#!/usr/bin/env python3 """ BFD tests """ from __future__ import division import binascii from collections import namedtuple import hashlib import ipaddress import reprlib import time import unittest from random import randint, shuffle, getrandbits from socket import AF_INET, AF_INET6 from parameterized import parameterized, parameterized_class import scapy.compat from scapy.layers.inet import UDP, IP from scapy.layers.inet6 import IPv6 from scapy.layers.l2 import Ether, GRE from scapy.packet import Raw from config import config from bfd import ( VppBFDAuthKey, BFD, BFDAuthType, VppBFDUDPSession, BFDDiagCode, BFDState, BFD_vpp_echo, BFD_UDP_SH_PORT, BFD_UDP_MH_PORT, ) from framework import VppTestCase from asfframework import ( tag_fixme_vpp_workers, tag_fixme_debian11, tag_run_solo, VppTestRunner, ) from util import ppp from vpp_ip import DpoProto from vpp_ip_route import VppIpRoute, VppRoutePath from vpp_lo_interface import VppLoInterface from vpp_papi_provider import UnexpectedApiReturnValueError, CliFailedCommandError from vpp_pg_interface import CaptureTimeoutError, is_ipv6_misc from vpp_gre_interface import VppGreInterface USEC_IN_SEC = 1000000 BFD_STATS_V4_SH_PATH = "/bfd/udp4/sessions" BFD_STATS_V6_SH_PATH = "/bfd/udp6/sessions" BFD_STATS_V4_MH_PATH = "/bfd/udp4/sessions_mh" BFD_STATS_V6_MH_PATH = "/bfd/udp6/sessions_mh" BFD_IPV4_REMOTE_ADDR = "2.2.2.2" BFD_IPV6_REMOTE_ADDR = "2::2" BFD_IPV4_REMOTE_ADDR2 = "3.3.3.3" BFD_IPV6_REMOTE_ADDR2 = "3::3" def set_ipv4_pfx_route_info(cls, pg_if, dst_ip, set_src): try: if cls.multihop: paths = [] # Get list of all the next hops for nh_host in pg_if.remote_hosts: nh_host_ip = nh_host.ip4 paths.append(VppRoutePath(nh_host_ip, pg_if.sw_if_index)) cls.dst_ip_net = dst_ip # Create a route pointing to list of next hops if paths: rip = VppIpRoute(cls, cls.dst_ip_net, 32, paths) rip.add_vpp_config() cls.logger.info("Route via %s on %s created" % (paths, pg_if.name)) if set_src: cls.src_ip_net = cls.loopback0.local_ip4 else: cls.dst_ip_net = pg_if.remote_ip4 if set_src: cls.src_ip_net = pg_if.local_ip4 except BaseException: cls.vapi.want_bfd_events(enable_disable=0) raise def set_ipv6_pfx_route_info(cls, pg_if, dst_ip, set_src): try: if cls.multihop: paths = [] # Get list of all the next hops for nh_host in pg_if.remote_hosts: nh_host_ip = nh_host.ip6 paths.append(VppRoutePath(nh_host_ip, pg_if.sw_if_index)) cls.dst_ip6_net = dst_ip # Create a route pointing to list of next hops if paths: rip = VppIpRoute(cls, cls.dst_ip6_net, 128, paths) rip.add_vpp_config() cls.logger.info("Route via %s on %s created" % (paths, pg_if.name)) if set_src: cls.src_ip6_net = cls.loopback0.local_ip6 else: cls.dst_ip6_net = cls.pg0.remote_ip6 if set_src: cls.src_ip6_net = cls.pg0.local_ip6 except BaseException: cls.vapi.want_bfd_events(enable_disable=0) raise class AuthKeyFactory(object): """Factory class for creating auth keys with unique conf key ID""" def __init__(self): self._conf_key_ids = {} def create_random_key(self, test, auth_type=BFDAuthType.keyed_sha1): """create a random key with unique conf key id""" conf_key_id = randint(0, 0xFFFFFFFF) while conf_key_id in self._conf_key_ids: conf_key_id = randint(0, 0xFFFFFFFF) self._conf_key_ids[conf_key_id] = 1 key = scapy.compat.raw( bytearray([randint(0, 255) for _ in range(randint(1, 20))]) ) return VppBFDAuthKey( test=test, auth_type=auth_type, conf_key_id=conf_key_id, key=key ) @parameterized_class( [ {"multihop": False}, {"multihop": True}, ] ) class BFDAPITestCase(VppTestCase): pg0 = None pg1 = None interface0 = None interface1 = None src_ip_net = "" dst_ip_net = "" src_ip_net2 = "" dst_ip_net2 = "" src_ip6_net = "" dst_ip6_net = "" src_ip6_net2 = "" dst_ip6_net2 = "" @classmethod def setUpClass(cls): super(BFDAPITestCase, cls).setUpClass() hoptype_str = "MultiHop" if cls.multihop else "SingleHop" cls.__doc__ = ( f"""""Bidirectional Forwarding Detection (BFD) - API, {hoptype_str}""" ) cls.vapi.cli("set log class bfd level debug") try: cls.create_pg_interfaces(range(2)) cls.create_loopback_interfaces(2) cls.loopback0 = cls.lo_interfaces[0] cls.loopback0.config_ip4() cls.loopback0.admin_up() cls.loopback1 = cls.lo_interfaces[1] cls.loopback1.config_ip4() cls.loopback1.admin_up() for i in cls.pg_interfaces: i.config_ip4() i.config_ip6() i.resolve_arp() except Exception: super(BFDAPITestCase, cls).tearDownClass() raise @classmethod def tearDownClass(cls): super(BFDAPITestCase, cls).tearDownClass() def setUp(self): super(BFDAPITestCase, self).setUp() self.factory = AuthKeyFactory() if self.multihop: self.interface0 = None self.interface1 = None self.src_ip_net = self.loopback0.local_ip4 self.src_ip6_net = self.loopback0.local_ip6 self.dst_ip_net = BFD_IPV4_REMOTE_ADDR self.dst_ip6_net = BFD_IPV6_REMOTE_ADDR self.src_ip_net2 = self.loopback1.local_ip4 self.src_ip6_net2 = self.loopback1.local_ip6 self.dst_ip_net2 = BFD_IPV4_REMOTE_ADDR2 self.dst_ip6_net2 = BFD_IPV6_REMOTE_ADDR2 else: self.interface0 = self.pg0 self.interface1 = self.pg1 self.src_ip_net = self.pg0.local_ip4 self.src_ip6_net = self.pg0.local_ip6 self.dst_ip_net = self.pg0.remote_ip4 self.dst_ip6_net = self.pg0.remote_ip6 self.src_ip_net2 = self.pg1.local_ip4 self.src_ip6_net2 = self.pg1.local_ip6 self.dst_ip_net2 = BFD_IPV4_REMOTE_ADDR2 self.dst_ip6_net2 = BFD_IPV6_REMOTE_ADDR2 def test_add_bfd(self): """create a BFD session""" session = VppBFDUDPSession( self, self.interface0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, ) session.add_vpp_config() self.logger.debug("Session state is %s", session.state) session.remove_vpp_config() session.add_vpp_config() self.logger.debug("Session state is %s", session.state) session.remove_vpp_config() def test_double_add(self): """create the same BFD session twice (negative case)""" session = VppBFDUDPSession( self, self.interface0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, ) session.add_vpp_config() with self.vapi.assert_negative_api_retval(): session.add_vpp_config() session.remove_vpp_config() def test_add_bfd6(self): """create IPv6 BFD session""" session = VppBFDUDPSession( self, self.interface0, self.dst_ip6_net, local_addr=self.src_ip6_net, af=AF_INET6, multihop=self.multihop, ) session.add_vpp_config() self.logger.debug("Session state is %s", session.state) session.remove_vpp_config() session.add_vpp_config() self.logger.debug("Session state is %s", session.state) session.remove_vpp_config() def test_mod_bfd(self): """modify BFD session parameters""" session = VppBFDUDPSession( self, self.interface0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, desired_min_tx=50000, required_min_rx=10000, detect_mult=1, ) session.add_vpp_config() s = session.get_bfd_udp_session_dump_entry() self.assert_equal( session.desired_min_tx, s.desired_min_tx, "desired min transmit interval" ) self.assert_equal( session.required_min_rx, s.required_min_rx, "required min receive interval" ) self.assert_equal(session.detect_mult, s.detect_mult, "detect mult") session.modify_parameters( desired_min_tx=session.desired_min_tx * 2, required_min_rx=session.required_min_rx * 2, detect_mult=session.detect_mult * 2, ) s = session.get_bfd_udp_session_dump_entry() self.assert_equal( session.desired_min_tx, s.desired_min_tx, "desired min transmit interval" ) self.assert_equal( session.required_min_rx, s.required_min_rx, "required min receive interval" ) self.assert_equal(session.detect_mult, s.detect_mult, "detect mult") def test_upd_bfd(self): """Create/Modify w/ Update BFD session parameters""" session = VppBFDUDPSession( self, self.interface0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, desired_min_tx=50000, required_min_rx=10000, detect_mult=1, ) session.upd_vpp_config() s = session.get_bfd_udp_session_dump_entry() self.assert_equal( session.desired_min_tx, s.desired_min_tx, "desired min transmit interval" ) self.assert_equal( session.required_min_rx, s.required_min_rx, "required min receive interval" ) self.assert_equal(session.detect_mult, s.detect_mult, "detect mult") session.upd_vpp_config( desired_min_tx=session.desired_min_tx * 2, required_min_rx=session.required_min_rx * 2, detect_mult=session.detect_mult * 2, ) s = session.get_bfd_udp_session_dump_entry() self.assert_equal( session.desired_min_tx, s.desired_min_tx, "desired min transmit interval" ) self.assert_equal( session.required_min_rx, s.required_min_rx, "required min receive interval" ) self.assert_equal(session.detect_mult, s.detect_mult, "detect mult") def test_add_sha1_keys(self): """add SHA1 keys""" key_count = 10 keys = [self.factory.create_random_key(self) for i in range(0, key_count)] for key in keys: self.assertFalse(key.query_vpp_config()) for key in keys: key.add_vpp_config() for key in keys: self.assertTrue(key.query_vpp_config()) # remove randomly indexes = list(range(key_count)) shuffle(indexes) removed = [] for i in indexes: key = keys[i] key.remove_vpp_config() removed.append(i) for j in range(key_count): key = keys[j] if j in removed: self.assertFalse(key.query_vpp_config()) else: self.assertTrue(key.query_vpp_config()) # should be removed now for key in keys: self.assertFalse(key.query_vpp_config()) # add back and remove again for key in keys: key.add_vpp_config() for key in keys: self.assertTrue(key.query_vpp_config()) for key in keys: key.remove_vpp_config() for key in keys: self.assertFalse(key.query_vpp_config()) def test_add_bfd_sha1(self): """create a BFD session (SHA1)""" key = self.factory.create_random_key(self) key.add_vpp_config() session = VppBFDUDPSession( self, self.interface0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, sha1_key=key, ) session.add_vpp_config() self.logger.debug("Session state is %s", session.state) session.remove_vpp_config() session.add_vpp_config() self.logger.debug("Session state is %s", session.state) session.remove_vpp_config() def test_double_add_sha1(self): """create the same BFD session twice (negative case) (SHA1)""" key = self.factory.create_random_key(self) key.add_vpp_config() session = VppBFDUDPSession( self, self.interface0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, sha1_key=key, ) session.add_vpp_config() with self.assertRaises(Exception): session.add_vpp_config() def test_add_auth_nonexistent_key(self): """create BFD session using non-existent SHA1 (negative case)""" session = VppBFDUDPSession( self, self.interface0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, sha1_key=self.factory.create_random_key(self), ) self.session = VppBFDUDPSession( self, self.interface0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, ) with self.assertRaises(Exception): session.add_vpp_config() def test_shared_sha1_key(self): """single SHA1 key shared by multiple BFD sessions""" key = self.factory.create_random_key(self) key.add_vpp_config() sessions = [ VppBFDUDPSession( self, self.interface0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, sha1_key=key, ), VppBFDUDPSession( self, self.interface0, self.dst_ip6_net, local_addr=self.src_ip6_net, af=AF_INET6, multihop=self.multihop, sha1_key=key, ), VppBFDUDPSession( self, self.interface1, self.dst_ip_net2, local_addr=self.src_ip_net2, multihop=self.multihop, sha1_key=key, ), VppBFDUDPSession( self, self.interface1, self.dst_ip6_net2, local_addr=self.src_ip6_net2, af=AF_INET6, multihop=self.multihop, sha1_key=key, ), ] for s in sessions: s.add_vpp_config() removed = 0 for s in sessions: e = key.get_bfd_auth_keys_dump_entry() self.assert_equal( e.use_count, len(sessions) - removed, "Use count for shared key" ) s.remove_vpp_config() removed += 1 e = key.get_bfd_auth_keys_dump_entry() self.assert_equal( e.use_count, len(sessions) - removed, "Use count for shared key" ) def test_activate_auth(self): """activate SHA1 authentication""" key = self.factory.create_random_key(self) key.add_vpp_config() session = VppBFDUDPSession( self, self.interface0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, ) session.add_vpp_config() session.activate_auth(key) def test_deactivate_auth(self): """deactivate SHA1 authentication""" key = self.factory.create_random_key(self) key.add_vpp_config() session = VppBFDUDPSession( self, self.interface0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, ) session.add_vpp_config() session.activate_auth(key) session.deactivate_auth() def test_change_key(self): """change SHA1 key""" key1 = self.factory.create_random_key(self) key2 = self.factory.create_random_key(self) while key2.conf_key_id == key1.conf_key_id: key2 = self.factory.create_random_key(self) key1.add_vpp_config() key2.add_vpp_config() session = VppBFDUDPSession( self, self.interface0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, sha1_key=key1, ) session.add_vpp_config() session.activate_auth(key2) def test_set_del_udp_echo_source(self): """set/del udp echo source""" if self.multihop: self.skipTest( f"Skipping because echo functionality is not supported with multihop" ) self.create_loopback_interfaces(1) self.loopback0 = self.lo_interfaces[0] self.loopback0.admin_up() echo_source = self.vapi.bfd_udp_get_echo_source() self.assertFalse(echo_source.is_set) self.assertFalse(echo_source.have_usable_ip4) self.assertFalse(echo_source.have_usable_ip6) self.vapi.bfd_udp_set_echo_source(sw_if_index=self.loopback0.sw_if_index) echo_source = self.vapi.bfd_udp_get_echo_source() self.assertTrue(echo_source.is_set) self.assertEqual(echo_source.sw_if_index, self.loopback0.sw_if_index) self.assertFalse(echo_source.have_usable_ip4) self.assertFalse(echo_source.have_usable_ip6) self.loopback0.config_ip4() echo_ip4 = ipaddress.IPv4Address( int(ipaddress.IPv4Address(self.loopback0.local_ip4)) ^ 1 ).packed echo_source = self.vapi.bfd_udp_get_echo_source() self.assertTrue(echo_source.is_set) self.assertEqual(echo_source.sw_if_index, self.loopback0.sw_if_index) self.assertTrue(echo_source.have_usable_ip4) self.assertEqual(echo_source.ip4_addr.packed, echo_ip4) self.assertFalse(echo_source.have_usable_ip6) self.loopback0.config_ip6() echo_ip6 = ipaddress.IPv6Address( int(ipaddress.IPv6Address(self.loopback0.local_ip6)) ^ 1 ).packed echo_source = self.vapi.bfd_udp_get_echo_source() self.assertTrue(echo_source.is_set) self.assertEqual(echo_source.sw_if_index, self.loopback0.sw_if_index) self.assertTrue(echo_source.have_usable_ip4) self.assertEqual(echo_source.ip4_addr.packed, echo_ip4) self.assertTrue(echo_source.have_usable_ip6) self.assertEqual(echo_source.ip6_addr.packed, echo_ip6) self.vapi.bfd_udp_del_echo_source() echo_source = self.vapi.bfd_udp_get_echo_source() self.assertFalse(echo_source.is_set) self.assertFalse(echo_source.have_usable_ip4) self.assertFalse(echo_source.have_usable_ip6) class BFDTestSession(object): """BFD session as seen from test framework side""" def __init__( self, test, interface, af, detect_mult=3, sha1_key=None, bfd_key_id=None, our_seq_number=None, tunnel_header=None, phy_interface=None, multihop=False, local_addr=None, peer_addr=None, ): self.test = test self.af = af self.sha1_key = sha1_key self.bfd_key_id = bfd_key_id self.interface = interface if phy_interface: self.phy_interface = phy_interface else: self.phy_interface = self.interface self.udp_sport = randint(49152, 65535) if our_seq_number is None: self.our_seq_number = randint(0, 40000000) else: self.our_seq_number = our_seq_number self.vpp_seq_number = None self.my_discriminator = 0 self.desired_min_tx = 300000 self.required_min_rx = 300000 self.required_min_echo_rx = None self.detect_mult = detect_mult self.diag = BFDDiagCode.no_diagnostic self.your_discriminator = None self.state = BFDState.down self.auth_type = BFDAuthType.no_auth self.tunnel_header = tunnel_header self.tx_packets = 0 self.rx_packets = 0 self.tx_packets_echo = 0 self.rx_packets_echo = 0 if multihop: self.sw_if_index = 0 BFD.udp_dport = BFD_UDP_MH_PORT else: BFD.udp_dport = BFD_UDP_SH_PORT self.sw_if_index = self.interface.sw_if_index if local_addr: self.local_addr = local_addr else: if self.af == AF_INET: self.local_addr = self.interface.local_ip4 else: self.local_addr = self.interface.local_ip6 if peer_addr: self.peer_addr = peer_addr else: if self.af == AF_INET: self.peer_addr = self.interface.remote_ip4 else: self.peer_addr = self.interface.remote_ip6 def inc_seq_num(self): """increment sequence number, wrapping if needed""" if self.our_seq_number == 0xFFFFFFFF: self.our_seq_number = 0 else: self.our_seq_number += 1 def update( self, my_discriminator=None, your_discriminator=None, desired_min_tx=None, required_min_rx=None, required_min_echo_rx=None, detect_mult=None, diag=None, state=None, auth_type=None, ): """update BFD parameters associated with session""" if my_discriminator is not None: self.my_discriminator = my_discriminator if your_discriminator is not None: self.your_discriminator = your_discriminator if required_min_rx is not None: self.required_min_rx = required_min_rx if required_min_echo_rx is not None: self.required_min_echo_rx = required_min_echo_rx if desired_min_tx is not None: self.desired_min_tx = desired_min_tx if detect_mult is not None: self.detect_mult = detect_mult if diag is not None: self.diag = diag if state is not None: self.state = state if auth_type is not None: self.auth_type = auth_type def fill_packet_fields(self, packet): """set packet fields with known values in packet""" bfd = packet[BFD] if self.my_discriminator: self.test.logger.debug( "BFD: setting packet.my_discriminator=%s", self.my_discriminator ) bfd.my_discriminator = self.my_discriminator if self.your_discriminator: self.test.logger.debug( "BFD: setting packet.your_discriminator=%s", self.your_discriminator ) bfd.your_discriminator = self.your_discriminator if self.required_min_rx: self.test.logger.debug( "BFD: setting packet.required_min_rx_interval=%s", self.required_min_rx ) bfd.required_min_rx_interval = self.required_min_rx if self.required_min_echo_rx: self.test.logger.debug( "BFD: setting packet.required_min_echo_rx=%s", self.required_min_echo_rx ) bfd.required_min_echo_rx_interval = self.required_min_echo_rx if self.desired_min_tx: self.test.logger.debug( "BFD: setting packet.desired_min_tx_interval=%s", self.desired_min_tx ) bfd.desired_min_tx_interval = self.desired_min_tx if self.detect_mult: self.test.logger.debug( "BFD: setting packet.detect_mult=%s", self.detect_mult ) bfd.detect_mult = self.detect_mult if self.diag: self.test.logger.debug("BFD: setting packet.diag=%s", self.diag) bfd.diag = self.diag if self.state: self.test.logger.debug("BFD: setting packet.state=%s", self.state) bfd.state = self.state if self.auth_type: # this is used by a negative test-case self.test.logger.debug("BFD: setting packet.auth_type=%s", self.auth_type) bfd.auth_type = self.auth_type def create_packet(self): """create a BFD packet, reflecting the current state of session""" if self.sha1_key: bfd = BFD(flags="A") bfd.auth_type = self.sha1_key.auth_type bfd.auth_len = BFD.sha1_auth_len bfd.auth_key_id = self.bfd_key_id bfd.auth_seq_num = self.our_seq_number bfd.length = BFD.sha1_auth_len + BFD.bfd_pkt_len else: bfd = BFD() packet = Ether( src=self.phy_interface.remote_mac, dst=self.phy_interface.local_mac ) if self.tunnel_header: packet = packet / self.tunnel_header if self.af == AF_INET6: packet = ( packet / IPv6( src=self.peer_addr, dst=self.local_addr, hlim=255, ) / UDP(sport=self.udp_sport, dport=BFD.udp_dport) / bfd ) else: packet = ( packet / IP(src=self.peer_addr, dst=self.local_addr, ttl=255) / UDP(sport=self.udp_sport, dport=BFD.udp_dport) / bfd ) self.test.logger.debug("BFD: Creating packet") self.fill_packet_fields(packet) if self.sha1_key: hash_material = ( scapy.compat.raw(packet[BFD])[:32] + self.sha1_key.key + b"\0" * (20 - len(self.sha1_key.key)) ) self.test.logger.debug( "BFD: Calculated SHA1 hash: %s" % hashlib.sha1(hash_material).hexdigest() ) packet[BFD].auth_key_hash = hashlib.sha1(hash_material).digest() return packet def send_packet(self, packet=None, interface=None): """send packet on interface, creating the packet if needed""" if packet is None: packet = self.create_packet() if interface is None: interface = self.phy_interface self.test.logger.debug(ppp("Sending packet:", packet)) interface.add_stream(packet) self.tx_packets += 1 self.test.pg_start() def verify_sha1_auth(self, packet): """Verify correctness of authentication in BFD layer.""" bfd = packet[BFD] self.test.assert_equal(bfd.auth_len, 28, "Auth section length") self.test.assert_equal(bfd.auth_type, self.sha1_key.auth_type, BFDAuthType) self.test.assert_equal(bfd.auth_key_id, self.bfd_key_id, "Key ID") self.test.assert_equal(bfd.auth_reserved, 0, "Reserved") if self.vpp_seq_number is None: self.vpp_seq_number = bfd.auth_seq_num self.test.logger.debug( "Received initial sequence number: %s" % self.vpp_seq_number ) else: recvd_seq_num = bfd.auth_seq_num self.test.logger.debug( "Received followup sequence number: %s" % recvd_seq_num ) if self.vpp_seq_number < 0xFFFFFFFF: if self.sha1_key.auth_type == BFDAuthType.meticulous_keyed_sha1: self.test.assert_equal( recvd_seq_num, self.vpp_seq_number + 1, "BFD sequence number" ) else: self.test.assert_in_range( recvd_seq_num, self.vpp_seq_number, self.vpp_seq_number + 1, "BFD sequence number", ) else: if self.sha1_key.auth_type == BFDAuthType.meticulous_keyed_sha1: self.test.assert_equal(recvd_seq_num, 0, "BFD sequence number") else: self.test.assertIn( recvd_seq_num, (self.vpp_seq_number, 0), "BFD sequence number not one of " "(%s, 0)" % self.vpp_seq_number, ) self.vpp_seq_number = recvd_seq_num # last 20 bytes represent the hash - so replace them with the key, # pad the result with zeros and hash the result hash_material = ( bfd.original[:-20] + self.sha1_key.key + b"\0" * (20 - len(self.sha1_key.key)) ) expected_hash = hashlib.sha1(hash_material).hexdigest() self.test.assert_equal( binascii.hexlify(bfd.auth_key_hash), expected_hash.encode(), "Auth key hash" ) def verify_bfd(self, packet): """Verify correctness of BFD layer.""" bfd = packet[BFD] self.test.assert_equal(bfd.version, 1, "BFD version") self.test.assert_equal( bfd.your_discriminator, self.my_discriminator, "BFD - your discriminator" ) if self.sha1_key: self.verify_sha1_auth(packet) def bfd_session_up(test): """Bring BFD session up""" test.logger.info("BFD: Waiting for slow hello") p = wait_for_bfd_packet(test, 2, is_tunnel=test.vpp_session.is_tunnel) old_offset = None if hasattr(test, "vpp_clock_offset"): old_offset = test.vpp_clock_offset test.vpp_clock_offset = time.time() - float(p.time) test.logger.debug("BFD: Calculated vpp clock offset: %s", test.vpp_clock_offset) if old_offset: test.assertAlmostEqual( old_offset, test.vpp_clock_offset, delta=0.5, msg="vpp clock offset not stable (new: %s, old: %s)" % (test.vpp_clock_offset, old_offset), ) test.logger.info("BFD: Sending Init") test.test_session.update( my_discriminator=randint(0, 40000000), your_discriminator=p[BFD].my_discriminator, state=BFDState.init, ) if ( test.test_session.sha1_key and test.test_session.sha1_key.auth_type == BFDAuthType.meticulous_keyed_sha1 ): test.test_session.inc_seq_num() test.test_session.send_packet() test.logger.info("BFD: Waiting for event") e = test.vapi.wait_for_event(1, "bfd_udp_session_event") verify_event(test, e, expected_state=BFDState.up) test.logger.info("BFD: Session is Up") test.test_session.update(state=BFDState.up) if ( test.test_session.sha1_key and test.test_session.sha1_key.auth_type == BFDAuthType.meticulous_keyed_sha1 ): test.test_session.inc_seq_num() test.test_session.send_packet() test.assert_equal(test.vpp_session.state, BFDState.up, BFDState) def bfd_session_down(test): """Bring BFD session down""" test.assert_equal(test.vpp_session.state, BFDState.up, BFDState) test.test_session.update(state=BFDState.down) if ( test.test_session.sha1_key and test.test_session.sha1_key.auth_type == BFDAuthType.meticulous_keyed_sha1 ): test.test_session.inc_seq_num() test.test_session.send_packet() test.logger.info("BFD: Waiting for event") e = test.vapi.wait_for_event(1, "bfd_udp_session_event") verify_event(test, e, expected_state=BFDState.down) test.logger.info("BFD: Session is Down") test.assert_equal(test.vpp_session.state, BFDState.down, BFDState) def verify_bfd_session_config(test, session, state=None): dump = session.get_bfd_udp_session_dump_entry() test.assertIsNotNone(dump) # since dump is not none, we have verified that sw_if_index and addresses # are valid (in get_bfd_udp_session_dump_entry) if state: test.assert_equal(dump.state, state, "session state") test.assert_equal( dump.required_min_rx, session.required_min_rx, "required min rx interval" ) test.assert_equal( dump.desired_min_tx, session.desired_min_tx, "desired min tx interval" ) test.assert_equal(dump.detect_mult, session.detect_mult, "detect multiplier") if session.sha1_key is None: test.assert_equal(dump.is_authenticated, 0, "is_authenticated flag") else: test.assert_equal(dump.is_authenticated, 1, "is_authenticated flag") test.assert_equal(dump.bfd_key_id, session.bfd_key_id, "bfd key id") test.assert_equal( dump.conf_key_id, session.sha1_key.conf_key_id, "config key id" ) def verify_ip(test, packet): """Verify correctness of IP layer.""" if test.vpp_session.af == AF_INET6: ip = packet[IPv6] local_ip = test.vpp_session.local_addr remote_ip = test.vpp_session.peer_addr test.assert_equal(ip.hlim, 255, "IPv6 hop limit") else: ip = packet[IP] local_ip = test.vpp_session.local_addr remote_ip = test.vpp_session.peer_addr test.assert_equal(ip.ttl, 255, "IPv4 TTL") test.assert_equal(ip.src, local_ip, "IP source address") test.assert_equal(ip.dst, remote_ip, "IP destination address") def verify_udp(test, packet): """Verify correctness of UDP layer.""" udp = packet[UDP] test.assert_equal(udp.dport, BFD.udp_dport, "UDP destination port") test.assert_in_range( udp.sport, BFD.udp_sport_min, BFD.udp_sport_max, "UDP source port" ) def verify_event(test, event, expected_state): """Verify correctness of event values.""" e = event test.logger.debug("BFD: Event: %s" % reprlib.repr(e)) test.assert_equal( e.sw_if_index, test.vpp_session._sw_if_index, "BFD interface index" ) test.assert_equal( str(e.local_addr), test.vpp_session.local_addr, "Local IPv6 address" ) test.assert_equal(str(e.peer_addr), test.vpp_session.peer_addr, "Peer IPv6 address") test.assert_equal(e.state, expected_state, BFDState) def wait_for_bfd_packet(test, timeout=1, pcap_time_min=None, is_tunnel=False): """wait for BFD packet and verify its correctness :param timeout: how long to wait :param pcap_time_min: ignore packets with pcap timestamp lower than this :returns: tuple (packet, time spent waiting for packet) """ test.logger.info("BFD: Waiting for BFD packet") deadline = time.time() + timeout counter = 0 while True: counter += 1 # sanity check test.assert_in_range(counter, 0, 100, "number of packets ignored") time_left = deadline - time.time() if time_left < 0: raise CaptureTimeoutError("Packet did not arrive within timeout") p = test.pg0.wait_for_packet(timeout=time_left) test.test_session.rx_packets += 1 test.logger.debug(ppp("BFD: Got packet:", p)) if pcap_time_min is not None and p.time < pcap_time_min: test.logger.debug( ppp( "BFD: ignoring packet (pcap time %s < " "pcap time min %s):" % (p.time, pcap_time_min), p, ) ) else: break test.logger.debug(test.vapi.ppcli("show trace")) if is_tunnel: # strip an IP layer and move to the next p = p[IP].payload bfd = p[BFD] if bfd is None: raise Exception(ppp("Unexpected or invalid BFD packet:", p)) if bfd.payload: raise Exception(ppp("Unexpected payload in BFD packet:", bfd)) verify_ip(test, p) verify_udp(test, p) test.test_session.verify_bfd(p) return p BFDStats = namedtuple("BFDStats", "rx rx_echo tx tx_echo") def bfd_grab_stats_snapshot(test, bs_idx=0, thread_index=None): s = test.statistics ti = thread_index if ti is None: rx = s["/bfd/rx-session-counters"][:, bs_idx].sum_packets() rx_echo = s["/bfd/rx-session-echo-counters"][:, bs_idx].sum_packets() tx = s["/bfd/tx-session-counters"][:, bs_idx].sum_packets() tx_echo = s["/bfd/tx-session-echo-counters"][:, bs_idx].sum_packets() else: rx = s["/bfd/rx-session-counters"][ti, bs_idx].sum_packets() rx_echo = s["/bfd/rx-session-echo-counters"][ti, bs_idx].sum_packets() tx = s["/bfd/tx-session-counters"][ti, bs_idx].sum_packets() tx_echo = s["/bfd/tx-session-echo-counters"][ti, bs_idx].sum_packets() return BFDStats(rx, rx_echo, tx, tx_echo) def bfd_stats_diff(stats_before, stats_after): rx = stats_after.rx - stats_before.rx rx_echo = stats_after.rx_echo - stats_before.rx_echo tx = stats_after.tx - stats_before.tx tx_echo = stats_after.tx_echo - stats_before.tx_echo return BFDStats(rx, rx_echo, tx, tx_echo) @parameterized_class( [ {"multihop": False}, {"multihop": True}, ] ) @tag_run_solo @tag_fixme_debian11 class BFD4TestCase(VppTestCase): pg0 = None interface0 = None vpp_clock_offset = None vpp_session = None test_session = None src_ip_net = "" dst_ip_net = "" @classmethod def setUpClass(cls): super(BFD4TestCase, cls).setUpClass() hoptype_str = "MultiHop" if cls.multihop else "SingleHop" cls.__doc__ = ( f"""""Bidirectional Forwarding Detection (BFD) - IPv4, {hoptype_str}""" ) cls.vapi.cli("set log class bfd level debug") try: cls.create_pg_interfaces([0]) cls.create_loopback_interfaces(1) cls.loopback0 = cls.lo_interfaces[0] cls.loopback0.config_ip4() cls.loopback0.admin_up() cls.pg0.config_ip4() cls.pg0.configure_ipv4_neighbors() cls.pg0.admin_up() cls.pg0.resolve_arp() except Exception: super(BFD4TestCase, cls).tearDownClass() raise @classmethod def tearDownClass(cls): super(BFD4TestCase, cls).tearDownClass() def setUp(self): super(BFD4TestCase, self).setUp() self.factory = AuthKeyFactory() self.vapi.want_bfd_events() self.pg0.enable_capture() set_ipv4_pfx_route_info(self, self.pg0, BFD_IPV4_REMOTE_ADDR, True) try: if self.multihop: self.interface0 = None self.bfd_udp4_sessions = self.statistics[BFD_STATS_V4_MH_PATH] self.bfd_udp6_sessions = self.statistics[BFD_STATS_V6_MH_PATH] else: self.interface0 = self.pg0 self.bfd_udp4_sessions = self.statistics[BFD_STATS_V4_SH_PATH] self.bfd_udp6_sessions = self.statistics[BFD_STATS_V6_SH_PATH] self.vapi.cli("trace add bfd-process 500") self.vpp_session = VppBFDUDPSession( self, self.interface0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, ) self.vpp_session.add_vpp_config() self.vpp_session.admin_up() self.test_session = BFDTestSession( self, self.pg0, AF_INET, local_addr=self.src_ip_net, peer_addr=self.dst_ip_net, multihop=self.multihop, ) except BaseException: self.vapi.want_bfd_events(enable_disable=0) raise def tearDown(self): if not self.vpp_dead: self.vapi.want_bfd_events(enable_disable=0) self.vapi.collect_events() # clear the event queue super(BFD4TestCase, self).tearDown() def test_session_up(self): """bring BFD session up""" bfd_session_up(self) if self.multihop: bfd_udp4_sessions = self.statistics[BFD_STATS_V4_MH_PATH] bfd_udp6_sessions = self.statistics[BFD_STATS_V6_MH_PATH] else: bfd_udp4_sessions = self.statistics[BFD_STATS_V4_SH_PATH] bfd_udp6_sessions = self.statistics[BFD_STATS_V6_SH_PATH] self.assert_equal(bfd_udp4_sessions - self.bfd_udp4_sessions, 1) self.assert_equal(bfd_udp6_sessions, self.bfd_udp6_sessions) def test_session_up_by_ip(self): """bring BFD session up - first frame looked up by address pair""" self.logger.info("BFD: Sending Slow control frame") self.test_session.update(my_discriminator=randint(0, 40000000)) self.test_session.send_packet() self.pg0.enable_capture() p = self.pg0.wait_for_packet(1) self.assert_equal( p[BFD].your_discriminator, self.test_session.my_discriminator, "BFD - your discriminator", ) self.assert_equal(p[BFD].state, BFDState.init, BFDState) self.test_session.update( your_discriminator=p[BFD].my_discriminator, state=BFDState.up ) self.logger.info("BFD: Waiting for event") e = self.vapi.wait_for_event(1, "bfd_udp_session_event") verify_event(self, e, expected_state=BFDState.init) self.logger.info("BFD: Sending Up") self.test_session.send_packet() self.logger.info("BFD: Waiting for event") e = self.vapi.wait_for_event(1, "bfd_udp_session_event") verify_event(self, e, expected_state=BFDState.up) self.logger.info("BFD: Session is Up") self.test_session.update(state=BFDState.up) self.test_session.send_packet() self.assert_equal(self.vpp_session.state, BFDState.up, BFDState) def test_session_down(self): """bring BFD session down""" bfd_session_up(self) bfd_session_down(self) def test_hold_up(self): """hold BFD session up""" bfd_session_up(self) for dummy in range(self.test_session.detect_mult * 2): wait_for_bfd_packet(self) self.test_session.send_packet() self.assert_equal(len(self.vapi.collect_events()), 0, "number of bfd events") def test_slow_timer(self): """verify slow periodic control frames while session down""" packet_count = 3 self.logger.info("BFD: Waiting for %d BFD packets", packet_count) prev_packet = wait_for_bfd_packet(self, 2) for dummy in range(packet_count): next_packet = wait_for_bfd_packet(self, 2) time_diff = next_packet.time - prev_packet.time # spec says the range should be <0.75, 1>, allow extra 0.05 margin # to work around timing issues self.assert_in_range(time_diff, 0.70, 1.05, "time between slow packets") prev_packet = next_packet def test_zero_remote_min_rx(self): """no packets when zero remote required min rx interval""" bfd_session_up(self) self.test_session.update(required_min_rx=0) self.test_session.send_packet() for dummy in range(self.test_session.detect_mult): self.sleep( self.vpp_session.required_min_rx / USEC_IN_SEC, "sleep before transmitting bfd packet", ) self.test_session.send_packet() try: p = wait_for_bfd_packet(self, timeout=0) self.logger.error(ppp("Received unexpected packet:", p)) except CaptureTimeoutError: pass self.assert_equal(len(self.vapi.collect_events()), 0, "number of bfd events") self.test_session.update(required_min_rx=300000) for dummy in range(3): self.test_session.send_packet() wait_for_bfd_packet( self, timeout=self.test_session.required_min_rx / USEC_IN_SEC ) self.assert_equal(len(self.vapi.collect_events()), 0, "number of bfd events") def test_conn_down(self): """verify session goes down after inactivity""" bfd_session_up(self) detection_time = ( self.test_session.detect_mult * self.vpp_session.required_min_rx / USEC_IN_SEC ) self.sleep(detection_time, "waiting for BFD session time-out") e = self.vapi.wait_for_event(1, "bfd_udp_session_event") verify_event(self, e, expected_state=BFDState.down) def test_peer_discr_reset_sess_down(self): """peer discriminator reset after session goes down""" bfd_session_up(self) detection_time = ( self.test_session.detect_mult * self.vpp_session.required_min_rx / USEC_IN_SEC ) self.sleep(detection_time, "waiting for BFD session time-out") self.test_session.my_discriminator = 0 wait_for_bfd_packet(self, pcap_time_min=time.time() - self.vpp_clock_offset) def test_large_required_min_rx(self): """large remote required min rx interval""" bfd_session_up(self) p = wait_for_bfd_packet(self) interval = 3000000 self.test_session.update(required_min_rx=interval) self.test_session.send_packet() time_mark = time.time() count = 0 # busy wait here, trying to collect a packet or event, vpp is not # allowed to send packets and the session will timeout first - so the # Up->Down event must arrive before any packets do while time.time() < time_mark + interval / USEC_IN_SEC: try: p = wait_for_bfd_packet(self, timeout=0) # if vpp managed to send a packet before we did the session # session update, then that's fine, ignore it if p.time < time_mark - self.vpp_clock_offset: continue self.logger.error(ppp("Received unexpected packet:", p)) count += 1 except CaptureTimeoutError: pass events = self.vapi.collect_events() if len(events) > 0: verify_event(self, events[0], BFDState.down) break self.assert_equal(count, 0, "number of packets received") def test_immediate_remote_min_rx_reduction(self): """immediately honor remote required min rx reduction""" self.vpp_session.remove_vpp_config() self.vpp_session = VppBFDUDPSession( self, self.interface0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, desired_min_tx=10000, ) self.pg0.enable_capture() self.vpp_session.add_vpp_config() self.test_session.update(desired_min_tx=1000000, required_min_rx=1000000) bfd_session_up(self) reference_packet = wait_for_bfd_packet(self) time_mark = time.time() interval = 300000 self.test_session.update(required_min_rx=interval) self.test_session.send_packet() extra_time = time.time() - time_mark p = wait_for_bfd_packet(self) # first packet is allowed to be late by time we spent doing the update # calculated in extra_time self.assert_in_range( p.time - reference_packet.time, 0.95 * 0.75 * interval / USEC_IN_SEC, 1.05 * interval / USEC_IN_SEC + extra_time, "time between BFD packets", ) reference_packet = p for dummy in range(3): p = wait_for_bfd_packet(self) diff = p.time - reference_packet.time self.assert_in_range( diff, 0.95 * 0.75 * interval / USEC_IN_SEC, 1.05 * interval / USEC_IN_SEC, "time between BFD packets", ) reference_packet = p def test_modify_req_min_rx_double(self): """modify session - double required min rx""" bfd_session_up(self) p = wait_for_bfd_packet(self) self.test_session.update(desired_min_tx=10000, required_min_rx=10000) self.test_session.send_packet() # double required min rx self.vpp_session.modify_parameters( required_min_rx=2 * self.vpp_session.required_min_rx ) p = wait_for_bfd_packet(self, pcap_time_min=time.time() - self.vpp_clock_offset) # poll bit needs to be set self.assertIn("P", p.sprintf("%BFD.flags%"), "Poll bit not set in BFD packet") # finish poll sequence with final packet final = self.test_session.create_packet() final[BFD].flags = "F" timeout = ( self.test_session.detect_mult * max(self.test_session.desired_min_tx, self.vpp_session.required_min_rx) / USEC_IN_SEC ) self.test_session.send_packet(final) time_mark = time.time() e = self.vapi.wait_for_event(2 * timeout, "bfd_udp_session_event") verify_event(self, e, expected_state=BFDState.down) time_to_event = time.time() - time_mark self.assert_in_range( time_to_event, 0.9 * timeout, 1.1 * timeout, "session timeout" ) def test_modify_req_min_rx_halve(self): """modify session - halve required min rx""" self.vpp_session.modify_parameters( required_min_rx=2 * self.vpp_session.required_min_rx ) bfd_session_up(self) p = wait_for_bfd_packet(self) self.test_session.update(desired_min_tx=10000, required_min_rx=10000) self.test_session.send_packet() p = wait_for_bfd_packet(self, pcap_time_min=time.time() - self.vpp_clock_offset) # halve required min rx old_required_min_rx = self.vpp_session.required_min_rx self.vpp_session.modify_parameters( required_min_rx=self.vpp_session.required_min_rx // 2 ) # now we wait 0.8*3*old-req-min-rx and the session should still be up self.sleep( 0.8 * self.vpp_session.detect_mult * old_required_min_rx / USEC_IN_SEC, "wait before finishing poll sequence", ) self.assert_equal(len(self.vapi.collect_events()), 0, "number of bfd events") p = wait_for_bfd_packet(self) # poll bit needs to be set self.assertIn("P", p.sprintf("%BFD.flags%"), "Poll bit not set in BFD packet") # finish poll sequence with final packet final = self.test_session.create_packet() final[BFD].flags = "F" self.test_session.send_packet(final) # now the session should time out under new conditions detection_time = ( self.test_session.detect_mult * self.vpp_session.required_min_rx / USEC_IN_SEC ) before = time.time() e = self.vapi.wait_for_event(2 * detection_time, "bfd_udp_session_event") after = time.time() self.assert_in_range( after - before, 0.9 * detection_time, 1.1 * detection_time, "time before bfd session goes down", ) verify_event(self, e, expected_state=BFDState.down) def test_modify_detect_mult(self): """modify detect multiplier""" bfd_session_up(self) p = wait_for_bfd_packet(self) self.vpp_session.modify_parameters(detect_mult=1) p = wait_for_bfd_packet(self, pcap_time_min=time.time() - self.vpp_clock_offset) self.assert_equal( self.vpp_session.detect_mult, p[BFD].detect_mult, "detect mult" ) # poll bit must not be set self.assertNotIn( "P", p.sprintf("%BFD.flags%"), "Poll bit not set in BFD packet" ) self.vpp_session.modify_parameters(detect_mult=10) p = wait_for_bfd_packet(self, pcap_time_min=time.time() - self.vpp_clock_offset) self.assert_equal( self.vpp_session.detect_mult, p[BFD].detect_mult, "detect mult" ) # poll bit must not be set self.assertNotIn( "P", p.sprintf("%BFD.flags%"), "Poll bit not set in BFD packet" ) def test_queued_poll(self): """test poll sequence queueing""" bfd_session_up(self) p = wait_for_bfd_packet(self) self.vpp_session.modify_parameters( required_min_rx=2 * self.vpp_session.required_min_rx ) p = wait_for_bfd_packet(self) poll_sequence_start = time.time() poll_sequence_length_min = 0.5 send_final_after = time.time() + poll_sequence_length_min # poll bit needs to be set self.assertIn("P", p.sprintf("%BFD.flags%"), "Poll bit not set in BFD packet") self.assert_equal( p[BFD].required_min_rx_interval, self.vpp_session.required_min_rx, "BFD required min rx interval", ) self.vpp_session.modify_parameters( required_min_rx=2 * self.vpp_session.required_min_rx ) # 2nd poll sequence should be queued now # don't send the reply back yet, wait for some time to emulate # longer round-trip time packet_count = 0 while time.time() < send_final_after: self.test_session.send_packet() p = wait_for_bfd_packet(self) self.assert_equal( len(self.vapi.collect_events()), 0, "number of bfd events" ) self.assert_equal( p[BFD].required_min_rx_interval, self.vpp_session.required_min_rx, "BFD required min rx interval", ) packet_count += 1 # poll bit must be set self.assertIn( "P", p.sprintf("%BFD.flags%"), "Poll bit not set in BFD packet" ) final = self.test_session.create_packet() final[BFD].flags = "F" self.test_session.send_packet(final) # finish 1st with final poll_sequence_length = time.time() - poll_sequence_start # vpp must wait for some time before starting new poll sequence poll_no_2_started = False for dummy in range(2 * packet_count): p = wait_for_bfd_packet(self) self.assert_equal( len(self.vapi.collect_events()), 0, "number of bfd events" ) if "P" in p.sprintf("%BFD.flags%"): poll_no_2_started = True if time.time() < poll_sequence_start + poll_sequence_length: raise Exception("VPP started 2nd poll sequence too soon") final = self.test_session.create_packet() final[BFD].flags = "F" self.test_session.send_packet(final) break else: self.test_session.send_packet() self.assertTrue(poll_no_2_started, "2nd poll sequence not performed") # finish 2nd with final final = self.test_session.create_packet() final[BFD].flags = "F" self.test_session.send_packet(final) p = wait_for_bfd_packet(self) # poll bit must not be set self.assertNotIn("P", p.sprintf("%BFD.flags%"), "Poll bit set in BFD packet") # returning inconsistent results requiring retries in per-patch tests @unittest.skipUnless(config.extended, "part of extended tests") def test_poll_response(self): """test correct response to control frame with poll bit set""" bfd_session_up(self) poll = self.test_session.create_packet() poll[BFD].flags = "P" self.test_session.send_packet(poll) final = wait_for_bfd_packet( self, pcap_time_min=time.time() - self.vpp_clock_offset ) self.assertIn("F", final.sprintf("%BFD.flags%")) def test_no_periodic_if_remote_demand(self): """no periodic frames outside poll sequence if remote demand set""" bfd_session_up(self) demand = self.test_session.create_packet() demand[BFD].flags = "D" self.test_session.send_packet(demand) transmit_time = ( 0.9 * max(self.vpp_session.required_min_rx, self.test_session.desired_min_tx) / USEC_IN_SEC ) count = 0 for dummy in range(self.test_session.detect_mult * 2): self.sleep(transmit_time) self.test_session.send_packet(demand) try: p = wait_for_bfd_packet(self, timeout=0) self.logger.error(ppp("Received unexpected packet:", p)) count += 1 except CaptureTimeoutError: pass events = self.vapi.collect_events() for e in events: self.logger.error("Received unexpected event: %s", e) self.assert_equal(count, 0, "number of packets received") self.assert_equal(len(events), 0, "number of events received") def test_echo_looped_back(self): """echo packets looped back""" if self.multihop: self.skipTest( f"Skipping because echo functionality is not supported with multihop" ) bfd_session_up(self) stats_before = bfd_grab_stats_snapshot(self) self.pg0.enable_capture() echo_packet_count = 10 # random source port low enough to increment a few times.. udp_sport_tx = randint(1, 50000) udp_sport_rx = udp_sport_tx echo_packet = ( Ether(src=self.pg0.remote_mac, dst=self.pg0.local_mac) / IP(src=self.pg0.remote_ip4, dst=self.pg0.remote_ip4) / UDP(dport=BFD.udp_dport_echo) / Raw("this should be looped back") ) for dummy in range(echo_packet_count): self.sleep(0.01, "delay between echo packets") echo_packet[UDP].sport = udp_sport_tx udp_sport_tx += 1 self.logger.debug(ppp("Sending packet:", echo_packet)) self.pg0.add_stream(echo_packet) self.pg_start() self.logger.debug(self.vapi.ppcli("show trace")) counter = 0 bfd_control_packets_rx = 0 while counter < echo_packet_count: p = self.pg0.wait_for_packet(1) self.logger.debug(ppp("Got packet:", p)) ether = p[Ether] self.assert_equal(self.pg0.remote_mac, ether.dst, "Destination MAC") self.assert_equal(self.pg0.local_mac, ether.src, "Source MAC") ip = p[IP] self.assert_equal(self.pg0.remote_ip4, ip.dst, "Destination IP") udp = p[UDP] if udp.dport == BFD.udp_dport: bfd_control_packets_rx += 1 continue self.assert_equal(self.pg0.remote_ip4, ip.src, "Source IP") self.assert_equal(udp.dport, BFD.udp_dport_echo, "UDP destination port") self.assert_equal(udp.sport, udp_sport_rx, "UDP source port") udp_sport_rx += 1 # need to compare the hex payload here, otherwise BFD_vpp_echo # gets in way self.assertEqual( scapy.compat.raw(p[UDP].payload), scapy.compat.raw(echo_packet[UDP].payload), "Received packet is not the echo packet sent", ) counter += 1 self.assert_equal( udp_sport_tx, udp_sport_rx, "UDP source port (== ECHO packet identifier for test purposes)", ) stats_after = bfd_grab_stats_snapshot(self) diff = bfd_stats_diff(stats_before, stats_after) self.assertEqual(0, diff.rx, "RX counter bumped but no BFD packets sent") self.assertEqual( 0, diff.rx_echo, "RX echo counter bumped but no BFD session exists" ) self.assertEqual( 0, diff.tx_echo, "TX echo counter bumped but no BFD session exists" ) def test_echo(self): """echo function""" if self.multihop: self.skipTest( f"Skipping because echo functionality is not supported with multihop" ) stats_before = bfd_grab_stats_snapshot(self) bfd_session_up(self) self.test_session.update(required_min_echo_rx=150000) self.test_session.send_packet() detection_time = ( self.test_session.detect_mult * self.vpp_session.required_min_rx / USEC_IN_SEC ) # echo shouldn't work without echo source set for dummy in range(10): sleep = self.vpp_session.required_min_rx / USEC_IN_SEC self.sleep(sleep, "delay before sending bfd packet") self.test_session.send_packet() p = wait_for_bfd_packet(self, pcap_time_min=time.time() - self.vpp_clock_offset) self.assert_equal( p[BFD].required_min_rx_interval, self.vpp_session.required_min_rx, "BFD required min rx interval", ) self.test_session.send_packet() self.vapi.bfd_udp_set_echo_source(sw_if_index=self.loopback0.sw_if_index) echo_seen = False # should be turned on - loopback echo packets for dummy in range(3): loop_until = time.time() + 0.75 * detection_time while time.time() < loop_until: p = self.pg0.wait_for_packet(1) self.logger.debug(ppp("Got packet:", p)) if p[UDP].dport == BFD.udp_dport_echo: self.assert_equal(p[IP].dst, self.pg0.local_ip4, "BFD ECHO dst IP") self.assertNotEqual( p[IP].src, self.loopback0.local_ip4, "BFD ECHO src IP equal to loopback IP", ) self.logger.debug(ppp("Looping back packet:", p)) self.assert_equal( p[Ether].dst, self.pg0.remote_mac, "ECHO packet destination MAC address", ) p[Ether].dst = self.pg0.local_mac self.pg0.add_stream(p) self.test_session.rx_packets_echo += 1 self.test_session.tx_packets_echo += 1 self.pg_start() echo_seen = True elif p.haslayer(BFD): self.test_session.rx_packets += 1 if echo_seen: self.assertGreaterEqual( p[BFD].required_min_rx_interval, 1000000 ) if "P" in p.sprintf("%BFD.flags%"): final = self.test_session.create_packet() final[BFD].flags = "F" self.test_session.send_packet(final) else: raise Exception(ppp("Received unknown packet:", p)) self.assert_equal( len(self.vapi.collect_events()), 0, "number of bfd events" ) self.test_session.send_packet() self.assertTrue(echo_seen, "No echo packets received") stats_after = bfd_grab_stats_snapshot(self) diff = bfd_stats_diff(stats_before, stats_after) # our rx is vpp tx and vice versa, also tolerate one packet off self.assert_in_range( self.test_session.tx_packets, diff.rx - 1, diff.rx + 1, "RX counter" ) self.assert_in_range( self.test_session.rx_packets, diff.tx - 1, diff.tx + 1, "TX counter" ) self.assert_in_range( self.test_session.tx_packets_echo, diff.rx_echo - 1, diff.rx_echo + 1, "RX echo counter", ) self.assert_in_range( self.test_session.rx_packets_echo, diff.tx_echo - 1, diff.tx_echo + 1, "TX echo counter", ) def test_echo_fail(self): """session goes down if echo function fails""" if self.multihop: self.skipTest( f"Skipping because echo functionality is not supported with multihop" ) bfd_session_up(self) self.test_session.update(required_min_echo_rx=150000) self.test_session.send_packet() detection_time = ( self.test_session.detect_mult * self.vpp_session.required_min_rx / USEC_IN_SEC ) self.vapi.bfd_udp_set_echo_source(sw_if_index=self.loopback0.sw_if_index) # echo function should be used now, but we will drop the echo packets verified_diag = False for dummy in range(3): loop_until = time.time() + 0.75 * detection_time while time.time() < loop_until: p = self.pg0.wait_for_packet(1) self.logger.debug(ppp("Got packet:", p)) if p[UDP].dport == BFD.udp_dport_echo: # dropped pass elif p.haslayer(BFD): if "P" in p.sprintf("%BFD.flags%"): self.assertGreaterEqual( p[BFD].required_min_rx_interval, 1000000 ) final = self.test_session.create_packet() final[BFD].flags = "F" self.test_session.send_packet(final) if p[BFD].state == BFDState.down: self.assert_equal( p[BFD].diag, BFDDiagCode.echo_function_failed, BFDDiagCode ) verified_diag = True else: raise Exception(ppp("Received unknown packet:", p)) self.test_session.send_packet() events = self.vapi.collect_events() self.assert_equal(len(events), 1, "number of bfd events") self.assert_equal(events[0].state, BFDState.down, BFDState) self.assertTrue(verified_diag, "Incorrect diagnostics code received") def test_echo_stop(self): """echo function stops if peer sets required min echo rx zero""" if self.multihop: self.skipTest( f"Skipping because echo functionality is not supported with multihop" ) bfd_session_up(self) self.test_session.update(required_min_echo_rx=150000) self.test_session.send_packet() self.vapi.bfd_udp_set_echo_source(sw_if_index=self.loopback0.sw_if_index) # wait for first echo packet while True: p = self.pg0.wait_for_packet(1) self.logger.debug(ppp("Got packet:", p)) if p[UDP].dport == BFD.udp_dport_echo: self.logger.debug(ppp("Looping back packet:", p)) p[Ether].dst = self.pg0.local_mac self.pg0.add_stream(p) self.pg_start() break elif p.haslayer(BFD): # ignore BFD pass else: raise Exception(ppp("Received unknown packet:", p)) self.test_session.update(required_min_echo_rx=0) self.test_session.send_packet() # echo packets shouldn't arrive anymore for dummy in range(5): wait_for_bfd_packet(self, pcap_time_min=time.time() - self.vpp_clock_offset) self.test_session.send_packet() events = self.vapi.collect_events() self.assert_equal(len(events), 0, "number of bfd events") def test_echo_source_removed(self): """echo function stops if echo source is removed""" if self.multihop: self.skipTest( f"Skipping because echo functionality is not supported with multihop" ) bfd_session_up(self) self.test_session.update(required_min_echo_rx=150000) self.test_session.send_packet() self.vapi.bfd_udp_set_echo_source(sw_if_index=self.loopback0.sw_if_index) # wait for first echo packet while True: p = self.pg0.wait_for_packet(1) self.logger.debug(ppp("Got packet:", p)) if p[UDP].dport == BFD.udp_dport_echo: self.logger.debug(ppp("Looping back packet:", p)) p[Ether].dst = self.pg0.local_mac self.pg0.add_stream(p) self.pg_start() break elif p.haslayer(BFD): # ignore BFD pass else: raise Exception(ppp("Received unknown packet:", p)) self.vapi.bfd_udp_del_echo_source() self.test_session.send_packet() # echo packets shouldn't arrive anymore for dummy in range(5): wait_for_bfd_packet(self, pcap_time_min=time.time() - self.vpp_clock_offset) self.test_session.send_packet() events = self.vapi.collect_events() self.assert_equal(len(events), 0, "number of bfd events") def test_stale_echo(self): """stale echo packets don't keep a session up""" if self.multihop: self.skipTest( f"Skipping because echo functionality is not supported with multihop" ) bfd_session_up(self) self.test_session.update(required_min_echo_rx=150000) self.vapi.bfd_udp_set_echo_source(sw_if_index=self.loopback0.sw_if_index) self.test_session.send_packet() # should be turned on - loopback echo packets echo_packet = None timeout_at = None timeout_ok = False for dummy in range(10 * self.vpp_session.detect_mult): p = self.pg0.wait_for_packet(1) if p[UDP].dport == BFD.udp_dport_echo: if echo_packet is None: self.logger.debug(ppp("Got first echo packet:", p)) echo_packet = p timeout_at = ( time.time() + self.vpp_session.detect_mult * self.test_session.required_min_echo_rx / USEC_IN_SEC ) else: self.logger.debug(ppp("Got followup echo packet:", p)) self.logger.debug(ppp("Looping back first echo packet:", p)) echo_packet[Ether].dst = self.pg0.local_mac self.pg0.add_stream(echo_packet) self.pg_start() elif p.haslayer(BFD): self.logger.debug(ppp("Got packet:", p)) if "P" in p.sprintf("%BFD.flags%"): final = self.test_session.create_packet() final[BFD].flags = "F" self.test_session.send_packet(final) if p[BFD].state == BFDState.down: self.assertIsNotNone( timeout_at, "Session went down before first echo packet received", ) now = time.time() self.assertGreaterEqual( now, timeout_at, "Session timeout at %s, but is expected at %s" % (now, timeout_at), ) self.assert_equal( p[BFD].diag, BFDDiagCode.echo_function_failed, BFDDiagCode ) events = self.vapi.collect_events() self.assert_equal(len(events), 1, "number of bfd events") self.assert_equal(events[0].state, BFDState.down, BFDState) timeout_ok = True break else: raise Exception(ppp("Received unknown packet:", p)) self.test_session.send_packet() self.assertTrue(timeout_ok, "Expected timeout event didn't occur") def test_invalid_echo_checksum(self): """echo packets with invalid checksum don't keep a session up""" if self.multihop: self.skipTest( f"Skipping because echo functionality is not supported with multihop" ) bfd_session_up(self) self.test_session.update(required_min_echo_rx=150000) self.vapi.bfd_udp_set_echo_source(sw_if_index=self.loopback0.sw_if_index) self.test_session.send_packet() # should be turned on - loopback echo packets timeout_at = None timeout_ok = False for dummy in range(10 * self.vpp_session.detect_mult): p = self.pg0.wait_for_packet(1) if p[UDP].dport == BFD.udp_dport_echo: self.logger.debug(ppp("Got echo packet:", p)) if timeout_at is None: timeout_at = ( time.time() + self.vpp_session.detect_mult * self.test_session.required_min_echo_rx / USEC_IN_SEC ) p[BFD_vpp_echo].checksum = getrandbits(64) p[Ether].dst = self.pg0.local_mac self.logger.debug(ppp("Looping back modified echo packet:", p)) self.pg0.add_stream(p) self.pg_start() elif p.haslayer(BFD): self.logger.debug(ppp("Got packet:", p)) if "P" in p.sprintf("%BFD.flags%"): final = self.test_session.create_packet() final[BFD].flags = "F" self.test_session.send_packet(final) if p[BFD].state == BFDState.down: self.assertIsNotNone( timeout_at, "Session went down before first echo packet received", ) now = time.time() self.assertGreaterEqual( now, timeout_at, "Session timeout at %s, but is expected at %s" % (now, timeout_at), ) self.assert_equal( p[BFD].diag, BFDDiagCode.echo_function_failed, BFDDiagCode ) events = self.vapi.collect_events() self.assert_equal(len(events), 1, "number of bfd events") self.assert_equal(events[0].state, BFDState.down, BFDState) timeout_ok = True break else: raise Exception(ppp("Received unknown packet:", p)) self.test_session.send_packet() self.assertTrue(timeout_ok, "Expected timeout event didn't occur") def test_admin_up_down(self): """put session admin-up and admin-down""" bfd_session_up(self) self.vpp_session.admin_down() self.pg0.enable_capture() e = self.vapi.wait_for_event(1, "bfd_udp_session_event") verify_event(self, e, expected_state=BFDState.admin_down) for dummy in range(2): p = wait_for_bfd_packet(self) self.assert_equal(p[BFD].state, BFDState.admin_down, BFDState) # try to bring session up - shouldn't be possible self.test_session.update(state=BFDState.init) self.test_session.send_packet() for dummy in range(2): p = wait_for_bfd_packet(self) self.assert_equal(p[BFD].state, BFDState.admin_down, BFDState) self.vpp_session.admin_up() self.test_session.update(state=BFDState.down) e = self.vapi.wait_for_event(1, "bfd_udp_session_event") verify_event(self, e, expected_state=BFDState.down) p = wait_for_bfd_packet(self, pcap_time_min=time.time() - self.vpp_clock_offset) self.assert_equal(p[BFD].state, BFDState.down, BFDState) self.test_session.send_packet() p = wait_for_bfd_packet(self, pcap_time_min=time.time() - self.vpp_clock_offset) self.assert_equal(p[BFD].state, BFDState.init, BFDState) e = self.vapi.wait_for_event(1, "bfd_udp_session_event") verify_event(self, e, expected_state=BFDState.init) self.test_session.update(state=BFDState.up) self.test_session.send_packet() p = wait_for_bfd_packet(self, pcap_time_min=time.time() - self.vpp_clock_offset) self.assert_equal(p[BFD].state, BFDState.up, BFDState) e = self.vapi.wait_for_event(1, "bfd_udp_session_event") verify_event(self, e, expected_state=BFDState.up) def test_config_change_remote_demand(self): """configuration change while peer in demand mode""" bfd_session_up(self) demand = self.test_session.create_packet() demand[BFD].flags = "D" self.test_session.send_packet(demand) self.vpp_session.modify_parameters( required_min_rx=2 * self.vpp_session.required_min_rx ) p = wait_for_bfd_packet(self, pcap_time_min=time.time() - self.vpp_clock_offset) # poll bit must be set self.assertIn("P", p.sprintf("%BFD.flags%"), "Poll bit not set") # terminate poll sequence final = self.test_session.create_packet() final[BFD].flags = "D+F" self.test_session.send_packet(final) # vpp should be quiet now again transmit_time = ( 0.9 * max(self.vpp_session.required_min_rx, self.test_session.desired_min_tx) / USEC_IN_SEC ) count = 0 for dummy in range(self.test_session.detect_mult * 2): self.sleep(transmit_time) self.test_session.send_packet(demand) try: p = wait_for_bfd_packet(self, timeout=0) self.logger.error(ppp("Received unexpected packet:", p)) count += 1 except CaptureTimeoutError: pass events = self.vapi.collect_events() for e in events: self.logger.error("Received unexpected event: %s", e) self.assert_equal(count, 0, "number of packets received") self.assert_equal(len(events), 0, "number of events received") def test_intf_deleted(self): """interface with bfd session deleted""" intf = VppLoInterface(self) intf.config_ip4() intf.admin_up() sw_if_index = intf.sw_if_index # Setup routing info for multihop set_ipv4_pfx_route_info(self, intf, BFD_IPV4_REMOTE_ADDR2, False) vpp_session = VppBFDUDPSession( self, intf, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, ) vpp_session.add_vpp_config() vpp_session.admin_up() intf.remove_vpp_config() # BFD session is removed only for single-hop session if self.multihop: self.assertTrue(vpp_session.query_vpp_config()) else: e = self.vapi.wait_for_event(1, "bfd_udp_session_event") self.assert_equal(e.sw_if_index, sw_if_index, "sw_if_index") self.assertFalse(vpp_session.query_vpp_config()) @parameterized_class( [ {"multihop": False}, {"multihop": True}, ] ) @tag_run_solo @tag_fixme_vpp_workers class BFD6TestCase(VppTestCase): pg0 = None interface0 = None vpp_clock_offset = None vpp_session = None test_session = None src_ip6_net = "" dst_ip6_net = "" @classmethod def setUpClass(cls): super(BFD6TestCase, cls).setUpClass() hoptype_str = "MultiHop" if cls.multihop else "SingleHop" cls.__doc__ = ( f"""""Bidirectional Forwarding Detection (BFD) - IPv6, {hoptype_str}""" ) cls.vapi.cli("set log class bfd level debug") try: cls.create_pg_interfaces([0]) cls.pg0.config_ip6() cls.pg0.configure_ipv6_neighbors() cls.pg0.admin_up() cls.pg0.resolve_ndp() cls.create_loopback_interfaces(1) cls.loopback0 = cls.lo_interfaces[0] cls.loopback0.config_ip6() cls.loopback0.admin_up() except Exception: super(BFD6TestCase, cls).tearDownClass() raise @classmethod def tearDownClass(cls): super(BFD6TestCase, cls).tearDownClass() def setUp(self): super(BFD6TestCase, self).setUp() self.factory = AuthKeyFactory() self.vapi.want_bfd_events() self.pg0.enable_capture() set_ipv6_pfx_route_info(self, self.pg0, BFD_IPV6_REMOTE_ADDR, True) try: if self.multihop: self.interface0 = None self.bfd_udp4_sessions = self.statistics[BFD_STATS_V4_MH_PATH] self.bfd_udp6_sessions = self.statistics[BFD_STATS_V6_MH_PATH] else: self.interface0 = self.pg0 self.bfd_udp4_sessions = self.statistics[BFD_STATS_V4_SH_PATH] self.bfd_udp6_sessions = self.statistics[BFD_STATS_V6_SH_PATH] self.vpp_session = VppBFDUDPSession( self, self.interface0, self.dst_ip6_net, local_addr=self.src_ip6_net, af=AF_INET6, multihop=self.multihop, ) self.vpp_session.add_vpp_config() self.vpp_session.admin_up() self.test_session = BFDTestSession( self, self.pg0, AF_INET6, local_addr=self.src_ip6_net, peer_addr=self.dst_ip6_net, multihop=self.multihop, ) self.logger.debug(self.vapi.cli("show adj nbr")) except BaseException: self.vapi.want_bfd_events(enable_disable=0) raise def tearDown(self): self.vpp_session.remove_vpp_config() if not self.vpp_dead: self.vapi.want_bfd_events(enable_disable=0) self.vapi.collect_events() # clear the event queue super(BFD6TestCase, self).tearDown() def test_session_up(self): """bring BFD session up""" bfd_session_up(self) if self.multihop: bfd_udp4_sessions = self.statistics[BFD_STATS_V4_MH_PATH] bfd_udp6_sessions = self.statistics[BFD_STATS_V6_MH_PATH] else: bfd_udp4_sessions = self.statistics[BFD_STATS_V4_SH_PATH] bfd_udp6_sessions = self.statistics[BFD_STATS_V6_SH_PATH] self.assert_equal(bfd_udp4_sessions, self.bfd_udp4_sessions) self.assert_equal(bfd_udp6_sessions - self.bfd_udp6_sessions, 1) def test_session_up_by_ip(self): """bring BFD session up - first frame looked up by address pair""" self.logger.info("BFD: Sending Slow control frame") self.test_session.update(my_discriminator=randint(0, 40000000)) self.test_session.send_packet() self.pg0.enable_capture() p = self.pg0.wait_for_packet(1) self.assert_equal( p[BFD].your_discriminator, self.test_session.my_discriminator, "BFD - your discriminator", ) self.assert_equal(p[BFD].state, BFDState.init, BFDState) self.test_session.update( your_discriminator=p[BFD].my_discriminator, state=BFDState.up ) self.logger.info("BFD: Waiting for event") e = self.vapi.wait_for_event(1, "bfd_udp_session_event") verify_event(self, e, expected_state=BFDState.init) self.logger.info("BFD: Sending Up") self.test_session.send_packet() self.logger.info("BFD: Waiting for event") e = self.vapi.wait_for_event(1, "bfd_udp_session_event") verify_event(self, e, expected_state=BFDState.up) self.logger.info("BFD: Session is Up") self.test_session.update(state=BFDState.up) self.test_session.send_packet() self.assert_equal(self.vpp_session.state, BFDState.up, BFDState) def test_hold_up(self): """hold BFD session up""" bfd_session_up(self) for dummy in range(self.test_session.detect_mult * 2): wait_for_bfd_packet(self) self.test_session.send_packet() self.assert_equal(len(self.vapi.collect_events()), 0, "number of bfd events") self.assert_equal(self.vpp_session.state, BFDState.up, BFDState) def test_echo_looped_back(self): """echo packets looped back""" if self.multihop: self.skipTest( f"Skipping because echo functionality is not supported with multihop" ) bfd_session_up(self) stats_before = bfd_grab_stats_snapshot(self) self.pg0.enable_capture() echo_packet_count = 10 # random source port low enough to increment a few times.. udp_sport_tx = randint(1, 50000) udp_sport_rx = udp_sport_tx echo_packet = ( Ether(src=self.pg0.remote_mac, dst=self.pg0.local_mac) / IPv6(src=self.pg0.remote_ip6, dst=self.pg0.remote_ip6) / UDP(dport=BFD.udp_dport_echo) / Raw("this should be looped back") ) for dummy in range(echo_packet_count): self.sleep(0.01, "delay between echo packets") echo_packet[UDP].sport = udp_sport_tx udp_sport_tx += 1 self.logger.debug(ppp("Sending packet:", echo_packet)) self.pg0.add_stream(echo_packet) self.pg_start() counter = 0 bfd_control_packets_rx = 0 while counter < echo_packet_count: p = self.pg0.wait_for_packet(1) self.logger.debug(ppp("Got packet:", p)) ether = p[Ether] self.assert_equal(self.pg0.remote_mac, ether.dst, "Destination MAC") self.assert_equal(self.pg0.local_mac, ether.src, "Source MAC") ip = p[IPv6] self.assert_equal(self.pg0.remote_ip6, ip.dst, "Destination IP") udp = p[UDP] if udp.dport == BFD.udp_dport: bfd_control_packets_rx += 1 continue self.assert_equal(self.pg0.remote_ip6, ip.src, "Source IP") self.assert_equal(udp.dport, BFD.udp_dport_echo, "UDP destination port") self.assert_equal(udp.sport, udp_sport_rx, "UDP source port") udp_sport_rx += 1 # need to compare the hex payload here, otherwise BFD_vpp_echo # gets in way self.assertEqual( scapy.compat.raw(p[UDP].payload), scapy.compat.raw(echo_packet[UDP].payload), "Received packet is not the echo packet sent", ) counter += 1 self.assert_equal( udp_sport_tx, udp_sport_rx, "UDP source port (== ECHO packet identifier for test purposes)", ) stats_after = bfd_grab_stats_snapshot(self) diff = bfd_stats_diff(stats_before, stats_after) self.assertEqual(0, diff.rx, "RX counter bumped but no BFD packets sent") self.assertEqual( 0, diff.rx_echo, "RX echo counter bumped but no BFD session exists" ) self.assertEqual( 0, diff.tx_echo, "TX echo counter bumped but no BFD session exists" ) def test_echo(self): """echo function""" if self.multihop: self.skipTest( f"Skipping because echo functionality is not supported with multihop" ) stats_before = bfd_grab_stats_snapshot(self) bfd_session_up(self) self.test_session.update(required_min_echo_rx=150000) self.test_session.send_packet() detection_time = ( self.test_session.detect_mult * self.vpp_session.required_min_rx / USEC_IN_SEC ) # echo shouldn't work without echo source set for dummy in range(10): sleep = self.vpp_session.required_min_rx / USEC_IN_SEC self.sleep(sleep, "delay before sending bfd packet") self.test_session.send_packet() p = wait_for_bfd_packet(self, pcap_time_min=time.time() - self.vpp_clock_offset) self.assert_equal( p[BFD].required_min_rx_interval, self.vpp_session.required_min_rx, "BFD required min rx interval", ) self.test_session.send_packet() self.vapi.bfd_udp_set_echo_source(sw_if_index=self.loopback0.sw_if_index) echo_seen = False # should be turned on - loopback echo packets for dummy in range(3): loop_until = time.time() + 0.75 * detection_time while time.time() < loop_until: p = self.pg0.wait_for_packet(1) self.logger.debug(ppp("Got packet:", p)) if p[UDP].dport == BFD.udp_dport_echo: self.assert_equal( p[IPv6].dst, self.pg0.local_ip6, "BFD ECHO dst IP" ) self.assertNotEqual( p[IPv6].src, self.loopback0.local_ip6, "BFD ECHO src IP equal to loopback IP", ) self.logger.debug(ppp("Looping back packet:", p)) self.assert_equal( p[Ether].dst, self.pg0.remote_mac, "ECHO packet destination MAC address", ) self.test_session.rx_packets_echo += 1 self.test_session.tx_packets_echo += 1 p[Ether].dst = self.pg0.local_mac self.pg0.add_stream(p) self.pg_start() echo_seen = True elif p.haslayer(BFD): self.test_session.rx_packets += 1 if echo_seen: self.assertGreaterEqual( p[BFD].required_min_rx_interval, 1000000 ) if "P" in p.sprintf("%BFD.flags%"): final = self.test_session.create_packet() final[BFD].flags = "F" self.test_session.send_packet(final) else: raise Exception(ppp("Received unknown packet:", p)) self.assert_equal( len(self.vapi.collect_events()), 0, "number of bfd events" ) self.test_session.send_packet() self.assertTrue(echo_seen, "No echo packets received") stats_after = bfd_grab_stats_snapshot(self) diff = bfd_stats_diff(stats_before, stats_after) # our rx is vpp tx and vice versa, also tolerate one packet off self.assert_in_range( self.test_session.tx_packets, diff.rx - 1, diff.rx + 1, "RX counter" ) self.assert_in_range( self.test_session.rx_packets, diff.tx - 1, diff.tx + 1, "TX counter" ) self.assert_in_range( self.test_session.tx_packets_echo, diff.rx_echo - 1, diff.rx_echo + 1, "RX echo counter", ) self.assert_in_range( self.test_session.rx_packets_echo, diff.tx_echo - 1, diff.tx_echo + 1, "TX echo counter", ) def test_intf_deleted(self): """interface with bfd session deleted""" intf = VppLoInterface(self) intf.config_ip6() intf.admin_up() sw_if_index = intf.sw_if_index # Setup routing info for multihop set_ipv6_pfx_route_info(self, intf, BFD_IPV6_REMOTE_ADDR2, False) vpp_session = VppBFDUDPSession( self, intf, self.dst_ip6_net, local_addr=self.src_ip6_net, af=AF_INET6, multihop=self.multihop, ) vpp_session.add_vpp_config() vpp_session.admin_up() intf.remove_vpp_config() # BFD session is removed only for single-hop session if self.multihop: self.assertTrue(vpp_session.query_vpp_config()) else: e = self.vapi.wait_for_event(1, "bfd_udp_session_event") self.assert_equal(e.sw_if_index, sw_if_index, "sw_if_index") self.assertFalse(vpp_session.query_vpp_config()) @parameterized_class( [ {"multihop": False}, {"multihop": True}, ] ) @tag_run_solo class BFDFIBTestCase(VppTestCase): """BFD-FIB interactions (IPv6)""" vpp_session = None test_session = None src_ip6_net = "" dst_ip6_net = "" @classmethod def setUpClass(cls): super(BFDFIBTestCase, cls).setUpClass() hoptype_str = "MultiHop" if cls.multihop else "SingleHop" cls.__doc__ = f"""""BFD-FIB interactions (IPv6) - {hoptype_str}""" cls.vapi.cli("set log class bfd level debug") @classmethod def tearDownClass(cls): super(BFDFIBTestCase, cls).tearDownClass() def setUp(self): super(BFDFIBTestCase, self).setUp() self.create_pg_interfaces(range(1)) self.create_loopback_interfaces(1) self.loopback0 = self.lo_interfaces[0] self.loopback0.config_ip6() self.loopback0.admin_up() self.vapi.want_bfd_events() self.pg0.enable_capture() for i in self.pg_interfaces: i.admin_up() i.config_ip6() i.configure_ipv6_neighbors() set_ipv6_pfx_route_info(self, self.pg0, BFD_IPV6_REMOTE_ADDR, True) def tearDown(self): if not self.vpp_dead: self.vapi.want_bfd_events(enable_disable=False) super(BFDFIBTestCase, self).tearDown() @staticmethod def pkt_is_not_data_traffic(p): """not data traffic implies BFD or the usual IPv6 ND/RA""" if p.haslayer(BFD) or is_ipv6_misc(p): return True return False def test_session_with_fib(self): """BFD-FIB interactions""" # packets to match against both of the routes p = [ ( Ether(dst=self.pg0.local_mac, src=self.pg0.remote_mac) / IPv6(src="3001::1", dst="2001::1") / UDP(sport=1234, dport=1234) / Raw(b"\xa5" * 100) ), ( Ether(dst=self.pg0.local_mac, src=self.pg0.remote_mac) / IPv6(src="3001::1", dst="2002::1") / UDP(sport=1234, dport=1234) / Raw(b"\xa5" * 100) ), ] # Two different routes via a next-hop that will have a BFD session. # One of the routes is non-recursive route only for single-hop. if self.multihop: intf_index = 0xFFFFFFFF else: intf_index = self.pg0.sw_if_index ip_2001_s_64 = VppIpRoute( self, "2001::", 64, [VppRoutePath(self.dst_ip6_net, intf_index)], ) ip_2002_s_64 = VppIpRoute( self, "2002::", 64, [VppRoutePath(self.dst_ip6_net, 0xFFFFFFFF)] ) ip_2001_s_64.add_vpp_config() ip_2002_s_64.add_vpp_config() # bring the session up now the routes are present self.vpp_session = VppBFDUDPSession( self, self.pg0, self.dst_ip6_net, local_addr=self.src_ip6_net, af=AF_INET6, multihop=self.multihop, ) self.vpp_session.add_vpp_config() self.vpp_session.admin_up() self.test_session = BFDTestSession( self, self.pg0, AF_INET6, local_addr=self.src_ip6_net, peer_addr=self.dst_ip6_net, multihop=self.multihop, ) # session is up - traffic passes bfd_session_up(self) self.pg0.add_stream(p) self.pg_start() for packet in p: captured = self.pg0.wait_for_packet( 1, filter_out_fn=self.pkt_is_not_data_traffic ) self.assertEqual(captured[IPv6].dst, packet[IPv6].dst) # session is down - traffic is dropped bfd_session_down(self) self.pg0.add_stream(p) self.pg_start() with self.assertRaises(CaptureTimeoutError): self.pg0.wait_for_packet(1, self.pkt_is_not_data_traffic) # session is up - traffic passes bfd_session_up(self) self.pg0.add_stream(p) self.pg_start() for packet in p: captured = self.pg0.wait_for_packet( 1, filter_out_fn=self.pkt_is_not_data_traffic ) self.assertEqual(captured[IPv6].dst, packet[IPv6].dst) @unittest.skipUnless(config.extended, "part of extended tests") class BFDTunTestCase(VppTestCase): """BFD over GRE tunnel""" vpp_session = None test_session = None @classmethod def setUpClass(cls): super(BFDTunTestCase, cls).setUpClass() @classmethod def tearDownClass(cls): super(BFDTunTestCase, cls).tearDownClass() def setUp(self): super(BFDTunTestCase, self).setUp() self.create_pg_interfaces(range(1)) self.vapi.want_bfd_events() self.pg0.enable_capture() for i in self.pg_interfaces: i.admin_up() i.config_ip4() i.resolve_arp() def tearDown(self): if not self.vpp_dead: self.vapi.want_bfd_events(enable_disable=0) super(BFDTunTestCase, self).tearDown() @staticmethod def pkt_is_not_data_traffic(p): """not data traffic implies BFD or the usual IPv6 ND/RA""" if p.haslayer(BFD) or is_ipv6_misc(p): return True return False def test_bfd_o_gre(self): """BFD-o-GRE""" # A GRE interface over which to run a BFD session gre_if = VppGreInterface(self, self.pg0.local_ip4, self.pg0.remote_ip4) gre_if.add_vpp_config() gre_if.admin_up() gre_if.config_ip4() # bring the session up now the routes are present self.vpp_session = VppBFDUDPSession( self, gre_if, gre_if.remote_ip4, is_tunnel=True ) self.vpp_session.add_vpp_config() self.vpp_session.admin_up() self.test_session = BFDTestSession( self, gre_if, AF_INET, tunnel_header=(IP(src=self.pg0.remote_ip4, dst=self.pg0.local_ip4) / GRE()), phy_interface=self.pg0, ) # packets to match against both of the routes p = [ ( Ether(dst=self.pg0.local_mac, src=self.pg0.remote_mac) / IP(src=self.pg0.remote_ip4, dst=gre_if.remote_ip4) / UDP(sport=1234, dport=1234) / Raw(b"\xa5" * 100) ) ] # session is up - traffic passes bfd_session_up(self) self.send_and_expect(self.pg0, p, self.pg0) # bring session down bfd_session_down(self) @parameterized_class( [ {"multihop": False}, {"multihop": True}, ] ) @tag_run_solo class BFDSHA1TestCase(VppTestCase): pg0 = None vpp_clock_offset = None vpp_session = None test_session = None src_ip_net = "" dst_ip_net = "" @classmethod def setUpClass(cls): super(BFDSHA1TestCase, cls).setUpClass() hoptype_str = "MultiHop" if cls.multihop else "SingleHop" cls.__doc__ = f"""""Bidirectional Forwarding Detection (BFD) - SHA1 auth - {hoptype_str}""" cls.vapi.cli("set log class bfd level debug") try: cls.create_pg_interfaces([0]) cls.create_loopback_interfaces(1) cls.loopback0 = cls.lo_interfaces[0] cls.loopback0.config_ip4() cls.loopback0.admin_up() cls.pg0.config_ip4() cls.pg0.configure_ipv4_neighbors() cls.pg0.admin_up() cls.pg0.resolve_arp() except Exception: super(BFDSHA1TestCase, cls).tearDownClass() raise @classmethod def tearDownClass(cls): super(BFDSHA1TestCase, cls).tearDownClass() def setUp(self): super(BFDSHA1TestCase, self).setUp() self.factory = AuthKeyFactory() self.vapi.want_bfd_events() self.pg0.enable_capture() set_ipv4_pfx_route_info(self, self.pg0, BFD_IPV4_REMOTE_ADDR, True) def tearDown(self): if not self.vpp_dead: self.vapi.want_bfd_events(enable_disable=False) self.vapi.collect_events() # clear the event queue super(BFDSHA1TestCase, self).tearDown() def test_session_up(self): """bring BFD session up""" key = self.factory.create_random_key(self) key.add_vpp_config() self.vpp_session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, sha1_key=key, ) self.vpp_session.add_vpp_config() self.vpp_session.admin_up() self.test_session = BFDTestSession( self, self.pg0, AF_INET, local_addr=self.src_ip_net, peer_addr=self.dst_ip_net, multihop=self.multihop, sha1_key=key, bfd_key_id=self.vpp_session.bfd_key_id, ) bfd_session_up(self) def test_hold_up(self): """hold BFD session up""" key = self.factory.create_random_key(self) key.add_vpp_config() self.vpp_session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, sha1_key=key, ) self.vpp_session.add_vpp_config() self.vpp_session.admin_up() self.test_session = BFDTestSession( self, self.pg0, AF_INET, local_addr=self.src_ip_net, peer_addr=self.dst_ip_net, multihop=self.multihop, sha1_key=key, bfd_key_id=self.vpp_session.bfd_key_id, ) bfd_session_up(self) for dummy in range(self.test_session.detect_mult * 2): wait_for_bfd_packet(self) self.test_session.send_packet() self.assert_equal(self.vpp_session.state, BFDState.up, BFDState) def test_hold_up_meticulous(self): """hold BFD session up - meticulous auth""" key = self.factory.create_random_key(self, BFDAuthType.meticulous_keyed_sha1) key.add_vpp_config() self.vpp_session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, sha1_key=key, ) self.vpp_session.add_vpp_config() self.vpp_session.admin_up() # specify sequence number so that it wraps self.test_session = BFDTestSession( self, self.pg0, AF_INET, local_addr=self.src_ip_net, peer_addr=self.dst_ip_net, multihop=self.multihop, sha1_key=key, bfd_key_id=self.vpp_session.bfd_key_id, our_seq_number=0xFFFFFFFF - 4, ) bfd_session_up(self) for dummy in range(30): wait_for_bfd_packet(self) self.test_session.inc_seq_num() self.test_session.send_packet() self.assert_equal(self.vpp_session.state, BFDState.up, BFDState) def test_send_bad_seq_number(self): """session is not kept alive by msgs with bad sequence numbers""" key = self.factory.create_random_key(self, BFDAuthType.meticulous_keyed_sha1) key.add_vpp_config() self.vpp_session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, sha1_key=key, ) self.vpp_session.add_vpp_config() self.test_session = BFDTestSession( self, self.pg0, AF_INET, local_addr=self.src_ip_net, peer_addr=self.dst_ip_net, multihop=self.multihop, sha1_key=key, bfd_key_id=self.vpp_session.bfd_key_id, ) bfd_session_up(self) detection_time = ( self.test_session.detect_mult * self.vpp_session.required_min_rx / USEC_IN_SEC ) send_until = time.time() + 2 * detection_time while time.time() < send_until: self.test_session.send_packet() self.sleep( 0.7 * self.vpp_session.required_min_rx / USEC_IN_SEC, "time between bfd packets", ) e = self.vapi.collect_events() # session should be down now, because the sequence numbers weren't # updated self.assert_equal(len(e), 1, "number of bfd events") verify_event(self, e[0], expected_state=BFDState.down) def execute_rogue_session_scenario( self, vpp_bfd_udp_session, legitimate_test_session, rogue_test_session, rogue_bfd_values=None, ): """execute a rogue session interaction scenario 1. create vpp session, add config 2. bring the legitimate session up 3. copy the bfd values from legitimate session to rogue session 4. apply rogue_bfd_values to rogue session 5. set rogue session state to down 6. send message to take the session down from the rogue session 7. assert that the legitimate session is unaffected """ self.vpp_session = vpp_bfd_udp_session self.vpp_session.add_vpp_config() self.test_session = legitimate_test_session # bring vpp session up bfd_session_up(self) # send packet from rogue session rogue_test_session.update( my_discriminator=self.test_session.my_discriminator, your_discriminator=self.test_session.your_discriminator, desired_min_tx=self.test_session.desired_min_tx, required_min_rx=self.test_session.required_min_rx, detect_mult=self.test_session.detect_mult, diag=self.test_session.diag, state=self.test_session.state, auth_type=self.test_session.auth_type, ) if rogue_bfd_values: rogue_test_session.update(**rogue_bfd_values) rogue_test_session.update(state=BFDState.down) rogue_test_session.send_packet() wait_for_bfd_packet(self) self.assert_equal(self.vpp_session.state, BFDState.up, BFDState) def test_mismatch_auth(self): """session is not brought down by unauthenticated msg""" key = self.factory.create_random_key(self) key.add_vpp_config() vpp_session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, sha1_key=key, ) legitimate_test_session = BFDTestSession( self, self.pg0, AF_INET, local_addr=self.src_ip_net, peer_addr=self.dst_ip_net, multihop=self.multihop, sha1_key=key, bfd_key_id=vpp_session.bfd_key_id, ) rogue_test_session = BFDTestSession( self, self.pg0, AF_INET, local_addr=self.src_ip_net, peer_addr=self.dst_ip_net, multihop=self.multihop, ) self.execute_rogue_session_scenario( vpp_session, legitimate_test_session, rogue_test_session ) def test_mismatch_bfd_key_id(self): """session is not brought down by msg with non-existent key-id""" key = self.factory.create_random_key(self) key.add_vpp_config() vpp_session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, sha1_key=key, ) # pick a different random bfd key id x = randint(0, 255) while x == vpp_session.bfd_key_id: x = randint(0, 255) legitimate_test_session = BFDTestSession( self, self.pg0, AF_INET, local_addr=self.src_ip_net, peer_addr=self.dst_ip_net, multihop=self.multihop, sha1_key=key, bfd_key_id=vpp_session.bfd_key_id, ) rogue_test_session = BFDTestSession( self, self.pg0, AF_INET, local_addr=self.src_ip_net, peer_addr=self.dst_ip_net, multihop=self.multihop, sha1_key=key, bfd_key_id=x, ) self.execute_rogue_session_scenario( vpp_session, legitimate_test_session, rogue_test_session ) def test_mismatched_auth_type(self): """session is not brought down by msg with wrong auth type""" key = self.factory.create_random_key(self) key.add_vpp_config() vpp_session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, sha1_key=key, ) legitimate_test_session = BFDTestSession( self, self.pg0, AF_INET, local_addr=self.src_ip_net, peer_addr=self.dst_ip_net, multihop=self.multihop, sha1_key=key, bfd_key_id=vpp_session.bfd_key_id, ) rogue_test_session = BFDTestSession( self, self.pg0, AF_INET, local_addr=self.src_ip_net, peer_addr=self.dst_ip_net, multihop=self.multihop, sha1_key=key, bfd_key_id=vpp_session.bfd_key_id, ) self.execute_rogue_session_scenario( vpp_session, legitimate_test_session, rogue_test_session, {"auth_type": BFDAuthType.keyed_md5}, ) def test_restart(self): """simulate remote peer restart and resynchronization""" key = self.factory.create_random_key(self, BFDAuthType.meticulous_keyed_sha1) key.add_vpp_config() self.vpp_session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, sha1_key=key, ) self.vpp_session.add_vpp_config() self.test_session = BFDTestSession( self, self.pg0, AF_INET, local_addr=self.src_ip_net, peer_addr=self.dst_ip_net, multihop=self.multihop, sha1_key=key, bfd_key_id=self.vpp_session.bfd_key_id, our_seq_number=0, ) bfd_session_up(self) # don't send any packets for 2*detection_time detection_time = ( self.test_session.detect_mult * self.vpp_session.required_min_rx / USEC_IN_SEC ) self.sleep(2 * detection_time, "simulating peer restart") events = self.vapi.collect_events() self.assert_equal(len(events), 1, "number of bfd events") verify_event(self, events[0], expected_state=BFDState.down) self.test_session.update(state=BFDState.down) # reset sequence number self.test_session.our_seq_number = 0 self.test_session.vpp_seq_number = None # now throw away any pending packets self.pg0.enable_capture() self.test_session.my_discriminator = 0 bfd_session_up(self) @parameterized_class( [ {"multihop": False}, {"multihop": True}, ] ) @tag_run_solo class BFDAuthOnOffTestCase(VppTestCase): pg0 = None vpp_session = None test_session = None @classmethod def setUpClass(cls): super(BFDAuthOnOffTestCase, cls).setUpClass() hoptype_str = "MultiHop" if cls.multihop else "SingleHop" cls.__doc__ = f"""""Bidirectional Forwarding Detection (BFD) - changing auth - {hoptype_str}""" cls.vapi.cli("set log class bfd level debug") try: cls.create_pg_interfaces([0]) cls.create_loopback_interfaces(1) cls.loopback0 = cls.lo_interfaces[0] cls.loopback0.config_ip4() cls.loopback0.admin_up() cls.pg0.config_ip4() cls.pg0.configure_ipv4_neighbors() cls.pg0.admin_up() cls.pg0.resolve_arp() except Exception: super(BFDAuthOnOffTestCase, cls).tearDownClass() raise @classmethod def tearDownClass(cls): super(BFDAuthOnOffTestCase, cls).tearDownClass() def setUp(self): super(BFDAuthOnOffTestCase, self).setUp() self.factory = AuthKeyFactory() self.vapi.want_bfd_events() self.pg0.enable_capture() set_ipv4_pfx_route_info(self, self.pg0, BFD_IPV4_REMOTE_ADDR, True) def tearDown(self): if not self.vpp_dead: self.vapi.want_bfd_events(enable_disable=False) self.vapi.collect_events() # clear the event queue super(BFDAuthOnOffTestCase, self).tearDown() def test_auth_on_immediate(self): """turn auth on without disturbing session state (immediate)""" key = self.factory.create_random_key(self) key.add_vpp_config() self.vpp_session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, ) self.vpp_session.add_vpp_config() self.test_session = BFDTestSession( self, self.pg0, AF_INET, local_addr=self.src_ip_net, peer_addr=self.dst_ip_net, multihop=self.multihop, ) bfd_session_up(self) for dummy in range(self.test_session.detect_mult * 2): p = wait_for_bfd_packet(self) self.assert_equal(p[BFD].state, BFDState.up, BFDState) self.test_session.send_packet() self.vpp_session.activate_auth(key) self.test_session.bfd_key_id = self.vpp_session.bfd_key_id self.test_session.sha1_key = key for dummy in range(self.test_session.detect_mult * 2): p = wait_for_bfd_packet(self) self.assert_equal(p[BFD].state, BFDState.up, BFDState) self.test_session.send_packet() self.assert_equal(self.vpp_session.state, BFDState.up, BFDState) self.assert_equal(len(self.vapi.collect_events()), 0, "number of bfd events") def test_auth_off_immediate(self): """turn auth off without disturbing session state (immediate)""" key = self.factory.create_random_key(self) key.add_vpp_config() self.vpp_session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, sha1_key=key, ) self.vpp_session.add_vpp_config() self.test_session = BFDTestSession( self, self.pg0, AF_INET, local_addr=self.src_ip_net, peer_addr=self.dst_ip_net, multihop=self.multihop, sha1_key=key, bfd_key_id=self.vpp_session.bfd_key_id, ) bfd_session_up(self) # self.vapi.want_bfd_events(enable_disable=0) for dummy in range(self.test_session.detect_mult * 2): p = wait_for_bfd_packet(self) self.assert_equal(p[BFD].state, BFDState.up, BFDState) self.test_session.inc_seq_num() self.test_session.send_packet() self.vpp_session.deactivate_auth() self.test_session.bfd_key_id = None self.test_session.sha1_key = None for dummy in range(self.test_session.detect_mult * 2): p = wait_for_bfd_packet(self) self.assert_equal(p[BFD].state, BFDState.up, BFDState) self.test_session.inc_seq_num() self.test_session.send_packet() self.assert_equal(self.vpp_session.state, BFDState.up, BFDState) self.assert_equal(len(self.vapi.collect_events()), 0, "number of bfd events") def test_auth_change_key_immediate(self): """change auth key without disturbing session state (immediate)""" key1 = self.factory.create_random_key(self) key1.add_vpp_config() key2 = self.factory.create_random_key(self) key2.add_vpp_config() self.vpp_session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, sha1_key=key1, ) self.vpp_session.add_vpp_config() self.test_session = BFDTestSession( self, self.pg0, AF_INET, local_addr=self.src_ip_net, peer_addr=self.dst_ip_net, multihop=self.multihop, sha1_key=key1, bfd_key_id=self.vpp_session.bfd_key_id, ) bfd_session_up(self) for dummy in range(self.test_session.detect_mult * 2): p = wait_for_bfd_packet(self) self.assert_equal(p[BFD].state, BFDState.up, BFDState) self.test_session.send_packet() self.vpp_session.activate_auth(key2) self.test_session.bfd_key_id = self.vpp_session.bfd_key_id self.test_session.sha1_key = key2 for dummy in range(self.test_session.detect_mult * 2): p = wait_for_bfd_packet(self) self.assert_equal(p[BFD].state, BFDState.up, BFDState) self.test_session.send_packet() self.assert_equal(self.vpp_session.state, BFDState.up, BFDState) self.assert_equal(len(self.vapi.collect_events()), 0, "number of bfd events") def test_auth_on_delayed(self): """turn auth on without disturbing session state (delayed)""" key = self.factory.create_random_key(self) key.add_vpp_config() self.vpp_session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, ) self.vpp_session.add_vpp_config() self.test_session = BFDTestSession( self, self.pg0, AF_INET, local_addr=self.src_ip_net, peer_addr=self.dst_ip_net, multihop=self.multihop, ) bfd_session_up(self) for dummy in range(self.test_session.detect_mult * 2): wait_for_bfd_packet(self) self.test_session.send_packet() self.vpp_session.activate_auth(key, delayed=True) for dummy in range(self.test_session.detect_mult * 2): p = wait_for_bfd_packet(self) self.assert_equal(p[BFD].state, BFDState.up, BFDState) self.test_session.send_packet() self.test_session.bfd_key_id = self.vpp_session.bfd_key_id self.test_session.sha1_key = key self.test_session.send_packet() for dummy in range(self.test_session.detect_mult * 2): p = wait_for_bfd_packet(self) self.assert_equal(p[BFD].state, BFDState.up, BFDState) self.test_session.send_packet() self.assert_equal(self.vpp_session.state, BFDState.up, BFDState) self.assert_equal(len(self.vapi.collect_events()), 0, "number of bfd events") def test_auth_off_delayed(self): """turn auth off without disturbing session state (delayed)""" key = self.factory.create_random_key(self) key.add_vpp_config() self.vpp_session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, sha1_key=key, ) self.vpp_session.add_vpp_config() self.test_session = BFDTestSession( self, self.pg0, AF_INET, local_addr=self.src_ip_net, peer_addr=self.dst_ip_net, multihop=self.multihop, sha1_key=key, bfd_key_id=self.vpp_session.bfd_key_id, ) bfd_session_up(self) for dummy in range(self.test_session.detect_mult * 2): p = wait_for_bfd_packet(self) self.assert_equal(p[BFD].state, BFDState.up, BFDState) self.test_session.send_packet() self.vpp_session.deactivate_auth(delayed=True) for dummy in range(self.test_session.detect_mult * 2): p = wait_for_bfd_packet(self) self.assert_equal(p[BFD].state, BFDState.up, BFDState) self.test_session.send_packet() self.test_session.bfd_key_id = None self.test_session.sha1_key = None self.test_session.send_packet() for dummy in range(self.test_session.detect_mult * 2): p = wait_for_bfd_packet(self) self.assert_equal(p[BFD].state, BFDState.up, BFDState) self.test_session.send_packet() self.assert_equal(self.vpp_session.state, BFDState.up, BFDState) self.assert_equal(len(self.vapi.collect_events()), 0, "number of bfd events") def test_auth_change_key_delayed(self): """change auth key without disturbing session state (delayed)""" key1 = self.factory.create_random_key(self) key1.add_vpp_config() key2 = self.factory.create_random_key(self) key2.add_vpp_config() self.vpp_session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, sha1_key=key1, ) self.vpp_session.add_vpp_config() self.vpp_session.admin_up() self.test_session = BFDTestSession( self, self.pg0, AF_INET, local_addr=self.src_ip_net, peer_addr=self.dst_ip_net, multihop=self.multihop, sha1_key=key1, bfd_key_id=self.vpp_session.bfd_key_id, ) bfd_session_up(self) for dummy in range(self.test_session.detect_mult * 2): p = wait_for_bfd_packet(self) self.assert_equal(p[BFD].state, BFDState.up, BFDState) self.test_session.send_packet() self.vpp_session.activate_auth(key2, delayed=True) for dummy in range(self.test_session.detect_mult * 2): p = wait_for_bfd_packet(self) self.assert_equal(p[BFD].state, BFDState.up, BFDState) self.test_session.send_packet() self.test_session.bfd_key_id = self.vpp_session.bfd_key_id self.test_session.sha1_key = key2 self.test_session.send_packet() for dummy in range(self.test_session.detect_mult * 2): p = wait_for_bfd_packet(self) self.assert_equal(p[BFD].state, BFDState.up, BFDState) self.test_session.send_packet() self.assert_equal(self.vpp_session.state, BFDState.up, BFDState) self.assert_equal(len(self.vapi.collect_events()), 0, "number of bfd events") @parameterized_class( [ {"multihop": False}, {"multihop": True}, ] ) @tag_run_solo class BFDCLITestCase(VppTestCase): """Bidirectional Forwarding Detection (BFD) (CLI)""" pg0 = None @classmethod def setUpClass(cls): super(BFDCLITestCase, cls).setUpClass() hoptype_str = "MultiHop" if cls.multihop else "SingleHop" cls.__doc__ = ( f"""""Bidirectional Forwarding Detection (BFD) - CLI - {hoptype_str}""" ) cls.vapi.cli("set log class bfd level debug") try: cls.create_pg_interfaces([0]) cls.create_loopback_interfaces(1) cls.loopback0 = cls.lo_interfaces[0] cls.loopback0.config_ip4() cls.loopback0.config_ip6() cls.loopback0.admin_up() cls.pg0.config_ip4() cls.pg0.config_ip6() cls.pg0.configure_ipv4_neighbors() cls.pg0.admin_up() cls.pg0.resolve_arp() cls.pg0.resolve_ndp() except Exception: super(BFDCLITestCase, cls).tearDownClass() raise @classmethod def tearDownClass(cls): super(BFDCLITestCase, cls).tearDownClass() def setUp(self): super(BFDCLITestCase, self).setUp() self.factory = AuthKeyFactory() self.pg0.enable_capture() set_ipv4_pfx_route_info(self, self.pg0, BFD_IPV4_REMOTE_ADDR, True) set_ipv6_pfx_route_info(self, self.pg0, BFD_IPV6_REMOTE_ADDR, True) if self.multihop: self.cli_str = "multihop" else: self.cli_str = "interface %s" % self.pg0.name def tearDown(self): try: self.vapi.want_bfd_events(enable_disable=False) except UnexpectedApiReturnValueError: # some tests aren't subscribed, so this is not an issue pass self.vapi.collect_events() # clear the event queue super(BFDCLITestCase, self).tearDown() def cli_verify_no_response(self, cli): """execute a CLI, asserting that the response is empty""" self.assert_equal(self.vapi.cli(cli), "", "CLI command response") def cli_verify_response(self, cli, expected): """execute a CLI, asserting that the response matches expectation""" try: reply = self.vapi.cli(cli) except CliFailedCommandError as cli_error: reply = str(cli_error) self.assert_equal(reply.strip(), expected, "CLI command response") def test_show(self): """show commands""" k1 = self.factory.create_random_key(self) k1.add_vpp_config() k2 = self.factory.create_random_key( self, auth_type=BFDAuthType.meticulous_keyed_sha1 ) k2.add_vpp_config() s1 = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, ) s1.add_vpp_config() s2 = VppBFDUDPSession( self, self.pg0, self.dst_ip6_net, local_addr=self.src_ip6_net, af=AF_INET6, multihop=self.multihop, sha1_key=k2, ) s2.add_vpp_config() self.logger.info(self.vapi.ppcli("show bfd keys")) self.logger.info(self.vapi.ppcli("show bfd sessions")) self.logger.info(self.vapi.ppcli("show bfd")) def test_set_del_sha1_key(self): """set/delete SHA1 auth key""" k = self.factory.create_random_key(self) self.registry.register(k, self.logger) self.cli_verify_no_response( "bfd key set conf-key-id %s type keyed-sha1 secret %s" % ( k.conf_key_id, "".join("{:02x}".format(scapy.compat.orb(c)) for c in k.key), ) ) self.assertTrue(k.query_vpp_config()) self.vpp_session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, sha1_key=k, ) self.vpp_session.add_vpp_config() self.test_session = BFDTestSession( self, self.pg0, AF_INET, local_addr=self.src_ip_net, peer_addr=self.dst_ip_net, multihop=self.multihop, sha1_key=k, bfd_key_id=self.vpp_session.bfd_key_id, ) self.vapi.want_bfd_events() bfd_session_up(self) bfd_session_down(self) # try to replace the secret for the key - should fail because the key # is in-use k2 = self.factory.create_random_key(self) self.cli_verify_response( "bfd key set conf-key-id %s type keyed-sha1 secret %s" % ( k.conf_key_id, "".join("{:02x}".format(scapy.compat.orb(c)) for c in k2.key), ), "bfd key set: `bfd_auth_set_key' API call failed, " "rv=-103:BFD object in use", ) # manipulating the session using old secret should still work bfd_session_up(self) bfd_session_down(self) self.vpp_session.remove_vpp_config() self.cli_verify_no_response("bfd key del conf-key-id %s" % k.conf_key_id) self.assertFalse(k.query_vpp_config()) def test_set_del_meticulous_sha1_key(self): """set/delete meticulous SHA1 auth key""" k = self.factory.create_random_key( self, auth_type=BFDAuthType.meticulous_keyed_sha1 ) self.registry.register(k, self.logger) self.cli_verify_no_response( "bfd key set conf-key-id %s type meticulous-keyed-sha1 secret %s" % ( k.conf_key_id, "".join("{:02x}".format(scapy.compat.orb(c)) for c in k.key), ) ) self.assertTrue(k.query_vpp_config()) self.vpp_session = VppBFDUDPSession( self, self.pg0, self.dst_ip6_net, local_addr=self.src_ip6_net, af=AF_INET6, multihop=self.multihop, sha1_key=k, ) self.vpp_session.add_vpp_config() self.vpp_session.admin_up() self.test_session = BFDTestSession( self, self.pg0, AF_INET6, local_addr=self.src_ip6_net, peer_addr=self.dst_ip6_net, multihop=self.multihop, sha1_key=k, bfd_key_id=self.vpp_session.bfd_key_id, ) self.vapi.want_bfd_events() bfd_session_up(self) bfd_session_down(self) # try to replace the secret for the key - should fail because the key # is in-use k2 = self.factory.create_random_key(self) self.cli_verify_response( "bfd key set conf-key-id %s type keyed-sha1 secret %s" % ( k.conf_key_id, "".join("{:02x}".format(scapy.compat.orb(c)) for c in k2.key), ), "bfd key set: `bfd_auth_set_key' API call failed, " "rv=-103:BFD object in use", ) # manipulating the session using old secret should still work bfd_session_up(self) bfd_session_down(self) self.vpp_session.remove_vpp_config() self.cli_verify_no_response("bfd key del conf-key-id %s" % k.conf_key_id) self.assertFalse(k.query_vpp_config()) def test_add_mod_del_bfd_udp(self): """create/modify/delete IPv4 BFD UDP session""" vpp_session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, ) self.registry.register(vpp_session, self.logger) cli_add_cmd = ( "bfd udp session add %s local-addr %s " "peer-addr %s desired-min-tx %s required-min-rx %s " "detect-mult %s" % ( self.cli_str, self.src_ip_net, self.dst_ip_net, vpp_session.desired_min_tx, vpp_session.required_min_rx, vpp_session.detect_mult, ) ) self.cli_verify_no_response(cli_add_cmd) # 2nd add should fail self.cli_verify_response( cli_add_cmd, "bfd udp session add: `bfd_add_add_session' API call" " failed, rv=-101:Duplicate BFD object", ) verify_bfd_session_config(self, vpp_session) mod_session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, required_min_rx=2 * vpp_session.required_min_rx, desired_min_tx=3 * vpp_session.desired_min_tx, detect_mult=4 * vpp_session.detect_mult, ) self.cli_verify_no_response( "bfd udp session mod %s local-addr %s peer-addr %s " "desired-min-tx %s required-min-rx %s detect-mult %s" % ( self.cli_str, self.src_ip_net, self.dst_ip_net, mod_session.desired_min_tx, mod_session.required_min_rx, mod_session.detect_mult, ) ) verify_bfd_session_config(self, mod_session) cli_del_cmd = "bfd udp session del %s local-addr %s peer-addr %s" % ( self.cli_str, self.src_ip_net, self.dst_ip_net, ) self.cli_verify_no_response(cli_del_cmd) # 2nd del is expected to fail self.cli_verify_response( cli_del_cmd, "bfd udp session del: `bfd_udp_del_session' API call" " failed, rv=-102:No such BFD object", ) self.assertFalse(vpp_session.query_vpp_config()) if self.multihop: # specifying multihop and interface should fail cli_add_cmd = ( "bfd udp session add multihop interface %s local-addr 1.1.1.1 " "peer-addr 2.2.2.2 desired-min-tx 50000 required-min-rx 1000 " "detect-mult 3" % (self.pg0.name) ) self.cli_verify_response( cli_add_cmd, "bfd udp session add: Incompatible parameter combination, " "interface cannot be specified when multihop is enabled", ) cli_mod_cmd = ( "bfd udp session mod multihop interface %s local-addr 1.1.1.1 " "peer-addr 2.2.2.2 desired-min-tx 50000 required-min-rx 1000 " "detect-mult 3" % (self.pg0.name) ) self.cli_verify_response( cli_mod_cmd, "bfd udp session mod: Incompatible parameter combination, " "interface cannot be specified when multihop is enabled", ) cli_del_cmd = ( "bfd udp session del multihop interface %s local-addr 1.1.1.1 " "peer-addr 2.2.2.2" % (self.pg0.name) ) self.cli_verify_response( cli_del_cmd, "bfd udp session del: Incompatible parameter combination, " "interface cannot be specified when multihop is enabled", ) # Not specifying multihop or interface should fail cli_add_cmd = ( "bfd udp session add local-addr 1.1.1.1 peer-addr 2.2.2.2 " "desired-min-tx 50000 required-min-rx 1000 detect-mult 3" ) self.cli_verify_response( cli_add_cmd, "bfd udp session add: Incompatible parameter combination, " "interface must be set if not multihop", ) cli_mod_cmd = ( "bfd udp session mod local-addr 1.1.1.1 peer-addr 2.2.2.2 " "desired-min-tx 50000 required-min-rx 1000 detect-mult 3" ) self.cli_verify_response( cli_mod_cmd, "bfd udp session mod: Incompatible parameter combination, " "interface must be set if not multihop", ) cli_del_cmd = "bfd udp session del local-addr 1.1.1.1 peer-addr 2.2.2.2 " self.cli_verify_response( cli_del_cmd, "bfd udp session del: Incompatible parameter combination, " "interface must be set if not multihop", ) def test_add_mod_del_bfd_udp6(self): """create/modify/delete IPv6 BFD UDP session""" vpp_session = VppBFDUDPSession( self, self.pg0, self.dst_ip6_net, local_addr=self.src_ip6_net, af=AF_INET6, multihop=self.multihop, ) self.registry.register(vpp_session, self.logger) cli_add_cmd = ( "bfd udp session add %s local-addr %s " "peer-addr %s desired-min-tx %s required-min-rx %s " "detect-mult %s" % ( self.cli_str, self.src_ip6_net, self.dst_ip6_net, vpp_session.desired_min_tx, vpp_session.required_min_rx, vpp_session.detect_mult, ) ) self.cli_verify_no_response(cli_add_cmd) # 2nd add should fail self.cli_verify_response( cli_add_cmd, "bfd udp session add: `bfd_add_add_session' API call" " failed, rv=-101:Duplicate BFD object", ) verify_bfd_session_config(self, vpp_session) mod_session = VppBFDUDPSession( self, self.pg0, self.dst_ip6_net, local_addr=self.src_ip6_net, af=AF_INET6, multihop=self.multihop, required_min_rx=2 * vpp_session.required_min_rx, desired_min_tx=3 * vpp_session.desired_min_tx, detect_mult=4 * vpp_session.detect_mult, ) self.cli_verify_no_response( "bfd udp session mod %s local-addr %s peer-addr %s " "desired-min-tx %s required-min-rx %s detect-mult %s" % ( self.cli_str, self.src_ip6_net, self.dst_ip6_net, mod_session.desired_min_tx, mod_session.required_min_rx, mod_session.detect_mult, ) ) verify_bfd_session_config(self, mod_session) cli_del_cmd = "bfd udp session del %s local-addr %s peer-addr %s" % ( self.cli_str, self.src_ip6_net, self.dst_ip6_net, ) self.cli_verify_no_response(cli_del_cmd) # 2nd del is expected to fail self.cli_verify_response( cli_del_cmd, "bfd udp session del: `bfd_udp_del_session' API call" " failed, rv=-102:No such BFD object", ) self.assertFalse(vpp_session.query_vpp_config()) def test_add_mod_del_bfd_udp_auth(self): """create/modify/delete IPv4 BFD UDP session (authenticated)""" key = self.factory.create_random_key(self) key.add_vpp_config() vpp_session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, sha1_key=key, ) self.registry.register(vpp_session, self.logger) cli_add_cmd = ( "bfd udp session add %s local-addr %s " "peer-addr %s desired-min-tx %s required-min-rx %s " "detect-mult %s conf-key-id %s bfd-key-id %s" % ( self.cli_str, self.src_ip_net, self.dst_ip_net, vpp_session.desired_min_tx, vpp_session.required_min_rx, vpp_session.detect_mult, key.conf_key_id, vpp_session.bfd_key_id, ) ) self.cli_verify_no_response(cli_add_cmd) # 2nd add should fail self.cli_verify_response( cli_add_cmd, "bfd udp session add: `bfd_add_add_session' API call" " failed, rv=-101:Duplicate BFD object", ) verify_bfd_session_config(self, vpp_session) mod_session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, sha1_key=key, bfd_key_id=vpp_session.bfd_key_id, required_min_rx=2 * vpp_session.required_min_rx, desired_min_tx=3 * vpp_session.desired_min_tx, detect_mult=4 * vpp_session.detect_mult, ) self.cli_verify_no_response( "bfd udp session mod %s local-addr %s peer-addr %s " "desired-min-tx %s required-min-rx %s detect-mult %s" % ( self.cli_str, self.src_ip_net, self.dst_ip_net, mod_session.desired_min_tx, mod_session.required_min_rx, mod_session.detect_mult, ) ) verify_bfd_session_config(self, mod_session) cli_del_cmd = "bfd udp session del %s local-addr %s peer-addr %s" % ( self.cli_str, self.src_ip_net, self.dst_ip_net, ) self.cli_verify_no_response(cli_del_cmd) # 2nd del is expected to fail self.cli_verify_response( cli_del_cmd, "bfd udp session del: `bfd_udp_del_session' API call" " failed, rv=-102:No such BFD object", ) self.assertFalse(vpp_session.query_vpp_config()) def test_add_mod_del_bfd_udp6_auth(self): """create/modify/delete IPv6 BFD UDP session (authenticated)""" key = self.factory.create_random_key( self, auth_type=BFDAuthType.meticulous_keyed_sha1 ) key.add_vpp_config() vpp_session = VppBFDUDPSession( self, self.pg0, self.dst_ip6_net, local_addr=self.src_ip6_net, af=AF_INET6, multihop=self.multihop, sha1_key=key, ) self.registry.register(vpp_session, self.logger) cli_add_cmd = ( "bfd udp session add %s local-addr %s " "peer-addr %s desired-min-tx %s required-min-rx %s " "detect-mult %s conf-key-id %s bfd-key-id %s" % ( self.cli_str, self.src_ip6_net, self.dst_ip6_net, vpp_session.desired_min_tx, vpp_session.required_min_rx, vpp_session.detect_mult, key.conf_key_id, vpp_session.bfd_key_id, ) ) self.cli_verify_no_response(cli_add_cmd) # 2nd add should fail self.cli_verify_response( cli_add_cmd, "bfd udp session add: `bfd_add_add_session' API call" " failed, rv=-101:Duplicate BFD object", ) verify_bfd_session_config(self, vpp_session) mod_session = VppBFDUDPSession( self, self.pg0, self.dst_ip6_net, local_addr=self.src_ip6_net, af=AF_INET6, multihop=self.multihop, sha1_key=key, bfd_key_id=vpp_session.bfd_key_id, required_min_rx=2 * vpp_session.required_min_rx, desired_min_tx=3 * vpp_session.desired_min_tx, detect_mult=4 * vpp_session.detect_mult, ) self.cli_verify_no_response( "bfd udp session mod %s local-addr %s peer-addr %s " "desired-min-tx %s required-min-rx %s detect-mult %s" % ( self.cli_str, self.src_ip6_net, self.dst_ip6_net, mod_session.desired_min_tx, mod_session.required_min_rx, mod_session.detect_mult, ) ) verify_bfd_session_config(self, mod_session) cli_del_cmd = "bfd udp session del %s local-addr %s peer-addr %s" % ( self.cli_str, self.src_ip6_net, self.dst_ip6_net, ) self.cli_verify_no_response(cli_del_cmd) # 2nd del is expected to fail self.cli_verify_response( cli_del_cmd, "bfd udp session del: `bfd_udp_del_session' API call" " failed, rv=-102:No such BFD object", ) self.assertFalse(vpp_session.query_vpp_config()) def test_auth_on_off(self): """turn authentication on and off""" key = self.factory.create_random_key( self, auth_type=BFDAuthType.meticulous_keyed_sha1 ) key.add_vpp_config() session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, ) auth_session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, sha1_key=key, ) session.add_vpp_config() cli_activate = ( "bfd udp session auth activate %s local-addr %s " "peer-addr %s conf-key-id %s bfd-key-id %s" % ( self.cli_str, self.src_ip_net, self.dst_ip_net, key.conf_key_id, auth_session.bfd_key_id, ) ) self.cli_verify_no_response(cli_activate) verify_bfd_session_config(self, auth_session) self.cli_verify_no_response(cli_activate) verify_bfd_session_config(self, auth_session) cli_deactivate = ( "bfd udp session auth deactivate %s local-addr %s " "peer-addr %s" % (self.cli_str, self.src_ip_net, self.dst_ip_net) ) self.cli_verify_no_response(cli_deactivate) verify_bfd_session_config(self, session) self.cli_verify_no_response(cli_deactivate) verify_bfd_session_config(self, session) if self.multihop: # specifying multihop and interface should fail cli_activate = ( "bfd udp session auth activate multihop interface %s " "local-addr %s peer-addr %s conf-key-id %s bfd-key-id %s" % ( self.pg0.name, self.src_ip_net, self.dst_ip_net, key.conf_key_id, auth_session.bfd_key_id, ) ) self.cli_verify_response( cli_activate, "bfd udp session auth activate: Incompatible parameter " "combination, interface cannot be specified when multihop " "is enabled", ) cli_deactivate = ( "bfd udp session auth deactivate multihop interface %s " "local-addr %s peer-addr %s" % ( self.pg0.name, self.src_ip_net, self.dst_ip_net, ) ) self.cli_verify_response( cli_deactivate, "bfd udp session auth deactivate: Incompatible parameter " "combination, interface cannot be specified when multihop " "is enabled", ) # Not specifying multihop or interface should fail cli_activate = ( "bfd udp session auth activate local-addr %s peer-addr %s " "conf-key-id %s bfd-key-id %s" % ( self.src_ip_net, self.dst_ip_net, key.conf_key_id, auth_session.bfd_key_id, ) ) self.cli_verify_response( cli_activate, "bfd udp session auth activate: Incompatible parameter " "combination, interface must be set if not multihop", ) cli_deactivate = ( "bfd udp session auth deactivate local-addr %s peer-addr %s " % ( self.src_ip_net, self.dst_ip_net, ) ) self.cli_verify_response( cli_deactivate, "bfd udp session auth deactivate: Incompatible parameter " "combination, interface must be set if not multihop", ) def test_auth_on_off_delayed(self): """turn authentication on and off (delayed)""" key = self.factory.create_random_key( self, auth_type=BFDAuthType.meticulous_keyed_sha1 ) key.add_vpp_config() session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, ) auth_session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, sha1_key=key, ) session.add_vpp_config() cli_activate = ( "bfd udp session auth activate %s local-addr %s " "peer-addr %s conf-key-id %s bfd-key-id %s delayed yes" % ( self.cli_str, self.src_ip_net, self.dst_ip_net, key.conf_key_id, auth_session.bfd_key_id, ) ) self.cli_verify_no_response(cli_activate) verify_bfd_session_config(self, auth_session) self.cli_verify_no_response(cli_activate) verify_bfd_session_config(self, auth_session) cli_deactivate = ( "bfd udp session auth deactivate %s local-addr %s " "peer-addr %s delayed yes" % (self.cli_str, self.src_ip_net, self.dst_ip_net) ) self.cli_verify_no_response(cli_deactivate) verify_bfd_session_config(self, session) self.cli_verify_no_response(cli_deactivate) verify_bfd_session_config(self, session) def test_admin_up_down(self): """put session admin-up and admin-down""" session = VppBFDUDPSession( self, self.pg0, self.dst_ip_net, local_addr=self.src_ip_net, multihop=self.multihop, ) session.add_vpp_config() cli_down = ( "bfd udp session set-flags admin down %s local-addr %s " "peer-addr %s " % (self.cli_str, self.src_ip_net, self.dst_ip_net) ) cli_up = ( "bfd udp session set-flags admin up %s local-addr %s " "peer-addr %s " % (self.cli_str, self.src_ip_net, self.dst_ip_net) ) self.cli_verify_no_response(cli_down) verify_bfd_session_config(self, session, state=BFDState.admin_down) self.cli_verify_no_response(cli_up) verify_bfd_session_config(self, session, state=BFDState.down) if self.multihop: # specifying multihop and interface should fail cli_up = ( "bfd udp session set-flags admin up multihop interface %s " "local-addr %s peer-addr %s" % ( self.pg0.name, self.src_ip_net, self.dst_ip_net, ) ) self.cli_verify_response( cli_up, "bfd udp session set-flags: Incompatible parameter " "combination, interface cannot be specified when multihop " "is enabled", ) # Not specifying multihop or interface should fail cli_up = ( "bfd udp session set-flags admin up local-addr %s peer-addr %s " % ( self.src_ip_net, self.dst_ip_net, ) ) self.cli_verify_response( cli_up, "bfd udp session set-flags: Incompatible parameter " "combination, interface must be set if not multihop", ) def test_set_del_udp_echo_source(self): """set/del udp echo source""" if self.multihop: self.skipTest( f"Skipping because echo functionality is not supported with multihop" ) self.create_loopback_interfaces(1) self.loopback0 = self.lo_interfaces[0] self.loopback0.admin_up() self.cli_verify_response("show bfd echo-source", "UDP echo source is not set.") cli_set = "bfd udp echo-source set interface %s" % self.loopback0.name self.cli_verify_no_response(cli_set) self.cli_verify_response( "show bfd echo-source", "UDP echo source is: %s\n" "IPv4 address usable as echo source: none\n" "IPv6 address usable as echo source: none" % self.loopback0.name, ) self.loopback0.config_ip4() echo_ip4 = str( ipaddress.IPv4Address( int(ipaddress.IPv4Address(self.loopback0.local_ip4)) ^ 1 ) ) self.cli_verify_response( "show bfd echo-source", "UDP echo source is: %s\n" "IPv4 address usable as echo source: %s\n" "IPv6 address usable as echo source: none" % (self.loopback0.name, echo_ip4), ) echo_ip6 = str( ipaddress.IPv6Address( int(ipaddress.IPv6Address(self.loopback0.local_ip6)) ^ 1 ) ) self.loopback0.config_ip6() self.cli_verify_response( "show bfd echo-source", "UDP echo source is: %s\n" "IPv4 address usable as echo source: %s\n" "IPv6 address usable as echo source: %s" % (self.loopback0.name, echo_ip4, echo_ip6), ) cli_del = "bfd udp echo-source del" self.cli_verify_no_response(cli_del) self.cli_verify_response("show bfd echo-source", "UDP echo source is not set.") if __name__ == "__main__": unittest.main(testRunner=VppTestRunner)