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mirror of https://git.kernel.org/pub/scm/network/wireless/iwd.git synced 2024-11-25 17:59:25 +01:00

autotests: DHCPv4 renewal/resend test in testNetconfig

Test that the DHCPv4 lease got renewed after the T1 timer runs out.
Then also simulate the DHCPREQUEST during renew being lost and
retransmitted and the lease eventually getting renewed T1 + 60s later.

The main downside is that this test will inevitably take a while if
running in Qemu without the time travel ability.

Update the test and some utility code to run hostapd in an isolated net
namespace for connection_test.py.  We now need a second hostapd
instance though because in static_test.py we test ACD and we need to
produce an IP conflict.  Moving the hostapd instance unexpectedly fixes
dhcpd's internal mechanism to avoid IP conflicts and it would no longer
assign 192.168.1.10 to the second client, it'd notice that address was
already in use and assign the next free address, or fail if there was
none.  So add a second hostapd instance that runs in the main namespace
together with the statically-configured client, it turns out the test
relies on the kernel being unable to deliver IP traffic to interfaces on
the same system.
This commit is contained in:
Andrew Zaborowski 2022-07-09 02:23:32 +02:00 committed by Denis Kenzior
parent 39fa246d9e
commit 187706c348
8 changed files with 201 additions and 37 deletions

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@ -1,6 +1,6 @@
hw_mode=g
channel=1
ssid=ssidTKIP
ssid=ap-main
wpa=1
wpa_pairwise=TKIP

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@ -0,0 +1,7 @@
hw_mode=g
channel=1
ssid=ap-ns1
wpa=1
wpa_pairwise=TKIP
wpa_passphrase=secret123

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@ -13,6 +13,7 @@ import testutil
from config import ctx
import os
import socket
import datetime, time
class Test(unittest.TestCase):
@ -27,6 +28,14 @@ class Test(unittest.TestCase):
return True
def get_ll_addrs6(ns, ifname):
show_ip = ns.start_process(['ip', 'addr', 'show', ifname])
show_ip.wait()
for l in show_ip.out.split('\n'):
if 'inet6 fe80::' in l:
return socket.inet_pton(socket.AF_INET6, l.split(None, 1)[1].split('/', 1)[0])
return None
wd = IWD(True)
psk_agent = PSKAgent("secret123")
@ -35,7 +44,7 @@ class Test(unittest.TestCase):
devices = wd.list_devices(1)
device = devices[0]
ordered_network = device.get_ordered_network('ssidTKIP')
ordered_network = device.get_ordered_network('ap-ns1')
self.assertEqual(ordered_network.type, NetworkType.psk)
@ -46,18 +55,21 @@ class Test(unittest.TestCase):
condition = 'obj.state == DeviceState.connected'
wd.wait_for_object_condition(device, condition)
connect_time = time.time()
testutil.test_iface_operstate()
testutil.test_ifaces_connected()
testutil.test_ip_address_match(device.name, '192.168.1.10', 17, 24)
ctx.non_block_wait(check_addr, 10, device,
exception=Exception("IPv6 address was not set"))
# Cannot use test_ifaces_connected() across namespaces (implementation details)
testutil.test_ip_connected(('192.168.1.10', ctx), ('192.168.1.1', self.ns1))
ifname = str(device.name)
router_ll_addr = [addr for addr, _, _ in testutil.get_addrs6(self.hapd.ifname) if addr[0:2] == b'\xfe\x80'][0]
router_ll_addr = get_ll_addrs6(self.ns1, self.hapd.ifname)
# Since we're in an isolated VM with freshly created interfaces we know any routes
# will have been created by IWD and don't have to allow for pre-existing routes
# will have been created by IWD and we don't have to allow for pre-existing routes
# in the table.
# Flags: 1=RTF_UP, 2=RTF_GATEWAY
expected_routes4 = {
@ -94,6 +106,67 @@ class Test(unittest.TestCase):
# of our log since we care about the end result here.
self.assertEqual(expected_rclog, entries[-3:])
leases_file = self.parse_lease_file('/tmp/dhcpd.leases', socket.AF_INET)
lease = leases_file['leases'][socket.inet_pton(socket.AF_INET, '192.168.1.10')]
self.assertEqual(lease['state'], 'active')
self.assertTrue(lease['starts'] < connect_time)
self.assertTrue(lease['ends'] > connect_time)
# The T1 is 15 seconds per dhcpd.conf. This is the approximate interval between lease
# renewals we should see from the client (+/- 1 second + some jitter). Wait a little
# less than twice that time (25s) so that we can expect the lease was renewed strictly
# once (not 0 or 2 times) by that time, check that the lease timestamps have changed by
# at least 10s so as to leave a lot of margin.
renew_time = lease['starts'] + 15
now = time.time()
ctx.non_block_wait(lambda: False, renew_time + 10 - now, exception=False)
leases_file = self.parse_lease_file('/tmp/dhcpd.leases', socket.AF_INET)
new_lease = leases_file['leases'][socket.inet_pton(socket.AF_INET, '192.168.1.10')]
self.assertEqual(new_lease['state'], 'active')
self.assertTrue(new_lease['starts'] > lease['starts'] + 10)
self.assertTrue(new_lease['starts'] < lease['starts'] + 25)
self.assertTrue(new_lease['ends'] > lease['ends'] + 10)
self.assertTrue(new_lease['ends'] < lease['ends'] + 25)
# Now wait another T1 seconds but don't let our DHCP client get its REQUEST out this
# time so as to test renew timeouts and resends. The retry interval is 60 seconds
# since (T2 - T1) / 2 is shorter than 60s. It is now about 10s since the last
# renewal or 5s before the next DHCPREQUEST frame that is going to be lost. We'll
# wait T1 seconds, so until about 10s after the failed attempt, we'll check that
# there was no renewal by that time, just in case, and we'll reenable frame delivery.
# We'll then wait another 60s and we should see the lease has been successfully
# renewed some 10 seconds earlier on the 1st DHCPREQUEST retransmission.
#
# We can't use hswim to block the frames from reaching the AP because we'd lose
# beacons and get disconnected. We also can't drop our subnet route or IP address
# because IWD's sendto() call would synchronously error out and the DHCP client
# would just give up. Add a false route to break routing to 192.168.1.1 and delete
# it afterwards.
os.system('ip route add 192.168.1.1/32 dev ' + ifname + ' via 192.168.1.100 preference 0')
lease = new_lease
renew_time = lease['starts'] + 15
now = time.time()
ctx.non_block_wait(lambda: False, renew_time + 10 - now, exception=False)
leases_file = self.parse_lease_file('/tmp/dhcpd.leases', socket.AF_INET)
new_lease = leases_file['leases'][socket.inet_pton(socket.AF_INET, '192.168.1.10')]
self.assertEqual(new_lease['starts'], lease['starts'])
os.system('ip route del 192.168.1.1/32 dev ' + ifname + ' via 192.168.1.100 preference 0')
retry_time = lease['starts'] + 75
now = time.time()
ctx.non_block_wait(lambda: False, retry_time + 10 - now, exception=False)
leases_file = self.parse_lease_file('/tmp/dhcpd.leases', socket.AF_INET)
new_lease = leases_file['leases'][socket.inet_pton(socket.AF_INET, '192.168.1.10')]
self.assertEqual(new_lease['state'], 'active')
self.assertTrue(new_lease['starts'] > lease['starts'] + 70)
self.assertTrue(new_lease['starts'] < lease['starts'] + 85)
self.assertTrue(new_lease['ends'] > lease['ends'] + 70)
self.assertTrue(new_lease['ends'] < lease['ends'] + 85)
device.disconnect()
condition = 'not obj.connected'
@ -116,25 +189,27 @@ class Test(unittest.TestCase):
except:
pass
hapd = HostapdCLI()
cls.hapd = hapd
cls.ns1 = ctx.get_namespace('ns1')
cls.hapd = HostapdCLI('ap-ns1.conf')
# TODO: This could be moved into test-runner itself if other tests ever
# require this functionality (p2p, FILS, etc.). Since its simple
# enough it can stay here for now.
ctx.start_process(['ip', 'addr','add', '192.168.1.1/255.255.128.0',
'dev', hapd.ifname,]).wait()
ctx.start_process(['touch', '/tmp/dhcpd.leases']).wait()
cls.dhcpd_pid = ctx.start_process(['dhcpd', '-f', '-cf', '/tmp/dhcpd.conf',
'-lf', '/tmp/dhcpd.leases',
hapd.ifname], cleanup=remove_lease4)
cls.ns1.start_process(['ip', 'addr','add', '192.168.1.1/17',
'dev', cls.hapd.ifname]).wait()
cls.ns1.start_process(['touch', '/tmp/dhcpd.leases']).wait()
cls.dhcpd_pid = cls.ns1.start_process(['dhcpd', '-f', '-d', '-cf', '/tmp/dhcpd.conf',
'-lf', '/tmp/dhcpd.leases',
cls.hapd.ifname], cleanup=remove_lease4)
ctx.start_process(['ip', 'addr', 'add', '3ffe:501:ffff:100::1/72',
'dev', hapd.ifname]).wait()
ctx.start_process(['touch', '/tmp/dhcpd6.leases']).wait()
cls.dhcpd6_pid = ctx.start_process(['dhcpd', '-6', '-f', '-cf', '/tmp/dhcpd-v6.conf',
'-lf', '/tmp/dhcpd6.leases',
hapd.ifname], cleanup=remove_lease6)
ctx.start_process(['sysctl', 'net.ipv6.conf.' + hapd.ifname + '.forwarding=1']).wait()
cls.ns1.start_process(['ip', 'addr', 'add', '3ffe:501:ffff:100::1/72',
'dev', cls.hapd.ifname]).wait()
cls.ns1.start_process(['touch', '/tmp/dhcpd6.leases']).wait()
cls.dhcpd6_pid = cls.ns1.start_process(['dhcpd', '-6', '-f', '-d',
'-cf', '/tmp/dhcpd-v6.conf',
'-lf', '/tmp/dhcpd6.leases',
cls.hapd.ifname], cleanup=remove_lease6)
cls.ns1.start_process(['sysctl',
'net.ipv6.conf.' + cls.hapd.ifname + '.forwarding=1']).wait()
# Send out Router Advertisements telling clients to use DHCPv6.
# Note trying to send the RAs from the router's global IPv6 address by adding a
# "AdvRASrcAddress { 3ffe:501:ffff:100::1; };" line will fail because the client
@ -142,7 +217,7 @@ class Test(unittest.TestCase):
# with a non-link-local gateway address that is present on another interface in the
# same namespace.
config = open('/tmp/radvd.conf', 'w')
config.write('interface ' + hapd.ifname + ''' {
config.write('interface ' + cls.hapd.ifname + ''' {
AdvSendAdvert on;
AdvManagedFlag on;
prefix 3ffe:501:ffff:100::/72 { AdvAutonomous off; };
@ -151,7 +226,8 @@ class Test(unittest.TestCase):
route 3ffe:501:ffff:500::/66 { AdvRoutePreference high; };
};''')
config.close()
cls.radvd_pid = ctx.start_process(['radvd', '-n', '-d5', '-p', '/tmp/radvd.pid', '-C', '/tmp/radvd.conf'])
cls.radvd_pid = cls.ns1.start_process(['radvd', '-n', '-d5',
'-p', '/tmp/radvd.pid', '-C', '/tmp/radvd.conf'])
cls.orig_path = os.environ['PATH']
os.environ['PATH'] = '/tmp/test-bin:' + os.environ['PATH']
@ -160,14 +236,83 @@ class Test(unittest.TestCase):
@classmethod
def tearDownClass(cls):
IWD.clear_storage()
ctx.stop_process(cls.dhcpd_pid)
cls.ns1.stop_process(cls.dhcpd_pid)
cls.dhcpd_pid = None
ctx.stop_process(cls.dhcpd6_pid)
cls.ns1.stop_process(cls.dhcpd6_pid)
cls.dhcpd6_pid = None
ctx.stop_process(cls.radvd_pid)
cls.ns1.stop_process(cls.radvd_pid)
cls.radvd_pid = None
os.system('rm -rf /tmp/radvd.conf /tmp/resolvconf.log /tmp/test-bin')
os.environ['PATH'] = cls.orig_path
@staticmethod
def parse_lease_file(path, family):
file = open(path, 'r')
lines = file.readlines()
file.close()
stack = [[]]
statement = []
token = ''
for line in lines:
whitespace = False
quote = False
for ch in line:
if not quote and ch in ' \t\r\n;{}=#':
if len(token):
statement.append(token)
token = ''
if not quote and ch in ';{}':
if len(statement):
stack[-1].append(statement)
statement = []
if ch == '"':
quote = not quote
elif quote or ch not in ' \t\r\n;{}#':
token += ch
if ch == '#':
break
elif ch == '{':
stack.append([])
elif ch == '}':
statements = stack.pop()
stack[-1][-1].append(statements)
if len(token):
statement.append(token)
token = ''
if len(statement):
stack[-1].append(statement)
statements = stack.pop(0)
if len(stack):
raise Exception('Unclosed block(s)')
contents = {'leases':{}}
for s in statements:
if s[0] == 'lease':
ip = socket.inet_pton(family, s[1])
lease = {}
for param in s[2]:
if param[0] in ('starts', 'ends', 'tstp', 'tsfp', 'atsfp', 'cltt'):
weekday = param[1]
year, month, day = param[2].split('/')
hour, minute, second = param[3].split(':')
dt = datetime.datetime(
int(year), int(month), int(day),
int(hour), int(minute), int(second),
tzinfo=datetime.timezone.utc)
lease[param[0]] = dt.timestamp()
elif param[0:2] == ['binding', 'state']:
lease['state'] = param[2]
elif param[0:2] == ['hardware', 'ethernet']:
lease['hwaddr'] = bytes([int(v, 16) for v in param[2].split(':')])
elif param[0] in ('preferred-life', 'max-life'):
lease[param[0]] = int(param[1])
elif param[0] in ('client-hostname'):
lease[param[0]] = param[1]
contents['leases'][ip] = lease # New entries overwrite older ones
elif s[0] == 'server-duid':
contents[s[0]] = s[1]
return contents
if __name__ == '__main__':
unittest.main(exit=True)

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@ -1,5 +1,15 @@
default-lease-time 600; # 10 minutes
max-lease-time 7200; # 2 hours
default-lease-time 120; # 2 minutes
min-lease-time 120; # 2 minutes
max-lease-time 120; # 2 minutes
option dhcp-renewal-time 15; # 15 secs for T1
# We set a relatively low lease lifetime of 2 minutes but our renewal interval
# (T1) is still unproportionally low to speed the test up -- 12% instead of the
# default 50% lifetime value. We need a lifetime in the order of minutes
# because minimum lease renewal retry interval is 60s per spec. However by
# default dhcpd will not renew leases that are newer than 25% their lifetime.
# Set that threshold to 1% so that we can verify that the lease is renewed
# without waiting too long.
dhcp-cache-threshold 1;
option broadcast-address 192.168.127.255;
option routers 192.168.1.254;

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@ -1,9 +1,11 @@
[SETUP]
num_radios=3
num_radios=4
start_iwd=0
[HOSTAPD]
rad0=ssidTKIP.conf
rad2=ap-main.conf
rad3=ap-ns1.conf
[NameSpaces]
ns0=rad2
ns0=rad0
ns1=rad3

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@ -32,7 +32,7 @@ class Test(unittest.TestCase):
dev1 = wd.list_devices(1)[0]
dev2 = wd_ns0.list_devices(1)[0]
ordered_network = dev1.get_ordered_network('ssidTKIP')
ordered_network = dev1.get_ordered_network('ap-main')
self.assertEqual(ordered_network.type, NetworkType.psk)
@ -80,7 +80,7 @@ class Test(unittest.TestCase):
# of the log since we care about the end result here.
self.assertEqual(expected_rclog, entries[-3:])
ordered_network = dev2.get_ordered_network('ssidTKIP')
ordered_network = dev2.get_ordered_network('ap-main')
condition = 'not obj.connected'
wd_ns0.wait_for_object_condition(ordered_network.network_object, condition)
@ -117,7 +117,7 @@ class Test(unittest.TestCase):
except:
pass
hapd = HostapdCLI()
hapd = HostapdCLI('ap-main.conf')
# TODO: This could be moved into test-runner itself if other tests ever
# require this functionality (p2p, FILS, etc.). Since it's simple
# enough it can stay here for now.
@ -127,7 +127,7 @@ class Test(unittest.TestCase):
cls.dhcpd_pid = ctx.start_process(['dhcpd', '-f', '-cf', '/tmp/dhcpd.conf',
'-lf', '/tmp/dhcpd.leases',
hapd.ifname], cleanup=remove_lease)
IWD.copy_to_storage('ssidTKIP.psk', '/tmp/storage')
IWD.copy_to_storage('static.psk', '/tmp/storage', 'ap-main.psk')
cls.orig_path = os.environ['PATH']
os.environ['PATH'] = '/tmp/test-bin:' + os.environ['PATH']

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@ -33,7 +33,7 @@ class HostapdCLI(object):
_instances = WeakValueDictionary()
def __new__(cls, config=None, *args, **kwargs):
hapd = ctx.hostapd[config]
hapd = ctx.get_hapd_instance(config)
if not config:
config = hapd.config
@ -58,10 +58,10 @@ class HostapdCLI(object):
if not ctx.hostapd:
raise Exception("No hostapd instances are configured")
if not config and len(ctx.hostapd.instances) > 1:
if not config and sum([len(hapd.instances) for hapd in ctx.hostapd]) > 1:
raise Exception('config must be provided if more than one hostapd instance exists')
hapd = ctx.hostapd[config]
hapd = ctx.get_hapd_instance(config)
self.interface = hapd.intf
self.config = hapd.config