X-Git-Url: https://gerrit.fd.io/r/gitweb?p=vpp.git;a=blobdiff_plain;f=test%2Ftest_gbp.py;h=2cceba6b906e8ca8db8cc4d9705451ee3c3af5e9;hp=92480cebba3d0ed95fff0080eac2cf35d779d905;hb=13a08cc;hpb=96e2d4407b1538d8df4e277ba33b85876589e198 diff --git a/test/test_gbp.py b/test/test_gbp.py index 92480cebba3..2cceba6b906 100644 --- a/test/test_gbp.py +++ b/test/test_gbp.py @@ -365,23 +365,62 @@ class VppGbpRouteDomain(VppObject): return False +class VppGbpContractNextHop(): + def __init__(self, mac, bd, ip, rd): + self.mac = mac + self.ip = ip + self.bd = bd + self.rd = rd + + def encode(self): + return {'ip': self.ip.encode(), + 'mac': self.mac.encode(), + 'bd_id': self.bd.bd.bd_id, + 'rd_id': self.rd.rd_id} + + +class VppGbpContractRule(): + def __init__(self, action, nhs=[]): + self.action = action + self.nhs = nhs + e = VppEnum.vl_api_gbp_hash_mode_t + self.hash_mode = e.GBP_API_HASH_MODE_SRC_IP + + def encode(self): + nhs = [] + for nh in self.nhs: + nhs.append(nh.encode()) + while len(nhs) < 8: + nhs.append({}) + return {'action': self.action, + 'nh_set': { + 'hash_mode': self.hash_mode, + 'n_nhs': len(self.nhs), + 'nhs': nhs}} + + class VppGbpContract(VppObject): """ GBP Contract """ - def __init__(self, test, src_epg, dst_epg, acl_index): + def __init__(self, test, src_epg, dst_epg, acl_index, rules=[]): self._test = test self.acl_index = acl_index self.src_epg = src_epg self.dst_epg = dst_epg + self.rules = rules def add_vpp_config(self): + rules = [] + for r in self.rules: + rules.append(r.encode()) self._test.vapi.gbp_contract_add_del( 1, self.src_epg, self.dst_epg, - self.acl_index) + self.acl_index, + rules) self._test.registry.register(self, self._test.logger) def remove_vpp_config(self): @@ -389,7 +428,8 @@ class VppGbpContract(VppObject): 0, self.src_epg, self.dst_epg, - self.acl_index) + self.acl_index, + []) def __str__(self): return self.object_id() @@ -1059,7 +1099,14 @@ class TestGBP(VppTestCase): rule = acl.create_rule(permit_deny=1, proto=17) rule2 = acl.create_rule(is_ipv6=1, permit_deny=1, proto=17) acl_index = acl.add_vpp_config([rule, rule2]) - c1 = VppGbpContract(self, 220, 221, acl_index) + c1 = VppGbpContract( + self, 220, 221, acl_index, + [VppGbpContractRule( + VppEnum.vl_api_gbp_rule_action_t.GBP_API_RULE_PERMIT, + []), + VppGbpContractRule( + VppEnum.vl_api_gbp_rule_action_t.GBP_API_RULE_PERMIT, + [])]) c1.add_vpp_config() self.send_and_expect_bridged(eps[0].itf, @@ -1071,7 +1118,15 @@ class TestGBP(VppTestCase): # # contract for the return direction # - c2 = VppGbpContract(self, 221, 220, acl_index) + c2 = VppGbpContract( + self, 221, 220, acl_index, + [VppGbpContractRule( + VppEnum.vl_api_gbp_rule_action_t.GBP_API_RULE_PERMIT, + []), + VppGbpContractRule( + VppEnum.vl_api_gbp_rule_action_t.GBP_API_RULE_PERMIT, + [])]) + c2.add_vpp_config() self.send_and_expect_bridged(eps[0].itf, @@ -1091,7 +1146,15 @@ class TestGBP(VppTestCase): # # A uni-directional contract from EPG 220 -> 222 'L3 routed' # - c3 = VppGbpContract(self, 220, 222, acl_index) + c3 = VppGbpContract( + self, 220, 222, acl_index, + [VppGbpContractRule( + VppEnum.vl_api_gbp_rule_action_t.GBP_API_RULE_PERMIT, + []), + VppGbpContractRule( + VppEnum.vl_api_gbp_rule_action_t.GBP_API_RULE_PERMIT, + [])]) + c3.add_vpp_config() self.logger.info(self.vapi.cli("sh gbp contract")) @@ -1188,7 +1251,15 @@ class TestGBP(VppTestCase): dport_from=1234, dport_to=1234) acl_index2 = acl2.add_vpp_config([rule, rule2]) - c4 = VppGbpContract(self, 220, 333, acl_index2) + c4 = VppGbpContract( + self, 220, 333, acl_index2, + [VppGbpContractRule( + VppEnum.vl_api_gbp_rule_action_t.GBP_API_RULE_PERMIT, + []), + VppGbpContractRule( + VppEnum.vl_api_gbp_rule_action_t.GBP_API_RULE_PERMIT, + [])]) + c4.add_vpp_config() self.send_and_expect_natted(eps[0].itf, @@ -1221,7 +1292,15 @@ class TestGBP(VppTestCase): self.send_and_assert_no_replies(self.pg7, pkt_inter_epg_220_from_global * 65) - c5 = VppGbpContract(self, 333, 220, acl_index2) + c5 = VppGbpContract( + self, 333, 220, acl_index2, + [VppGbpContractRule( + VppEnum.vl_api_gbp_rule_action_t.GBP_API_RULE_PERMIT, + []), + VppGbpContractRule( + VppEnum.vl_api_gbp_rule_action_t.GBP_API_RULE_PERMIT, + [])]) + c5.add_vpp_config() self.send_and_expect_unnatted(self.pg7, @@ -1580,16 +1659,14 @@ class TestGBP(VppTestCase): # # static EP cannot reach the learnt EPs since there is no contract + # only test 1 EP as the others could timeout # - self.logger.info(self.vapi.cli("show gbp endpoint")) - self.logger.info(self.vapi.cli("show l2fib all")) - for l in learnt: - p = (Ether(src=ep.mac, dst=l['mac']) / - IP(dst=l['ip'], src=ep.ip4.address) / - UDP(sport=1234, dport=1234) / - Raw('\xa5' * 100)) + p = (Ether(src=ep.mac, dst=l['mac']) / + IP(dst=learnt[0]['ip'], src=ep.ip4.address) / + UDP(sport=1234, dport=1234) / + Raw('\xa5' * 100)) - self.send_and_assert_no_replies(self.pg0, [p], timeout=0.2) + self.send_and_assert_no_replies(self.pg0, [p]) # # refresh the entries after the check for no replies above @@ -1620,7 +1697,15 @@ class TestGBP(VppTestCase): rule = acl.create_rule(permit_deny=1, proto=17) rule2 = acl.create_rule(is_ipv6=1, permit_deny=1, proto=17) acl_index = acl.add_vpp_config([rule, rule2]) - c1 = VppGbpContract(self, 220, 330, acl_index) + c1 = VppGbpContract( + self, 220, 330, acl_index, + [VppGbpContractRule( + VppEnum.vl_api_gbp_rule_action_t.GBP_API_RULE_PERMIT, + []), + VppGbpContractRule( + VppEnum.vl_api_gbp_rule_action_t.GBP_API_RULE_PERMIT, + [])]) + c1.add_vpp_config() for l in learnt: @@ -1874,6 +1959,8 @@ class TestGBP(VppTestCase): def test_gbp_learn_l3(self): """ GBP L3 Endpoint Learning """ + self.vapi.cli("set logging class gbp debug") + routed_dst_mac = "00:0c:0c:0c:0c:0c" routed_src_mac = "00:22:bd:f8:19:ff" @@ -1942,7 +2029,6 @@ class TestGBP(VppTestCase): self.logger.info(self.vapi.cli("sh bridge 1 detail")) self.logger.info(self.vapi.cli("sh gbp bridge")) self.logger.info(self.vapi.cli("sh gbp route")) - self.logger.info(self.vapi.cli("show l2fib all")) # ... and has a /32 and /128 applied ip4_addr = VppIpInterfaceAddress(self, gbd1.bvi, "10.0.0.128", 32) @@ -2257,27 +2343,57 @@ class TestGBP(VppTestCase): self.assertEqual(inner[IP].dst, ip) # - # remove the API remote EPs, they are now UU-fwd + # remove the API remote EPs, only API sourced is gone, the DP + # learnt one remains # rep_88.remove_vpp_config() rep_2.remove_vpp_config() self.logger.info(self.vapi.cli("show gbp endpoint")) - for ip in ips: - self.assertFalse(find_gbp_endpoint(self, ip=ip)) + self.assertFalse(find_gbp_endpoint(self, ip=rep_88.ip4.address)) - p = (Ether(src=ep.mac, dst=self.loop0.local_mac) / - IP(dst=ip, src=ep.ip4.address) / - UDP(sport=1234, dport=1234) / - Raw('\xa5' * 100)) + p = (Ether(src=ep.mac, dst=self.loop0.local_mac) / + IP(src=ep.ip4.address, dst=rep_88.ip4.address) / + UDP(sport=1234, dport=1234) / + Raw('\xa5' * 100)) + rxs = self.send_and_expect(self.pg0, [p], self.pg4) + + self.assertTrue(find_gbp_endpoint(self, ip=rep_2.ip4.address)) - rxs = self.send_and_expect(self.pg0, [p], self.pg4) + p = (Ether(src=ep.mac, dst=self.loop0.local_mac) / + IP(src=ep.ip4.address, dst=rep_2.ip4.address) / + UDP(sport=1234, dport=1234) / + Raw('\xa5' * 100)) + rxs = self.send_and_expect(self.pg0, [p], self.pg2) + + # + # to appease the testcase we cannot have the registered EP stll + # present (because it's DP learnt) when the TC ends so wait until + # it is removed + # + self.sleep(2) # # shutdown with learnt endpoint present # - self.logger.info(self.vapi.cli("show gbp endpoint-group")) + p = (Ether(src=self.pg2.remote_mac, + dst=self.pg2.local_mac) / + IP(src=self.pg2.remote_hosts[1].ip4, + dst=self.pg2.local_ip4) / + UDP(sport=1234, dport=48879) / + VXLAN(vni=101, gpid=220, flags=0x88) / + Ether(src=l['mac'], dst="00:00:00:11:11:11") / + IP(src=learnt[1]['ip'], dst=ep.ip4.address) / + UDP(sport=1234, dport=1234) / + Raw('\xa5' * 100)) + + rx = self.send_and_expect(self.pg2, [p], self.pg0) + + # endpoint learnt via the parent GBP-vxlan interface + self.assertTrue(find_gbp_endpoint(self, + vx_tun_l3._sw_if_index, + ip=l['ip'])) # # TODO @@ -2287,6 +2403,464 @@ class TestGBP(VppTestCase): self.pg3.unconfig_ip4() self.pg4.unconfig_ip4() + def test_gbp_redirect(self): + """ GBP Endpoint Redirect """ + + self.vapi.cli("set logging class gbp debug") + + routed_dst_mac = "00:0c:0c:0c:0c:0c" + routed_src_mac = "00:22:bd:f8:19:ff" + + learnt = [{'mac': '00:00:11:11:11:02', + 'ip': '10.0.1.2', + 'ip6': '2001:10::2'}, + {'mac': '00:00:11:11:11:03', + 'ip': '10.0.1.3', + 'ip6': '2001:10::3'}] + + # + # lower the inactive threshold so these tests pass in a + # reasonable amount of time + # + self.vapi.gbp_endpoint_learn_set_inactive_threshold(1) + + # + # IP tables + # + t4 = VppIpTable(self, 1) + t4.add_vpp_config() + t6 = VppIpTable(self, 1, True) + t6.add_vpp_config() + + rd1 = VppGbpRouteDomain(self, 2, t4, t6) + rd1.add_vpp_config() + + self.loop0.set_mac(self.router_mac.address) + + # + # Bind the BVI to the RD + # + VppIpInterfaceBind(self, self.loop0, t4).add_vpp_config() + VppIpInterfaceBind(self, self.loop0, t6).add_vpp_config() + + # + # Pg7 hosts a BD's UU-fwd + # + self.pg7.config_ip4() + self.pg7.resolve_arp() + + # + # a GBP bridge domains for the EPs + # + bd1 = VppBridgeDomain(self, 1) + bd1.add_vpp_config() + gbd1 = VppGbpBridgeDomain(self, bd1, self.loop0) + gbd1.add_vpp_config() + + bd2 = VppBridgeDomain(self, 2) + bd2.add_vpp_config() + gbd2 = VppGbpBridgeDomain(self, bd2, self.loop1) + gbd2.add_vpp_config() + + # ... and has a /32 and /128 applied + ip4_addr = VppIpInterfaceAddress(self, gbd1.bvi, "10.0.0.128", 32) + ip4_addr.add_vpp_config() + ip6_addr = VppIpInterfaceAddress(self, gbd1.bvi, "2001:10::128", 128) + ip6_addr.add_vpp_config() + ip4_addr = VppIpInterfaceAddress(self, gbd2.bvi, "10.0.1.128", 32) + ip4_addr.add_vpp_config() + ip6_addr = VppIpInterfaceAddress(self, gbd2.bvi, "2001:11::128", 128) + ip6_addr.add_vpp_config() + + # + # The Endpoint-groups in which we are learning endpoints + # + epg_220 = VppGbpEndpointGroup(self, 220, rd1, gbd1, + None, gbd1.bvi, + "10.0.0.128", + "2001:10::128") + epg_220.add_vpp_config() + epg_221 = VppGbpEndpointGroup(self, 221, rd1, gbd2, + None, gbd2.bvi, + "10.0.1.128", + "2001:11::128") + epg_221.add_vpp_config() + epg_222 = VppGbpEndpointGroup(self, 222, rd1, gbd1, + None, gbd1.bvi, + "10.0.2.128", + "2001:12::128") + epg_222.add_vpp_config() + + # + # a GBP bridge domains for the SEPs + # + bd_uu1 = VppVxlanGbpTunnel(self, self.pg7.local_ip4, + self.pg7.remote_ip4, 116) + bd_uu1.add_vpp_config() + bd_uu2 = VppVxlanGbpTunnel(self, self.pg7.local_ip4, + self.pg7.remote_ip4, 117) + bd_uu2.add_vpp_config() + + bd3 = VppBridgeDomain(self, 3) + bd3.add_vpp_config() + gbd3 = VppGbpBridgeDomain(self, bd3, self.loop2, bd_uu1, learn=False) + gbd3.add_vpp_config() + bd4 = VppBridgeDomain(self, 4) + bd4.add_vpp_config() + gbd4 = VppGbpBridgeDomain(self, bd4, self.loop3, bd_uu2, learn=False) + gbd4.add_vpp_config() + + # + # EPGs in which the service endpoints exist + # + epg_320 = VppGbpEndpointGroup(self, 320, rd1, gbd3, + None, gbd1.bvi, + "12.0.0.128", + "4001:10::128") + epg_320.add_vpp_config() + epg_321 = VppGbpEndpointGroup(self, 321, rd1, gbd4, + None, gbd2.bvi, + "12.0.1.128", + "4001:11::128") + epg_321.add_vpp_config() + + # + # three local endpoints + # + ep1 = VppGbpEndpoint(self, self.pg0, + epg_220, None, + "10.0.0.1", "11.0.0.1", + "2001:10::1", "3001:10::1") + ep1.add_vpp_config() + ep2 = VppGbpEndpoint(self, self.pg1, + epg_221, None, + "10.0.1.1", "11.0.1.1", + "2001:11::1", "3001:11::1") + ep2.add_vpp_config() + ep3 = VppGbpEndpoint(self, self.pg2, + epg_222, None, + "10.0.2.2", "11.0.2.2", + "2001:12::1", "3001:12::1") + ep3.add_vpp_config() + + # + # service endpoints + # + sep1 = VppGbpEndpoint(self, self.pg3, + epg_320, None, + "12.0.0.1", "13.0.0.1", + "4001:10::1", "5001:10::1") + sep1.add_vpp_config() + sep2 = VppGbpEndpoint(self, self.pg4, + epg_320, None, + "12.0.0.2", "13.0.0.2", + "4001:10::2", "5001:10::2") + sep2.add_vpp_config() + sep3 = VppGbpEndpoint(self, self.pg5, + epg_321, None, + "12.0.1.1", "13.0.1.1", + "4001:11::1", "5001:11::1") + sep3.add_vpp_config() + # this EP is not installed immediately + sep4 = VppGbpEndpoint(self, self.pg6, + epg_321, None, + "12.0.1.2", "13.0.1.2", + "4001:11::2", "5001:11::2") + + # + # an L2 switch packet between local EPs in different EPGs + # different dest ports on each so the are LB hashed differently + # + p4 = [(Ether(src=ep1.mac, dst=ep3.mac) / + IP(src=ep1.ip4.address, dst=ep3.ip4.address) / + UDP(sport=1234, dport=1234) / + Raw('\xa5' * 100)), + (Ether(src=ep1.mac, dst=ep3.mac) / + IP(src=ep1.ip4.address, dst=ep3.ip4.address) / + UDP(sport=1234, dport=1235) / + Raw('\xa5' * 100))] + p6 = [(Ether(src=ep1.mac, dst=ep3.mac) / + IPv6(src=ep1.ip6.address, dst=ep3.ip6.address) / + UDP(sport=1234, dport=1234) / + Raw('\xa5' * 100)), + (Ether(src=ep1.mac, dst=ep3.mac) / + IPv6(src=ep1.ip6.address, dst=ep3.ip6.address) / + UDP(sport=1234, dport=1230) / + Raw('\xa5' * 100))] + + # should be dropped since no contract yet + self.send_and_assert_no_replies(self.pg0, [p4[0]]) + self.send_and_assert_no_replies(self.pg0, [p6[0]]) + + # + # Add a contract with a rule to load-balance redirect via SEP1 and SEP2 + # one of the next-hops is via an EP that is not known + # + acl = VppGbpAcl(self) + rule4 = acl.create_rule(permit_deny=1, proto=17) + rule6 = acl.create_rule(is_ipv6=1, permit_deny=1, proto=17) + acl_index = acl.add_vpp_config([rule4, rule6]) + + c1 = VppGbpContract( + self, 220, 222, acl_index, + [VppGbpContractRule( + VppEnum.vl_api_gbp_rule_action_t.GBP_API_RULE_REDIRECT, + [VppGbpContractNextHop(sep1.vmac, sep1.epg.bd, + sep1.ip4, sep1.epg.rd), + VppGbpContractNextHop(sep2.vmac, sep2.epg.bd, + sep2.ip4, sep2.epg.rd)]), + VppGbpContractRule( + VppEnum.vl_api_gbp_rule_action_t.GBP_API_RULE_REDIRECT, + [VppGbpContractNextHop(sep3.vmac, sep3.epg.bd, + sep3.ip6, sep3.epg.rd), + VppGbpContractNextHop(sep4.vmac, sep4.epg.bd, + sep4.ip6, sep4.epg.rd)])]) + c1.add_vpp_config() + + # + # send again with the contract preset, now packets arrive + # at SEP1 or SEP2 depending on the hashing + # + rxs = self.send_and_expect(self.pg0, p4[0] * 17, sep2.itf) + + for rx in rxs: + self.assertEqual(rx[Ether].src, routed_src_mac) + self.assertEqual(rx[Ether].dst, sep2.mac) + self.assertEqual(rx[IP].src, ep1.ip4.address) + self.assertEqual(rx[IP].dst, ep3.ip4.address) + + rxs = self.send_and_expect(self.pg0, p4[1] * 17, sep1.itf) + + for rx in rxs: + self.assertEqual(rx[Ether].src, routed_src_mac) + self.assertEqual(rx[Ether].dst, sep1.mac) + self.assertEqual(rx[IP].src, ep1.ip4.address) + self.assertEqual(rx[IP].dst, ep3.ip4.address) + + rxs = self.send_and_expect(self.pg0, p6[0] * 17, self.pg7) + + for rx in rxs: + self.assertEqual(rx[Ether].src, self.pg7.local_mac) + self.assertEqual(rx[Ether].dst, self.pg7.remote_mac) + self.assertEqual(rx[IP].src, self.pg7.local_ip4) + self.assertEqual(rx[IP].dst, self.pg7.remote_ip4) + self.assertEqual(rx[VXLAN].vni, 117) + self.assertTrue(rx[VXLAN].flags.G) + self.assertTrue(rx[VXLAN].flags.Instance) + # redirect policy has been applied + self.assertTrue(rx[VXLAN].gpflags.A) + self.assertFalse(rx[VXLAN].gpflags.D) + + inner = rx[VXLAN].payload + + self.assertEqual(inner[Ether].src, routed_src_mac) + self.assertEqual(inner[Ether].dst, sep4.mac) + self.assertEqual(inner[IPv6].src, ep1.ip6.address) + self.assertEqual(inner[IPv6].dst, ep3.ip6.address) + + rxs = self.send_and_expect(self.pg0, p6[1] * 17, sep3.itf) + + for rx in rxs: + self.assertEqual(rx[Ether].src, routed_src_mac) + self.assertEqual(rx[Ether].dst, sep3.mac) + self.assertEqual(rx[IPv6].src, ep1.ip6.address) + self.assertEqual(rx[IPv6].dst, ep3.ip6.address) + + # + # programme the unknown EP + # + sep4.add_vpp_config() + + rxs = self.send_and_expect(self.pg0, p6[0] * 17, sep4.itf) + + for rx in rxs: + self.assertEqual(rx[Ether].src, routed_src_mac) + self.assertEqual(rx[Ether].dst, sep4.mac) + self.assertEqual(rx[IPv6].src, ep1.ip6.address) + self.assertEqual(rx[IPv6].dst, ep3.ip6.address) + + # + # and revert back to unprogrammed + # + sep4.remove_vpp_config() + + rxs = self.send_and_expect(self.pg0, p6[0] * 17, self.pg7) + + for rx in rxs: + self.assertEqual(rx[Ether].src, self.pg7.local_mac) + self.assertEqual(rx[Ether].dst, self.pg7.remote_mac) + self.assertEqual(rx[IP].src, self.pg7.local_ip4) + self.assertEqual(rx[IP].dst, self.pg7.remote_ip4) + self.assertEqual(rx[VXLAN].vni, 117) + self.assertTrue(rx[VXLAN].flags.G) + self.assertTrue(rx[VXLAN].flags.Instance) + # redirect policy has been applied + self.assertTrue(rx[VXLAN].gpflags.A) + self.assertFalse(rx[VXLAN].gpflags.D) + + inner = rx[VXLAN].payload + + self.assertEqual(inner[Ether].src, routed_src_mac) + self.assertEqual(inner[Ether].dst, sep4.mac) + self.assertEqual(inner[IPv6].src, ep1.ip6.address) + self.assertEqual(inner[IPv6].dst, ep3.ip6.address) + + # + # programme the unknown EP for the L3 tests + # + sep4.add_vpp_config() + + # + # an L3 switch packet between local EPs in different EPGs + # different dest ports on each so the are LB hashed differently + # + p4 = [(Ether(src=ep1.mac, dst=self.router_mac.address) / + IP(src=ep1.ip4.address, dst=ep2.ip4.address) / + UDP(sport=1234, dport=1234) / + Raw('\xa5' * 100)), + (Ether(src=ep1.mac, dst=self.router_mac.address) / + IP(src=ep1.ip4.address, dst=ep2.ip4.address) / + UDP(sport=1234, dport=1235) / + Raw('\xa5' * 100))] + p6 = [(Ether(src=ep1.mac, dst=self.router_mac.address) / + IPv6(src=ep1.ip6.address, dst=ep2.ip6.address) / + UDP(sport=1234, dport=1234) / + Raw('\xa5' * 100)), + (Ether(src=ep1.mac, dst=self.router_mac.address) / + IPv6(src=ep1.ip6.address, dst=ep2.ip6.address) / + UDP(sport=1234, dport=1230) / + Raw('\xa5' * 100))] + + c2 = VppGbpContract( + self, 220, 221, acl_index, + [VppGbpContractRule( + VppEnum.vl_api_gbp_rule_action_t.GBP_API_RULE_REDIRECT, + [VppGbpContractNextHop(sep1.vmac, sep1.epg.bd, + sep1.ip4, sep1.epg.rd), + VppGbpContractNextHop(sep2.vmac, sep2.epg.bd, + sep2.ip4, sep2.epg.rd)]), + VppGbpContractRule( + VppEnum.vl_api_gbp_rule_action_t.GBP_API_RULE_REDIRECT, + [VppGbpContractNextHop(sep3.vmac, sep3.epg.bd, + sep3.ip6, sep3.epg.rd), + VppGbpContractNextHop(sep4.vmac, sep4.epg.bd, + sep4.ip6, sep4.epg.rd)])]) + c2.add_vpp_config() + + rxs = self.send_and_expect(self.pg0, p4[0] * 17, sep2.itf) + + for rx in rxs: + self.assertEqual(rx[Ether].src, routed_src_mac) + self.assertEqual(rx[Ether].dst, sep2.mac) + self.assertEqual(rx[IP].src, ep1.ip4.address) + self.assertEqual(rx[IP].dst, ep2.ip4.address) + + # + # learn a remote EP in EPG 221 + # + vx_tun_l3 = VppGbpVxlanTunnel( + self, 444, rd1.rd_id, + VppEnum.vl_api_gbp_vxlan_tunnel_mode_t.GBP_VXLAN_TUNNEL_MODE_L3) + vx_tun_l3.add_vpp_config() + + c3 = VppGbpContract( + self, 221, 220, acl_index, + [VppGbpContractRule( + VppEnum.vl_api_gbp_rule_action_t.GBP_API_RULE_PERMIT, + []), + VppGbpContractRule( + VppEnum.vl_api_gbp_rule_action_t.GBP_API_RULE_PERMIT, + [])]) + c3.add_vpp_config() + + p = (Ether(src=self.pg7.remote_mac, + dst=self.pg7.local_mac) / + IP(src=self.pg7.remote_ip4, + dst=self.pg7.local_ip4) / + UDP(sport=1234, dport=48879) / + VXLAN(vni=444, gpid=221, flags=0x88) / + Ether(src="00:22:22:22:22:33", dst=self.router_mac.address) / + IP(src="10.0.0.88", dst=ep1.ip4.address) / + UDP(sport=1234, dport=1234) / + Raw('\xa5' * 100)) + + rx = self.send_and_expect(self.pg7, [p], self.pg0) + + # endpoint learnt via the parent GBP-vxlan interface + self.assertTrue(find_gbp_endpoint(self, + vx_tun_l3._sw_if_index, + ip="10.0.0.88")) + + p = (Ether(src=self.pg7.remote_mac, + dst=self.pg7.local_mac) / + IP(src=self.pg7.remote_ip4, + dst=self.pg7.local_ip4) / + UDP(sport=1234, dport=48879) / + VXLAN(vni=444, gpid=221, flags=0x88) / + Ether(src="00:22:22:22:22:33", dst=self.router_mac.address) / + IPv6(src="2001:10::88", dst=ep1.ip6.address) / + UDP(sport=1234, dport=1234) / + Raw('\xa5' * 100)) + + rx = self.send_and_expect(self.pg7, [p], self.pg0) + + # endpoint learnt via the parent GBP-vxlan interface + self.assertTrue(find_gbp_endpoint(self, + vx_tun_l3._sw_if_index, + ip="2001:10::88")) + + # + # L3 switch from local to remote EP + # + p4 = [(Ether(src=ep1.mac, dst=self.router_mac.address) / + IP(src=ep1.ip4.address, dst="10.0.0.88") / + UDP(sport=1234, dport=1234) / + Raw('\xa5' * 100)), + (Ether(src=ep1.mac, dst=self.router_mac.address) / + IP(src=ep1.ip4.address, dst="10.0.0.88") / + UDP(sport=1234, dport=1235) / + Raw('\xa5' * 100))] + p6 = [(Ether(src=ep1.mac, dst=self.router_mac.address) / + IPv6(src=ep1.ip6.address, dst="2001:10::88") / + UDP(sport=1234, dport=1234) / + Raw('\xa5' * 100)), + (Ether(src=ep1.mac, dst=self.router_mac.address) / + IPv6(src=ep1.ip6.address, dst="2001:10::88") / + UDP(sport=1234, dport=123) / + Raw('\xa5' * 100))] + + rxs = self.send_and_expect(self.pg0, p4[0] * 17, sep2.itf) + + for rx in rxs: + self.assertEqual(rx[Ether].src, routed_src_mac) + self.assertEqual(rx[Ether].dst, sep2.mac) + self.assertEqual(rx[IP].src, ep1.ip4.address) + self.assertEqual(rx[IP].dst, "10.0.0.88") + + rxs = self.send_and_expect(self.pg0, p4[1] * 17, sep1.itf) + + for rx in rxs: + self.assertEqual(rx[Ether].src, routed_src_mac) + self.assertEqual(rx[Ether].dst, sep1.mac) + self.assertEqual(rx[IP].src, ep1.ip4.address) + self.assertEqual(rx[IP].dst, "10.0.0.88") + + rxs = self.send_and_expect(self.pg0, p6[0] * 17, sep4.itf) + + for rx in rxs: + self.assertEqual(rx[Ether].src, routed_src_mac) + self.assertEqual(rx[Ether].dst, sep4.mac) + self.assertEqual(rx[IPv6].src, ep1.ip6.address) + self.assertEqual(rx[IPv6].dst, "2001:10::88") + + rxs = self.send_and_expect(self.pg0, p6[1] * 17, sep3.itf) + + for rx in rxs: + self.assertEqual(rx[Ether].src, routed_src_mac) + self.assertEqual(rx[Ether].dst, sep3.mac) + self.assertEqual(rx[IPv6].src, ep1.ip6.address) + self.assertEqual(rx[IPv6].dst, "2001:10::88") + if __name__ == '__main__': unittest.main(testRunner=VppTestRunner)