stop_networkd(show_logs, remove_state_files)
start_networkd(sleep_sec)
-def get_operstate(link, show_status=True, setup_state='configured'):
- output = check_output(*networkctl_cmd, 'status', link, env=env)
- if show_status:
- print(output)
- for line in output.splitlines():
- if 'State:' in line and (not setup_state or setup_state in line):
- return line.split()[1]
- return None
class Utilities():
def check_link_exists(self, link):
self.assertTrue(link_exists(link))
- def check_operstate(self, link, expected, show_status=True, setup_state='configured'):
- self.assertRegex(get_operstate(link, show_status, setup_state), expected)
+ def wait_operstate(self, link, operstate='degraded', setup_state='configured', setup_timeout=5, fail_assert=True):
+ """Wait for the link to reach the specified operstate and/or setup state.
+
+ Specify None or '' for either operstate or setup_state to ignore that state.
+ This will recheck until the state conditions are met or the timeout expires.
+
+ If the link successfully matches the requested state, this returns True.
+ If this times out waiting for the link to match, the behavior depends on the
+ 'fail_assert' parameter; if True, this causes a test assertion failure,
+ otherwise this returns False. The default is to cause assertion failure.
+
+ Note that this function matches on *exactly* the given operstate and setup_state.
+ To wait for a link to reach *or exceed* a given operstate, use wait_online().
+ """
+ if not operstate:
+ operstate = r'\S+'
+ if not setup_state:
+ setup_state = r'\S+'
+
+ for secs in range(setup_timeout + 1):
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', link, env=env)
+ print(output)
+ if re.search(rf'(?m)^\s*State:\s+{operstate}\s+\({setup_state}\)\s*$', output):
+ return True
+ # don't bother sleeping if time is up
+ if secs < setup_timeout:
+ time.sleep(1)
+ if fail_assert:
+ self.fail(f'Timed out waiting for {link} to reach state {operstate}/{setup_state}')
+ return False
def wait_online(self, links_with_operstate, timeout='20s', bool_any=False, setup_state='configured', setup_timeout=5):
+ """Wait for the link(s) to reach the specified operstate and/or setup state.
+
+ This is similar to wait_operstate() but can be used for multiple links,
+ and it also calls systemd-networkd-wait-online to wait for the given operstate.
+ The operstate should be specified in the link name, like 'eth0:degraded'.
+ If just a link name is provided, wait-online's default operstate to wait for is degraded.
+
+ The 'timeout' parameter controls the systemd-networkd-wait-online timeout, and the
+ 'setup_timeout' controls the per-link timeout waiting for the setup_state.
+
+ Set 'bool_any' to True to wait for any (instead of all) of the given links.
+ If this is set, no setup_state checks are done.
+
+ Note that this function waits for the link(s) to reach *or exceed* the given operstate.
+ However, the setup_state, if specified, must be matched *exactly*.
+
+ This returns if the link(s) reached the requested operstate/setup_state; otherwise it
+ raises CalledProcessError or fails test assertion.
+ """
args = wait_online_cmd + [f'--timeout={timeout}'] + [f'--interface={link}' for link in links_with_operstate]
if bool_any:
args += ['--any']
check_output(*args, env=env)
except subprocess.CalledProcessError:
for link in links_with_operstate:
- output = check_output(*networkctl_cmd, 'status', link.split(':')[0], env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', link.split(':')[0], env=env)
print(output)
raise
if not bool_any and setup_state:
- # check at least once now, then once per sec for setup_timeout secs
- for secs in range(setup_timeout + 1):
- for link in links_with_operstate:
- output = check_output(*networkctl_cmd, 'status', link.split(':')[0])
- print(output)
- if not re.search(rf'(?m)^\s*State:.*({setup_state}).*$', output):
- # this link isn't in the right state; break into the sleep below
- break
- else:
- # all the links were in the right state; break to exit the timer loop
- break
- # don't bother sleeping if time is up
- if secs < setup_timeout:
- time.sleep(1)
- else:
- self.fail(f'link {link} state does not match {setup_state}')
+ for link in links_with_operstate:
+ self.wait_operstate(link.split(':')[0], None, setup_state, setup_timeout)
def wait_address(self, link, address_regex, scope='global', ipv='', timeout_sec=100):
for i in range(timeout_sec):
start_networkd()
self.wait_online(['dummy98:degraded'])
- output = check_output(*networkctl_cmd, 'status', 'dummy98', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'dummy98', env=env)
self.assertRegex(output, 'hogehogehogehogehogehoge')
def test_reconfigure(self):
copy_unit_to_networkd_unit_path('11-dummy.netdev')
check_output(*networkctl_cmd, 'reload', env=env)
- time.sleep(3)
- self.check_link_exists('test1')
- self.check_operstate('test1', 'off', setup_state='unmanaged')
+ self.wait_operstate('test1', 'off', setup_state='unmanaged')
copy_unit_to_networkd_unit_path('11-dummy.network')
check_output(*networkctl_cmd, 'reload', env=env)
remove_unit_from_networkd_path(['11-dummy.network'])
check_output(*networkctl_cmd, 'reload', env=env)
- time.sleep(1)
- self.check_operstate('test1', 'degraded', setup_state='unmanaged')
+ self.wait_operstate('test1', 'degraded', setup_state='unmanaged')
remove_unit_from_networkd_path(['11-dummy.netdev'])
check_output(*networkctl_cmd, 'reload', env=env)
- self.check_operstate('test1', 'degraded', setup_state='unmanaged')
+ self.wait_operstate('test1', 'degraded', setup_state='unmanaged')
copy_unit_to_networkd_unit_path('11-dummy.netdev', '11-dummy.network')
check_output(*networkctl_cmd, 'reload', env=env)
- self.check_operstate('test1', 'degraded')
+ self.wait_operstate('test1', 'degraded')
def test_glob(self):
copy_unit_to_networkd_unit_path('11-dummy.netdev', '11-dummy.network')
self.assertNotRegex(output, '1 lo ')
self.assertRegex(output, 'test1')
- output = check_output(*networkctl_cmd, 'status', 'te*', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'te*', env=env)
self.assertNotRegex(output, '1: lo ')
self.assertRegex(output, 'test1')
- output = check_output(*networkctl_cmd, 'status', 'tes[a-z][0-9]', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'tes[a-z][0-9]', env=env)
self.assertNotRegex(output, '1: lo ')
self.assertRegex(output, 'test1')
self.wait_online(['test1:degraded'])
- output = check_output(*networkctl_cmd, 'status', 'test1', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'test1', env=env)
self.assertRegex(output, 'MTU: 1600')
def test_type(self):
start_networkd()
self.wait_online(['test1:degraded'])
- output = check_output(*networkctl_cmd, 'status', 'test1', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'test1', env=env)
print(output)
self.assertRegex(output, 'Type: ether')
- output = check_output(*networkctl_cmd, 'status', 'lo', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'lo', env=env)
print(output)
self.assertRegex(output, 'Type: loopback')
start_networkd()
self.wait_online(['test1:degraded'])
- output = check_output(*networkctl_cmd, 'status', 'test1', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'test1', env=env)
print(output)
self.assertRegex(output, r'Link File: (/usr)?/lib/systemd/network/99-default.link')
self.assertRegex(output, r'Network File: /run/systemd/network/11-dummy.network')
- output = check_output(*networkctl_cmd, 'status', 'lo', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'lo', env=env)
print(output)
self.assertRegex(output, r'Link File: (/usr)?/lib/systemd/network/99-default.link')
self.assertRegex(output, r'Network File: n/a')
start_networkd()
self.wait_online(['dummy98:routable'])
- output = check_output('networkctl status dummy98')
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'dummy98', env=env)
print(output)
self.assertRegex(output, 'Network File: /run/systemd/network/14-match-udev-property')
self.wait_online(['bridge99', 'test1:degraded'], bool_any=True)
- self.check_operstate('bridge99', '(off|no-carrier)', setup_state='configuring')
- self.check_operstate('test1', 'degraded')
+ self.wait_operstate('bridge99', '(off|no-carrier)', setup_state='configuring')
+ self.wait_operstate('test1', 'degraded')
def test_bridge(self):
copy_unit_to_networkd_unit_path('25-bridge.netdev', '25-bridge-configure-without-carrier.network')
self.assertEqual(1, int(read_link_attr('bridge99', 'bridge', 'stp_state')))
self.assertEqual(3, int(read_link_attr('bridge99', 'bridge', 'multicast_igmp_version')))
- output = check_output(*networkctl_cmd, 'status', 'bridge99', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'bridge99', env=env)
print(output)
self.assertRegex(output, 'Priority: 9')
self.assertRegex(output, 'STP: yes')
self.assertRegex(output, '00:11:22:33:44:66 dst 10.0.0.6 self permanent')
self.assertRegex(output, '00:11:22:33:44:77 dst 10.0.0.7 self permanent')
- output = check_output(*networkctl_cmd, 'status', 'vxlan99', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'vxlan99', env=env)
print(output)
self.assertRegex(output, 'VNI: 999')
self.assertRegex(output, 'Destination Port: 5555')
start_networkd()
self.wait_online(['test1:routable'])
- output = check_output(*networkctl_cmd, 'status', 'test1', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'test1', env=env)
print(output)
self.assertRegex(output, '192.168.0.15')
self.assertRegex(output, '192.168.0.1')
start_networkd()
self.wait_online(['dummy98:routable'])
- output = check_output(*networkctl_cmd, 'status', 'dummy98', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'dummy98', env=env)
print(output)
print('### ip -6 route show dev dummy98')
print(output)
self.assertRegex(output, 'prohibit 202.54.1.4 proto static')
+ print('### ip route show 192.168.10.1')
+ output = check_output('ip route show 192.168.10.1')
+ print(output)
+ self.assertRegex(output, '192.168.10.1 proto static')
+ self.assertRegex(output, 'nexthop via 149.10.124.59 dev dummy98 weight 10')
+ self.assertRegex(output, 'nexthop via 149.10.124.60 dev dummy98 weight 5')
+
+ print('### ip route show 192.168.10.2')
+ output = check_output('ip route show 192.168.10.2')
+ print(output)
+ # old ip command does not show IPv6 gateways...
+ self.assertRegex(output, '192.168.10.2 proto static')
+ self.assertRegex(output, 'nexthop')
+ self.assertRegex(output, 'dev dummy98 weight 10')
+ self.assertRegex(output, 'dev dummy98 weight 5')
+
+ print('### ip -6 route show 2001:1234:5:7fff:ff:ff:ff:ff')
+ output = check_output('ip -6 route show 2001:1234:5:7fff:ff:ff:ff:ff')
+ print(output)
+ # old ip command does not show 'nexthop' keyword and weight...
+ self.assertRegex(output, '2001:1234:5:7fff:ff:ff:ff:ff')
+ self.assertRegex(output, 'via 2001:1234:5:8fff:ff:ff:ff:ff dev dummy98')
+ self.assertRegex(output, 'via 2001:1234:5:9fff:ff:ff:ff:ff dev dummy98')
+
def test_gateway_reconfigure(self):
copy_unit_to_networkd_unit_path('25-gateway-static.network', '12-dummy.netdev')
start_networkd()
self.check_link_exists('dummy98')
- self.check_operstate('dummy98', 'off', setup_state='unmanaged')
+ self.wait_operstate('dummy98', 'off', setup_state='unmanaged')
def test_ipv6_address_label(self):
copy_unit_to_networkd_unit_path('25-ipv6-address-label-section.network', '12-dummy.netdev')
print(output)
self.assertRegex(output, 'UP,LOWER_UP')
self.assertRegex(output, 'inet 192.168.10.30/24 brd 192.168.10.255 scope global test1')
- self.check_operstate('test1', 'routable')
+ self.wait_operstate('test1', 'routable')
check_output('ip link add dummy99 type dummy')
check_output('ip link set dummy99 up')
print(output)
self.assertRegex(output, 'UP,LOWER_UP')
self.assertRegex(output, 'inet 192.168.10.30/24 brd 192.168.10.255 scope global test1')
- self.check_operstate('test1', 'routable')
+ self.wait_operstate('test1', 'routable')
check_output('ip link del dummy98')
time.sleep(2)
print(output)
self.assertRegex(output, 'UP,LOWER_UP')
self.assertRegex(output, 'inet 192.168.10.30/24 brd 192.168.10.255 scope global test1')
- self.check_operstate('test1', 'routable')
+ self.wait_operstate('test1', 'routable')
check_output('ip link set dummy99 down')
time.sleep(2)
self.assertNotRegex(output, 'UP,LOWER_UP')
self.assertRegex(output, 'DOWN')
self.assertNotRegex(output, '192.168.10')
- self.check_operstate('test1', 'off')
+ self.wait_operstate('test1', 'off')
check_output('ip link set dummy99 up')
time.sleep(2)
print(output)
self.assertRegex(output, 'UP,LOWER_UP')
self.assertRegex(output, 'inet 192.168.10.30/24 brd 192.168.10.255 scope global test1')
- self.check_operstate('test1', 'routable')
+ self.wait_operstate('test1', 'routable')
def test_domain(self):
copy_unit_to_networkd_unit_path('12-dummy.netdev', '24-search-domain.network')
start_networkd()
self.wait_online(['dummy98:routable'])
- output = check_output(*networkctl_cmd, 'status', 'dummy98', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'dummy98', env=env)
print(output)
self.assertRegex(output, 'Address: 192.168.42.100')
self.assertRegex(output, 'DNS: 192.168.42.1')
print(output)
self.assertRegex(output, 'MASTER,UP,LOWER_UP')
- self.check_operstate('dummy98', 'enslaved')
- self.check_operstate('test1', 'enslaved')
- self.check_operstate('bond99', 'routable')
+ self.wait_operstate('dummy98', 'enslaved')
+ self.wait_operstate('test1', 'enslaved')
+ self.wait_operstate('bond99', 'routable')
check_output('ip link set dummy98 down')
- time.sleep(2)
- self.check_operstate('dummy98', 'off')
- self.check_operstate('test1', 'enslaved')
- self.check_operstate('bond99', 'degraded-carrier')
+ self.wait_operstate('dummy98', 'off')
+ self.wait_operstate('test1', 'enslaved')
+ self.wait_operstate('bond99', 'degraded-carrier')
check_output('ip link set dummy98 up')
- time.sleep(2)
- self.check_operstate('dummy98', 'enslaved')
- self.check_operstate('test1', 'enslaved')
- self.check_operstate('bond99', 'routable')
+ self.wait_operstate('dummy98', 'enslaved')
+ self.wait_operstate('test1', 'enslaved')
+ self.wait_operstate('bond99', 'routable')
check_output('ip link set dummy98 down')
check_output('ip link set test1 down')
- time.sleep(2)
- self.check_operstate('dummy98', 'off')
- self.check_operstate('test1', 'off')
+ self.wait_operstate('dummy98', 'off')
+ self.wait_operstate('test1', 'off')
- for trial in range(30):
- if trial > 0:
- time.sleep(1)
- output = check_output('ip address show bond99')
- print(output)
- if get_operstate('bond99') == 'no-carrier':
- break
- else:
+ if not self.wait_operstate('bond99', 'no-carrier', setup_timeout=30, fail_assert=False):
# Huh? Kernel does not recognize that all slave interfaces are down?
# Let's confirm that networkd's operstate is consistent with ip's result.
self.assertNotRegex(output, 'NO-CARRIER')
self.assertRegex(output, 'ff00::/8 table local metric 256 pref medium')
self.assertEqual(call('ip link del test1'), 0)
- time.sleep(3)
- self.check_operstate('bridge99', 'degraded-carrier')
+ self.wait_operstate('bridge99', 'degraded-carrier')
check_output('ip link del dummy98')
- time.sleep(3)
- self.check_operstate('bridge99', 'no-carrier')
+ self.wait_operstate('bridge99', 'no-carrier')
output = check_output('ip address show bridge99')
print(output)
start_networkd()
self.wait_online(['veth99:routable', 'veth-peer:degraded'])
- output = check_output(*networkctl_cmd, 'status', 'veth99', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'veth99', env=env)
print(output)
self.assertRegex(output, '2002:da8:1:0')
start_networkd()
self.wait_online(['veth99:routable', 'veth-peer:routable'])
- output = check_output(*networkctl_cmd, 'status', 'veth99', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'veth99', env=env)
print(output)
self.assertRegex(output, '192.168.5.*')
self.assertRegex(output, 'Gateway: 192.168.5.1')
start_networkd()
self.wait_online(['veth99:routable', 'veth-peer:routable'])
- output = check_output(*networkctl_cmd, 'status', 'veth99', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'veth99', env=env)
print(output)
self.assertRegex(output, 'Gateway: 192.168.5.*')
self.assertRegex(output, '192.168.5.*')
'25-vrf.network',
'dhcp-client-anonymize.network',
'dhcp-client-decline.network',
+ 'dhcp-client-gateway-ipv4.network',
+ 'dhcp-client-gateway-ipv6.network',
'dhcp-client-gateway-onlink-implicit.network',
'dhcp-client-ipv4-dhcp-settings.network',
'dhcp-client-ipv4-only-ipv6-disabled.network',
start_dnsmasq()
self.wait_online(['veth99:routable', 'veth-peer:routable'])
- output = check_output(*networkctl_cmd, 'status', 'veth99', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'veth99', env=env)
print(output)
self.assertRegex(output, '2600::')
self.assertNotRegex(output, '192.168.5')
start_dnsmasq(additional_options='--dhcp-option=option:dns-server,192.168.5.6,192.168.5.7', lease_time='2m')
self.wait_online(['veth99:routable', 'veth-peer:routable'])
- output = check_output(*networkctl_cmd, 'status', 'veth99', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'veth99', env=env)
print(output)
self.assertNotRegex(output, '2600::')
self.assertRegex(output, '192.168.5')
self.wait_online(['veth99:routable', 'veth-peer:routable'])
- output = check_output(*networkctl_cmd, 'status', 'veth99', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'veth99', env=env)
print(output)
self.assertNotRegex(output, '2600::')
self.assertRegex(output, '192.168.5')
self.wait_address('veth99', r'inet 192.168.5.[0-9]*/24 brd 192.168.5.255 scope global dynamic', ipv='-4')
self.wait_address('veth99', r'inet6 2600::[0-9a-f]*/128 scope global (dynamic noprefixroute|noprefixroute dynamic)', ipv='-6')
- output = check_output(*networkctl_cmd, 'status', 'veth99', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'veth99', env=env)
print(output)
self.assertRegex(output, '2600::')
self.assertRegex(output, '192.168.5')
print(output)
self.assertRegex(output, r'192.168.5.*')
- output = check_output(*networkctl_cmd, 'status', 'veth99', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'veth99', env=env)
print(output)
self.assertRegex(output, r'192.168.5.*')
print(output)
self.assertRegex(output, r'192.168.5.*')
- output = check_output(*networkctl_cmd, 'status', 'veth99', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'veth99', env=env)
print(output)
self.assertRegex(output, r'192.168.5.*')
print(output)
self.assertRegex(output, r'192.168.5.*')
- output = check_output(*networkctl_cmd, 'status', 'veth99', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'veth99', env=env)
print(output)
self.assertRegex(output, r'192.168.5.*')
print(output)
self.assertRegex(output, r'192.168.5.*')
- output = check_output(*networkctl_cmd, 'status', 'veth99', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'veth99', env=env)
print(output)
self.assertRegex(output, r'192.168.5.*')
print(output)
self.assertEqual(output, '')
+ def test_dhcp_client_gateway_ipv4(self):
+ copy_unit_to_networkd_unit_path('25-veth.netdev', 'dhcp-server-veth-peer.network',
+ 'dhcp-client-gateway-ipv4.network')
+ start_networkd()
+ self.wait_online(['veth-peer:carrier'])
+ start_dnsmasq()
+ self.wait_online(['veth99:routable', 'veth-peer:routable'])
+
+ output = check_output('ip route list dev veth99 10.0.0.0/8')
+ print(output)
+ self.assertRegex(output, '10.0.0.0/8 via 192.168.5.1 proto static')
+
+ def test_dhcp_client_gateway_ipv6(self):
+ copy_unit_to_networkd_unit_path('25-veth.netdev', 'dhcp-server-veth-peer.network',
+ 'dhcp-client-gateway-ipv6.network')
+ start_networkd()
+ self.wait_online(['veth-peer:carrier'])
+ start_dnsmasq()
+ self.wait_online(['veth99:routable', 'veth-peer:routable'])
+
+ output = check_output('ip -6 route list dev veth99 2001:1234:5:9fff:ff:ff:ff:ff')
+ print(output)
+ self.assertRegex(output, 'via fe80::1034:56ff:fe78:9abd')
+
def test_dhcp_client_gateway_onlink_implicit(self):
copy_unit_to_networkd_unit_path('25-veth.netdev', 'dhcp-server-veth-peer.network',
'dhcp-client-gateway-onlink-implicit.network')
start_dnsmasq()
self.wait_online(['veth99:routable', 'veth-peer:routable'])
- output = check_output(*networkctl_cmd, 'status', 'veth99', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'veth99', env=env)
print(output)
self.assertRegex(output, '192.168.5')
start_dnsmasq('--dhcp-option=option:domain-search,example.com')
self.wait_online(['veth99:routable', 'veth-peer:routable'])
- output = check_output(*networkctl_cmd, 'status', 'veth99', env=env)
+ output = check_output(*networkctl_cmd, '-n', '0', 'status', 'veth99', env=env)
print(output)
self.assertRegex(output, 'Search Domains: example.com')