(timeout=intvl_s, filter_out_fn=is_not_adv) self.assertEqual(rx, adv_adjusted) # add IP address to pg1, verify priority now matches configured value self.pg1.config_ip6() self.pg0.enable_capture() rx = self.pg0.wait_for_packet(timeout=intvl_s, filter_out_fn=is_not_adv) self.assertEqual(rx, adv_configured) def test_vrrp6_master_adv_unicast(self): """ IPv6 Master VR advertises (unicast) """ vr_id = 100 prio = 255 intvl = self._default_adv intvl_s = intvl * 0.01 vip = self.pg0.local_ip6 flags = (self._default_flags | VRRP_VR_FLAG_UNICAST) unicast_peer = self.pg0.remote_hosts[4] vr = VppVRRPVirtualRouter(self, self.pg0, vr_id, prio=prio, intvl=intvl, flags=flags, vips=[vip]) self._vrs.append(vr) vr.add_vpp_config() vr.set_unicast_peers([unicast_peer.ip6]) # After adding the VR, it should be in the init state vr.assert_state_equals(VRRP_VR_STATE_INIT) # Start VR, transition to master vr.start_stop(is_start=1) vr.assert_state_equals(VRRP_VR_STATE_MASTER) self.pg0.enable_capture() rx = self.pg0.wait_for_packet(timeout=intvl_s, filter_out_fn=is_not_adv) self.assertTrue(rx.haslayer(Ether)) self.assertTrue(rx.haslayer(IPv6)) self.assertTrue(rx.haslayer(VRRPv3)) self.assertEqual(rx[Ether].src, self.pg0.local_mac) self.assertEqual(rx[Ether].dst, unicast_peer.mac) self.assertEqual(ip6_normalize(rx[IPv6].src), ip6_normalize(self.pg0.local_ip6_ll)) self.assertEqual(ip6_normalize(rx[IPv6].dst), ip6_normalize(unicast_peer.ip6)) self.assertEqual(rx[VRRPv3].vrid, vr_id) self.assertEqual(rx[VRRPv3].priority, prio) self.assertEqual(rx[VRRPv3].ipcount, 1) self.assertEqual(rx[VRRPv3].addrlist, [vip]) if __name__ == '__main__': unittest.main(testRunner=VppTestRunner)