#!/usr/bin/env python3 import unittest from framework import VppTestCase from asfframework import VppTestRunner, tag_fixme_vpp_workers from vpp_udp_encap import find_udp_encap, VppUdpEncap from vpp_udp_decap import VppUdpDecap from vpp_ip_route import ( VppIpRoute, VppRoutePath, VppIpTable, VppMplsLabel, VppMplsTable, VppMplsRoute, FibPathType, FibPathProto, ) from vpp_neighbor import VppNeighbor from vpp_papi import VppEnum from scapy.packet import Raw from scapy.layers.l2 import Ether from scapy.layers.inet import IP, UDP from scapy.layers.inet6 import IPv6 from scapy.contrib.mpls import MPLS NUM_PKTS = 67 ENTROPY_PORT_MIN = 0x3 << 14 ENTROPY_PORT_MAX = 0xFFFF @tag_fixme_vpp_workers class TestUdpEncap(VppTestCase): """UDP Encap Test Case""" @classmethod def setUpClass(cls): super(TestUdpEncap, cls).setUpClass() @classmethod def tearDownClass(cls): super(TestUdpEncap, cls).tearDownClass() def setUp(self): super(TestUdpEncap, self).setUp() # create 2 pg interfaces self.create_pg_interfaces(range(4)) # setup interfaces # assign them different tables. table_id = 0 self.tables = [] for i in self.pg_interfaces: i.admin_up() if table_id != 0: tbl = VppIpTable(self, table_id) tbl.add_vpp_config() self.tables.append(tbl) tbl = VppIpTable(self, table_id, is_ip6=1) tbl.add_vpp_config() self.tables.append(tbl) i.set_table_ip4(table_id) i.set_table_ip6(table_id) i.config_ip4() i.resolve_arp() i.config_ip6() i.resolve_ndp() table_id += 1 def tearDown(self): for i in self.pg_interfaces: i.unconfig_ip4() i.unconfig_ip6() i.set_table_ip4(0) i.set_table_ip6(0) i.admin_down() super(TestUdpEncap, self).tearDown() def validate_outer4(self, rx, encap_obj, sport_entropy=False): self.assertEqual(rx[IP].src, encap_obj.src_ip_s) self.assertEqual(rx[IP].dst, encap_obj.dst_ip_s) if sport_entropy: self.assert_in_range(rx[UDP].sport, ENTROPY_PORT_MIN, ENTROPY_PORT_MAX) else: self.assertEqual(rx[UDP].sport, encap_obj.src_port) self.assertEqual(rx[UDP].dport, encap_obj.dst_port) def validate_outer6(self, rx, encap_obj, sport_entropy=False): self.assertEqual(rx[IPv6].src, encap_obj.src_ip_s) self.assertEqual(rx[IPv6].dst, encap_obj.dst_ip_s) if sport_entropy: self.assert_in_range(rx[UDP].sport, ENTROPY_PORT_MIN, ENTROPY_PORT_MAX) else: self.assertEqual(rx[UDP].sport, encap_obj.src_port) self.assertEqual(rx[UDP].dport, encap_obj.dst_port) def validate_inner4(self, rx, tx, ttl=None): self.assertEqual(rx[IP].src, tx[IP].src) self.assertEqual(rx[IP].dst, tx[IP].dst) if ttl: self.assertEqual(rx[IP].ttl, ttl) else: self.assertEqual(rx[IP].ttl, tx[IP].ttl) def validate_inner6(self, rx, tx, hlim=None): self.assertEqual(rx.src, tx[IPv6].src) self.assertEqual(rx.dst, tx[IPv6].dst) if hlim: self.assertEqual(rx.hlim, hlim) else: self.assertEqual(rx.hlim, tx[IPv6].hlim) def test_udp_encap(self): """UDP Encap test""" # # construct a UDP encap object through each of the peers # v4 through the first two peers, v6 through the second. # The last encap is v4 and is used to check the codepath # where 2 different udp encap objects are processed at the # same time # udp_encap_0 = VppUdpEncap( self, self.pg0.local_ip4, self.pg0.remote_ip4, 330, 440 ) udp_encap_1 = VppUdpEncap( self, self.pg1.local_ip4, self.pg1.remote_ip4, 331, 441, table_id=1 ) udp_encap_2 = VppUdpEncap( self, self.pg2.local_ip6, self.pg2.remote_ip6, 332, 442, table_id=2 ) udp_encap_3 = VppUdpEncap( self, self.pg3.local_ip6, self.pg3.remote_ip6, 333, 443, table_id=3 ) udp_encap_4 = VppUdpEncap( self, self.pg0.local_ip4, self.pg0.remote_ip4, 334, 444 ) udp_encap_0.add_vpp_config() udp_encap_1.add_vpp_config() udp_encap_2.add_vpp_config() udp_encap_3.add_vpp_config() udp_encap_4.add_vpp_config() self.logger.info(self.vapi.cli("sh udp encap")) self.assertTrue(find_udp_encap(self, udp_encap_2)) self.assertTrue(find_udp_encap(self, udp_encap_3)) self.assertTrue(find_udp_encap(self, udp_encap_0)) self.assertTrue(find_udp_encap(self, udp_encap_1)) self.assertTrue(find_udp_encap(self, udp_encap_4)) # # Routes via each UDP encap object - all combinations of v4 and v6. # route_4o4 = VppIpRoute( self, "1.1.0.1", 24, [ VppRoutePath( "0.0.0.0", 0xFFFFFFFF, type=FibPathType.FIB_PATH_TYPE_UDP_ENCAP, next_hop_id=udp_encap_0.id, proto=FibPathProto.FIB_PATH_NH_PROTO_IP4, ) ], table_id=1, ) # specific route to match encap4, to test encap of 2 packets using 2 # different encap route_4o4_2 = VppIpRoute( self, "1.1.0.2", 32, [ VppRoutePath( "0.0.0.0", 0xFFFFFFFF, type=FibPathType.FIB_PATH_TYPE_UDP_ENCAP, next_hop_id=udp_encap_4.id, proto=FibPathProto.FIB_PATH_NH_PROTO_IP4, ) ], table_id=1, ) route_4o6 = VppIpRoute( self, "1.1.2.1", 32, [ VppRoutePath( "0.0.0.0", 0xFFFFFFFF, type=FibPathType.FIB_PATH_TYPE_UDP_ENCAP, next_hop_id=udp_encap_2.id, proto=FibPathProto.FIB_PATH_NH_PROTO_IP4, ) ], ) route_6o4 = VppIpRoute( self, "2001::1", 128, [ VppRoutePath( "0.0.0.0", 0xFFFFFFFF, type=FibPathType.FIB_PATH_TYPE_UDP_ENCAP, next_hop_id=udp_encap_1.id, proto=FibPathProto.FIB_PATH_NH_PROTO_IP6, ) ], ) route_6o6 = VppIpRoute( self, "2001::3", 128, [ VppRoutePath( "0.0.0.0", 0xFFFFFFFF, type=FibPathType.FIB_PATH_TYPE_UDP_ENCAP, next_hop_id=udp_encap_3.id, proto=FibPathProto.FIB_PATH_NH_PROTO_IP6, ) ], ) route_4o6.add_vpp_config() route_6o6.add_vpp_config() route_6o4.add_vpp_config() route_4o4.add_vpp_config() route_4o4_2.add_vpp_config() # # 4o4 encap # we add a single packet matching the last encap at the beginning of # the packet vector so that we encap 2 packets with different udp # encap object at the same time # p_4o4 = ( Ether(src=self.pg1.remote_mac, dst=self.pg1.local_mac) / IP(src="2.2.2.2", dst="1.1.0.1") / UDP(sport=1234, dport=1234) / Raw(b"\xa5" * 100) ) p_4o4_2 = ( Ether(src=self.pg1.remote_mac, dst=self.pg1.local_mac) / IP(src="2.2.2.2", dst="1.1.0.2") / UDP(sport=1234, dport=1234) / Raw(b"\xa5" * 100) ) rx = self.send_and_expect( self.pg1, p_4o4_2 * 1 + p_4o4 * (NUM_PKTS - 1), self.pg0 ) # checking encap4 magic packet p = rx.pop(0) self.validate_outer4(p, udp_encap_4) p = IP(p["UDP"].payload.load) self.validate_inner4(p, p_4o4_2) self.assertEqual(udp_encap_4.get_stats()["packets"], 1) # checking remaining packets for encap0 for p in rx: self.validate_outer4(p, udp_encap_0) p = IP(p["UDP"].payload.load) self.validate_inner4(p, p_4o4) self.assertEqual(udp_encap_0.get_stats()["packets"], NUM_PKTS - 1) # # 4o6 encap # p_4o6 = ( Ether(src=self.pg0.remote_mac, dst=self.pg0.local_mac) / IP(src="2.2.2.2", dst="1.1.2.1") / UDP(sport=1234, dport=1234) / Raw(b"\xa5" * 100) ) rx = self.send_and_expect(self.pg0, p_4o6 * NUM_PKTS, self.pg2) for p in rx: self.validate_outer6(p, udp_encap_2) p = IP(p["UDP"].payload.load) self.validate_inner4(p, p_4o6) self.assertEqual(udp_encap_2.get_stats()["packets"], NUM_PKTS) # # 6o4 encap # p_6o4 = ( Ether(src=self.pg0.remote_mac, dst=self.pg0.local_mac) / IPv6(src="2001::100", dst="2001::1") / UDP(sport=1234, dport=1234) / Raw(b"\xa5" * 100) ) rx = self.send_and_expect(self.pg0, p_6o4 * NUM_PKTS, self.pg1) for p in rx: self.validate_outer4(p, udp_encap_1) p = IPv6(p["UDP"].payload.load) self.validate_inner6(p, p_6o4) self.assertEqual(udp_encap_1.get_stats()["packets"], NUM_PKTS) # # 6o6 encap # p_6o6 = ( Ether(src=self.pg0.remote_mac, dst=self.pg0.local_mac) / IPv6(src="2001::100", dst="2001::3") / UDP(sport=1234, dport=1234) / Raw(b"\xa5" * 100) ) rx = self.send_and_expect(self.pg0, p_6o6 * NUM_PKTS, self.pg3) for p in rx: self.validate_outer6(p, udp_encap_3) p = IPv6(p["UDP"].payload.load) self.validate_inner6(p, p_6o6) self.assertEqual(udp_encap_3.get_stats()["packets"], NUM_PKTS) # # A route with an output label # the TTL of the inner packet is decremented on LSP ingress # route_4oMPLSo4 = VppIpRoute( self, "1.1.2.22", 32, [ VppRoutePath( "0.0.0.0", 0xFFFFFFFF, type=FibPathType.FIB_PATH_TYPE_UDP_ENCAP, next_hop_id=1, labels=[VppMplsLabel(66)], ) ], ) route_4oMPLSo4.add_vpp_config() p_4omo4 = ( Ether(src=self.pg0.remote_mac, dst=self.pg0.local_mac) / IP(src="2.2.2.2", dst="1.1.2.22") / UDP(sport=1234, dport=1234) / Raw(b"\xa5" * 100) ) rx = self.send_and_expect(self.pg0, p_4omo4 * NUM_PKTS, self.pg1) for p in rx: self.validate_outer4(p, udp_encap_1) p = MPLS(p["UDP"].payload.load) self.validate_inner4(p, p_4omo4, ttl=63) self.assertEqual(udp_encap_1.get_stats()["packets"], 2 * NUM_PKTS) def test_udp_encap_entropy(self): """UDP Encap src port entropy test""" # # construct a UDP encap object through each of the peers # v4 through the first two peers, v6 through the second. # use zero source port to enable entropy per rfc7510. # udp_encap_0 = VppUdpEncap(self, self.pg0.local_ip4, self.pg0.remote_ip4, 0, 440) udp_encap_1 = VppUdpEncap( self, self.pg1.local_ip4, self.pg1.remote_ip4, 0, 441, table_id=1 ) udp_encap_2 = VppUdpEncap( self, self.pg2.local_ip6, self.pg2.remote_ip6, 0, 442, table_id=2 ) udp_encap_3 = VppUdpEncap( self, self.pg3.local_ip6, self.pg3.remote_ip6, 0, 443, table_id=3 ) udp_encap_0.add_vpp_config() udp_encap_1.add_vpp_config() udp_encap_2.add_vpp_config() udp_encap_3.add_vpp_config() self.logger.info(self.vapi.cli("sh udp encap")) self.assertTrue(find_udp_encap(self, udp_encap_0)) self.assertTrue(find_udp_encap(self, udp_encap_1)) self.assertTrue(find_udp_encap(self, udp_encap_2)) self.assertTrue(find_udp_encap(self, udp_encap_3)) # # Routes via each UDP encap object - all combinations of v4 and v6. # route_4o4 = VppIpRoute( self, "1.1.0.1", 24, [ VppRoutePath( "0.0.0.0", 0xFFFFFFFF, type=FibPathType.FIB_PATH_TYPE_UDP_ENCAP, next_hop_id=udp_encap_0.id, proto=FibPathProto.FIB_PATH_NH_PROTO_IP4, ) ], table_id=1, ) route_4o6 = VppIpRoute( self, "1.1.2.1", 32, [ VppRoutePath( "0.0.0.0", 0xFFFFFFFF, type=FibPathType.FIB_PATH_TYPE_UDP_ENCAP, next_hop_id=udp_encap_2.id, proto=FibPathProto.FIB_PATH_NH_PROTO_IP4, ) ], ) route_6o4 = VppIpRoute( self, "2001::1", 128, [ VppRoutePath( "0.0.0.0", 0xFFFFFFFF, type=FibPathType.FIB_PATH_TYPE_UDP_ENCAP, next_hop_id=udp_encap_1.id, proto=FibPathProto.FIB_PATH_NH_PROTO_IP6, ) ], ) route_6o6 = VppIpRoute( self, "2001::3", 128, [ VppRoutePath( "0.0.0.0", 0xFFFFFFFF, type=FibPathType.FIB_PATH_TYPE_UDP_ENCAP, next_hop_id=udp_encap_3.id, proto=FibPathProto.FIB_PATH_NH_PROTO_IP6, ) ], ) route_4o4.add_vpp_config() route_4o6.add_vpp_config() route_6o6.add_vpp_config() route_6o4.add_vpp_config() # # 4o4 encap # p_4o4 = [] for i in range(NUM_PKTS): p_4o4.append( Ether(src=self.pg1.remote_mac, dst=self.pg1.local_mac) / IP(src="2.2.2.2", dst="1.1.0.1") / UDP(sport=1234 + i, dport=1234) / Raw(b"\xa5" * 100) ) rx = self.send_and_expect(self.pg1, p_4o4, self.pg0) sports = set() for i, p in enumerate(rx): self.validate_outer4(p, udp_encap_0, True) sports.add(p["UDP"].sport) p = IP(p["UDP"].payload.load) self.validate_inner4(p, p_4o4[i]) self.assertEqual(udp_encap_0.get_stats()["packets"], NUM_PKTS) self.assertGreater( len(sports), 1, "source port {} is not an entropy value".format(sports) ) # # 4o6 encap # p_4o6 = [] for i in range(NUM_PKTS): p_4o6.append( Ether(src=self.pg0.remote_mac, dst=self.pg0.local_mac) / IP(src="2.2.2.2", dst="1.1.2.1") / UDP(sport=1234 + i, dport=1234) / Raw(b"\xa5" * 100) ) rx = self.send_and_expect(self.pg0, p_4o6, self.pg2) sports = set() for p in rx: self.validate_outer6(p, udp_encap_2, True) sports.add(p["UDP"].sport) p = IP(p["UDP"].payload.load) self.validate_inner4(p, p_4o6[i]) self.assertEqual(udp_encap_2.get_stats()["packets"], NUM_PKTS) self.assertGreater( len(sports), 1, "source port {} is not an entropy value".format(sports) ) # # 6o4 encap # p_6o4 = [] for i in range(NUM_PKTS): p_6o4.append( Ether(src=self.pg0.remote_mac, dst=self.pg0.local_mac) / IPv6(src="2001::100", dst="2001::1") / UDP(sport=1234 + i, dport=1234) / Raw(b"\xa5" * 100) ) rx = self.send_and_expect(self.pg0, p_6o4, self.pg1) sports = set() for p in rx: self.validate_outer4(p, udp_encap_1, True) sports.add(p["UDP"].sport) p = IPv6(p["UDP"].payload.load) self.validate_inner6(p, p_6o4[i]) self.assertEqual(udp_encap_1.get_stats()["packets"], NUM_PKTS) self.assertGreater( len(sports), 1, "source port {} is not an entropy value".format(sports) ) # # 6o6 encap # p_6o6 = [] for i in range(NUM_PKTS): p_6o6.append( Ether(src=self.pg0.remote_mac, dst=self.pg0.local_mac) / IPv6(src="2001::100", dst="2001::3") / UDP(sport=1234 + i, dport=1234) / Raw(b"\xa5" * 100) ) rx = self.send_and_expect(self.pg0, p_6o6, self.pg3) sports = set() for p in rx: self.validate_outer6(p, udp_encap_3, True) sports.add(p["UDP"].sport) p = IPv6(p["UDP"].payload.load) self.validate_inner6(p, p_6o6[i]) self.assertEqual(udp_encap_3.get_stats()["packets"], NUM_PKTS) self.assertGreater( len(sports), 1, "source port {} is not an entropy value".format(sports) ) def test_udp_decap(self): """UDP Decap test""" # # construct a UDP decap object for each type of protocol # # IPv4 udp_api_proto = VppEnum.vl_api_udp_decap_next_proto_t next_proto = udp_api_proto.UDP_API_DECAP_PROTO_IP4 udp_decap_0 = VppUdpDecap(self, 1, 220, next_proto) # IPv6 next_proto = udp_api_proto.UDP_API_DECAP_PROTO_IP6 udp_decap_1 = VppUdpDecap(self, 0, 221, next_proto) # MPLS next_proto = udp_api_proto.UDP_API_DECAP_PROTO_MPLS udp_decap_2 = VppUdpDecap(self, 1, 222, next_proto) udp_decap_0.add_vpp_config() udp_decap_1.add_vpp_config() udp_decap_2.add_vpp_config() # # Routes via the corresponding pg after the UDP decap # route_4 = VppIpRoute( self, "1.1.1.1", 32, [VppRoutePath("0.0.0.0", self.pg0.sw_if_index)], table_id=0, ) route_6 = VppIpRoute( self, "2001::1", 128, [VppRoutePath("::", self.pg1.sw_if_index)], table_id=1 ) route_mo4 = VppIpRoute( self, "3.3.3.3", 32, [VppRoutePath("0.0.0.0", self.pg2.sw_if_index)], table_id=2, ) route_4.add_vpp_config() route_6.add_vpp_config() route_mo4.add_vpp_config() # # Adding neighbors to route the packets # n_4 = VppNeighbor(self, self.pg0.sw_if_index, "00:11:22:33:44:55", "1.1.1.1") n_6 = VppNeighbor(self, self.pg1.sw_if_index, "11:22:33:44:55:66", "2001::1") n_mo4 = VppNeighbor(self, self.pg2.sw_if_index, "22:33:44:55:66:77", "3.3.3.3") n_4.add_vpp_config() n_6.add_vpp_config() n_mo4.add_vpp_config() # # MPLS decapsulation config # mpls_table = VppMplsTable(self, 0) mpls_table.add_vpp_config() mpls_route = VppMplsRoute( self, 77, 1, [ VppRoutePath( "0.0.0.0", 0xFFFFFFFF, nh_table_id=2, proto=FibPathProto.FIB_PATH_NH_PROTO_IP4, ) ], ) mpls_route.add_vpp_config() # # UDP over ipv4 decap # p_4 = ( Ether(src=self.pg0.remote_mac, dst=self.pg0.local_mac) / IP(src=self.pg0.remote_ip4, dst=self.pg0.local_ip4) / UDP(sport=1111, dport=220) / IP(src="2.2.2.2", dst="1.1.1.1") / UDP(sport=1234, dport=4321) / Raw(b"\xa5" * 100) ) rx = self.send_and_expect(self.pg0, p_4 * NUM_PKTS, self.pg0) p_4 = IP(p_4["UDP"].payload) for p in rx: p = IP(p["Ether"].payload) self.validate_inner4(p, p_4, ttl=63) # # UDP over ipv6 decap # p_6 = ( Ether(src=self.pg1.remote_mac, dst=self.pg1.local_mac) / IPv6(src=self.pg1.remote_ip6, dst=self.pg1.local_ip6) / UDP(sport=2222, dport=221) / IPv6(src="2001::100", dst="2001::1") / UDP(sport=1234, dport=4321) / Raw(b"\xa5" * 100) ) rx = self.send_and_expect(self.pg1, p_6 * NUM_PKTS, self.pg1) p_6 = IPv6(p_6["UDP"].payload) p = IPv6(rx[0]["Ether"].payload) for p in rx: p = IPv6(p["Ether"].payload) self.validate_inner6(p, p_6, hlim=63) # # UDP over mpls decap # p_mo4 = ( Ether(src=self.pg2.remote_mac, dst=self.pg2.local_mac) / IP(src=self.pg2.remote_ip4, dst=self.pg2.local_ip4) / UDP(sport=3333, dport=222) / MPLS(label=77, ttl=1) / IP(src="4.4.4.4", dst="3.3.3.3") / UDP(sport=1234, dport=4321) / Raw(b"\xa5" * 100) ) self.pg2.enable_mpls() rx = self.send_and_expect(self.pg2, p_mo4 * NUM_PKTS, self.pg2) self.pg2.disable_mpls() p_mo4 = IP(MPLS(p_mo4["UDP"].payload).payload) for p in rx: p = IP(p["Ether"].payload) self.validate_inner4(p, p_mo4, ttl=63) @tag_fixme_vpp_workers class TestUDP(VppTestCase): """UDP Test Case""" @classmethod def setUpClass(cls): super(TestUDP, cls).setUpClass() @classmethod def tearDownClass(cls): super(TestUDP, cls).tearDownClass() def setUp(self): super(TestUDP, self).setUp() self.vapi.session_enable_disable(is_enable=1) self.create_loopback_interfaces(2) table_id = 0 for i in self.lo_interfaces: i.admin_up() if table_id != 0: tbl = VppIpTable(self, table_id) tbl.add_vpp_config() i.set_table_ip4(table_id) i.config_ip4() table_id += 1 # Configure namespaces self.vapi.app_namespace_add_del_v4( namespace_id="0", sw_if_index=self.loop0.sw_if_index ) self.vapi.app_namespace_add_del_v4( namespace_id="1", sw_if_index=self.loop1.sw_if_index ) def tearDown(self): for i in self.lo_interfaces: i.unconfig_ip4() i.set_table_ip4(0) i.admin_down() self.vapi.session_enable_disable(is_enable=0) super(TestUDP, self).tearDown() def test_udp_transfer(self): """UDP echo client/server transfer""" # Add inter-table routes ip_t01 = VppIpRoute( self, self.loop1.local_ip4, 32, [VppRoutePath("0.0.0.0", 0xFFFFFFFF, nh_table_id=1)], ) ip_t10 = VppIpRoute( self, self.loop0.local_ip4, 32, [VppRoutePath("0.0.0.0", 0xFFFFFFFF, nh_table_id=0)], table_id=1, ) ip_t01.add_vpp_config() ip_t10.add_vpp_config() # Start builtin server and client uri = "udp://" + self.loop0.local_ip4 + "/1234" error = self.vapi.cli("test echo server appns 0 fifo-size 4k " + "uri " + uri) if error: self.logger.critical(error) self.assertNotIn("failed", error) error = self.vapi.cli( "test echo client mbytes 10 appns 1 " + "fifo-size 4k " + "syn-timeout 2 uri " + uri ) if error: self.logger.critical(error) self.assertNotIn("failed", error) self.logger.debug(self.vapi.cli("show session verbose 2")) # Delete inter-table routes ip_t01.remove_vpp_config() ip_t10.remove_vpp_config() if __name__ == "__main__": unittest.main(testRunner=VppTestRunner)