#!/usr/bin/env python3 # # Copyright (c) 2020, The OpenThread Authors. # All rights reserved. # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions are met: # 1. Redistributions of source code must retain the above copyright # notice, this list of conditions and the following disclaimer. # 2. Redistributions in binary form must reproduce the above copyright # notice, this list of conditions and the following disclaimer in the # documentation and/or other materials provided with the distribution. # 3. Neither the name of the copyright holder nor the # names of its contributors may be used to endorse or promote products # derived from this software without specific prior written permission. # # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 'AS IS' # AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE # IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE # ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE # LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR # CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF # SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS # INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN # CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) # ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE # POSSIBILITY OF SUCH DAMAGE. # # This test verifies that PBBR sets DUA routes correctly. # import ipaddress import unittest import config import thread_cert from pktverify.packet_verifier import PacketVerifier # Use two channels CH1 = 11 CH2 = 22 PBBR = 1 SBBR = 2 ROUTER1 = 3 HOST = 4 PBBR2 = 5 ROUTER2 = 6 REREG_DELAY = 5 # Seconds MLR_TIMEOUT = 300 # Seconds WAIT_REDUNDANCE = 3 class TestNdProxy(thread_cert.TestCase): USE_MESSAGE_FACTORY = False # Topology: # ------(eth)---------------------- # | | | | # PBBR----SBBR HOST PBBR2 # \ CH1 / | CH2 # ROUTER1 ROUTER2 # # PBBR2 is in the secondary channel # TOPOLOGY = { PBBR: { 'name': 'PBBR', 'allowlist': [SBBR, ROUTER1], 'is_otbr': True, 'version': '1.2', 'channel': CH1, 'router_id_range': [0, 30], }, SBBR: { 'name': 'SBBR', 'allowlist': [PBBR, ROUTER1], 'is_otbr': True, 'version': '1.2', 'channel': CH1, }, ROUTER1: { 'name': 'ROUTER1', 'allowlist': [PBBR, SBBR], 'version': '1.2', 'channel': CH1, }, HOST: { 'name': 'HOST', 'is_host': True }, PBBR2: { 'name': 'PBBR2', 'is_otbr': True, 'version': '1.2', 'channel': CH2, 'router_id_range': [31, 60], }, ROUTER2: { 'name': 'ROUTER2', 'version': '1.2', 'channel': CH2, }, } def _bootstrap(self): # Bring up HOST self.nodes[HOST].start() # Bring up PBBR self.nodes[PBBR].start() self.simulator.go(config.LEADER_STARTUP_DELAY) self.assertEqual('leader', self.nodes[PBBR].get_state()) self.wait_node_state(PBBR, 'leader', 10) self.nodes[PBBR].set_backbone_router(reg_delay=REREG_DELAY, mlr_timeout=MLR_TIMEOUT) self.nodes[PBBR].enable_backbone_router() self.nodes[PBBR].set_domain_prefix(config.DOMAIN_PREFIX, 'prosD') self.simulator.go(5) self.assertTrue(self.nodes[PBBR].is_primary_backbone_router) self.assertIsNotNone(self.nodes[PBBR].get_ip6_address(config.ADDRESS_TYPE.DUA)) # Bring up SBBR self.nodes[SBBR].start() self.simulator.go(5) self.assertEqual('router', self.nodes[SBBR].get_state()) self.nodes[SBBR].set_backbone_router(reg_delay=REREG_DELAY, mlr_timeout=MLR_TIMEOUT) self.nodes[SBBR].enable_backbone_router() self.simulator.go(5) self.assertFalse(self.nodes[SBBR].is_primary_backbone_router) self.assertIsNotNone(self.nodes[SBBR].get_ip6_address(config.ADDRESS_TYPE.DUA)) # Bring up ROUTER1 self.nodes[ROUTER1].start() self.simulator.go(5) self.assertEqual('router', self.nodes[ROUTER1].get_state()) self.assertIsNotNone(self.nodes[ROUTER1].get_ip6_address(config.ADDRESS_TYPE.DUA)) # Bring up PBBR2 self.nodes[PBBR2].start() self.simulator.go(config.LEADER_STARTUP_DELAY) self.assertEqual('leader', self.nodes[PBBR2].get_state()) self.wait_node_state(PBBR2, 'leader', 10) self.nodes[PBBR2].set_backbone_router(reg_delay=REREG_DELAY, mlr_timeout=MLR_TIMEOUT) self.nodes[PBBR2].enable_backbone_router() self.nodes[PBBR2].set_domain_prefix(config.DOMAIN_PREFIX, 'prosD') self.simulator.go(5) self.assertTrue(self.nodes[PBBR2].is_primary_backbone_router) self.assertIsNotNone(self.nodes[PBBR2].get_ip6_address(config.ADDRESS_TYPE.DUA)) # Bring up ROUTER2 self.nodes[ROUTER2].start() self.simulator.go(5) self.assertEqual('router', self.nodes[ROUTER2].get_state()) self.assertIsNotNone(self.nodes[ROUTER2].get_ip6_address(config.ADDRESS_TYPE.DUA)) def test(self): self._bootstrap() self.collect_ipaddrs() self.collect_rloc16s() self.simulator.go(WAIT_REDUNDANCE) # Step 1: Host pings PBBR's DUA self.assertTrue(self.nodes[HOST].ping(self.nodes[PBBR].get_ip6_address(config.ADDRESS_TYPE.DUA), backbone=True)) self.simulator.go(WAIT_REDUNDANCE) # Step 2: Host pings SBBR's DUA self.assertTrue(self.nodes[HOST].ping(self.nodes[SBBR].get_ip6_address(config.ADDRESS_TYPE.DUA), backbone=True)) self.simulator.go(WAIT_REDUNDANCE) # Step 3: Host pings ROUTER1's DUA self.assertTrue(self.nodes[HOST].ping(self.nodes[ROUTER1].get_ip6_address(config.ADDRESS_TYPE.DUA), backbone=True)) self.simulator.go(WAIT_REDUNDANCE) # Step 4: ROUTER2 pings ROUTER1 which should succeed ROUTER1_DUA = self.nodes[ROUTER1].get_ip6_address(config.ADDRESS_TYPE.DUA) self.assertTrue(self.nodes[ROUTER2].ping(ROUTER1_DUA)) self.simulator.go(WAIT_REDUNDANCE) def _get_mliid(self, nodeid: int) -> str: mleid = self.nodes[nodeid].get_ip6_address(config.ADDRESS_TYPE.ML_EID) mliid = ipaddress.IPv6Address(mleid).packed[-8:] return ''.join(['%02x' % b for b in mliid]) def verify(self, pv: PacketVerifier): pkts = pv.pkts pv.add_common_vars() pv.summary.show() PBBR = pv.vars['PBBR'] PBBR2 = pv.vars['PBBR2'] ROUTER1 = pv.vars['ROUTER1'] ROUTER2 = pv.vars['ROUTER2'] SBBR = pv.vars['SBBR'] PBBR_DUA = pv.vars['PBBR_DUA'] SBBR_DUA = pv.vars['SBBR_DUA'] ROUTER1_DUA = pv.vars['ROUTER1_DUA'] ROUTER2_DUA = pv.vars['ROUTER2_DUA'] HOST_BGUA = pv.vars['HOST_BGUA'] PBBR_ETH = pv.vars['PBBR_ETH'] PBBR2_ETH = pv.vars['PBBR2_ETH'] # Verify that SBBR should not foward any Ping Request to the Thread network. # Use `ipv6.hlim == 63` to avoid false fails because SBBR might still forward Ping Request from PBBR to ROUTER1 pkts.filter_wpan_src64(SBBR).filter_ping_request().filter('ipv6.hlim == 63').must_not_next() # Step 1: Host pings PBBR's DUA # PBBR should not forward the Ping Request to Thread network ping1_pkts = pkts.filter_ipv6_src_dst(HOST_BGUA, PBBR_DUA).filter_ping_request() ping1_pkts.filter_eth().must_next() ping1_pkts.filter_wpan().must_not_next() # Step 2: Host pings SBBR's DUA # PBBR should forward the Ping Request to Thread network according to DUA routes ping2_pkts = pkts.filter_ipv6_src_dst(HOST_BGUA, SBBR_DUA).filter_ping_request() ping2_pkts.filter_eth().must_next() ping2_pkts.filter_wpan().must_next() # Step 3: Host pings ROUTER1's DUA # PBBR should forward the Ping Request to Thread network according to DUA routes ping3_pkts = pkts.filter_ipv6_src_dst(HOST_BGUA, ROUTER1_DUA).filter_ping_request() ping3_pkts.filter_eth().must_next() ping3_pkts.filter_wpan().must_next() # Step 4: ROUTER2 pings ROUTER1 # Verify Ping Request: ROUTER2 -> PBBR2 -> PBBR -> ROUTER1 ping4_request_pkts = pkts.filter_ipv6_src_dst(ROUTER2_DUA, ROUTER1_DUA) ping4_id = ping4_request_pkts.filter_wpan_src64( ROUTER2).filter_ping_request().must_next().icmpv6.echo.identifier ping4_request_pkts.filter_eth_src(PBBR2_ETH).filter_ping_request(identifier=ping4_id).must_next() ping4_request_pkts.filter_wpan_src64(PBBR).filter_ping_request(identifier=ping4_id).must_next() # Verify Ping Reply: ROUTER1 -> PBBR -> PBBR2 -> ROUTER2 ping4_reply_pkts = pkts.filter_ipv6_src_dst(ROUTER1_DUA, ROUTER2_DUA).filter_ping_reply(identifier=ping4_id) ping4_reply_pkts.filter_eth_src(PBBR_ETH).must_next() if __name__ == '__main__': unittest.main()