tests/scripts/thread-cert/Cert_5_3_10_AddressQuery.py - third_party/openthread - Git at Google

 #!/usr/bin/env python
 #
 #  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 copy
 import ipaddress
 import time
 import unittest

 import command
 import config
 import ipv6
 import network_layer
 import node

 LEADER = 1
 BR = 2
 ROUTER1 = 3
 DUT_ROUTER2 = 4
 MED1 = 5

 class Cert_5_3_10_AddressQuery(unittest.TestCase):
     def setUp(self):
         self.simulator = config.create_default_simulator()

         self.nodes = {}
         for i in range(1, 6):
             self.nodes[i] = node.Node(i, (i == MED1), simulator=self.simulator)

         self.nodes[LEADER].set_panid(0xface)
         self.nodes[LEADER].set_mode('rsdn')
         self.nodes[LEADER].add_whitelist(self.nodes[BR].get_addr64())
         self.nodes[LEADER].add_whitelist(self.nodes[ROUTER1].get_addr64())
         self.nodes[LEADER].add_whitelist(self.nodes[DUT_ROUTER2].get_addr64())
         self.nodes[LEADER].enable_whitelist()

         self.nodes[BR].set_panid(0xface)
         self.nodes[BR].set_mode('rsdn')
         self.nodes[BR].add_whitelist(self.nodes[LEADER].get_addr64())
         self.nodes[BR].enable_whitelist()
         self.nodes[BR].set_router_selection_jitter(1)

         self.nodes[ROUTER1].set_panid(0xface)
         self.nodes[ROUTER1].set_mode('rsdn')
         self.nodes[ROUTER1].add_whitelist(self.nodes[LEADER].get_addr64())
         self.nodes[ROUTER1].add_whitelist(self.nodes[DUT_ROUTER2].get_addr64())
         self.nodes[ROUTER1].enable_whitelist()
         self.nodes[ROUTER1].set_router_selection_jitter(1)

         self.nodes[DUT_ROUTER2].set_panid(0xface)
         self.nodes[DUT_ROUTER2].set_mode('rsdn')
         self.nodes[DUT_ROUTER2].add_whitelist(self.nodes[LEADER].get_addr64())
         self.nodes[DUT_ROUTER2].add_whitelist(self.nodes[ROUTER1].get_addr64())
         self.nodes[DUT_ROUTER2].add_whitelist(self.nodes[MED1].get_addr64())
         self.nodes[DUT_ROUTER2].enable_whitelist()
         self.nodes[DUT_ROUTER2].set_router_selection_jitter(1)

         self.nodes[MED1].set_panid(0xface)
         self.nodes[MED1].set_mode('rsn')
         self.nodes[MED1].add_whitelist(self.nodes[DUT_ROUTER2].get_addr64())
         self.nodes[MED1].enable_whitelist()

     def tearDown(self):
         for node in list(self.nodes.values()):
             node.stop()
             node.destroy()
         self.simulator.stop()

     def test(self):
         # 1 & 2
         # Build and verify the topology
         self.nodes[LEADER].start()
         self.simulator.go(5)
         self.assertEqual(self.nodes[LEADER].get_state(), 'leader')

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

         # Configure two On-Mesh Prefixes on the BR
         self.nodes[BR].add_prefix('2003::/64', 'paros')
         self.nodes[BR].add_prefix('2004::/64', 'paros')
         self.nodes[BR].register_netdata()

         # Set lowpan context of sniffer
         self.simulator.set_lowpan_context(1, '2003::/64')
         self.simulator.set_lowpan_context(2, '2004::/64')

         self.nodes[DUT_ROUTER2].start()
         self.simulator.go(5)
         self.assertEqual(self.nodes[DUT_ROUTER2].get_state(), 'router')

         self.nodes[ROUTER1].start()
         self.simulator.go(5)
         self.assertEqual(self.nodes[ROUTER1].get_state(), 'router')

         self.nodes[MED1].start()
         self.simulator.go(5)
         self.assertEqual(self.nodes[MED1].get_state(), 'child')

         # 3 MED1: MED1 sends an ICMPv6 Echo Request to Router1 using GUA 2003:: address
         router1_addr = self.nodes[ROUTER1].get_addr("2003::/64")
         self.assertTrue(router1_addr is not None)
         self.assertTrue(self.nodes[MED1].ping(router1_addr))

         # Wait for sniffer got Address Notification messages
         self.simulator.go(1)

         # Verify DUT_ROUTER2 sent an Address Query Request
         dut_router2_messages = self.simulator.get_messages_sent_by(DUT_ROUTER2)
         msg = dut_router2_messages.next_coap_message('0.02', '/a/aq')
         command.check_address_query(msg, self.nodes[DUT_ROUTER2], config.REALM_LOCAL_ALL_ROUTERS_ADDRESS)

         # Verify the DUT_ROUTER2 forwarded ICMPv6 Echo Request to ROUTER1
         msg = dut_router2_messages.get_icmp_message(ipv6.ICMP_ECHO_REQUEST)
         assert msg is not None, "Error: The DUT_ROUTER2 didn't forward ICMPv6 Echo Request to ROUTER1"
         msg.assertSentToNode(self.nodes[ROUTER1])

         # 4 BR: BR sends an ICMPv6 Echo Request to MED1 using GUA 2003:: address
         med1_addr = self.nodes[MED1].get_addr("2003::/64")
         self.assertTrue(med1_addr is not None)
         self.assertTrue(self.nodes[BR].ping(med1_addr))

         # Wait for sniffer got Address Notification messages
         self.simulator.go(1)

         # Verify DUT_ROUTER2 sent an Address Notification message
         dut_router2_messages = self.simulator.get_messages_sent_by(DUT_ROUTER2)
         msg = dut_router2_messages.next_coap_message('0.02', '/a/an')
         command.check_address_notification(msg, self.nodes[DUT_ROUTER2], self.nodes[BR])

         # 5 MED1: MED1 sends an ICMPv6 Echo Request to ROUTER1 using GUA 2003:: address
         addr = self.nodes[ROUTER1].get_addr("2003::/64")
         self.assertTrue(addr is not None)
         self.assertTrue(self.nodes[MED1].ping(addr))

         # Wait for sniffer got ICMPv6 Echo Reply
         self.simulator.go(1)

         # Verify DUT_ROUTER2 didn't generate an Address Query Request
         dut_router2_messages = self.simulator.get_messages_sent_by(DUT_ROUTER2)
         dut_router2_messages_temp = copy.deepcopy(dut_router2_messages)
         msg = dut_router2_messages.next_coap_message('0.02', '/a/aq', False)
         assert msg is None, "Error: The DUT_ROUTER2 sent an unexpected Address Query Request"

         # Verify DUT_ROUTER2 forwarded ICMPv6 Echo Reply to MED1
         msg = dut_router2_messages_temp.get_icmp_message(ipv6.ICMP_ECHO_RESPONSE)
         assert msg is not None, "Error: The DUT_ROUTER2 didn't forward ICMPv6 Echo Reply to MED1"
         msg.assertSentToNode(self.nodes[MED1])

         # 6 DUT_ROUTER2: Power off ROUTER1 and wait 580 seconds to allow the LEADER to expire its Router ID
         router1_id = self.nodes[ROUTER1].get_router_id()
         self.nodes[ROUTER1].stop()
         self.simulator.go(580)

         # Send an ICMPv6 Echo Request from MED1 to ROUTER1 GUA 2003:: address
         self.assertFalse(self.nodes[MED1].ping(router1_addr))

         # Verify the DUT_ROUTER2 has removed all entries based on ROUTER1's Router ID
         command.check_router_id_cached(self.nodes[DUT_ROUTER2], router1_id, False)

         # Verify DUT_ROUTER2 sent an Address Query Request
         dut_router2_messages = self.simulator.get_messages_sent_by(DUT_ROUTER2)
         msg = dut_router2_messages.next_coap_message('0.02', '/a/aq')
         msg.assertSentToDestinationAddress(config.REALM_LOCAL_ALL_ROUTERS_ADDRESS)

         # 7 MED1: Power off MED1 and wait to allow DUT_ROUTER2 to timeout the child
         self.nodes[MED1].stop()
         self.simulator.go(config.MLE_END_DEVICE_TIMEOUT)

         # BR sends two ICMPv6 Echo Requests to MED1 GUA 2003:: address
         self.assertFalse(self.nodes[BR].ping(med1_addr))
         self.assertFalse(self.nodes[BR].ping(med1_addr))

         # Verify DUT_ROUTER2 didn't generate an Address Notification message
         dut_router2_messages = self.simulator.get_messages_sent_by(DUT_ROUTER2)
         msg = dut_router2_messages.next_coap_message('0.02', '/a/an/', False)
         assert msg is None, "Error: The DUT_ROUTER2 sent an unexpected Address Notification message"

 if __name__ == '__main__':
     unittest.main()
	#!/usr/bin/env python
	#
	# 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 copy
	import ipaddress
	import time
	import unittest

	import command
	import config
	import ipv6
	import network_layer
	import node

	LEADER = 1
	BR = 2
	ROUTER1 = 3
	DUT_ROUTER2 = 4
	MED1 = 5

	class Cert_5_3_10_AddressQuery(unittest.TestCase):
	def setUp(self):
	self.simulator = config.create_default_simulator()

	self.nodes = {}
	for i in range(1, 6):
	self.nodes[i] = node.Node(i, (i == MED1), simulator=self.simulator)

	self.nodes[LEADER].set_panid(0xface)
	self.nodes[LEADER].set_mode('rsdn')
	self.nodes[LEADER].add_whitelist(self.nodes[BR].get_addr64())
	self.nodes[LEADER].add_whitelist(self.nodes[ROUTER1].get_addr64())
	self.nodes[LEADER].add_whitelist(self.nodes[DUT_ROUTER2].get_addr64())
	self.nodes[LEADER].enable_whitelist()

	self.nodes[BR].set_panid(0xface)
	self.nodes[BR].set_mode('rsdn')
	self.nodes[BR].add_whitelist(self.nodes[LEADER].get_addr64())
	self.nodes[BR].enable_whitelist()
	self.nodes[BR].set_router_selection_jitter(1)

	self.nodes[ROUTER1].set_panid(0xface)
	self.nodes[ROUTER1].set_mode('rsdn')
	self.nodes[ROUTER1].add_whitelist(self.nodes[LEADER].get_addr64())
	self.nodes[ROUTER1].add_whitelist(self.nodes[DUT_ROUTER2].get_addr64())
	self.nodes[ROUTER1].enable_whitelist()
	self.nodes[ROUTER1].set_router_selection_jitter(1)

	self.nodes[DUT_ROUTER2].set_panid(0xface)
	self.nodes[DUT_ROUTER2].set_mode('rsdn')
	self.nodes[DUT_ROUTER2].add_whitelist(self.nodes[LEADER].get_addr64())
	self.nodes[DUT_ROUTER2].add_whitelist(self.nodes[ROUTER1].get_addr64())
	self.nodes[DUT_ROUTER2].add_whitelist(self.nodes[MED1].get_addr64())
	self.nodes[DUT_ROUTER2].enable_whitelist()
	self.nodes[DUT_ROUTER2].set_router_selection_jitter(1)

	self.nodes[MED1].set_panid(0xface)
	self.nodes[MED1].set_mode('rsn')
	self.nodes[MED1].add_whitelist(self.nodes[DUT_ROUTER2].get_addr64())
	self.nodes[MED1].enable_whitelist()

	def tearDown(self):
	for node in list(self.nodes.values()):
	node.stop()
	node.destroy()
	self.simulator.stop()

	def test(self):
	# 1 & 2
	# Build and verify the topology
	self.nodes[LEADER].start()
	self.simulator.go(5)
	self.assertEqual(self.nodes[LEADER].get_state(), 'leader')

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

	# Configure two On-Mesh Prefixes on the BR
	self.nodes[BR].add_prefix('2003::/64', 'paros')
	self.nodes[BR].add_prefix('2004::/64', 'paros')
	self.nodes[BR].register_netdata()

	# Set lowpan context of sniffer
	self.simulator.set_lowpan_context(1, '2003::/64')
	self.simulator.set_lowpan_context(2, '2004::/64')

	self.nodes[DUT_ROUTER2].start()
	self.simulator.go(5)
	self.assertEqual(self.nodes[DUT_ROUTER2].get_state(), 'router')

	self.nodes[ROUTER1].start()
	self.simulator.go(5)
	self.assertEqual(self.nodes[ROUTER1].get_state(), 'router')

	self.nodes[MED1].start()
	self.simulator.go(5)
	self.assertEqual(self.nodes[MED1].get_state(), 'child')

	# 3 MED1: MED1 sends an ICMPv6 Echo Request to Router1 using GUA 2003:: address
	router1_addr = self.nodes[ROUTER1].get_addr("2003::/64")
	self.assertTrue(router1_addr is not None)
	self.assertTrue(self.nodes[MED1].ping(router1_addr))

	# Wait for sniffer got Address Notification messages
	self.simulator.go(1)

	# Verify DUT_ROUTER2 sent an Address Query Request
	dut_router2_messages = self.simulator.get_messages_sent_by(DUT_ROUTER2)
	msg = dut_router2_messages.next_coap_message('0.02', '/a/aq')
	command.check_address_query(msg, self.nodes[DUT_ROUTER2], config.REALM_LOCAL_ALL_ROUTERS_ADDRESS)

	# Verify the DUT_ROUTER2 forwarded ICMPv6 Echo Request to ROUTER1
	msg = dut_router2_messages.get_icmp_message(ipv6.ICMP_ECHO_REQUEST)
	assert msg is not None, "Error: The DUT_ROUTER2 didn't forward ICMPv6 Echo Request to ROUTER1"
	msg.assertSentToNode(self.nodes[ROUTER1])

	# 4 BR: BR sends an ICMPv6 Echo Request to MED1 using GUA 2003:: address
	med1_addr = self.nodes[MED1].get_addr("2003::/64")
	self.assertTrue(med1_addr is not None)
	self.assertTrue(self.nodes[BR].ping(med1_addr))

	# Wait for sniffer got Address Notification messages
	self.simulator.go(1)

	# Verify DUT_ROUTER2 sent an Address Notification message
	dut_router2_messages = self.simulator.get_messages_sent_by(DUT_ROUTER2)
	msg = dut_router2_messages.next_coap_message('0.02', '/a/an')
	command.check_address_notification(msg, self.nodes[DUT_ROUTER2], self.nodes[BR])

	# 5 MED1: MED1 sends an ICMPv6 Echo Request to ROUTER1 using GUA 2003:: address
	addr = self.nodes[ROUTER1].get_addr("2003::/64")
	self.assertTrue(addr is not None)
	self.assertTrue(self.nodes[MED1].ping(addr))

	# Wait for sniffer got ICMPv6 Echo Reply
	self.simulator.go(1)

	# Verify DUT_ROUTER2 didn't generate an Address Query Request
	dut_router2_messages = self.simulator.get_messages_sent_by(DUT_ROUTER2)
	dut_router2_messages_temp = copy.deepcopy(dut_router2_messages)
	msg = dut_router2_messages.next_coap_message('0.02', '/a/aq', False)
	assert msg is None, "Error: The DUT_ROUTER2 sent an unexpected Address Query Request"

	# Verify DUT_ROUTER2 forwarded ICMPv6 Echo Reply to MED1
	msg = dut_router2_messages_temp.get_icmp_message(ipv6.ICMP_ECHO_RESPONSE)
	assert msg is not None, "Error: The DUT_ROUTER2 didn't forward ICMPv6 Echo Reply to MED1"
	msg.assertSentToNode(self.nodes[MED1])

	# 6 DUT_ROUTER2: Power off ROUTER1 and wait 580 seconds to allow the LEADER to expire its Router ID
	router1_id = self.nodes[ROUTER1].get_router_id()
	self.nodes[ROUTER1].stop()
	self.simulator.go(580)

	# Send an ICMPv6 Echo Request from MED1 to ROUTER1 GUA 2003:: address
	self.assertFalse(self.nodes[MED1].ping(router1_addr))

	# Verify the DUT_ROUTER2 has removed all entries based on ROUTER1's Router ID
	command.check_router_id_cached(self.nodes[DUT_ROUTER2], router1_id, False)

	# Verify DUT_ROUTER2 sent an Address Query Request
	dut_router2_messages = self.simulator.get_messages_sent_by(DUT_ROUTER2)
	msg = dut_router2_messages.next_coap_message('0.02', '/a/aq')
	msg.assertSentToDestinationAddress(config.REALM_LOCAL_ALL_ROUTERS_ADDRESS)

	# 7 MED1: Power off MED1 and wait to allow DUT_ROUTER2 to timeout the child
	self.nodes[MED1].stop()
	self.simulator.go(config.MLE_END_DEVICE_TIMEOUT)

	# BR sends two ICMPv6 Echo Requests to MED1 GUA 2003:: address
	self.assertFalse(self.nodes[BR].ping(med1_addr))
	self.assertFalse(self.nodes[BR].ping(med1_addr))

	# Verify DUT_ROUTER2 didn't generate an Address Notification message
	dut_router2_messages = self.simulator.get_messages_sent_by(DUT_ROUTER2)
	msg = dut_router2_messages.next_coap_message('0.02', '/a/an/', False)
	assert msg is None, "Error: The DUT_ROUTER2 sent an unexpected Address Notification message"

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