Files
openthread/tests/scripts/thread-cert/test_dnssd.py
T
Abtin Keshavarzian 5d09e9ca4f [mle] update number parent requests in an attach cycle (#7538)
This commit updates the MLE attach process so that in the first attach
cycle device tries a total of six MLE Parent Requests, the first two
to routers only followed by four to routers and REEDs. For example,
the six Parent Request message will be used before device can decide
to act the leader. An MTD in the next attach attempt (if cannot find a
parent in first attempt cycle), will go to the model of two Parent
Requests (first to routers, then to routers/REEDs).

This change impacts the time it takes for a device to start as leader
(due to increased number of Parent Request and wait time). This commit
updates different test scripts to address the change in the wait
time. It adds a new `config.LEADER_STARTUP_DELAY` constants which is
used for wait time for leader to start.
2022-07-07 16:50:21 -07:00

254 lines
10 KiB
Python
Executable File

#!/usr/bin/env python3
#
# Copyright (c) 2021, 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 ipaddress
import typing
import unittest
import config
import thread_cert
# Test description:
#
# This test verifies DNS-SD server and DNS client behavior
# (browsing for services and/or subtype services, resolving an
# address, or resolving a service). It also indirectly covers the SRP
# client and server behavior and the interactions of DNS-SD server
# with SRP server).
#
# Topology:
# Four nodes, leader acting as SRP and DNS-SD servers, with 3 router
# nodes acting as SRP and DNS clients.
#
SERVER = 1
CLIENT1 = 2
CLIENT2 = 3
CLIENT3 = 4
DOMAIN = 'default.service.arpa.'
SERVICE = '_ipps._tcp'
class TestDnssd(thread_cert.TestCase):
SUPPORT_NCP = False
USE_MESSAGE_FACTORY = False
TOPOLOGY = {
SERVER: {
'mode': 'rdn',
},
CLIENT1: {
'mode': 'rdn',
},
CLIENT2: {
'mode': 'rdn',
},
CLIENT3: {
'mode': 'rdn',
}
}
def test(self):
server = self.nodes[SERVER]
client1 = self.nodes[CLIENT1]
client2 = self.nodes[CLIENT2]
client3 = self.nodes[CLIENT3]
#---------------------------------------------------------------
# Start the server & client devices.
server.start()
self.simulator.go(config.LEADER_STARTUP_DELAY)
self.assertEqual(server.get_state(), 'leader')
server.srp_server_set_enabled(True)
client1.start()
client2.start()
client3.start()
self.simulator.go(config.ROUTER_STARTUP_DELAY)
self.assertEqual(client1.get_state(), 'router')
self.assertEqual(client2.get_state(), 'router')
self.assertEqual(client3.get_state(), 'router')
#---------------------------------------------------------------
# Register services on clients
client1_addrs = [client1.get_mleid(), client1.get_rloc()]
client2_addrs = [client2.get_mleid(), client2.get_rloc()]
client3_addrs = [client3.get_mleid(), client2.get_rloc()]
self._config_srp_client_services(client1, server, 'ins1', 'host1', 11111, 1, 1, client1_addrs, ",_s1,_s2")
self._config_srp_client_services(client2, server, 'ins2', 'HOST2', 22222, 2, 2, client2_addrs)
self._config_srp_client_services(client3, server, 'ins3', 'host3', 33333, 3, 3, client3_addrs, ",_S1")
#---------------------------------------------------------------
# Resolve address (AAAA records)
answers = client1.dns_resolve(f"host1.{DOMAIN}".upper(), server.get_mleid(), 53)
self.assertEqual(set(ipaddress.IPv6Address(ip) for ip, _ in answers),
set(map(ipaddress.IPv6Address, client1_addrs)))
answers = client1.dns_resolve(f"host2.{DOMAIN}", server.get_mleid(), 53)
self.assertEqual(set(ipaddress.IPv6Address(ip) for ip, _ in answers),
set(map(ipaddress.IPv6Address, client2_addrs)))
#---------------------------------------------------------------
# Browsing for services
instance1_verify_info = {
'port': 11111,
'priority': 1,
'weight': 1,
'host': 'host1.default.service.arpa.',
'address': client1_addrs,
'txt_data': '',
'srv_ttl': lambda x: x > 0,
'txt_ttl': lambda x: x > 0,
'aaaa_ttl': lambda x: x > 0,
}
instance2_verify_info = {
'port': 22222,
'priority': 2,
'weight': 2,
'host': 'host2.default.service.arpa.',
'address': client2_addrs,
'txt_data': '',
'srv_ttl': lambda x: x > 0,
'txt_ttl': lambda x: x > 0,
'aaaa_ttl': lambda x: x > 0,
}
instance3_verify_info = {
'port': 33333,
'priority': 3,
'weight': 3,
'host': 'host3.default.service.arpa.',
'address': client3_addrs,
'txt_data': '',
'srv_ttl': lambda x: x > 0,
'txt_ttl': lambda x: x > 0,
'aaaa_ttl': lambda x: x > 0,
}
instance4_verify_info = {
'port': 44444,
'priority': 4,
'weight': 4,
'host': 'host3.default.service.arpa.',
'address': client3_addrs,
'txt_data': 'KEY=414243', # KEY=ABC
'srv_ttl': lambda x: x > 0,
'txt_ttl': lambda x: x > 0,
'aaaa_ttl': lambda x: x > 0,
}
# Browse for main service
service_instances = client1.dns_browse(f'{SERVICE}.{DOMAIN}'.upper(), server.get_mleid(), 53)
self.assertEqual({'ins1', 'ins2', 'ins3'}, set(service_instances.keys()))
self._assert_service_instance_equal(service_instances['ins1'], instance1_verify_info)
self._assert_service_instance_equal(service_instances['ins2'], instance2_verify_info)
self._assert_service_instance_equal(service_instances['ins3'], instance3_verify_info)
# Browse for service sub-type _s1.
service_instances = client1.dns_browse(f'_s1._sub.{SERVICE}.{DOMAIN}'.upper(), server.get_mleid(), 53)
self.assertEqual({'ins1', 'ins3'}, set(service_instances.keys()))
self._assert_service_instance_equal(service_instances['ins1'], instance1_verify_info)
# Browse for service sub-type _s2.
service_instances = client1.dns_browse(f'_s2._sub.{SERVICE}.{DOMAIN}'.upper(), server.get_mleid(), 53)
self.assertEqual({'ins1'}, set(service_instances.keys()))
self._assert_service_instance_equal(service_instances['ins1'], instance1_verify_info)
#---------------------------------------------------------------
# Resolve service
service_instance = client1.dns_resolve_service('ins1', f'{SERVICE}.{DOMAIN}'.upper(), server.get_mleid(), 53)
self._assert_service_instance_equal(service_instance, instance1_verify_info)
service_instance = client1.dns_resolve_service('ins2', f'{SERVICE}.{DOMAIN}'.upper(), server.get_mleid(), 53)
self._assert_service_instance_equal(service_instance, instance2_verify_info)
#---------------------------------------------------------------
# Add another service with TXT entries to the existing host and
# verify that it is properly merged.
client3.srp_client_add_service('ins4', (SERVICE + ",_s1").upper(), 44444, 4, 4, txt_entries=['KEY=ABC'])
self.simulator.go(5)
service_instances = client1.dns_browse(f'{SERVICE}.{DOMAIN}', server.get_mleid(), 53)
self.assertEqual({'ins1', 'ins2', 'ins3', 'ins4'}, set(service_instances.keys()))
self._assert_service_instance_equal(service_instances['ins1'], instance1_verify_info)
self._assert_service_instance_equal(service_instances['ins2'], instance2_verify_info)
self._assert_service_instance_equal(service_instances['ins3'], instance3_verify_info)
self._assert_service_instance_equal(service_instances['ins4'], instance4_verify_info)
def _assert_service_instance_equal(self, instance, info):
self.assertEqual(instance['host'].lower(), info['host'].lower(), instance)
for f in ('port', 'priority', 'weight', 'txt_data'):
self.assertEqual(instance[f], info[f], instance)
verify_addresses = info['address']
if not isinstance(verify_addresses, typing.Collection):
verify_addresses = [verify_addresses]
self.assertIn(ipaddress.IPv6Address(instance['address']), map(ipaddress.IPv6Address, verify_addresses),
instance)
for ttl_f in ('srv_ttl', 'txt_ttl', 'aaaa_ttl'):
check_ttl = info[ttl_f]
if not callable(check_ttl):
check_ttl = lambda x: x == check_ttl
self.assertTrue(check_ttl(instance[ttl_f]), instance)
def _config_srp_client_services(self,
client,
server,
instancename,
hostname,
port,
priority,
weight,
addrs,
subtypes=''):
client.netdata_show()
srp_server_port = client.get_srp_server_port()
client.srp_client_start(server.get_mleid(), srp_server_port)
client.srp_client_set_host_name(hostname)
client.srp_client_set_host_address(*addrs)
client.srp_client_add_service(instancename, SERVICE + subtypes, port, priority, weight)
self.simulator.go(5)
self.assertEqual(client.srp_client_get_host_state(), 'Registered')
if __name__ == '__main__':
unittest.main()