tests/scripts/thread-cert/Cert_9_2_04_ActiveDataset.py - third_party/openthread - Git at Google

 #!/usr/bin/env python3
 #
 #  Copyright (c) 2016, 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.
 #

 import unittest

 import thread_cert
 from pktverify.consts import MLE_CHILD_ID_RESPONSE, MGMT_ACTIVE_SET_URI, MGMT_ACTIVE_GET_URI
 from pktverify.packet_verifier import PacketVerifier
 from pktverify.bytes import Bytes

 COMMISSIONER = 1
 LEADER = 2


 class Cert_9_2_04_ActiveDataset(thread_cert.TestCase):
     SUPPORT_NCP = False

     TOPOLOGY = {
         COMMISSIONER: {
             'name': 'COMMISSIONER',
             'active_dataset': {
                 'timestamp': 10,
                 'network_key': '00112233445566778899aabbccddeeff'
             },
             'mode': 'rdn',
             'allowlist': [LEADER]
         },
         LEADER: {
             'name': 'LEADER',
             'active_dataset': {
                 'timestamp': 10,
                 'network_key': '00112233445566778899aabbccddeeff'
             },
             'mode': 'rdn',
             'allowlist': [COMMISSIONER]
         },
     }

     def test(self):
         self.nodes[LEADER].start()
         self.simulator.go(5)
         self.assertEqual(self.nodes[LEADER].get_state(), 'leader')

         self.nodes[COMMISSIONER].start()
         self.simulator.go(5)
         self.assertEqual(self.nodes[COMMISSIONER].get_state(), 'router')

         self.nodes[COMMISSIONER].commissioner_start()
         self.simulator.go(5)

         self.collect_rlocs()
         self.collect_leader_aloc(LEADER)
         # Step 2
         self.nodes[COMMISSIONER].send_mgmt_active_set(
             active_timestamp=101,
             channel_mask=0x7fff800,
             extended_panid='000db70000000000',
             network_name='GRL',
         )
         self.simulator.go(5)
         self.assertEqual(self.nodes[LEADER].get_network_name(), 'GRL')
         self.nodes[COMMISSIONER].send_mgmt_active_get()
         self.simulator.go(5)

         # Step 6
         # Attempt to set Channel TLV
         self.nodes[COMMISSIONER].send_mgmt_active_set(
             active_timestamp=102,
             channel=18,
             channel_mask=0x7fff800,
             extended_panid='000db70000000001',
             network_name='threadcert',
         )
         self.simulator.go(5)
         self.assertEqual(self.nodes[LEADER].get_network_name(), 'GRL')

         # Step 8
         # Attempt to set Mesh Local Prefix TLV
         self.nodes[COMMISSIONER].send_mgmt_active_set(
             active_timestamp=103,
             channel_mask=0x7fff800,
             extended_panid='000db70000000000',
             mesh_local='fd00:0db7::',
             network_name='UL',
         )
         self.simulator.go(5)
         self.assertEqual(self.nodes[LEADER].get_network_name(), 'GRL')

         # Step 10
         # Attempt to set Network Key TLV
         self.nodes[COMMISSIONER].send_mgmt_active_set(
             active_timestamp=104,
             channel_mask=0x7fff800,
             extended_panid='000db70000000000',
             network_key='ffeeddccbbaa99887766554433221100',
             mesh_local='fd00:0db7::',
             network_name='GRL',
         )
         self.simulator.go(5)
         self.assertEqual(self.nodes[LEADER].get_network_name(), 'GRL')

         # Step 12
         # Attempt to set PAN ID TLV
         self.nodes[COMMISSIONER].send_mgmt_active_set(
             active_timestamp=105,
             channel_mask=0x7fff800,
             extended_panid='000db70000000000',
             network_key='00112233445566778899aabbccddeeff',
             mesh_local='fd00:0db7::',
             network_name='UL',
             panid=0xafce,
         )
         self.simulator.go(5)
         self.assertEqual(self.nodes[LEADER].get_network_name(), 'GRL')

         # Step 14
         # Invalid Commissioner Session ID
         self.nodes[COMMISSIONER].send_mgmt_active_set(
             active_timestamp=106,
             channel_mask=0x7fff800,
             extended_panid='000db70000000000',
             network_name='UL',
             binary='0b02abcd',
         )
         self.simulator.go(5)
         self.assertEqual(self.nodes[LEADER].get_network_name(), 'GRL')

         # Step 16
         # Old Active Timestamp
         self.nodes[COMMISSIONER].send_mgmt_active_set(
             active_timestamp=101,
             channel_mask=0x01fff800,
             extended_panid='000db70000000000',
             network_name='UL',
         )
         self.simulator.go(5)
         self.assertEqual(self.nodes[LEADER].get_network_name(), 'GRL')

         # Step 18
         # Unexpected Steering Data TLV
         self.nodes[COMMISSIONER].send_mgmt_active_set(
             active_timestamp=107,
             channel_mask=0x7fff800,
             extended_panid='000db70000000000',
             network_name='UL',
             binary='0806113320440000',
         )
         self.simulator.go(5)
         self.assertEqual(self.nodes[LEADER].get_network_name(), 'UL')

         # Step 20
         # Undefined TLV
         self.nodes[COMMISSIONER].send_mgmt_active_set(
             active_timestamp=108,
             channel_mask=0x7fff800,
             extended_panid='000db70000000000',
             network_name='GRL',
             binary='8202aa55',
         )
         self.simulator.go(5)
         self.assertEqual(self.nodes[LEADER].get_network_name(), 'GRL')

         ipaddrs = self.nodes[COMMISSIONER].get_addrs()
         for ipaddr in ipaddrs:
             self.assertTrue(self.nodes[LEADER].ping(ipaddr))

     def verify(self, pv):
         pkts = pv.pkts
         pv.summary.show()

         LEADER = pv.vars['LEADER']
         LEADER_RLOC = pv.vars['LEADER_RLOC']
         LEADER_ALOC = pv.vars['LEADER_ALOC']
         COMMISSIONER = pv.vars['COMMISSIONER']
         COMMISSIONER_RLOC = pv.vars['COMMISSIONER_RLOC']

         # Step 1: Ensure the topology is formed correctly
         pkts.filter_wpan_src64(LEADER).filter_wpan_dst64(COMMISSIONER).filter_mle_cmd(
             MLE_CHILD_ID_RESPONSE).must_next()

         # Step 2: Commissioner sends MGMT_ACTIVE_SET.req to Leader RLOC or Anycast Locator
         pkts.filter_wpan_src64(COMMISSIONER).filter_ipv6_2dsts(LEADER_RLOC, LEADER_ALOC).filter_coap_request(
             MGMT_ACTIVE_SET_URI).filter(lambda p: p.thread_meshcop.tlv.xpan_id == '000db70000000000' and p.
                                         thread_meshcop.tlv.net_name == ['GRL'] and p.thread_meshcop.tlv.chan_mask_mask
                                         == '001fffe0' and p.thread_meshcop.tlv.active_tstamp == 101).must_next()

         # Step 3: Leader MUST send MGMT_ACTIVE_SET.rsp to the Commissioner
         pkts.filter_wpan_src64(LEADER).filter_ipv6_dst(COMMISSIONER_RLOC).filter_coap_ack(MGMT_ACTIVE_SET_URI).filter(
             lambda p: p.thread_meshcop.tlv.state == 1).must_next()

         # Step 4: Commissioner sends MGMT_ACTIVE_GET.req to Leader
         pkts.filter_wpan_src64(COMMISSIONER).filter_ipv6_2dsts(
             LEADER_RLOC, LEADER_ALOC).filter_coap_request(MGMT_ACTIVE_GET_URI).must_next()

         # Step 5: The Leader MUST send MGMT_ACTIVE_GET.rsp to the Commissioner
         pkts.filter_wpan_src64(LEADER).filter_ipv6_dst(COMMISSIONER_RLOC).filter_coap_ack(
             MGMT_ACTIVE_GET_URI).filter(lambda p: p.thread_meshcop.tlv.active_tstamp == 101 and p.thread_meshcop.tlv.
                                         xpan_id == '000db70000000000' and p.thread_meshcop.tlv.net_name == ['GRL'] and
                                         p.thread_meshcop.tlv.chan_mask_mask == '001fffe0').must_next()

         # Step 6: Commissioner sends MGMT_ACTIVE_SET.req to Leader RLOC or Anycast Locator
         pkts.filter_wpan_src64(COMMISSIONER).filter_ipv6_2dsts(
             LEADER_RLOC, LEADER_ALOC).filter_coap_request(MGMT_ACTIVE_SET_URI).filter(
                 lambda p: p.thread_meshcop.tlv.active_tstamp == 102 and p.thread_meshcop.tlv.xpan_id ==
                 '000db70000000001' and p.thread_meshcop.tlv.net_name == ['threadcert'] and p.thread_meshcop.tlv.
                 chan_mask_mask == '001fffe0' and p.thread_meshcop.tlv.channel == [18]).must_next()

         # Step 7: Leader MUST send MGMT_ACTIVE_SET.rsp to the Commissioner
         pkts.filter_wpan_src64(LEADER).filter_ipv6_dst(COMMISSIONER_RLOC).filter_coap_ack(MGMT_ACTIVE_SET_URI).filter(
             lambda p: p.thread_meshcop.tlv.state == -1).must_next()

         # Step 8: Commissioner sends MGMT_ACTIVE_SET.req to Leader RLOC or Leader Anycast Locator
         pkts.filter_wpan_src64(COMMISSIONER).filter_ipv6_2dsts(
             LEADER_RLOC, LEADER_ALOC).filter_coap_request(MGMT_ACTIVE_SET_URI).filter(
                 lambda p: p.thread_meshcop.tlv.active_tstamp == 103 and p.thread_meshcop.tlv.xpan_id ==
                 '000db70000000000' and p.thread_meshcop.tlv.net_name == ['UL'] and p.thread_meshcop.tlv.chan_mask_mask
                 == '001fffe0' and p.thread_meshcop.tlv.ml_prefix == 'fd000db700000000').must_next()

         # Step 9: Leader MUST send MGMT_ACTIVE_SET.rsp to the Commissioner
         pkts.filter_wpan_src64(LEADER).filter_ipv6_dst(COMMISSIONER_RLOC).filter_coap_ack(MGMT_ACTIVE_SET_URI).filter(
             lambda p: p.thread_meshcop.tlv.state == -1).must_next()

         # Step 10: Commissioner sends MGMT_ACTIVE_SET.req to Leader RLOC or Leader Anycast Locator
         pkts.filter_wpan_src64(COMMISSIONER).filter_ipv6_2dsts(
             LEADER_RLOC, LEADER_ALOC).filter_coap_request(MGMT_ACTIVE_SET_URI).filter(
                 lambda p: p.thread_meshcop.tlv.active_tstamp == 104 and p.thread_meshcop.tlv.xpan_id ==
                 '000db70000000000' and p.thread_meshcop.tlv.net_name == ['GRL'] and p.thread_meshcop.tlv.master_key ==
                 'ffeeddccbbaa99887766554433221100' and p.thread_meshcop.tlv.chan_mask_mask == '001fffe0' and p.
                 thread_meshcop.tlv.ml_prefix == 'fd000db700000000').must_next()

         # Step 11: Leader MUST send MGMT_ACTIVE_SET.rsp to the Commissioner
         pkts.filter_wpan_src64(LEADER).filter_ipv6_dst(COMMISSIONER_RLOC).filter_coap_ack(MGMT_ACTIVE_SET_URI).filter(
             lambda p: p.thread_meshcop.tlv.state == -1).must_next()

         # Step 12: Commissioner sends MGMT_ACTIVE_SET.req to Leader RLOC or Leader Anycast Locator
         pkts.filter_wpan_src64(COMMISSIONER).filter_ipv6_2dsts(
             LEADER_RLOC, LEADER_ALOC).filter_coap_request(MGMT_ACTIVE_SET_URI).filter(
                 lambda p: p.thread_meshcop.tlv.active_tstamp == 105 and p.thread_meshcop.tlv.xpan_id ==
                 '000db70000000000' and p.thread_meshcop.tlv.net_name == ['UL'] and p.thread_meshcop.tlv.master_key ==
                 '00112233445566778899aabbccddeeff' and p.thread_meshcop.tlv.pan_id == [0xafce] and p.thread_meshcop.tlv
                 .chan_mask_mask == '001fffe0' and p.thread_meshcop.tlv.ml_prefix == 'fd000db700000000').must_next()

         # Step 13: Leader MUST send MGMT_ACTIVE_SET.rsp to the Commissioner
         pkts.filter_wpan_src64(LEADER).filter_ipv6_dst(COMMISSIONER_RLOC).filter_coap_ack(MGMT_ACTIVE_SET_URI).filter(
             lambda p: p.thread_meshcop.tlv.state == -1).must_next()

         # Step 14: Commissioner sends MGMT_ACTIVE_SET.req to Leader RLOC or Leader Anycast Locator
         pkts.filter_wpan_src64(COMMISSIONER).filter_ipv6_2dsts(
             LEADER_RLOC, LEADER_ALOC).filter_coap_request(MGMT_ACTIVE_SET_URI).filter(
                 lambda p: p.thread_meshcop.tlv.active_tstamp == 106 and p.thread_meshcop.tlv.xpan_id ==
                 '000db70000000000' and p.thread_meshcop.tlv.net_name == ['UL'] and p.thread_meshcop.tlv.
                 commissioner_sess_id == 0xabcd and p.thread_meshcop.tlv.chan_mask_mask == '001fffe0').must_next()

         # Step 15: Leader MUST send MGMT_ACTIVE_SET.rsp to the Commissioner
         pkts.filter_wpan_src64(LEADER).filter_ipv6_dst(COMMISSIONER_RLOC).filter_coap_ack(MGMT_ACTIVE_SET_URI).filter(
             lambda p: p.thread_meshcop.tlv.state == -1).must_next()

         # Step 16: Commissioner sends MGMT_ACTIVE_SET.req to Leader RLOC or Leader Anycast Locator
         pkts.filter_wpan_src64(COMMISSIONER).filter_ipv6_2dsts(LEADER_RLOC, LEADER_ALOC).filter_coap_request(
             MGMT_ACTIVE_SET_URI).filter(lambda p: p.thread_meshcop.tlv.active_tstamp == 101 and p.thread_meshcop.tlv.
                                         xpan_id == '000db70000000000' and p.thread_meshcop.tlv.net_name == ['UL'] and p
                                         .thread_meshcop.tlv.chan_mask_mask == '001fff80').must_next()

         # Step 17: Leader MUST send MGMT_ACTIVE_SET.rsp to the Commissioner
         pkts.filter_wpan_src64(LEADER).filter_ipv6_dst(COMMISSIONER_RLOC).filter_coap_ack(MGMT_ACTIVE_SET_URI).filter(
             lambda p: p.thread_meshcop.tlv.state == -1).must_next()

         # Step 18: Commissioner sends MGMT_ACTIVE_SET.req to Leader RLOC or Leader Anycast Locator
         pkts.filter_wpan_src64(COMMISSIONER).filter_ipv6_2dsts(
             LEADER_RLOC, LEADER_ALOC).filter_coap_request(MGMT_ACTIVE_SET_URI).filter(
                 lambda p: p.thread_meshcop.tlv.active_tstamp == 107 and p.thread_meshcop.tlv.xpan_id ==
                 '000db70000000000' and p.thread_meshcop.tlv.net_name == ['UL'] and p.thread_meshcop.tlv.steering_data
                 == Bytes('113320440000') and p.thread_meshcop.tlv.chan_mask_mask == '001fffe0').must_next()

         # Step 19: Leader MUST send MGMT_ACTIVE_SET.rsp to the Commissioner
         pkts.filter_wpan_src64(LEADER).filter_ipv6_dst(COMMISSIONER_RLOC).filter_coap_ack(MGMT_ACTIVE_SET_URI).filter(
             lambda p: p.thread_meshcop.tlv.state == 1).must_next()

         # Step 20: Commissioner sends MGMT_ACTIVE_SET.req to Leader RLOC or Leader Anycast Locator
         pkts.filter_wpan_src64(COMMISSIONER).filter_ipv6_2dsts(
             LEADER_RLOC, LEADER_ALOC).filter_coap_request(MGMT_ACTIVE_SET_URI).filter(
                 lambda p: p.thread_meshcop.tlv.active_tstamp == 108 and p.thread_meshcop.tlv.xpan_id ==
                 '000db70000000000' and p.thread_meshcop.tlv.net_name == ['GRL'] and p.thread_meshcop.tlv.unknown ==
                 'aa55' and p.thread_meshcop.tlv.chan_mask_mask == '001fffe0').must_next()

         # Step 21: Leader MUST send MGMT_ACTIVE_SET.rsp to the Commissioner
         pkts.filter_wpan_src64(LEADER).filter_ipv6_dst(COMMISSIONER_RLOC).filter_coap_ack(MGMT_ACTIVE_SET_URI).filter(
             lambda p: p.thread_meshcop.tlv.state == 1).must_next()


 if __name__ == '__main__':
     unittest.main()
	#!/usr/bin/env python3
	#
	# Copyright (c) 2016, 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.
	#

	import unittest

	import thread_cert
	from pktverify.consts import MLE_CHILD_ID_RESPONSE, MGMT_ACTIVE_SET_URI, MGMT_ACTIVE_GET_URI
	from pktverify.packet_verifier import PacketVerifier
	from pktverify.bytes import Bytes

	COMMISSIONER = 1
	LEADER = 2


	class Cert_9_2_04_ActiveDataset(thread_cert.TestCase):
	SUPPORT_NCP = False

	TOPOLOGY = {
	COMMISSIONER: {
	'name': 'COMMISSIONER',
	'active_dataset': {
	'timestamp': 10,
	'network_key': '00112233445566778899aabbccddeeff'
	},
	'mode': 'rdn',
	'allowlist': [LEADER]
	},
	LEADER: {
	'name': 'LEADER',
	'active_dataset': {
	'timestamp': 10,
	'network_key': '00112233445566778899aabbccddeeff'
	},
	'mode': 'rdn',
	'allowlist': [COMMISSIONER]
	},
	}

	def test(self):
	self.nodes[LEADER].start()
	self.simulator.go(5)
	self.assertEqual(self.nodes[LEADER].get_state(), 'leader')

	self.nodes[COMMISSIONER].start()
	self.simulator.go(5)
	self.assertEqual(self.nodes[COMMISSIONER].get_state(), 'router')

	self.nodes[COMMISSIONER].commissioner_start()
	self.simulator.go(5)

	self.collect_rlocs()
	self.collect_leader_aloc(LEADER)
	# Step 2
	self.nodes[COMMISSIONER].send_mgmt_active_set(
	active_timestamp=101,
	channel_mask=0x7fff800,
	extended_panid='000db70000000000',
	network_name='GRL',
	)
	self.simulator.go(5)
	self.assertEqual(self.nodes[LEADER].get_network_name(), 'GRL')
	self.nodes[COMMISSIONER].send_mgmt_active_get()
	self.simulator.go(5)

	# Step 6
	# Attempt to set Channel TLV
	self.nodes[COMMISSIONER].send_mgmt_active_set(
	active_timestamp=102,
	channel=18,
	channel_mask=0x7fff800,
	extended_panid='000db70000000001',
	network_name='threadcert',
	)
	self.simulator.go(5)
	self.assertEqual(self.nodes[LEADER].get_network_name(), 'GRL')

	# Step 8
	# Attempt to set Mesh Local Prefix TLV
	self.nodes[COMMISSIONER].send_mgmt_active_set(
	active_timestamp=103,
	channel_mask=0x7fff800,
	extended_panid='000db70000000000',
	mesh_local='fd00:0db7::',
	network_name='UL',
	)
	self.simulator.go(5)
	self.assertEqual(self.nodes[LEADER].get_network_name(), 'GRL')

	# Step 10
	# Attempt to set Network Key TLV
	self.nodes[COMMISSIONER].send_mgmt_active_set(
	active_timestamp=104,
	channel_mask=0x7fff800,
	extended_panid='000db70000000000',
	network_key='ffeeddccbbaa99887766554433221100',
	mesh_local='fd00:0db7::',
	network_name='GRL',
	)
	self.simulator.go(5)
	self.assertEqual(self.nodes[LEADER].get_network_name(), 'GRL')

	# Step 12
	# Attempt to set PAN ID TLV
	self.nodes[COMMISSIONER].send_mgmt_active_set(
	active_timestamp=105,
	channel_mask=0x7fff800,
	extended_panid='000db70000000000',
	network_key='00112233445566778899aabbccddeeff',
	mesh_local='fd00:0db7::',
	network_name='UL',
	panid=0xafce,
	)
	self.simulator.go(5)
	self.assertEqual(self.nodes[LEADER].get_network_name(), 'GRL')

	# Step 14
	# Invalid Commissioner Session ID
	self.nodes[COMMISSIONER].send_mgmt_active_set(
	active_timestamp=106,
	channel_mask=0x7fff800,
	extended_panid='000db70000000000',
	network_name='UL',
	binary='0b02abcd',
	)
	self.simulator.go(5)
	self.assertEqual(self.nodes[LEADER].get_network_name(), 'GRL')

	# Step 16
	# Old Active Timestamp
	self.nodes[COMMISSIONER].send_mgmt_active_set(
	active_timestamp=101,
	channel_mask=0x01fff800,
	extended_panid='000db70000000000',
	network_name='UL',
	)
	self.simulator.go(5)
	self.assertEqual(self.nodes[LEADER].get_network_name(), 'GRL')

	# Step 18
	# Unexpected Steering Data TLV
	self.nodes[COMMISSIONER].send_mgmt_active_set(
	active_timestamp=107,
	channel_mask=0x7fff800,
	extended_panid='000db70000000000',
	network_name='UL',
	binary='0806113320440000',
	)
	self.simulator.go(5)
	self.assertEqual(self.nodes[LEADER].get_network_name(), 'UL')

	# Step 20
	# Undefined TLV
	self.nodes[COMMISSIONER].send_mgmt_active_set(
	active_timestamp=108,
	channel_mask=0x7fff800,
	extended_panid='000db70000000000',
	network_name='GRL',
	binary='8202aa55',
	)
	self.simulator.go(5)
	self.assertEqual(self.nodes[LEADER].get_network_name(), 'GRL')

	ipaddrs = self.nodes[COMMISSIONER].get_addrs()
	for ipaddr in ipaddrs:
	self.assertTrue(self.nodes[LEADER].ping(ipaddr))

	def verify(self, pv):
	pkts = pv.pkts
	pv.summary.show()

	LEADER = pv.vars['LEADER']
	LEADER_RLOC = pv.vars['LEADER_RLOC']
	LEADER_ALOC = pv.vars['LEADER_ALOC']
	COMMISSIONER = pv.vars['COMMISSIONER']
	COMMISSIONER_RLOC = pv.vars['COMMISSIONER_RLOC']

	# Step 1: Ensure the topology is formed correctly
	pkts.filter_wpan_src64(LEADER).filter_wpan_dst64(COMMISSIONER).filter_mle_cmd(
	MLE_CHILD_ID_RESPONSE).must_next()

	# Step 2: Commissioner sends MGMT_ACTIVE_SET.req to Leader RLOC or Anycast Locator
	pkts.filter_wpan_src64(COMMISSIONER).filter_ipv6_2dsts(LEADER_RLOC, LEADER_ALOC).filter_coap_request(
	MGMT_ACTIVE_SET_URI).filter(lambda p: p.thread_meshcop.tlv.xpan_id == '000db70000000000' and p.
	thread_meshcop.tlv.net_name == ['GRL'] and p.thread_meshcop.tlv.chan_mask_mask
	== '001fffe0' and p.thread_meshcop.tlv.active_tstamp == 101).must_next()

	# Step 3: Leader MUST send MGMT_ACTIVE_SET.rsp to the Commissioner
	pkts.filter_wpan_src64(LEADER).filter_ipv6_dst(COMMISSIONER_RLOC).filter_coap_ack(MGMT_ACTIVE_SET_URI).filter(
	lambda p: p.thread_meshcop.tlv.state == 1).must_next()

	# Step 4: Commissioner sends MGMT_ACTIVE_GET.req to Leader
	pkts.filter_wpan_src64(COMMISSIONER).filter_ipv6_2dsts(
	LEADER_RLOC, LEADER_ALOC).filter_coap_request(MGMT_ACTIVE_GET_URI).must_next()

	# Step 5: The Leader MUST send MGMT_ACTIVE_GET.rsp to the Commissioner
	pkts.filter_wpan_src64(LEADER).filter_ipv6_dst(COMMISSIONER_RLOC).filter_coap_ack(
	MGMT_ACTIVE_GET_URI).filter(lambda p: p.thread_meshcop.tlv.active_tstamp == 101 and p.thread_meshcop.tlv.
	xpan_id == '000db70000000000' and p.thread_meshcop.tlv.net_name == ['GRL'] and
	p.thread_meshcop.tlv.chan_mask_mask == '001fffe0').must_next()

	# Step 6: Commissioner sends MGMT_ACTIVE_SET.req to Leader RLOC or Anycast Locator
	pkts.filter_wpan_src64(COMMISSIONER).filter_ipv6_2dsts(
	LEADER_RLOC, LEADER_ALOC).filter_coap_request(MGMT_ACTIVE_SET_URI).filter(
	lambda p: p.thread_meshcop.tlv.active_tstamp == 102 and p.thread_meshcop.tlv.xpan_id ==
	'000db70000000001' and p.thread_meshcop.tlv.net_name == ['threadcert'] and p.thread_meshcop.tlv.
	chan_mask_mask == '001fffe0' and p.thread_meshcop.tlv.channel == [18]).must_next()

	# Step 7: Leader MUST send MGMT_ACTIVE_SET.rsp to the Commissioner
	pkts.filter_wpan_src64(LEADER).filter_ipv6_dst(COMMISSIONER_RLOC).filter_coap_ack(MGMT_ACTIVE_SET_URI).filter(
	lambda p: p.thread_meshcop.tlv.state == -1).must_next()

	# Step 8: Commissioner sends MGMT_ACTIVE_SET.req to Leader RLOC or Leader Anycast Locator
	pkts.filter_wpan_src64(COMMISSIONER).filter_ipv6_2dsts(
	LEADER_RLOC, LEADER_ALOC).filter_coap_request(MGMT_ACTIVE_SET_URI).filter(
	lambda p: p.thread_meshcop.tlv.active_tstamp == 103 and p.thread_meshcop.tlv.xpan_id ==
	'000db70000000000' and p.thread_meshcop.tlv.net_name == ['UL'] and p.thread_meshcop.tlv.chan_mask_mask
	== '001fffe0' and p.thread_meshcop.tlv.ml_prefix == 'fd000db700000000').must_next()

	# Step 9: Leader MUST send MGMT_ACTIVE_SET.rsp to the Commissioner
	pkts.filter_wpan_src64(LEADER).filter_ipv6_dst(COMMISSIONER_RLOC).filter_coap_ack(MGMT_ACTIVE_SET_URI).filter(
	lambda p: p.thread_meshcop.tlv.state == -1).must_next()

	# Step 10: Commissioner sends MGMT_ACTIVE_SET.req to Leader RLOC or Leader Anycast Locator
	pkts.filter_wpan_src64(COMMISSIONER).filter_ipv6_2dsts(
	LEADER_RLOC, LEADER_ALOC).filter_coap_request(MGMT_ACTIVE_SET_URI).filter(
	lambda p: p.thread_meshcop.tlv.active_tstamp == 104 and p.thread_meshcop.tlv.xpan_id ==
	'000db70000000000' and p.thread_meshcop.tlv.net_name == ['GRL'] and p.thread_meshcop.tlv.master_key ==
	'ffeeddccbbaa99887766554433221100' and p.thread_meshcop.tlv.chan_mask_mask == '001fffe0' and p.
	thread_meshcop.tlv.ml_prefix == 'fd000db700000000').must_next()

	# Step 11: Leader MUST send MGMT_ACTIVE_SET.rsp to the Commissioner
	pkts.filter_wpan_src64(LEADER).filter_ipv6_dst(COMMISSIONER_RLOC).filter_coap_ack(MGMT_ACTIVE_SET_URI).filter(
	lambda p: p.thread_meshcop.tlv.state == -1).must_next()

	# Step 12: Commissioner sends MGMT_ACTIVE_SET.req to Leader RLOC or Leader Anycast Locator
	pkts.filter_wpan_src64(COMMISSIONER).filter_ipv6_2dsts(
	LEADER_RLOC, LEADER_ALOC).filter_coap_request(MGMT_ACTIVE_SET_URI).filter(
	lambda p: p.thread_meshcop.tlv.active_tstamp == 105 and p.thread_meshcop.tlv.xpan_id ==
	'000db70000000000' and p.thread_meshcop.tlv.net_name == ['UL'] and p.thread_meshcop.tlv.master_key ==
	'00112233445566778899aabbccddeeff' and p.thread_meshcop.tlv.pan_id == [0xafce] and p.thread_meshcop.tlv
	.chan_mask_mask == '001fffe0' and p.thread_meshcop.tlv.ml_prefix == 'fd000db700000000').must_next()

	# Step 13: Leader MUST send MGMT_ACTIVE_SET.rsp to the Commissioner
	pkts.filter_wpan_src64(LEADER).filter_ipv6_dst(COMMISSIONER_RLOC).filter_coap_ack(MGMT_ACTIVE_SET_URI).filter(
	lambda p: p.thread_meshcop.tlv.state == -1).must_next()

	# Step 14: Commissioner sends MGMT_ACTIVE_SET.req to Leader RLOC or Leader Anycast Locator
	pkts.filter_wpan_src64(COMMISSIONER).filter_ipv6_2dsts(
	LEADER_RLOC, LEADER_ALOC).filter_coap_request(MGMT_ACTIVE_SET_URI).filter(
	lambda p: p.thread_meshcop.tlv.active_tstamp == 106 and p.thread_meshcop.tlv.xpan_id ==
	'000db70000000000' and p.thread_meshcop.tlv.net_name == ['UL'] and p.thread_meshcop.tlv.
	commissioner_sess_id == 0xabcd and p.thread_meshcop.tlv.chan_mask_mask == '001fffe0').must_next()

	# Step 15: Leader MUST send MGMT_ACTIVE_SET.rsp to the Commissioner
	pkts.filter_wpan_src64(LEADER).filter_ipv6_dst(COMMISSIONER_RLOC).filter_coap_ack(MGMT_ACTIVE_SET_URI).filter(
	lambda p: p.thread_meshcop.tlv.state == -1).must_next()

	# Step 16: Commissioner sends MGMT_ACTIVE_SET.req to Leader RLOC or Leader Anycast Locator
	pkts.filter_wpan_src64(COMMISSIONER).filter_ipv6_2dsts(LEADER_RLOC, LEADER_ALOC).filter_coap_request(
	MGMT_ACTIVE_SET_URI).filter(lambda p: p.thread_meshcop.tlv.active_tstamp == 101 and p.thread_meshcop.tlv.
	xpan_id == '000db70000000000' and p.thread_meshcop.tlv.net_name == ['UL'] and p
	.thread_meshcop.tlv.chan_mask_mask == '001fff80').must_next()

	# Step 17: Leader MUST send MGMT_ACTIVE_SET.rsp to the Commissioner
	pkts.filter_wpan_src64(LEADER).filter_ipv6_dst(COMMISSIONER_RLOC).filter_coap_ack(MGMT_ACTIVE_SET_URI).filter(
	lambda p: p.thread_meshcop.tlv.state == -1).must_next()

	# Step 18: Commissioner sends MGMT_ACTIVE_SET.req to Leader RLOC or Leader Anycast Locator
	pkts.filter_wpan_src64(COMMISSIONER).filter_ipv6_2dsts(
	LEADER_RLOC, LEADER_ALOC).filter_coap_request(MGMT_ACTIVE_SET_URI).filter(
	lambda p: p.thread_meshcop.tlv.active_tstamp == 107 and p.thread_meshcop.tlv.xpan_id ==
	'000db70000000000' and p.thread_meshcop.tlv.net_name == ['UL'] and p.thread_meshcop.tlv.steering_data
	== Bytes('113320440000') and p.thread_meshcop.tlv.chan_mask_mask == '001fffe0').must_next()

	# Step 19: Leader MUST send MGMT_ACTIVE_SET.rsp to the Commissioner
	pkts.filter_wpan_src64(LEADER).filter_ipv6_dst(COMMISSIONER_RLOC).filter_coap_ack(MGMT_ACTIVE_SET_URI).filter(
	lambda p: p.thread_meshcop.tlv.state == 1).must_next()

	# Step 20: Commissioner sends MGMT_ACTIVE_SET.req to Leader RLOC or Leader Anycast Locator
	pkts.filter_wpan_src64(COMMISSIONER).filter_ipv6_2dsts(
	LEADER_RLOC, LEADER_ALOC).filter_coap_request(MGMT_ACTIVE_SET_URI).filter(
	lambda p: p.thread_meshcop.tlv.active_tstamp == 108 and p.thread_meshcop.tlv.xpan_id ==
	'000db70000000000' and p.thread_meshcop.tlv.net_name == ['GRL'] and p.thread_meshcop.tlv.unknown ==
	'aa55' and p.thread_meshcop.tlv.chan_mask_mask == '001fffe0').must_next()

	# Step 21: Leader MUST send MGMT_ACTIVE_SET.rsp to the Commissioner
	pkts.filter_wpan_src64(LEADER).filter_ipv6_dst(COMMISSIONER_RLOC).filter_coap_ack(MGMT_ACTIVE_SET_URI).filter(
	lambda p: p.thread_meshcop.tlv.state == 1).must_next()


	if __name__ == '__main__':
	unittest.main()