tests/toranj/test-012-multi-hop-traffic.py - third_party/openthread - Git at Google

 #!/usr/bin/env python3
 #
 #  Copyright (c) 2018, 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 wpan
 from wpan import verify

 # -----------------------------------------------------------------------------------------------------------------------
 # Test description:
 #
 # Traffic over multi-hop in a network with chain topology
 #
 #       r1 ----- r2 ---- r3 ----- r4
 #       /\       |       |        /\
 #      /  \      |       |       /  \
 #    fed1 sed1  sed2    sed3   sed4 fed4
 #
 #
 # Traffic flow:
 #  - From first router to last router
 #  - From SED child of last router to SED child of first router
 #  - From FED child of first router to FED child of last router
 #
 # The test verifies the following:
 # - Verifies Address Query process to routers and FEDs.
 # - Verifies Mesh Header frame forwarding over multiple routers.
 # - Verifies forwarding of large IPv6 messages (1000 bytes) requiring lowpan fragmentation.

 test_name = __file__[:-3] if __file__.endswith('.py') else __file__
 print('-' * 120)
 print('Starting \'{}\''.format(test_name))

 # -----------------------------------------------------------------------------------------------------------------------
 # Creating `wpan.Nodes` instances

 speedup = 4
 wpan.Node.set_time_speedup_factor(speedup)

 NUM_ROUTERS = 4

 routers = []
 sed_children = []
 fed_children = []

 for index in range(NUM_ROUTERS):
     routers.append(wpan.Node())
     sed_children.append(wpan.Node())

 fed_children.append(wpan.Node())
 fed_children.append(wpan.Node())

 all_nodes = routers + sed_children + fed_children

 # -----------------------------------------------------------------------------------------------------------------------
 # Init all nodes

 wpan.Node.init_all_nodes()

 # -----------------------------------------------------------------------------------------------------------------------
 # Build network topology
 #
 #       r1 ----- r2 ---- r3 ----- r4
 #       /\       |       |        /\
 #      /  \      |       |       /  \
 #    fed1 sed1  sed2    sed3   sed4 fed4

 # Whitelist routers with their corresponding sleepy children

 for index in range(0, NUM_ROUTERS):
     routers[index].whitelist_node(sed_children[index])
     sed_children[index].whitelist_node(routers[index])

 # Whitelist a FED child for the first and last routers

 routers[0].whitelist_node(fed_children[0])
 fed_children[0].whitelist_node(routers[0])

 routers[-1].whitelist_node(fed_children[-1])
 fed_children[-1].whitelist_node(routers[-1])

 # While list routers at [index-1] and [index]

 for index in range(1, NUM_ROUTERS):
     routers[index - 1].whitelist_node(routers[index])
     routers[index].whitelist_node(routers[index - 1])

 routers[0].form("multi-hop")
 sed_children[0].join_node(routers[0], wpan.JOIN_TYPE_SLEEPY_END_DEVICE)
 sed_children[0].set(wpan.WPAN_POLL_INTERVAL, '500')

 for index in range(1, NUM_ROUTERS):
     routers[index].join_node(routers[index - 1], wpan.JOIN_TYPE_ROUTER)
     sed_children[index].join_node(routers[index], wpan.JOIN_TYPE_SLEEPY_END_DEVICE)
     sed_children[index].set(wpan.WPAN_POLL_INTERVAL, '500')

 fed_children[0].join_node(routers[0], wpan.JOIN_TYPE_END_DEVICE)
 fed_children[-1].join_node(routers[-1], wpan.JOIN_TYPE_END_DEVICE)

 # -----------------------------------------------------------------------------------------------------------------------
 # Test implementation

 NUM_MSGS = 3
 MSG_LENS = [40, 100, 400, 800, 1000]

 # Wait till first router has either established a link or
 # has a valid "next hop" towards all other routers.

 ROUTER_TABLE_WAIT_TIME = 60 / speedup + 5
 INVALID_ROUTER_ID = 63

 r1_rloc = int(routers[0].get(wpan.WPAN_THREAD_RLOC16), 16)


 def check_r1_router_table():
     router_table = wpan.parse_router_table_result(routers[0].get(wpan.WPAN_THREAD_ROUTER_TABLE))
     verify(len(router_table) == NUM_ROUTERS)
     for entry in router_table:
         verify(entry.rloc16 == r1_rloc or entry.is_link_established() or entry.next_hop != INVALID_ROUTER_ID)


 wpan.verify_within(check_r1_router_table, ROUTER_TABLE_WAIT_TIME)

 # Send from the first router in the chain to the last one.

 src = routers[0].get(wpan.WPAN_IP6_MESH_LOCAL_ADDRESS)[1:-1]
 dst = routers[-1].get(wpan.WPAN_IP6_MESH_LOCAL_ADDRESS)[1:-1]

 for msg_length in MSG_LENS:
     sender = routers[0].prepare_tx(src, dst, msg_length, NUM_MSGS)
     recver = routers[-1].prepare_rx(sender)
     wpan.Node.perform_async_tx_rx()
     verify(sender.was_successful)
     verify(recver.was_successful)

 # Send from the SED child of the last router to the SED child of the first
 # router.

 src = sed_children[-1].get(wpan.WPAN_IP6_MESH_LOCAL_ADDRESS)[1:-1]
 dst = sed_children[0].get(wpan.WPAN_IP6_MESH_LOCAL_ADDRESS)[1:-1]

 for msg_length in MSG_LENS:
     sender = sed_children[-1].prepare_tx(src, dst, msg_length, NUM_MSGS)
     recver = sed_children[0].prepare_rx(sender)
     wpan.Node.perform_async_tx_rx()
     verify(sender.was_successful)
     verify(recver.was_successful)

 # Send from the FED child of the first router to the FED child of the last
 # router.

 src = fed_children[0].get(wpan.WPAN_IP6_MESH_LOCAL_ADDRESS)[1:-1]
 dst = fed_children[-1].get(wpan.WPAN_IP6_MESH_LOCAL_ADDRESS)[1:-1]

 for msg_length in MSG_LENS:
     sender = fed_children[0].prepare_tx(src, dst, msg_length, NUM_MSGS)
     recver = fed_children[-1].prepare_rx(sender)
     wpan.Node.perform_async_tx_rx()
     verify(sender.was_successful)
     verify(recver.was_successful)

 # -----------------------------------------------------------------------------------------------------------------------
 # Test finished

 wpan.Node.finalize_all_nodes()

 print('\'{}\' passed.'.format(test_name))
	#!/usr/bin/env python3
	#
	# Copyright (c) 2018, 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 wpan
	from wpan import verify

	# -----------------------------------------------------------------------------------------------------------------------
	# Test description:
	#
	# Traffic over multi-hop in a network with chain topology
	#
	# r1 ----- r2 ---- r3 ----- r4
	# /\ \| \| /\
	# / \ \| \| / \
	# fed1 sed1 sed2 sed3 sed4 fed4
	#
	#
	# Traffic flow:
	# - From first router to last router
	# - From SED child of last router to SED child of first router
	# - From FED child of first router to FED child of last router
	#
	# The test verifies the following:
	# - Verifies Address Query process to routers and FEDs.
	# - Verifies Mesh Header frame forwarding over multiple routers.
	# - Verifies forwarding of large IPv6 messages (1000 bytes) requiring lowpan fragmentation.

	test_name = __file__[:-3] if __file__.endswith('.py') else __file__
	print('-' * 120)
	print('Starting \'{}\''.format(test_name))

	# -----------------------------------------------------------------------------------------------------------------------
	# Creating `wpan.Nodes` instances

	speedup = 4
	wpan.Node.set_time_speedup_factor(speedup)

	NUM_ROUTERS = 4

	routers = []
	sed_children = []
	fed_children = []

	for index in range(NUM_ROUTERS):
	routers.append(wpan.Node())
	sed_children.append(wpan.Node())

	fed_children.append(wpan.Node())
	fed_children.append(wpan.Node())

	all_nodes = routers + sed_children + fed_children

	# -----------------------------------------------------------------------------------------------------------------------
	# Init all nodes

	wpan.Node.init_all_nodes()

	# -----------------------------------------------------------------------------------------------------------------------
	# Build network topology
	#
	# r1 ----- r2 ---- r3 ----- r4
	# /\ \| \| /\
	# / \ \| \| / \
	# fed1 sed1 sed2 sed3 sed4 fed4

	# Whitelist routers with their corresponding sleepy children

	for index in range(0, NUM_ROUTERS):
	routers[index].whitelist_node(sed_children[index])
	sed_children[index].whitelist_node(routers[index])

	# Whitelist a FED child for the first and last routers

	routers[0].whitelist_node(fed_children[0])
	fed_children[0].whitelist_node(routers[0])

	routers[-1].whitelist_node(fed_children[-1])
	fed_children[-1].whitelist_node(routers[-1])

	# While list routers at [index-1] and [index]

	for index in range(1, NUM_ROUTERS):
	routers[index - 1].whitelist_node(routers[index])
	routers[index].whitelist_node(routers[index - 1])

	routers[0].form("multi-hop")
	sed_children[0].join_node(routers[0], wpan.JOIN_TYPE_SLEEPY_END_DEVICE)
	sed_children[0].set(wpan.WPAN_POLL_INTERVAL, '500')

	for index in range(1, NUM_ROUTERS):
	routers[index].join_node(routers[index - 1], wpan.JOIN_TYPE_ROUTER)
	sed_children[index].join_node(routers[index], wpan.JOIN_TYPE_SLEEPY_END_DEVICE)
	sed_children[index].set(wpan.WPAN_POLL_INTERVAL, '500')

	fed_children[0].join_node(routers[0], wpan.JOIN_TYPE_END_DEVICE)
	fed_children[-1].join_node(routers[-1], wpan.JOIN_TYPE_END_DEVICE)

	# -----------------------------------------------------------------------------------------------------------------------
	# Test implementation

	NUM_MSGS = 3
	MSG_LENS = [40, 100, 400, 800, 1000]

	# Wait till first router has either established a link or
	# has a valid "next hop" towards all other routers.

	ROUTER_TABLE_WAIT_TIME = 60 / speedup + 5
	INVALID_ROUTER_ID = 63

	r1_rloc = int(routers[0].get(wpan.WPAN_THREAD_RLOC16), 16)


	def check_r1_router_table():
	router_table = wpan.parse_router_table_result(routers[0].get(wpan.WPAN_THREAD_ROUTER_TABLE))
	verify(len(router_table) == NUM_ROUTERS)
	for entry in router_table:
	verify(entry.rloc16 == r1_rloc or entry.is_link_established() or entry.next_hop != INVALID_ROUTER_ID)


	wpan.verify_within(check_r1_router_table, ROUTER_TABLE_WAIT_TIME)

	# Send from the first router in the chain to the last one.

	src = routers[0].get(wpan.WPAN_IP6_MESH_LOCAL_ADDRESS)[1:-1]
	dst = routers[-1].get(wpan.WPAN_IP6_MESH_LOCAL_ADDRESS)[1:-1]

	for msg_length in MSG_LENS:
	sender = routers[0].prepare_tx(src, dst, msg_length, NUM_MSGS)
	recver = routers[-1].prepare_rx(sender)
	wpan.Node.perform_async_tx_rx()
	verify(sender.was_successful)
	verify(recver.was_successful)

	# Send from the SED child of the last router to the SED child of the first
	# router.

	src = sed_children[-1].get(wpan.WPAN_IP6_MESH_LOCAL_ADDRESS)[1:-1]
	dst = sed_children[0].get(wpan.WPAN_IP6_MESH_LOCAL_ADDRESS)[1:-1]

	for msg_length in MSG_LENS:
	sender = sed_children[-1].prepare_tx(src, dst, msg_length, NUM_MSGS)
	recver = sed_children[0].prepare_rx(sender)
	wpan.Node.perform_async_tx_rx()
	verify(sender.was_successful)
	verify(recver.was_successful)

	# Send from the FED child of the first router to the FED child of the last
	# router.

	src = fed_children[0].get(wpan.WPAN_IP6_MESH_LOCAL_ADDRESS)[1:-1]
	dst = fed_children[-1].get(wpan.WPAN_IP6_MESH_LOCAL_ADDRESS)[1:-1]

	for msg_length in MSG_LENS:
	sender = fed_children[0].prepare_tx(src, dst, msg_length, NUM_MSGS)
	recver = fed_children[-1].prepare_rx(sender)
	wpan.Node.perform_async_tx_rx()
	verify(sender.was_successful)
	verify(recver.was_successful)

	# -----------------------------------------------------------------------------------------------------------------------
	# Test finished

	wpan.Node.finalize_all_nodes()

	print('\'{}\' passed.'.format(test_name))