)
-from framework import VppTestCase, VppTestRunner
+from framework import VppTestCase
+from asfframework import VppTestRunner
from util import ppp, reassemble4, fragment_rfc791, fragment_rfc8200
from vpp_papi import VppEnum
class IPsecIPv4Params:
-
addr_type = socket.AF_INET
addr_any = "0.0.0.0"
addr_bcast = "255.255.255.255"
self.outer_flow_label = 0
self.inner_flow_label = 0x12345
+ self.anti_replay_window_size = 64
+
self.auth_algo_vpp_id = (
VppEnum.vl_api_ipsec_integ_alg_t.IPSEC_API_INTEG_ALG_SHA1_96
)
class IPsecIPv6Params:
-
addr_type = socket.AF_INET6
addr_any = "0::0"
addr_bcast = "ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff"
self.outer_flow_label = 0
self.inner_flow_label = 0x12345
+ self.anti_replay_window_size = 64
+
self.auth_algo_vpp_id = (
VppEnum.vl_api_ipsec_integ_alg_t.IPSEC_API_INTEG_ALG_SHA1_96
)
def mk_scapy_crypt_key(p):
- if p.crypt_algo in ("AES-GCM", "AES-CTR"):
+ if p.crypt_algo in ("AES-GCM", "AES-CTR", "AES-NULL-GMAC"):
return p.crypt_key + struct.pack("!I", p.salt)
else:
return p.crypt_key
crypt_key = mk_scapy_crypt_key(p)
p.scapy_tun_sa = SecurityAssociation(
encryption_type,
- spi=p.vpp_tun_spi,
+ spi=p.scapy_tun_spi,
crypt_algo=p.crypt_algo,
crypt_key=crypt_key,
auth_algo=p.auth_algo,
)
p.vpp_tun_sa = SecurityAssociation(
encryption_type,
- spi=p.scapy_tun_spi,
+ spi=p.vpp_tun_spi,
crypt_algo=p.crypt_algo,
crypt_key=crypt_key,
auth_algo=p.auth_algo,
crypt_key = mk_scapy_crypt_key(p)
p.scapy_tra_sa = SecurityAssociation(
encryption_type,
- spi=p.vpp_tra_spi,
+ spi=p.scapy_tra_spi,
crypt_algo=p.crypt_algo,
crypt_key=crypt_key,
auth_algo=p.auth_algo,
)
p.vpp_tra_sa = SecurityAssociation(
encryption_type,
- spi=p.scapy_tra_spi,
+ spi=p.vpp_tra_spi,
crypt_algo=p.crypt_algo,
crypt_key=crypt_key,
auth_algo=p.auth_algo,
"""verify methods for Transport v4"""
def get_replay_counts(self, p):
- replay_node_name = "/err/%s/SA replayed packet" % self.tra4_decrypt_node_name[0]
+ replay_node_name = "/err/%s/replay" % self.tra4_decrypt_node_name[0]
count = self.statistics.get_err_counter(replay_node_name)
if p.async_mode:
replay_post_node_name = (
- "/err/%s/SA replayed packet" % self.tra4_decrypt_node_name[p.async_mode]
+ "/err/%s/replay" % self.tra4_decrypt_node_name[p.async_mode]
)
count += self.statistics.get_err_counter(replay_post_node_name)
return count
def get_hash_failed_counts(self, p):
- if ESP == self.encryption_type and p.crypt_algo == "AES-GCM":
+ if ESP == self.encryption_type and p.crypt_algo in ("AES-GCM", "AES-NULL-GMAC"):
hash_failed_node_name = (
- "/err/%s/ESP decryption failed"
- % self.tra4_decrypt_node_name[p.async_mode]
+ "/err/%s/decryption_failed" % self.tra4_decrypt_node_name[p.async_mode]
)
else:
hash_failed_node_name = (
- "/err/%s/Integrity check failed"
- % self.tra4_decrypt_node_name[p.async_mode]
+ "/err/%s/integ_error" % self.tra4_decrypt_node_name[p.async_mode]
)
count = self.statistics.get_err_counter(hash_failed_node_name)
esn_on = p.vpp_tra_sa.esn_en
ar_on = p.flags & saf.IPSEC_API_SAD_FLAG_USE_ANTI_REPLAY
- seq_cycle_node_name = (
- "/err/%s/sequence number cycled (packet dropped)"
- % self.tra4_encrypt_node_name
- )
+ seq_cycle_node_name = "/err/%s/seq_cycled" % self.tra4_encrypt_node_name
replay_count = self.get_replay_counts(p)
hash_failed_count = self.get_hash_failed_counts(p)
seq_cycle_count = self.statistics.get_err_counter(seq_cycle_node_name)
]
recv_pkts = self.send_and_expect(self.tra_if, pkts, self.tra_if)
+ # a replayed packet, then an out of window, then a legit
+ # tests that a early failure on the batch doesn't affect subsequent packets.
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=203,
+ )
+ ),
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=81,
+ )
+ ),
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=204,
+ )
+ ),
+ ]
+ n_rx = 1 if ar_on else 3
+ recv_pkts = self.send_and_expect(self.tra_if, pkts, self.tra_if, n_rx=n_rx)
+
# move the window over half way to a wrap
pkts = [
(
def verify_tra_anti_replay(self):
p = self.params[socket.AF_INET]
esn_en = p.vpp_tra_sa.esn_en
+ anti_replay_window_size = p.anti_replay_window_size
- seq_cycle_node_name = (
- "/err/%s/sequence number cycled (packet dropped)"
- % self.tra4_encrypt_node_name
- )
+ seq_cycle_node_name = "/err/%s/seq_cycled" % self.tra4_encrypt_node_name
replay_count = self.get_replay_counts(p)
+ initial_sa_node_replay_diff = replay_count - p.tra_sa_in.get_err("replay")
hash_failed_count = self.get_hash_failed_counts(p)
seq_cycle_count = self.statistics.get_err_counter(seq_cycle_node_name)
+ initial_sa_node_cycled_diff = seq_cycle_count - p.tra_sa_in.get_err(
+ "seq_cycled"
+ )
+ hash_err = "integ_error"
if ESP == self.encryption_type:
- undersize_node_name = (
- "/err/%s/undersized packet" % self.tra4_decrypt_node_name[0]
- )
+ undersize_node_name = "/err/%s/runt" % self.tra4_decrypt_node_name[0]
undersize_count = self.statistics.get_err_counter(undersize_node_name)
+ initial_sa_node_undersize_diff = undersize_count - p.tra_sa_in.get_err(
+ "runt"
+ )
+ # For AES-GCM an error in the hash is reported as a decryption failure
+ if p.crypt_algo in ("AES-GCM", "AES-NULL-GMAC"):
+ hash_err = "decryption_failed"
+ # In async mode, we don't report errors in the hash.
+ if p.async_mode:
+ hash_err = ""
+ else:
+ initial_sa_node_hash_diff = hash_failed_count - p.tra_sa_in.get_err(
+ hash_err
+ )
#
# send packets with seq numbers 1->34
self.send_and_assert_no_replies(self.tra_if, pkts, timeout=0.2)
replay_count += len(pkts)
self.assertEqual(self.get_replay_counts(p), replay_count)
+ err = p.tra_sa_in.get_err("replay") + initial_sa_node_replay_diff
+ self.assertEqual(err, replay_count)
#
# now send a batch of packets all with the same sequence number
recv_pkts = self.send_and_expect(self.tra_if, pkts * 8, self.tra_if, n_rx=1)
replay_count += 7
self.assertEqual(self.get_replay_counts(p), replay_count)
+ err = p.tra_sa_in.get_err("replay") + initial_sa_node_replay_diff
+ self.assertEqual(err, replay_count)
#
- # now move the window over to 257 (more than one byte) and into Case A
+ # now move the window over to anti_replay_window_size + 100 and into Case A
#
self.vapi.cli("clear error")
pkt = Ether(
src=self.tra_if.remote_mac, dst=self.tra_if.local_mac
) / p.scapy_tra_sa.encrypt(
IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
- seq_num=257,
+ seq_num=anti_replay_window_size + 100,
)
recv_pkts = self.send_and_expect(self.tra_if, [pkt], self.tra_if)
+ self.logger.info(self.vapi.ppcli("show ipsec sa 1"))
+
# replayed packets are dropped
self.send_and_assert_no_replies(self.tra_if, pkt * 3, timeout=0.2)
replay_count += 3
self.assertEqual(self.get_replay_counts(p), replay_count)
+ err = p.tra_sa_in.get_err("replay") + initial_sa_node_replay_diff
+ self.assertEqual(err, replay_count)
- # the window size is 64 packets
+ # the window size is anti_replay_window_size packets
# in window are still accepted
pkt = Ether(
src=self.tra_if.remote_mac, dst=self.tra_if.local_mac
IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
seq_num=200,
)
- recv_pkts = self.send_and_expect(self.tra_if, [pkt], self.tra_if)
# a packet that does not decrypt does not move the window forward
bogus_sa = SecurityAssociation(
self.encryption_type,
- p.vpp_tra_spi,
+ p.scapy_tra_spi,
crypt_algo=p.crypt_algo,
crypt_key=mk_scapy_crypt_key(p)[::-1],
auth_algo=p.auth_algo,
src=self.tra_if.remote_mac, dst=self.tra_if.local_mac
) / bogus_sa.encrypt(
IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
- seq_num=350,
+ seq_num=anti_replay_window_size + 200,
)
self.send_and_assert_no_replies(self.tra_if, pkt * 17, timeout=0.2)
hash_failed_count += 17
self.assertEqual(self.get_hash_failed_counts(p), hash_failed_count)
+ if hash_err != "":
+ err = p.tra_sa_in.get_err(hash_err) + initial_sa_node_hash_diff
+ self.assertEqual(err, hash_failed_count)
# a malformed 'runt' packet
# created by a mis-constructed SA
if ESP == self.encryption_type and p.crypt_algo != "NULL":
- bogus_sa = SecurityAssociation(self.encryption_type, p.vpp_tra_spi)
+ bogus_sa = SecurityAssociation(self.encryption_type, p.scapy_tra_spi)
pkt = Ether(
src=self.tra_if.remote_mac, dst=self.tra_if.local_mac
) / bogus_sa.encrypt(
IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
- seq_num=350,
+ seq_num=anti_replay_window_size + 200,
)
self.send_and_assert_no_replies(self.tra_if, pkt * 17, timeout=0.2)
undersize_count += 17
self.assert_error_counter_equal(undersize_node_name, undersize_count)
+ err = p.tra_sa_in.get_err("runt") + initial_sa_node_undersize_diff
+ self.assertEqual(err, undersize_count)
# which we can determine since this packet is still in the window
pkt = Ether(
# wrap. but since it isn't then the verify will fail.
hash_failed_count += 17
self.assertEqual(self.get_hash_failed_counts(p), hash_failed_count)
+ if hash_err != "":
+ err = p.tra_sa_in.get_err(hash_err) + initial_sa_node_hash_diff
+ self.assertEqual(err, hash_failed_count)
else:
replay_count += 17
self.assertEqual(self.get_replay_counts(p), replay_count)
+ err = p.tra_sa_in.get_err("replay") + initial_sa_node_replay_diff
+ self.assertEqual(err, replay_count)
- # valid packet moves the window over to 258
+ # valid packet moves the window over to anti_replay_window_size + 258
pkt = Ether(
src=self.tra_if.remote_mac, dst=self.tra_if.local_mac
) / p.scapy_tra_sa.encrypt(
IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
- seq_num=258,
+ seq_num=anti_replay_window_size + 258,
)
rx = self.send_and_expect(self.tra_if, [pkt], self.tra_if)
decrypted = p.vpp_tra_sa.decrypt(rx[0][IP])
# causes the TX seq number to wrap; unless we're using extened sequence
# numbers.
#
- self.vapi.cli("test ipsec sa %d seq 0xffffffff" % p.scapy_tra_sa_id)
+ self.vapi.cli("test ipsec sa %d seq 0xffffffff" % p.vpp_tra_sa_id)
self.logger.info(self.vapi.ppcli("show ipsec sa 0"))
self.logger.info(self.vapi.ppcli("show ipsec sa 1"))
decrypted = p.vpp_tra_sa.decrypt(rx[0][IP])
#
- # A packet that has seq num between (2^32-64) and 5 is within
+ # A packet that has seq num between (2^32-anti_replay_window_size)+4 and 5 is within
# the window
#
p.scapy_tra_sa.seq_num = 0xFFFFFFFD
hash_failed_count += 1
self.assertEqual(self.get_hash_failed_counts(p), hash_failed_count)
+ if hash_err != "":
+ err = p.tra_sa_in.get_err(hash_err) + initial_sa_node_hash_diff
+ self.assertEqual(err, hash_failed_count)
#
# but if we move the window forward to case B, then we can wrap
# again
#
- p.scapy_tra_sa.seq_num = 0x100000555
+ p.scapy_tra_sa.seq_num = 0x100000000 + anti_replay_window_size + 0x555
pkt = Ether(
src=self.tra_if.remote_mac, dst=self.tra_if.local_mac
) / p.scapy_tra_sa.encrypt(
IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
- seq_num=0x100000555,
+ seq_num=p.scapy_tra_sa.seq_num,
)
rx = self.send_and_expect(self.tra_if, [pkt], self.tra_if)
decrypted = p.vpp_tra_sa.decrypt(rx[0][IP])
self.send_and_assert_no_replies(self.tra_if, pkts, timeout=0.2)
seq_cycle_count += len(pkts)
self.assert_error_counter_equal(seq_cycle_node_name, seq_cycle_count)
+ err = p.tra_sa_out.get_err("seq_cycled") + initial_sa_node_cycled_diff
+ self.assertEqual(err, seq_cycle_count)
# move the security-associations seq number on to the last we used
self.vapi.cli("test ipsec sa %d seq 0x15f" % p.scapy_tra_sa_id)
]
self.send_and_expect(self.tra_if, pkts, self.tra_if)
- self.assertEqual(p.tra_sa_out.get_lost(), 0)
+ self.assertEqual(p.tra_sa_in.get_err("lost"), 0)
# skip a sequence number
pkts = [
]
self.send_and_expect(self.tra_if, pkts, self.tra_if)
- self.assertEqual(p.tra_sa_out.get_lost(), 0)
+ self.assertEqual(p.tra_sa_in.get_err("lost"), 0)
# the lost packet are counted untill we get up past the first
# sizeof(replay_window) packets
]
self.send_and_expect(self.tra_if, pkts, self.tra_if)
- self.assertEqual(p.tra_sa_out.get_lost(), 1)
+ self.assertEqual(p.tra_sa_in.get_err("lost"), 1)
# lost of holes in the sequence
pkts = [
]
self.send_and_expect(self.tra_if, pkts, self.tra_if)
- self.assertEqual(p.tra_sa_out.get_lost(), 51)
+ self.assertEqual(p.tra_sa_in.get_err("lost"), 51)
# a big hole in the seq number space
pkts = [
]
self.send_and_expect(self.tra_if, pkts, self.tra_if)
- self.assertEqual(p.tra_sa_out.get_lost(), 151)
+ self.assertEqual(p.tra_sa_in.get_err("lost"), 151)
def verify_tra_basic4(self, count=1, payload_size=54):
"""ipsec v4 transport basic test"""
self.assertEqual(
pkts, count, "incorrect SA out counts: expected %d != %d" % (count, pkts)
)
- self.assertEqual(p.tra_sa_out.get_lost(), 0)
- self.assertEqual(p.tra_sa_in.get_lost(), 0)
+ self.assertEqual(p.tra_sa_out.get_err("lost"), 0)
+ self.assertEqual(p.tra_sa_in.get_err("lost"), 0)
self.assert_packet_counter_equal(self.tra4_encrypt_node_name, count)
self.assert_packet_counter_equal(self.tra4_decrypt_node_name[0], count)
+ def _verify_tra_anti_replay_algorithm_esn(self):
+ def seq_num(seqh, seql):
+ return (seqh << 32) | (seql & 0xFFFF_FFFF)
-class IpsecTra4Tests(IpsecTra4):
- """UT test methods for Transport v4"""
+ p = self.params[socket.AF_INET]
+ anti_replay_window_size = p.anti_replay_window_size
- def test_tra_anti_replay(self):
- """ipsec v4 transport anti-replay test"""
- self.verify_tra_anti_replay()
+ seq_cycle_node_name = "/err/%s/seq_cycled" % self.tra4_encrypt_node_name
+ replay_count = self.get_replay_counts(p)
+ hash_failed_count = self.get_hash_failed_counts(p)
+ seq_cycle_count = self.statistics.get_err_counter(seq_cycle_node_name)
- def test_tra_lost(self):
- """ipsec v4 transport lost packet test"""
- self.verify_tra_lost()
+ if ESP == self.encryption_type:
+ undersize_node_name = "/err/%s/runt" % self.tra4_decrypt_node_name[0]
+ undersize_count = self.statistics.get_err_counter(undersize_node_name)
- def test_tra_basic(self, count=1):
- """ipsec v4 transport basic test"""
- self.verify_tra_basic4(count=1)
+ # reset the TX SA to avoid conflict with left configuration
+ self.vapi.cli(f"test ipsec sa {p.vpp_tra_sa_id} seq 0x0")
- def test_tra_burst(self):
- """ipsec v4 transport burst test"""
- self.verify_tra_basic4(count=257)
+ """
+ RFC 4303 Appendix A2. Case A
+ |: new Th marker
+ a-i: possible seq num received
+ +: Bl, Tl, Bl', Tl'
+ [BT]l(sign) = [BT]l (sign) 2^32 mod 2^32 (Th inc/dec-remented by 1)
-class IpsecTra6(object):
- """verify methods for Transport v6"""
+ Th - 1 Th Th + 1
+ --|--a--+---b---+-c--|--d--+---e---+-f--|--g--+---h---+--i-|--
+ ========= ========= =========
+ Bl- Tl- Bl Tl Bl+ Tl+
- def verify_tra_basic6(self, count=1, payload_size=54):
- self.vapi.cli("clear errors")
- self.vapi.cli("clear ipsec sa")
- try:
- p = self.params[socket.AF_INET6]
- send_pkts = self.gen_encrypt_pkts6(
- p,
- p.scapy_tra_sa,
- self.tra_if,
- src=self.tra_if.remote_ip6,
- dst=self.tra_if.local_ip6,
- count=count,
- payload_size=payload_size,
+ Case A implies Tl >= W - 1
+ """
+
+ Th = 1
+ Tl = anti_replay_window_size + 40
+ Bl = Tl - anti_replay_window_size + 1
+
+ # move VPP's RX AR window to Case A
+ self.vapi.cli(f"test ipsec sa {p.scapy_tra_sa_id} seq {seq_num(Th, Tl):#x}")
+ p.scapy_tra_sa.seq_num = seq_num(Th, Tl)
+
+ """
+ case a: Seql < Bl
+ - pre-crypto check: algorithm predicts that the packet wrap the window
+ -> Seqh = Th + 1
+ - integrity check: should fail
+ - post-crypto check: ...
+ """
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
)
- recv_pkts = self.send_and_expect(self.tra_if, send_pkts, self.tra_if)
- for rx in recv_pkts:
- self.assertEqual(len(rx) - len(Ether()) - len(IPv6()), rx[IPv6].plen)
- try:
- decrypted = p.vpp_tra_sa.decrypt(rx[IPv6])
- self.assert_packet_checksums_valid(decrypted)
- except:
- self.logger.debug(ppp("Unexpected packet:", rx))
- raise
- finally:
- self.logger.info(self.vapi.ppcli("show error"))
- self.logger.info(self.vapi.ppcli("show ipsec all"))
+ for seq in range(seq_num(Th - 1, Bl - 20), seq_num(Th - 1, Bl - 5))
+ ]
- pkts = p.tra_sa_in.get_stats()["packets"]
- self.assertEqual(
- pkts, count, "incorrect SA in counts: expected %d != %d" % (count, pkts)
- )
- pkts = p.tra_sa_out.get_stats()["packets"]
- self.assertEqual(
- pkts, count, "incorrect SA out counts: expected %d != %d" % (count, pkts)
- )
- self.assert_packet_counter_equal(self.tra6_encrypt_node_name, count)
- self.assert_packet_counter_equal(self.tra6_decrypt_node_name[0], count)
+ # out-of-window packets fail integrity check
+ self.send_and_assert_no_replies(self.tra_if, pkts, timeout=0.2)
+ hash_failed_count += len(pkts)
+ self.assertEqual(self.get_hash_failed_counts(p), hash_failed_count)
- def gen_encrypt_pkts_ext_hdrs6(
- self, sa, sw_intf, src, dst, count=1, payload_size=54
- ):
- return [
- Ether(src=sw_intf.remote_mac, dst=sw_intf.local_mac)
- / sa.encrypt(
- IPv6(src=src, dst=dst)
- / ICMPv6EchoRequest(id=0, seq=1, data="X" * payload_size)
+ """
+ case b: Bl <= Seql <= Tl
+ - pre-crypto check: algorithm predicts that the packet is in the window
+ -> Seqh = Th
+ -> check for a replayed packet with Seql
+ - integrity check: should fail
+ - post-crypto check: ...
+ """
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
)
- for i in range(count)
+ for seq in range(seq_num(Th, Tl - 10), seq_num(Th, Tl - 5))
]
+ self.send_and_expect(self.tra_if, pkts, self.tra_if)
- def gen_pkts_ext_hdrs6(self, sw_intf, src, dst, count=1, payload_size=54):
- return [
- Ether(src=sw_intf.remote_mac, dst=sw_intf.local_mac)
- / IPv6(src=src, dst=dst)
- / IPv6ExtHdrHopByHop()
- / IPv6ExtHdrFragment(id=2, offset=200)
- / Raw(b"\xff" * 200)
- for i in range(count)
+ p.scapy_tra_sa.seq_num = seq_num(Th - 1, Tl)
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(Th - 1, Tl - 35), seq_num(Th - 1, Tl - 5))
]
- def verify_tra_encrypted6(self, p, sa, rxs):
- decrypted = []
- for rx in rxs:
- self.assert_packet_checksums_valid(rx)
- try:
- decrypt_pkt = p.vpp_tra_sa.decrypt(rx[IPv6])
- decrypted.append(decrypt_pkt)
- self.assert_equal(decrypt_pkt.src, self.tra_if.local_ip6)
- self.assert_equal(decrypt_pkt.dst, self.tra_if.remote_ip6)
- except:
- self.logger.debug(ppp("Unexpected packet:", rx))
- try:
- self.logger.debug(ppp("Decrypted packet:", decrypt_pkt))
- except:
- pass
- raise
- return decrypted
+ self.send_and_assert_no_replies(self.tra_if, pkts, timeout=0.2)
- def verify_tra_66_ext_hdrs(self, p):
- count = 63
+ # some packets are rejected by the pre-crypto check
+ replay_count += 5
+ self.assertEqual(self.get_replay_counts(p), replay_count)
- #
- # check we can decrypt with options
- #
- tx = self.gen_encrypt_pkts_ext_hdrs6(
- p.scapy_tra_sa,
- self.tra_if,
- src=self.tra_if.remote_ip6,
- dst=self.tra_if.local_ip6,
- count=count,
- )
- self.send_and_expect(self.tra_if, tx, self.tra_if)
+ # out-of-window packets fail integrity check
+ hash_failed_count += len(pkts) - 5
+ self.assertEqual(self.get_hash_failed_counts(p), hash_failed_count)
- #
- # injecting a packet from ourselves to be routed of box is a hack
- # but it matches an outbout policy, alors je ne regrette rien
- #
+ """
+ case c: Seql > Tl
+ - pre-crypto check: algorithm predicts that the packet does not wrap the window
+ -> Seqh = Th
+ - integrity check: should fail
+ - post-crypto check: ...
+ """
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(Th - 1, Tl + 5), seq_num(Th - 1, Tl + 20))
+ ]
- # one extension before ESP
- tx = (
- Ether(src=self.pg2.remote_mac, dst=self.pg2.local_mac)
- / IPv6(src=self.tra_if.local_ip6, dst=self.tra_if.remote_ip6)
- / IPv6ExtHdrFragment(id=2, offset=200)
- / Raw(b"\xff" * 200)
- )
+ self.send_and_assert_no_replies(self.tra_if, pkts, timeout=0.2)
- rxs = self.send_and_expect(self.pg2, [tx], self.tra_if)
- dcs = self.verify_tra_encrypted6(p, p.vpp_tra_sa, rxs)
+ # out-of-window packets fail integrity check
+ hash_failed_count += len(pkts)
+ self.assertEqual(self.get_hash_failed_counts(p), hash_failed_count)
- for dc in dcs:
- # for reasons i'm not going to investigate scapy does not
- # created the correct headers after decrypt. but reparsing
- # the ipv6 packet fixes it
- dc = IPv6(raw(dc[IPv6]))
- self.assert_equal(dc[IPv6ExtHdrFragment].id, 2)
+ """
+ case d: Seql < Bl
+ - pre-crypto check: algorithm predicts that the packet wrap the window
+ -> Seqh = Th + 1
+ - integrity check: should fail
+ - post-crypto check: ...
+ """
+ p.scapy_tra_sa.seq_num = seq_num(Th, Tl)
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(Th, Bl - 20), seq_num(Th, Bl - 5))
+ ]
- # two extensions before ESP
- tx = (
- Ether(src=self.pg2.remote_mac, dst=self.pg2.local_mac)
- / IPv6(src=self.tra_if.local_ip6, dst=self.tra_if.remote_ip6)
- / IPv6ExtHdrHopByHop()
- / IPv6ExtHdrFragment(id=2, offset=200)
- / Raw(b"\xff" * 200)
- )
+ # out-of-window packets fail integrity check
+ self.send_and_assert_no_replies(self.tra_if, pkts, timeout=0.2)
+ hash_failed_count += len(pkts)
+ self.assertEqual(self.get_hash_failed_counts(p), hash_failed_count)
- rxs = self.send_and_expect(self.pg2, [tx], self.tra_if)
- dcs = self.verify_tra_encrypted6(p, p.vpp_tra_sa, rxs)
+ """
+ case e: Bl <= Seql <= Tl
+ - pre-crypto check: algorithm predicts that the packet is in the window
+ -> Seqh = Th
+ -> check for a replayed packet with Seql
+ - integrity check: should pass
+ - post-crypto check: should pass
+ -> Seql is marked in the AR window
+ """
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(Th, Bl + 10), seq_num(Th, Bl + 30))
+ ]
- for dc in dcs:
- dc = IPv6(raw(dc[IPv6]))
+ self.send_and_expect(self.tra_if, pkts, self.tra_if)
+
+ """
+ case f: Seql > Tl
+ - pre-crypto check: algorithm predicts that the packet does not wrap the window
+ -> Seqh = Th
+ - integrity check: should pass
+ - post-crypto check: should pass
+ -> AR window shift (the window stays Case A)
+ -> Seql is marked in the AR window
+ """
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(Th, Tl + 50), seq_num(Th, Tl + 60))
+ ]
+
+ self.send_and_expect(self.tra_if, pkts, self.tra_if)
+
+ """
+ case g: Seql < Bl
+ - pre-crypto check: algorithm predicts that the packet wrap the window
+ -> Seqh = Th + 1
+ - integrity check: should pass
+ - post-crypto check: should pass
+ -> AR window shift (may set the window in Case B)
+ -> Seql is marked in the AR window
+ """
+ p.scapy_tra_sa.seq_num = seq_num(Th + 1, Tl)
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ # set the window in Case B (the minimum window size is 64
+ # so we are sure to overlap)
+ for seq in range(seq_num(Th + 1, 10), seq_num(Th + 1, 20))
+ ]
+
+ self.send_and_expect(self.tra_if, pkts, self.tra_if)
+
+ # reset the VPP's RX AR window to Case A
+ Th = 1
+ Tl = 2 * anti_replay_window_size + 40
+ Bl = Tl - anti_replay_window_size + 1
+
+ self.vapi.cli(f"test ipsec sa {p.scapy_tra_sa_id} seq {seq_num(Th, Tl):#x}")
+
+ p.scapy_tra_sa.seq_num = seq_num(Th + 1, Tl)
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ # the AR will stay in Case A
+ for seq in range(
+ seq_num(Th + 1, anti_replay_window_size + 10),
+ seq_num(Th + 1, anti_replay_window_size + 20),
+ )
+ ]
+
+ self.send_and_expect(self.tra_if, pkts, self.tra_if)
+
+ """
+ case h: Bl <= Seql <= Tl
+ - pre-crypto check: algorithm predicts that the packet is in the window
+ -> Seqh = Th
+ -> check for a replayed packet with Seql
+ - integrity check: the wrap is not detected, should fail
+ - post-crypto check: ...
+ """
+ Th += 1
+ Tl = anti_replay_window_size + 20
+ Bl = Tl - anti_replay_window_size + 1
+
+ p.scapy_tra_sa.seq_num = seq_num(Th + 1, Tl)
+
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(Th + 1, Tl - 20), seq_num(Th + 1, Tl - 5))
+ ]
+
+ self.send_and_assert_no_replies(self.tra_if, pkts, timeout=0.2)
+
+ # some packets are rejected by the pre-crypto check
+ replay_count += 5
+ self.assertEqual(self.get_replay_counts(p), replay_count)
+
+ # out-of-window packets fail integrity check
+ hash_failed_count += len(pkts) - 5
+ self.assertEqual(self.get_hash_failed_counts(p), hash_failed_count)
+
+ """
+ case i: Seql > Tl
+ - pre-crypto check: algorithm predicts that the packet does not wrap the window
+ -> Seqh = Th
+ - integrity check: the wrap is not detected, shoud fail
+ - post-crypto check: ...
+ """
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(Th + 1, Tl + 5), seq_num(Th + 1, Tl + 15))
+ ]
+
+ # out-of-window packets fail integrity check
+ self.send_and_assert_no_replies(self.tra_if, pkts, timeout=0.2)
+ hash_failed_count += len(pkts)
+ self.assertEqual(self.get_hash_failed_counts(p), hash_failed_count)
+
+ """
+ RFC 4303 Appendix A2. Case B
+
+ Th - 1 Th Th + 1
+ ----|-a-+-----b----+--c--|-d-+----e-----+--f--|-g-+--h---
+ ========= =========== ===========
+ Tl- Bl Tl Bl+ Tl+
+
+ Case B implies Tl < W - 1
+ """
+
+ # reset the VPP's RX AR window to Case B
+ Th = 2
+ Tl = 30 # minimum window size of 64, we are sure to overlap
+ Bl = (Tl - anti_replay_window_size + 1) % (1 << 32)
+
+ self.vapi.cli(f"test ipsec sa {p.scapy_tra_sa_id} seq {seq_num(Th, Tl):#x}")
+ p.scapy_tra_sa.seq_num = seq_num(Th, Tl)
+
+ """
+ case a: Seql <= Tl < Bl
+ - pre-crypto check: algorithm predicts that the packet is in the window
+ -> Seqh = Th
+ -> check for replayed packet
+ - integrity check: should fail
+ - post-crypto check: ...
+ """
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(Th, 5), seq_num(Th, 10))
+ ]
+
+ self.send_and_expect(self.tra_if, pkts, self.tra_if)
+
+ p.scapy_tra_sa.seq_num = seq_num(Th - 1, Tl)
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(Th - 1, 0), seq_num(Th - 1, 15))
+ ]
+
+ self.send_and_assert_no_replies(self.tra_if, pkts, timeout=0.2)
+
+ # some packets are rejected by the pre-crypto check
+ replay_count += 5
+ self.assertEqual(self.get_replay_counts(p), replay_count)
+
+ # out-of-window packets fail integrity check
+ hash_failed_count += len(pkts) - 5
+ self.assertEqual(self.get_hash_failed_counts(p), hash_failed_count)
+
+ """
+ case b: Tl < Seql < Bl
+ - pre-crypto check: algorithm predicts that the packet will shift the window
+ -> Seqh = Th
+ - integrity check: should fail
+ - post-crypto check: ...
+ """
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(Th - 1, Tl + 10), seq_num(Th - 1, Tl + 20))
+ ]
+
+ self.send_and_assert_no_replies(self.tra_if, pkts, timeout=0.2)
+
+ # out-of-window packets fail integrity check
+ hash_failed_count += len(pkts)
+ self.assertEqual(self.get_hash_failed_counts(p), hash_failed_count)
+
+ """
+ case c: Tl < Bl <= Seql
+ - pre-crypto check: algorithm predicts that the packet is in the window
+ -> Seqh = Th - 1
+ -> check for a replayed packet with Seql
+ - integrity check: should pass
+ - post-crypto check: should pass
+ -> Seql is marked in the AR window
+ """
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(Th - 1, Bl + 10), seq_num(Th - 1, Bl + 20))
+ ]
+
+ self.send_and_expect(self.tra_if, pkts, self.tra_if)
+
+ """
+ case d: Seql <= Tl < Bl
+ - pre-crypto check: algorithm predicts that the packet is the window
+ -> Seqh = Th
+ -> check for replayed packet
+ - integrity check: should pass
+ - post-crypto check: should pass
+ -> Seql is marked in the AR window
+ """
+ p.scapy_tra_sa.seq_num = seq_num(Th, Tl)
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(Th, 15), seq_num(Th, 25))
+ ]
+
+ self.send_and_expect(self.tra_if, pkts, self.tra_if)
+
+ """
+ case e: Tl < Seql < Bl
+ - pre-crypto check: algorithm predicts that the packet is in the window
+ -> Seqh = Th
+ -> check for a replayed packet with Seql
+ - integrity check: should pass
+ - post-crypto check: should pass
+ -> AR window shift (may set the window in Case A)
+ -> Seql is marked in the AR window
+ """
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(Th, Tl + 5), seq_num(Th, Tl + 15))
+ ]
+
+ # the window stays in Case B
+ self.send_and_expect(self.tra_if, pkts, self.tra_if)
+
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(
+ seq_num(Th, Tl + anti_replay_window_size + 5),
+ seq_num(Th, Tl + anti_replay_window_size + 15),
+ )
+ ]
+
+ # the window moves to Case A
+ self.send_and_expect(self.tra_if, pkts, self.tra_if)
+
+ # reset the VPP's RX AR window to Case B
+ Th = 2
+ Tl = 30 # minimum window size of 64, we are sure to overlap
+ Bl = (Tl - anti_replay_window_size + 1) % (1 << 32)
+
+ self.vapi.cli(f"test ipsec sa {p.scapy_tra_sa_id} seq {seq_num(Th, Tl):#x}")
+ p.scapy_tra_sa.seq_num = seq_num(Th, Tl)
+
+ """
+ case f: Tl < Bl <= Seql
+ - pre-crypto check: algorithm predicts that the packet is in the previous window
+ -> Seqh = Th - 1
+ -> check for a replayed packet with Seql
+ - integrity check: should fail
+ - post-crypto check: ...
+ """
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(Th, Bl + 10), seq_num(Th, Bl + 20))
+ ]
+
+ self.send_and_assert_no_replies(self.tra_if, pkts, timeout=0.2)
+
+ # out-of-window packets fail integrity check
+ hash_failed_count += len(pkts)
+ self.assertEqual(self.get_hash_failed_counts(p), hash_failed_count)
+
+ """
+ case g: Seql <= Tl < Bl
+ - pre-crypto check: algorithm predicts that the packet is the window
+ -> Seqh = Th
+ -> check for replayed packet
+ - integrity check: should fail
+ - post-crypto check: ...
+ """
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(Th, 10), seq_num(Th, 15))
+ ]
+
+ self.send_and_expect(self.tra_if, pkts, self.tra_if)
+
+ p.scapy_tra_sa.seq_num = seq_num(Th + 1, Tl)
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(Th + 1, 0), seq_num(Th + 1, 15))
+ ]
+
+ self.send_and_assert_no_replies(self.tra_if, pkts, timeout=0.2)
+
+ # some packets are rejected by the pre-crypto check
+ replay_count += 5
+ self.assertEqual(self.get_replay_counts(p), replay_count)
+
+ # out-of-window packets fail integrity check
+ hash_failed_count += len(pkts) - 5
+ self.assertEqual(self.get_hash_failed_counts(p), hash_failed_count)
+
+ """
+ case h: Tl < Seql < Bl
+ - pre-crypto check: algorithm predicts that the packet will shift the window
+ -> Seqh = Th
+ - integrity check: should fail
+ - post-crypto check: ...
+ """
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(Th + 1, Tl + 10), seq_num(Th + 1, Tl + 20))
+ ]
+
+ self.send_and_assert_no_replies(self.tra_if, pkts, timeout=0.2)
+
+ # out-of-window packets fail integrity check
+ hash_failed_count += len(pkts)
+ self.assertEqual(self.get_hash_failed_counts(p), hash_failed_count)
+
+ def _verify_tra_anti_replay_algorithm_no_esn(self):
+ def seq_num(seql):
+ return seql & 0xFFFF_FFFF
+
+ p = self.params[socket.AF_INET]
+ anti_replay_window_size = p.anti_replay_window_size
+
+ seq_cycle_node_name = "/err/%s/seq_cycled" % self.tra4_encrypt_node_name
+ replay_count = self.get_replay_counts(p)
+ hash_failed_count = self.get_hash_failed_counts(p)
+ seq_cycle_count = self.statistics.get_err_counter(seq_cycle_node_name)
+
+ if ESP == self.encryption_type:
+ undersize_node_name = "/err/%s/runt" % self.tra4_decrypt_node_name[0]
+ undersize_count = self.statistics.get_err_counter(undersize_node_name)
+
+ # reset the TX SA to avoid conflict with left configuration
+ self.vapi.cli(f"test ipsec sa {p.vpp_tra_sa_id} seq 0x0")
+
+ """
+ RFC 4303 Appendix A2. Case A
+
+ a-c: possible seq num received
+ +: Bl, Tl
+
+ |--a--+---b---+-c--|
+ =========
+ Bl Tl
+
+ No ESN implies Th = 0
+ Case A implies Tl >= W - 1
+ """
+
+ Tl = anti_replay_window_size + 40
+ Bl = Tl - anti_replay_window_size + 1
+
+ # move VPP's RX AR window to Case A
+ self.vapi.cli(f"test ipsec sa {p.scapy_tra_sa_id} seq {seq_num(Tl):#x}")
+ p.scapy_tra_sa.seq_num = seq_num(Tl)
+
+ """
+ case a: Seql < Bl
+ - pre-crypto check: algorithm predicts that the packet is out of window
+ -> packet should be dropped
+ - integrity check: ...
+ - post-crypto check: ...
+ """
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(Bl - 20), seq_num(Bl - 5))
+ ]
+
+ # out-of-window packets
+ self.send_and_assert_no_replies(self.tra_if, pkts, timeout=0.2)
+ replay_count += len(pkts)
+ self.assertEqual(self.get_replay_counts(p), replay_count)
+
+ """
+ case b: Bl <= Seql <= Tl
+ - pre-crypto check: algorithm predicts that the packet is in the window
+ -> check for a replayed packet with Seql
+ - integrity check: should pass
+ - post-crypto check:
+ -> check for a replayed packet with Seql
+ """
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(Tl - 50), seq_num(Tl - 30))
+ ]
+ self.send_and_expect(self.tra_if, pkts, self.tra_if)
+
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(Tl - 35), seq_num(Tl - 30))
+ ]
+
+ self.send_and_assert_no_replies(self.tra_if, pkts, timeout=0.2)
+
+ # replayed packets
+ replay_count += 5
+ self.assertEqual(self.get_replay_counts(p), replay_count)
+
+ """
+ case c: Seql > Tl
+ - pre-crypto check: algorithm predicts that the packet will shift the window
+ - integrity check: should pass
+ - post-crypto check: should pass
+ -> AR window is shifted
+ """
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(Tl + 5), seq_num(Tl + 20))
+ ]
+
+ self.send_and_expect(self.tra_if, pkts, self.tra_if)
+
+ """
+ RFC 4303 Appendix A2. Case B
+
+ |-a-----+------b-----|
+ =========
+ Tl
+
+ Case B implies Tl < W - 1
+ """
+
+ # reset the VPP's RX AR window to Case B
+ Tl = 30 # minimum window size of 64, we are sure to overlap
+ Bl = seq_num(Tl - anti_replay_window_size + 1)
+
+ self.vapi.cli(f"test ipsec sa {p.scapy_tra_sa_id} seq {seq_num(Tl):#x}")
+
+ """
+ case a: Seql <= Tl < Bl
+ - pre-crypto check: algorithm predicts that the packet is in the window
+ -> check for replayed packet
+ - integrity check: should fail
+ - post-crypto check: ...
+ """
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(5), seq_num(10))
+ ]
+
+ self.send_and_expect(self.tra_if, pkts, self.tra_if)
+
+ """
+ case b: Tl < Seql < Bl
+ - pre-crypto check: algorithm predicts that the packet will shift the window
+ - integrity check: should pass
+ - post-crypto check: should pass
+ -> AR window is shifted
+ """
+ pkts = [
+ (
+ Ether(src=self.tra_if.remote_mac, dst=self.tra_if.local_mac)
+ / p.scapy_tra_sa.encrypt(
+ IP(src=self.tra_if.remote_ip4, dst=self.tra_if.local_ip4) / ICMP(),
+ seq_num=seq,
+ )
+ )
+ for seq in range(seq_num(-50), seq_num(-20))
+ ]
+
+ self.send_and_expect(self.tra_if, pkts, self.tra_if)
+
+ def verify_tra_anti_replay_algorithm(self):
+ if self.params[socket.AF_INET].vpp_tra_sa.esn_en:
+ self._verify_tra_anti_replay_algorithm_esn()
+ else:
+ self._verify_tra_anti_replay_algorithm_no_esn()
+
+
+class IpsecTra4Tests(IpsecTra4):
+ """UT test methods for Transport v4"""
+
+ def test_tra_anti_replay(self):
+ """ipsec v4 transport anti-replay test"""
+ self.verify_tra_anti_replay()
+
+ def test_tra_anti_replay_algorithm(self):
+ """ipsec v4 transport anti-replay algorithm test"""
+ self.verify_tra_anti_replay_algorithm()
+
+ def test_tra_lost(self):
+ """ipsec v4 transport lost packet test"""
+ self.verify_tra_lost()
+
+ def test_tra_basic(self, count=1):
+ """ipsec v4 transport basic test"""
+ self.verify_tra_basic4(count=1)
+
+ def test_tra_burst(self):
+ """ipsec v4 transport burst test"""
+ self.verify_tra_basic4(count=257)
+
+
+class IpsecTra6(object):
+ """verify methods for Transport v6"""
+
+ def verify_tra_basic6(self, count=1, payload_size=54):
+ self.vapi.cli("clear errors")
+ self.vapi.cli("clear ipsec sa")
+ try:
+ p = self.params[socket.AF_INET6]
+ send_pkts = self.gen_encrypt_pkts6(
+ p,
+ p.scapy_tra_sa,
+ self.tra_if,
+ src=self.tra_if.remote_ip6,
+ dst=self.tra_if.local_ip6,
+ count=count,
+ payload_size=payload_size,
+ )
+ recv_pkts = self.send_and_expect(self.tra_if, send_pkts, self.tra_if)
+ for rx in recv_pkts:
+ self.assertEqual(len(rx) - len(Ether()) - len(IPv6()), rx[IPv6].plen)
+ try:
+ decrypted = p.vpp_tra_sa.decrypt(rx[IPv6])
+ self.assert_packet_checksums_valid(decrypted)
+ except:
+ self.logger.debug(ppp("Unexpected packet:", rx))
+ raise
+ finally:
+ self.logger.info(self.vapi.ppcli("show error"))
+ self.logger.info(self.vapi.ppcli("show ipsec all"))
+
+ pkts = p.tra_sa_in.get_stats()["packets"]
+ self.assertEqual(
+ pkts, count, "incorrect SA in counts: expected %d != %d" % (count, pkts)
+ )
+ pkts = p.tra_sa_out.get_stats()["packets"]
+ self.assertEqual(
+ pkts, count, "incorrect SA out counts: expected %d != %d" % (count, pkts)
+ )
+ self.assert_packet_counter_equal(self.tra6_encrypt_node_name, count)
+ self.assert_packet_counter_equal(self.tra6_decrypt_node_name[0], count)
+
+ def gen_encrypt_pkts_ext_hdrs6(
+ self, sa, sw_intf, src, dst, count=1, payload_size=54
+ ):
+ return [
+ Ether(src=sw_intf.remote_mac, dst=sw_intf.local_mac)
+ / sa.encrypt(
+ IPv6(src=src, dst=dst)
+ / ICMPv6EchoRequest(id=0, seq=1, data="X" * payload_size)
+ )
+ for i in range(count)
+ ]
+
+ def gen_pkts_ext_hdrs6(self, sw_intf, src, dst, count=1, payload_size=54):
+ return [
+ Ether(src=sw_intf.remote_mac, dst=sw_intf.local_mac)
+ / IPv6(src=src, dst=dst)
+ / IPv6ExtHdrHopByHop()
+ / IPv6ExtHdrFragment(id=2, offset=200)
+ / Raw(b"\xff" * 200)
+ for i in range(count)
+ ]
+
+ def verify_tra_encrypted6(self, p, sa, rxs):
+ decrypted = []
+ for rx in rxs:
+ self.assert_packet_checksums_valid(rx)
+ try:
+ decrypt_pkt = p.vpp_tra_sa.decrypt(rx[IPv6])
+ decrypted.append(decrypt_pkt)
+ self.assert_equal(decrypt_pkt.src, self.tra_if.local_ip6)
+ self.assert_equal(decrypt_pkt.dst, self.tra_if.remote_ip6)
+ except:
+ self.logger.debug(ppp("Unexpected packet:", rx))
+ try:
+ self.logger.debug(ppp("Decrypted packet:", decrypt_pkt))
+ except:
+ pass
+ raise
+ return decrypted
+
+ def verify_tra_66_ext_hdrs(self, p):
+ count = 63
+
+ #
+ # check we can decrypt with options
+ #
+ tx = self.gen_encrypt_pkts_ext_hdrs6(
+ p.scapy_tra_sa,
+ self.tra_if,
+ src=self.tra_if.remote_ip6,
+ dst=self.tra_if.local_ip6,
+ count=count,
+ )
+ self.send_and_expect(self.tra_if, tx, self.tra_if)
+
+ #
+ # injecting a packet from ourselves to be routed of box is a hack
+ # but it matches an outbout policy, alors je ne regrette rien
+ #
+
+ # one extension before ESP
+ tx = (
+ Ether(src=self.pg2.remote_mac, dst=self.pg2.local_mac)
+ / IPv6(src=self.tra_if.local_ip6, dst=self.tra_if.remote_ip6)
+ / IPv6ExtHdrFragment(id=2, offset=200)
+ / Raw(b"\xff" * 200)
+ )
+
+ rxs = self.send_and_expect(self.pg2, [tx], self.tra_if)
+ dcs = self.verify_tra_encrypted6(p, p.vpp_tra_sa, rxs)
+
+ for dc in dcs:
+ # for reasons i'm not going to investigate scapy does not
+ # created the correct headers after decrypt. but reparsing
+ # the ipv6 packet fixes it
+ dc = IPv6(raw(dc[IPv6]))
+ self.assert_equal(dc[IPv6ExtHdrFragment].id, 2)
+
+ # two extensions before ESP
+ tx = (
+ Ether(src=self.pg2.remote_mac, dst=self.pg2.local_mac)
+ / IPv6(src=self.tra_if.local_ip6, dst=self.tra_if.remote_ip6)
+ / IPv6ExtHdrHopByHop()
+ / IPv6ExtHdrFragment(id=2, offset=200)
+ / Raw(b"\xff" * 200)
+ )
+
+ rxs = self.send_and_expect(self.pg2, [tx], self.tra_if)
+ dcs = self.verify_tra_encrypted6(p, p.vpp_tra_sa, rxs)
+
+ for dc in dcs:
+ dc = IPv6(raw(dc[IPv6]))
self.assertTrue(dc[IPv6ExtHdrHopByHop])
self.assert_equal(dc[IPv6ExtHdrFragment].id, 2)
decrypt_pkts = []
for rx in rxs:
if p.nat_header:
- self.assertEqual(rx[UDP].dport, 4500)
+ self.assertEqual(rx[UDP].dport, p.nat_header.dport)
self.assert_packet_checksums_valid(rx)
self.assertEqual(len(rx) - len(Ether()), rx[IP].len)
try:
)
self.send_and_assert_no_replies(self.tun_if, pkt * 31)
self.assert_error_counter_equal(
- "/err/%s/NAT Keepalive" % self.tun4_input_node, 31
+ "/err/%s/nat_keepalive" % self.tun4_input_node, 31
)
pkt = (
/ Raw(b"\xfe")
)
self.send_and_assert_no_replies(self.tun_if, pkt * 31)
- self.assert_error_counter_equal("/err/%s/Too Short" % self.tun4_input_node, 31)
+ self.assert_error_counter_equal("/err/%s/too_short" % self.tun4_input_node, 31)
pkt = (
Ether(src=self.tun_if.remote_mac, dst=self.tun_if.local_mac)
/ Padding(0 * 21)
)
self.send_and_assert_no_replies(self.tun_if, pkt * 31)
- self.assert_error_counter_equal("/err/%s/Too Short" % self.tun4_input_node, 62)
+ self.assert_error_counter_equal("/err/%s/too_short" % self.tun4_input_node, 62)
class IpsecTun4Tests(IpsecTun4):
self.logger.info(self.vapi.ppcli("show ipsec all"))
self.verify_counters6(p, p, count)
+ def verify_keepalive(self, p):
+ # the sizeof Raw is calculated to pad to the minimum ehternet
+ # frame size of 64 btyes
+ pkt = (
+ Ether(src=self.tun_if.remote_mac, dst=self.tun_if.local_mac)
+ / IPv6(src=p.remote_tun_if_host, dst=self.tun_if.local_ip6)
+ / UDP(sport=333, dport=4500)
+ / Raw(b"\xff")
+ / Padding(0 * 1)
+ )
+ self.send_and_assert_no_replies(self.tun_if, pkt * 31)
+ self.assert_error_counter_equal(
+ "/err/%s/nat_keepalive" % self.tun6_input_node, 31
+ )
+
+ pkt = (
+ Ether(src=self.tun_if.remote_mac, dst=self.tun_if.local_mac)
+ / IPv6(src=p.remote_tun_if_host, dst=self.tun_if.local_ip6)
+ / UDP(sport=333, dport=4500)
+ / Raw(b"\xfe")
+ )
+ self.send_and_assert_no_replies(self.tun_if, pkt * 31)
+ self.assert_error_counter_equal("/err/%s/too_short" % self.tun6_input_node, 31)
+
+ pkt = (
+ Ether(src=self.tun_if.remote_mac, dst=self.tun_if.local_mac)
+ / IPv6(src=p.remote_tun_if_host, dst=self.tun_if.local_ip6)
+ / UDP(sport=333, dport=4500)
+ / Raw(b"\xfe")
+ / Padding(0 * 21)
+ )
+ self.send_and_assert_no_replies(self.tun_if, pkt * 31)
+ self.assert_error_counter_equal("/err/%s/too_short" % self.tun6_input_node, 62)
+
class IpsecTun6Tests(IpsecTun6):
"""UT test methods for Tunnel v6"""
policy_type,
remove=False,
all_ips=False,
+ ip_range=False,
+ local_ip_start=ip_address("0.0.0.0"),
+ local_ip_stop=ip_address("255.255.255.255"),
+ remote_ip_start=ip_address("0.0.0.0"),
+ remote_ip_stop=ip_address("255.255.255.255"),
+ remote_port_start=0,
+ remote_port_stop=65535,
+ local_port_start=0,
+ local_port_stop=65535,
):
spd = VppIpsecSpd(self, spd_id)
src_range_high = ip_address("255.255.255.255")
dst_range_low = ip_address("0.0.0.0")
dst_range_high = ip_address("255.255.255.255")
+
+ elif ip_range:
+ src_range_low = local_ip_start
+ src_range_high = local_ip_stop
+ dst_range_low = remote_ip_start
+ dst_range_high = remote_ip_stop
+
else:
src_range_low = src_if.remote_ip4
src_range_high = src_if.remote_ip4
priority=priority,
policy=self.get_policy(policy_type),
is_outbound=is_out,
+ remote_port_start=remote_port_start,
+ remote_port_stop=remote_port_stop,
+ local_port_start=local_port_start,
+ local_port_stop=local_port_stop,
)
if remove is False:
self.logger.info(self.vapi.ppcli("show ipsec all"))
return spdEntry
- def create_stream(self, src_if, dst_if, pkt_count, src_prt=1234, dst_prt=5678):
+ def create_stream(
+ self, src_if, dst_if, pkt_count, src_prt=1234, dst_prt=5678, proto="UDP"
+ ):
packets = []
+ # create SA
+ sa = SecurityAssociation(
+ ESP,
+ spi=1000,
+ crypt_algo="AES-CBC",
+ crypt_key=b"JPjyOWBeVEQiMe7h",
+ auth_algo="HMAC-SHA1-96",
+ auth_key=b"C91KUR9GYMm5GfkEvNjX",
+ tunnel_header=IP(src=src_if.remote_ip4, dst=dst_if.remote_ip4),
+ nat_t_header=UDP(sport=src_prt, dport=dst_prt),
+ )
for i in range(pkt_count):
# create packet info stored in the test case instance
info = self.create_packet_info(src_if, dst_if)
# convert the info into packet payload
payload = self.info_to_payload(info)
# create the packet itself
- p = (
- Ether(dst=src_if.local_mac, src=src_if.remote_mac)
- / IP(src=src_if.remote_ip4, dst=dst_if.remote_ip4)
- / UDP(sport=src_prt, dport=dst_prt)
- / Raw(payload)
- )
+ p = []
+ if proto == "UDP-ESP":
+ p = Ether(dst=src_if.local_mac, src=src_if.remote_mac) / sa.encrypt(
+ IP(src=src_if.remote_ip4, dst=dst_if.remote_ip4)
+ / UDP(sport=src_prt, dport=dst_prt)
+ / Raw(payload)
+ )
+ elif proto == "UDP":
+ p = (
+ Ether(dst=src_if.local_mac, src=src_if.remote_mac)
+ / IP(src=src_if.remote_ip4, dst=dst_if.remote_ip4)
+ / UDP(sport=src_prt, dport=dst_prt)
+ / Raw(payload)
+ )
+ elif proto == "TCP":
+ p = (
+ Ether(dst=src_if.local_mac, src=src_if.remote_mac)
+ / IP(src=src_if.remote_ip4, dst=dst_if.remote_ip4)
+ / TCP(sport=src_prt, dport=dst_prt)
+ / Raw(payload)
+ )
# store a copy of the packet in the packet info
info.data = p.copy()
# append the packet to the list
self.logger.info("Policy %s matched: %d pkts", str(spdEntry), matched_pkts)
self.assert_equal(pkt_count, matched_pkts)
+ # Method verify_l3_l4_capture() will verify network and transport layer
+ # fields of the packet sa.encrypt() gives interface number garbadge.
+ # thus interface validation get failed (scapy bug?). However our intent
+ # is to verify IP layer and above and that is covered.
+
+ def verify_l3_l4_capture(
+ self, src_if, dst_if, capture, tcp_port_in=1234, udp_port_in=5678
+ ):
+ for packet in capture:
+ try:
+ self.assert_packet_checksums_valid(packet)
+ self.assert_equal(
+ packet[IP].src,
+ src_if.remote_ip4,
+ "decrypted packet source address",
+ )
+ self.assert_equal(
+ packet[IP].dst,
+ dst_if.remote_ip4,
+ "decrypted packet destination address",
+ )
+ if packet.haslayer(TCP):
+ self.assertFalse(
+ packet.haslayer(UDP),
+ "unexpected UDP header in decrypted packet",
+ )
+ elif packet.haslayer(UDP):
+ if packet[UDP].payload:
+ self.assertFalse(
+ packet[UDP][1].haslayer(UDP),
+ "unexpected UDP header in decrypted packet",
+ )
+ else:
+ self.assertFalse(
+ packet.haslayer(UDP),
+ "unexpected UDP header in decrypted packet",
+ )
+ self.assert_equal(
+ packet[ICMP].id, self.icmp_id_in, "decrypted packet ICMP ID"
+ )
+ except Exception:
+ self.logger.error(ppp("Unexpected or invalid plain packet:", packet))
+ raise
+
class SpdFlowCacheTemplate(IPSecIPv4Fwd):
@classmethod
self.logger.info("\ncrc32 NOT supported:\n" + cpu_info)
return False
+ def create_stream(
+ cls, src_if, dst_if, pkt_count, src_prt=1234, dst_prt=5678, proto="UDP-ESP"
+ ):
+ packets = []
+ packets = super(SpdFlowCacheTemplate, cls).create_stream(
+ src_if, dst_if, pkt_count, src_prt, dst_prt, proto
+ )
+ return packets
+
+ def verify_capture(
+ self, src_if, dst_if, capture, tcp_port_in=1234, udp_port_in=5678
+ ):
+ super(SpdFlowCacheTemplate, self).verify_l3_l4_capture(
+ src_if, dst_if, capture, tcp_port_in, udp_port_in
+ )
+
+
+class SpdFastPathTemplate(IPSecIPv4Fwd):
+ @classmethod
+ def setUpConstants(cls):
+ super(SpdFastPathTemplate, cls).setUpConstants()
+ # Override this method with required cmdline parameters e.g.
+ # cls.vpp_cmdline.extend(["ipsec", "{",
+ # "ipv4-outbound-spd-flow-cache on",
+ # "}"])
+ # cls.logger.info("VPP modified cmdline is %s" % " "
+ # .join(cls.vpp_cmdline))
+
+ def setUp(self):
+ super(SpdFastPathTemplate, self).setUp()
+
+ def tearDown(self):
+ super(SpdFastPathTemplate, self).tearDown()
+
+ def create_stream(
+ cls, src_if, dst_if, pkt_count, src_prt=1234, dst_prt=5678, proto="UDP-ESP"
+ ):
+ packets = []
+ packets = super(SpdFastPathTemplate, cls).create_stream(
+ src_if, dst_if, pkt_count, src_prt, dst_prt, proto
+ )
+ return packets
+
+ def verify_capture(
+ self, src_if, dst_if, capture, tcp_port_in=1234, udp_port_in=5678
+ ):
+ super(SpdFastPathTemplate, self).verify_l3_l4_capture(
+ src_if, dst_if, capture, tcp_port_in, udp_port_in
+ )
+
+
+class IpsecDefaultTemplate(IPSecIPv4Fwd):
+ @classmethod
+ def setUpConstants(cls):
+ super(IpsecDefaultTemplate, cls).setUpConstants()
+
+ def setUp(self):
+ super(IpsecDefaultTemplate, self).setUp()
+
+ def tearDown(self):
+ super(IpsecDefaultTemplate, self).tearDown()
+
+ def create_stream(
+ cls, src_if, dst_if, pkt_count, src_prt=1234, dst_prt=5678, proto="UDP-ESP"
+ ):
+ packets = []
+ packets = super(IpsecDefaultTemplate, cls).create_stream(
+ src_if, dst_if, pkt_count, src_prt, dst_prt, proto
+ )
+ return packets
+
+ def verify_capture(
+ self, src_if, dst_if, capture, tcp_port_in=1234, udp_port_in=5678
+ ):
+ super(IpsecDefaultTemplate, self).verify_l3_l4_capture(
+ src_if, dst_if, capture, tcp_port_in, udp_port_in
+ )
+
+
+class IPSecIPv6Fwd(VppTestCase):
+ """Test IPSec by capturing and verifying IPv6 forwarded pkts"""
+
+ @classmethod
+ def setUpConstants(cls):
+ super(IPSecIPv6Fwd, cls).setUpConstants()
+
+ def setUp(self):
+ super(IPSecIPv6Fwd, self).setUp()
+ # store SPD objects so we can remove configs on tear down
+ self.spd_objs = []
+ self.spd_policies = []
+
+ def tearDown(self):
+ # remove SPD policies
+ for obj in self.spd_policies:
+ obj.remove_vpp_config()
+ self.spd_policies = []
+ # remove SPD items (interface bindings first, then SPD)
+ for obj in reversed(self.spd_objs):
+ obj.remove_vpp_config()
+ self.spd_objs = []
+ # close down pg intfs
+ for pg in self.pg_interfaces:
+ pg.unconfig_ip6()
+ pg.admin_down()
+ super(IPSecIPv6Fwd, self).tearDown()
+
+ def create_interfaces(self, num_ifs=2):
+ # create interfaces pg0 ... pg<num_ifs>
+ self.create_pg_interfaces(range(num_ifs))
+ for pg in self.pg_interfaces:
+ # put the interface up
+ pg.admin_up()
+ # configure IPv6 address on the interface
+ pg.config_ip6()
+ pg.resolve_ndp()
+ self.logger.info(self.vapi.ppcli("show int addr"))
+
+ def spd_create_and_intf_add(self, spd_id, pg_list):
+ spd = VppIpsecSpd(self, spd_id)
+ spd.add_vpp_config()
+ self.spd_objs.append(spd)
+ for pg in pg_list:
+ spdItf = VppIpsecSpdItfBinding(self, spd, pg)
+ spdItf.add_vpp_config()
+ self.spd_objs.append(spdItf)
+
+ def get_policy(self, policy_type):
+ e = VppEnum.vl_api_ipsec_spd_action_t
+ if policy_type == "protect":
+ return e.IPSEC_API_SPD_ACTION_PROTECT
+ elif policy_type == "bypass":
+ return e.IPSEC_API_SPD_ACTION_BYPASS
+ elif policy_type == "discard":
+ return e.IPSEC_API_SPD_ACTION_DISCARD
+ else:
+ raise Exception("Invalid policy type: %s", policy_type)
+
+ def spd_add_rem_policy(
+ self,
+ spd_id,
+ src_if,
+ dst_if,
+ proto,
+ is_out,
+ priority,
+ policy_type,
+ remove=False,
+ all_ips=False,
+ ip_range=False,
+ local_ip_start=ip_address("0::0"),
+ local_ip_stop=ip_address("ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff"),
+ remote_ip_start=ip_address("0::0"),
+ remote_ip_stop=ip_address("ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff"),
+ remote_port_start=0,
+ remote_port_stop=65535,
+ local_port_start=0,
+ local_port_stop=65535,
+ ):
+ spd = VppIpsecSpd(self, spd_id)
+
+ if all_ips:
+ src_range_low = ip_address("0::0")
+ src_range_high = ip_address("ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff")
+ dst_range_low = ip_address("0::0")
+ dst_range_high = ip_address("ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff")
+
+ elif ip_range:
+ src_range_low = local_ip_start
+ src_range_high = local_ip_stop
+ dst_range_low = remote_ip_start
+ dst_range_high = remote_ip_stop
+
+ else:
+ src_range_low = src_if.remote_ip6
+ src_range_high = src_if.remote_ip6
+ dst_range_low = dst_if.remote_ip6
+ dst_range_high = dst_if.remote_ip6
+
+ spdEntry = VppIpsecSpdEntry(
+ self,
+ spd,
+ 0,
+ src_range_low,
+ src_range_high,
+ dst_range_low,
+ dst_range_high,
+ proto,
+ priority=priority,
+ policy=self.get_policy(policy_type),
+ is_outbound=is_out,
+ remote_port_start=remote_port_start,
+ remote_port_stop=remote_port_stop,
+ local_port_start=local_port_start,
+ local_port_stop=local_port_stop,
+ )
+
+ if remove is False:
+ spdEntry.add_vpp_config()
+ self.spd_policies.append(spdEntry)
+ else:
+ spdEntry.remove_vpp_config()
+ self.spd_policies.remove(spdEntry)
+ self.logger.info(self.vapi.ppcli("show ipsec all"))
+ return spdEntry
+
+ def create_stream(self, src_if, dst_if, pkt_count, src_prt=1234, dst_prt=5678):
+ packets = []
+ for i in range(pkt_count):
+ # create packet info stored in the test case instance
+ info = self.create_packet_info(src_if, dst_if)
+ # convert the info into packet payload
+ payload = self.info_to_payload(info)
+ # create the packet itself
+ p = (
+ Ether(dst=src_if.local_mac, src=src_if.remote_mac)
+ / IPv6(src=src_if.remote_ip6, dst=dst_if.remote_ip6)
+ / UDP(sport=src_prt, dport=dst_prt)
+ / Raw(payload)
+ )
+ # store a copy of the packet in the packet info
+ info.data = p.copy()
+ # append the packet to the list
+ packets.append(p)
+ # return the created packet list
+ return packets
+
+ def verify_capture(self, src_if, dst_if, capture):
+ packet_info = None
+ for packet in capture:
+ try:
+ ip = packet[IPv6]
+ udp = packet[UDP]
+ # convert the payload to packet info object
+ payload_info = self.payload_to_info(packet)
+ # make sure the indexes match
+ self.assert_equal(
+ payload_info.src, src_if.sw_if_index, "source sw_if_index"
+ )
+ self.assert_equal(
+ payload_info.dst, dst_if.sw_if_index, "destination sw_if_index"
+ )
+ packet_info = self.get_next_packet_info_for_interface2(
+ src_if.sw_if_index, dst_if.sw_if_index, packet_info
+ )
+ # make sure we didn't run out of saved packets
+ self.assertIsNotNone(packet_info)
+ self.assert_equal(
+ payload_info.index, packet_info.index, "packet info index"
+ )
+ saved_packet = packet_info.data # fetch the saved packet
+ # assert the values match
+ self.assert_equal(ip.src, saved_packet[IPv6].src, "IP source address")
+ # ... more assertions here
+ self.assert_equal(udp.sport, saved_packet[UDP].sport, "UDP source port")
+ except Exception as e:
+ self.logger.error(ppp("Unexpected or invalid packet:", packet))
+ raise
+ remaining_packet = self.get_next_packet_info_for_interface2(
+ src_if.sw_if_index, dst_if.sw_if_index, packet_info
+ )
+ self.assertIsNone(
+ remaining_packet,
+ "Interface %s: Packet expected from interface "
+ "%s didn't arrive" % (dst_if.name, src_if.name),
+ )
+
+ def verify_policy_match(self, pkt_count, spdEntry):
+ self.logger.info("XXXX %s %s", str(spdEntry), str(spdEntry.get_stats()))
+ matched_pkts = spdEntry.get_stats().get("packets")
+ self.logger.info("Policy %s matched: %d pkts", str(spdEntry), matched_pkts)
+ self.assert_equal(pkt_count, matched_pkts)
+
if __name__ == "__main__":
unittest.main(testRunner=VppTestRunner)