#!/usr/bin/env python3 # SPDX-License-Identifier: LGPL-2.1+ # # networkd integration test # This uses temporary configuration in /run and temporary veth devices, and # does not write anything on disk or change any system configuration; # but it assumes (and checks at the beginning) that networkd is not currently # running. # # This can be run on a normal installation, in QEMU, nspawn (with # --private-network), LXD (with "--config raw.lxc=lxc.aa_profile=unconfined"), # or LXC system containers. You need at least the "ip" tool from the iproute # package; it is recommended to install dnsmasq too to get full test coverage. # # ATTENTION: This uses the *installed* networkd, not the one from the built # source tree. # # (C) 2015 Canonical Ltd. # Author: Martin Pitt import errno import os import shutil import socket import subprocess import sys import tempfile import time import unittest HAVE_DNSMASQ = shutil.which('dnsmasq') is not None NETWORK_UNITDIR = '/run/systemd/network' NETWORKD_WAIT_ONLINE = shutil.which('systemd-networkd-wait-online', path='/usr/lib/systemd:/lib/systemd') RESOLV_CONF = '/run/systemd/resolve/resolv.conf' def setUpModule(): """Initialize the environment, and perform sanity checks on it.""" if NETWORKD_WAIT_ONLINE is None: raise OSError(errno.ENOENT, 'systemd-networkd-wait-online not found') # Do not run any tests if the system is using networkd already. if subprocess.call(['systemctl', 'is-active', '--quiet', 'systemd-networkd.service']) == 0: raise unittest.SkipTest('networkd is already active') # Avoid "Failed to open /dev/tty" errors in containers. os.environ['SYSTEMD_LOG_TARGET'] = 'journal' # Ensure the unit directory exists so tests can dump files into it. os.makedirs(NETWORK_UNITDIR, exist_ok=True) class NetworkdTestingUtilities: """Provide a set of utility functions to facilitate networkd tests. This class must be inherited along with unittest.TestCase to define some required methods. """ def add_veth_pair(self, veth, peer, veth_options=(), peer_options=()): """Add a veth interface pair, and queue them to be removed.""" subprocess.check_call(['ip', 'link', 'add', 'name', veth] + list(veth_options) + ['type', 'veth', 'peer', 'name', peer] + list(peer_options)) self.addCleanup(subprocess.call, ['ip', 'link', 'del', 'dev', peer]) def write_network(self, unit_name, contents): """Write a network unit file, and queue it to be removed.""" unit_path = os.path.join(NETWORK_UNITDIR, unit_name) with open(unit_path, 'w') as unit: unit.write(contents) self.addCleanup(os.remove, unit_path) def write_network_dropin(self, unit_name, dropin_name, contents): """Write a network unit drop-in, and queue it to be removed.""" dropin_dir = os.path.join(NETWORK_UNITDIR, "{}.d".format(unit_name)) dropin_path = os.path.join(dropin_dir, "{}.conf".format(dropin_name)) os.makedirs(dropin_dir, exist_ok=True) self.addCleanup(os.rmdir, dropin_dir) with open(dropin_path, 'w') as dropin: dropin.write(contents) self.addCleanup(os.remove, dropin_path) def read_attr(self, link, attribute): """Read a link attributed from the sysfs.""" # Note we we don't want to check if interface `link' is managed, we # want to evaluate link variable and pass the value of the link to # assert_link_states e.g. eth0=managed. self.assert_link_states(**{link:'managed'}) with open(os.path.join('/sys/class/net', link, attribute)) as f: return f.readline().strip() def assert_link_states(self, **kwargs): """Match networkctl link states to the given ones. Each keyword argument should be the name of a network interface with its expected value of the "SETUP" column in output from networkctl. The interfaces have five seconds to come online before the check is performed. Every specified interface must be present in the output, and any other interfaces found in the output are ignored. A special interface state "managed" is supported, which matches any value in the "SETUP" column other than "unmanaged". """ if not kwargs: return interfaces = set(kwargs) # Wait for the requested interfaces, but don't fail for them. subprocess.call([NETWORKD_WAIT_ONLINE, '--timeout=5'] + ['--interface={}'.format(iface) for iface in kwargs]) # Validate each link state found in the networkctl output. out = subprocess.check_output(['networkctl', '--no-legend']).rstrip() for line in out.decode('utf-8').split('\n'): fields = line.split() if len(fields) >= 5 and fields[1] in kwargs: iface = fields[1] expected = kwargs[iface] actual = fields[-1] if (actual != expected and not (expected == 'managed' and actual != 'unmanaged')): self.fail("Link {} expects state {}, found {}".format(iface, expected, actual)) interfaces.remove(iface) # Ensure that all requested interfaces have been covered. if interfaces: self.fail("Missing links in status output: {}".format(interfaces)) class BridgeTest(NetworkdTestingUtilities, unittest.TestCase): """Provide common methods for testing networkd against servers.""" def setUp(self): self.write_network('port1.netdev', '''\ [NetDev] Name=port1 Kind=dummy MACAddress=12:34:56:78:9a:bc''') self.write_network('port2.netdev', '''\ [NetDev] Name=port2 Kind=dummy MACAddress=12:34:56:78:9a:bd''') self.write_network('mybridge.netdev', '''\ [NetDev] Name=mybridge Kind=bridge''') self.write_network('port1.network', '''\ [Match] Name=port1 [Network] Bridge=mybridge''') self.write_network('port2.network', '''\ [Match] Name=port2 [Network] Bridge=mybridge''') self.write_network('mybridge.network', '''\ [Match] Name=mybridge [Network] DNS=192.168.250.1 Address=192.168.250.33/24 Gateway=192.168.250.1''') subprocess.check_call(['systemctl', 'start', 'systemd-networkd']) def tearDown(self): subprocess.check_call(['systemctl', 'stop', 'systemd-networkd']) subprocess.check_call(['ip', 'link', 'del', 'mybridge']) subprocess.check_call(['ip', 'link', 'del', 'port1']) subprocess.check_call(['ip', 'link', 'del', 'port2']) def test_bridge_init(self): self.assert_link_states( port1='managed', port2='managed', mybridge='managed') def test_bridge_port_priority(self): self.assertEqual(self.read_attr('port1', 'brport/priority'), '32') self.write_network_dropin('port1.network', 'priority', '''\ [Bridge] Priority=28 ''') subprocess.check_call(['systemctl', 'restart', 'systemd-networkd']) self.assertEqual(self.read_attr('port1', 'brport/priority'), '28') def test_bridge_port_priority_set_zero(self): """It should be possible to set the bridge port priority to 0""" self.assertEqual(self.read_attr('port2', 'brport/priority'), '32') self.write_network_dropin('port2.network', 'priority', '''\ [Bridge] Priority=0 ''') subprocess.check_call(['systemctl', 'restart', 'systemd-networkd']) self.assertEqual(self.read_attr('port2', 'brport/priority'), '0') class ClientTestBase(NetworkdTestingUtilities): """Provide common methods for testing networkd against servers.""" @classmethod def setUpClass(klass): klass.orig_log_level = subprocess.check_output( ['systemctl', 'show', '--value', '--property', 'LogLevel'], universal_newlines=True).strip() subprocess.check_call(['systemd-analyze', 'set-log-level', 'debug']) @classmethod def tearDownClass(klass): subprocess.check_call(['systemd-analyze', 'set-log-level', klass.orig_log_level]) def setUp(self): self.iface = 'test_eth42' self.if_router = 'router_eth42' self.workdir_obj = tempfile.TemporaryDirectory() self.workdir = self.workdir_obj.name self.config = 'test_eth42.network' # get current journal cursor subprocess.check_output(['journalctl', '--sync']) out = subprocess.check_output(['journalctl', '-b', '--quiet', '--no-pager', '-n0', '--show-cursor'], universal_newlines=True) self.assertTrue(out.startswith('-- cursor:')) self.journal_cursor = out.split()[-1] def tearDown(self): self.shutdown_iface() subprocess.call(['systemctl', 'stop', 'systemd-networkd']) subprocess.call(['ip', 'link', 'del', 'dummy0'], stderr=subprocess.DEVNULL) def show_journal(self, unit): '''Show journal of given unit since start of the test''' print('---- {} ----'.format(unit)) subprocess.check_output(['journalctl', '--sync']) sys.stdout.flush() subprocess.call(['journalctl', '-b', '--no-pager', '--quiet', '--cursor', self.journal_cursor, '-u', unit]) def create_iface(self, ipv6=False): '''Create test interface with DHCP server behind it''' raise NotImplementedError('must be implemented by a subclass') def shutdown_iface(self): '''Remove test interface and stop DHCP server''' raise NotImplementedError('must be implemented by a subclass') def print_server_log(self): '''Print DHCP server log for debugging failures''' raise NotImplementedError('must be implemented by a subclass') def do_test(self, coldplug=True, ipv6=False, extra_opts='', online_timeout=10, dhcp_mode='yes'): try: subprocess.check_call(['systemctl', 'start', 'systemd-resolved']) except subprocess.CalledProcessError: self.show_journal('systemd-resolved.service') raise self.write_network(self.config, '''\ [Match] Name={} [Network] DHCP={} {}'''.format(self.iface, dhcp_mode, extra_opts)) if coldplug: # create interface first, then start networkd self.create_iface(ipv6=ipv6) subprocess.check_call(['systemctl', 'start', 'systemd-networkd']) elif coldplug is not None: # start networkd first, then create interface subprocess.check_call(['systemctl', 'start', 'systemd-networkd']) self.create_iface(ipv6=ipv6) else: # "None" means test sets up interface by itself subprocess.check_call(['systemctl', 'start', 'systemd-networkd']) try: subprocess.check_call([NETWORKD_WAIT_ONLINE, '--interface', self.iface, '--timeout=%i' % online_timeout]) if ipv6: # check iface state and IP 6 address; FIXME: we need to wait a bit # longer, as the iface is "configured" already with IPv4 *or* # IPv6, but we want to wait for both for _ in range(10): out = subprocess.check_output(['ip', 'a', 'show', 'dev', self.iface]) if b'state UP' in out and b'inet6 2600' in out and b'inet 192.168' in out: break time.sleep(1) else: self.fail('timed out waiting for IPv6 configuration') self.assertRegex(out, b'inet6 2600::.* scope global .*dynamic') self.assertRegex(out, b'inet6 fe80::.* scope link') else: # should have link-local address on IPv6 only out = subprocess.check_output(['ip', '-6', 'a', 'show', 'dev', self.iface]) self.assertRegex(out, br'inet6 fe80::.* scope link') self.assertNotIn(b'scope global', out) # should have IPv4 address out = subprocess.check_output(['ip', '-4', 'a', 'show', 'dev', self.iface]) self.assertIn(b'state UP', out) self.assertRegex(out, br'inet 192.168.5.\d+/.* scope global dynamic') # check networkctl state out = subprocess.check_output(['networkctl']) self.assertRegex(out, (r'{}\s+ether\s+[a-z-]+\s+unmanaged'.format(self.if_router)).encode()) self.assertRegex(out, (r'{}\s+ether\s+routable\s+configured'.format(self.iface)).encode()) out = subprocess.check_output(['networkctl', 'status', self.iface]) self.assertRegex(out, br'Type:\s+ether') self.assertRegex(out, br'State:\s+routable.*configured') self.assertRegex(out, br'Address:\s+192.168.5.\d+') if ipv6: self.assertRegex(out, br'2600::') else: self.assertNotIn(br'2600::', out) self.assertRegex(out, br'fe80::') self.assertRegex(out, br'Gateway:\s+192.168.5.1') self.assertRegex(out, br'DNS:\s+192.168.5.1') except (AssertionError, subprocess.CalledProcessError): # show networkd status, journal, and DHCP server log on failure with open(os.path.join(NETWORK_UNITDIR, self.config)) as f: print('\n---- {} ----\n{}'.format(self.config, f.read())) print('---- interface status ----') sys.stdout.flush() subprocess.call(['ip', 'a', 'show', 'dev', self.iface]) print('---- networkctl status {} ----'.format(self.iface)) sys.stdout.flush() subprocess.call(['networkctl', 'status', self.iface]) self.show_journal('systemd-networkd.service') self.print_server_log() raise for timeout in range(50): with open(RESOLV_CONF) as f: contents = f.read() if 'nameserver 192.168.5.1\n' in contents: break time.sleep(0.1) else: self.fail('nameserver 192.168.5.1 not found in ' + RESOLV_CONF) if coldplug is False: # check post-down.d hook self.shutdown_iface() def test_coldplug_dhcp_yes_ip4(self): # we have a 12s timeout on RA, so we need to wait longer self.do_test(coldplug=True, ipv6=False, online_timeout=15) def test_coldplug_dhcp_yes_ip4_no_ra(self): # with disabling RA explicitly things should be fast self.do_test(coldplug=True, ipv6=False, extra_opts='IPv6AcceptRA=False') def test_coldplug_dhcp_ip4_only(self): # we have a 12s timeout on RA, so we need to wait longer self.do_test(coldplug=True, ipv6=False, dhcp_mode='ipv4', online_timeout=15) def test_coldplug_dhcp_ip4_only_no_ra(self): # with disabling RA explicitly things should be fast self.do_test(coldplug=True, ipv6=False, dhcp_mode='ipv4', extra_opts='IPv6AcceptRA=False') def test_coldplug_dhcp_ip6(self): self.do_test(coldplug=True, ipv6=True) def test_hotplug_dhcp_ip4(self): # With IPv4 only we have a 12s timeout on RA, so we need to wait longer self.do_test(coldplug=False, ipv6=False, online_timeout=15) def test_hotplug_dhcp_ip6(self): self.do_test(coldplug=False, ipv6=True) def test_route_only_dns(self): self.write_network('myvpn.netdev', '''\ [NetDev] Name=dummy0 Kind=dummy MACAddress=12:34:56:78:9a:bc''') self.write_network('myvpn.network', '''\ [Match] Name=dummy0 [Network] Address=192.168.42.100 DNS=192.168.42.1 Domains= ~company''') self.do_test(coldplug=True, ipv6=False, extra_opts='IPv6AcceptRouterAdvertisements=False') with open(RESOLV_CONF) as f: contents = f.read() # ~company is not a search domain, only a routing domain self.assertNotRegex(contents, 'search.*company') # our global server should appear self.assertIn('nameserver 192.168.5.1\n', contents) # should not have domain-restricted server as global server self.assertNotIn('nameserver 192.168.42.1\n', contents) def test_route_only_dns_all_domains(self): self.write_network('myvpn.netdev', '''[NetDev] Name=dummy0 Kind=dummy MACAddress=12:34:56:78:9a:bc''') self.write_network('myvpn.network', '''[Match] Name=dummy0 [Network] Address=192.168.42.100 DNS=192.168.42.1 Domains= ~company ~.''') self.do_test(coldplug=True, ipv6=False, extra_opts='IPv6AcceptRouterAdvertisements=False') with open(RESOLV_CONF) as f: contents = f.read() # ~company is not a search domain, only a routing domain self.assertNotRegex(contents, 'search.*company') # our global server should appear self.assertIn('nameserver 192.168.5.1\n', contents) # should have company server as global server due to ~. self.assertIn('nameserver 192.168.42.1\n', contents) @unittest.skipUnless(HAVE_DNSMASQ, 'dnsmasq not installed') class DnsmasqClientTest(ClientTestBase, unittest.TestCase): '''Test networkd client against dnsmasq''' def setUp(self): super().setUp() self.dnsmasq = None self.iface_mac = 'de:ad:be:ef:47:11' def create_iface(self, ipv6=False, dnsmasq_opts=None): '''Create test interface with DHCP server behind it''' # add veth pair subprocess.check_call(['ip', 'link', 'add', 'name', self.iface, 'address', self.iface_mac, 'type', 'veth', 'peer', 'name', self.if_router]) # give our router an IP subprocess.check_call(['ip', 'a', 'flush', 'dev', self.if_router]) subprocess.check_call(['ip', 'a', 'add', '192.168.5.1/24', 'dev', self.if_router]) if ipv6: subprocess.check_call(['ip', 'a', 'add', '2600::1/64', 'dev', self.if_router]) subprocess.check_call(['ip', 'link', 'set', self.if_router, 'up']) # add DHCP server self.dnsmasq_log = os.path.join(self.workdir, 'dnsmasq.log') lease_file = os.path.join(self.workdir, 'dnsmasq.leases') if ipv6: extra_opts = ['--enable-ra', '--dhcp-range=2600::10,2600::20'] else: extra_opts = [] if dnsmasq_opts: extra_opts += dnsmasq_opts self.dnsmasq = subprocess.Popen( ['dnsmasq', '--keep-in-foreground', '--log-queries', '--log-facility=' + self.dnsmasq_log, '--conf-file=/dev/null', '--dhcp-leasefile=' + lease_file, '--bind-interfaces', '--interface=' + self.if_router, '--except-interface=lo', '--dhcp-range=192.168.5.10,192.168.5.200'] + extra_opts) def shutdown_iface(self): '''Remove test interface and stop DHCP server''' if self.if_router: subprocess.check_call(['ip', 'link', 'del', 'dev', self.if_router]) self.if_router = None if self.dnsmasq: self.dnsmasq.kill() self.dnsmasq.wait() self.dnsmasq = None def print_server_log(self): '''Print DHCP server log for debugging failures''' with open(self.dnsmasq_log) as f: sys.stdout.write('\n\n---- dnsmasq log ----\n{}\n------\n\n'.format(f.read())) def test_resolved_domain_restricted_dns(self): '''resolved: domain-restricted DNS servers''' # create interface for generic connections; this will map all DNS names # to 192.168.42.1 self.create_iface(dnsmasq_opts=['--address=/#/192.168.42.1']) self.write_network('general.network', '''\ [Match] Name={} [Network] DHCP=ipv4 IPv6AcceptRA=False'''.format(self.iface)) # create second device/dnsmasq for a .company/.lab VPN interface # static IPs for simplicity self.add_veth_pair('testvpnclient', 'testvpnrouter') subprocess.check_call(['ip', 'a', 'flush', 'dev', 'testvpnrouter']) subprocess.check_call(['ip', 'a', 'add', '10.241.3.1/24', 'dev', 'testvpnrouter']) subprocess.check_call(['ip', 'link', 'set', 'testvpnrouter', 'up']) vpn_dnsmasq_log = os.path.join(self.workdir, 'dnsmasq-vpn.log') vpn_dnsmasq = subprocess.Popen( ['dnsmasq', '--keep-in-foreground', '--log-queries', '--log-facility=' + vpn_dnsmasq_log, '--conf-file=/dev/null', '--dhcp-leasefile=/dev/null', '--bind-interfaces', '--interface=testvpnrouter', '--except-interface=lo', '--address=/math.lab/10.241.3.3', '--address=/cantina.company/10.241.4.4']) self.addCleanup(vpn_dnsmasq.wait) self.addCleanup(vpn_dnsmasq.kill) self.write_network('vpn.network', '''\ [Match] Name=testvpnclient [Network] IPv6AcceptRA=False Address=10.241.3.2/24 DNS=10.241.3.1 Domains= ~company ~lab''') subprocess.check_call(['systemctl', 'start', 'systemd-networkd']) subprocess.check_call([NETWORKD_WAIT_ONLINE, '--interface', self.iface, '--interface=testvpnclient', '--timeout=20']) # ensure we start fresh with every test subprocess.check_call(['systemctl', 'restart', 'systemd-resolved']) # test vpnclient specific domains; these should *not* be answered by # the general DNS out = subprocess.check_output(['systemd-resolve', 'math.lab']) self.assertIn(b'math.lab: 10.241.3.3', out) out = subprocess.check_output(['systemd-resolve', 'kettle.cantina.company']) self.assertIn(b'kettle.cantina.company: 10.241.4.4', out) # test general domains out = subprocess.check_output(['systemd-resolve', 'megasearch.net']) self.assertIn(b'megasearch.net: 192.168.42.1', out) with open(self.dnsmasq_log) as f: general_log = f.read() with open(vpn_dnsmasq_log) as f: vpn_log = f.read() # VPN domains should only be sent to VPN DNS self.assertRegex(vpn_log, 'query.*math.lab') self.assertRegex(vpn_log, 'query.*cantina.company') self.assertNotIn('.lab', general_log) self.assertNotIn('.company', general_log) # general domains should not be sent to the VPN DNS self.assertRegex(general_log, 'query.*megasearch.net') self.assertNotIn('megasearch.net', vpn_log) def test_resolved_etc_hosts(self): '''resolved queries to /etc/hosts''' # FIXME: -t MX query fails with enabled DNSSEC (even when using # the known negative trust anchor .internal instead of .example) conf = '/run/systemd/resolved.conf.d/test-disable-dnssec.conf' os.makedirs(os.path.dirname(conf), exist_ok=True) with open(conf, 'w') as f: f.write('[Resolve]\nDNSSEC=no') self.addCleanup(os.remove, conf) # create /etc/hosts bind mount which resolves my.example for IPv4 hosts = os.path.join(self.workdir, 'hosts') with open(hosts, 'w') as f: f.write('172.16.99.99 my.example\n') subprocess.check_call(['mount', '--bind', hosts, '/etc/hosts']) self.addCleanup(subprocess.call, ['umount', '/etc/hosts']) subprocess.check_call(['systemctl', 'stop', 'systemd-resolved.service']) # note: different IPv4 address here, so that it's easy to tell apart # what resolved the query self.create_iface(dnsmasq_opts=['--host-record=my.example,172.16.99.1,2600::99:99', '--host-record=other.example,172.16.0.42,2600::42', '--mx-host=example,mail.example'], ipv6=True) self.do_test(coldplug=None, ipv6=True) try: # family specific queries out = subprocess.check_output(['systemd-resolve', '-4', 'my.example']) self.assertIn(b'my.example: 172.16.99.99', out) # we don't expect an IPv6 answer; if /etc/hosts has any IP address, # it's considered a sufficient source self.assertNotEqual(subprocess.call(['systemd-resolve', '-6', 'my.example']), 0) # "any family" query; IPv4 should come from /etc/hosts out = subprocess.check_output(['systemd-resolve', 'my.example']) self.assertIn(b'my.example: 172.16.99.99', out) # IP → name lookup; again, takes the /etc/hosts one out = subprocess.check_output(['systemd-resolve', '172.16.99.99']) self.assertIn(b'172.16.99.99: my.example', out) # non-address RRs should fall back to DNS out = subprocess.check_output(['systemd-resolve', '--type=MX', 'example']) self.assertIn(b'example IN MX 1 mail.example', out) # other domains query DNS out = subprocess.check_output(['systemd-resolve', 'other.example']) self.assertIn(b'172.16.0.42', out) out = subprocess.check_output(['systemd-resolve', '172.16.0.42']) self.assertIn(b'172.16.0.42: other.example', out) except (AssertionError, subprocess.CalledProcessError): self.show_journal('systemd-resolved.service') self.print_server_log() raise def test_transient_hostname(self): '''networkd sets transient hostname from DHCP''' orig_hostname = socket.gethostname() self.addCleanup(socket.sethostname, orig_hostname) # temporarily move /etc/hostname away; restart hostnamed to pick it up if os.path.exists('/etc/hostname'): subprocess.check_call(['mount', '--bind', '/dev/null', '/etc/hostname']) self.addCleanup(subprocess.call, ['umount', '/etc/hostname']) subprocess.check_call(['systemctl', 'stop', 'systemd-hostnamed.service']) self.create_iface(dnsmasq_opts=['--dhcp-host={},192.168.5.210,testgreen'.format(self.iface_mac)]) self.do_test(coldplug=None, extra_opts='IPv6AcceptRA=False', dhcp_mode='ipv4') try: # should have received the fixed IP above out = subprocess.check_output(['ip', '-4', 'a', 'show', 'dev', self.iface]) self.assertRegex(out, b'inet 192.168.5.210/24 .* scope global dynamic') # should have set transient hostname in hostnamed; this is # sometimes a bit lagging (issue #4753), so retry a few times for retry in range(1, 6): out = subprocess.check_output(['hostnamectl']) if b'testgreen' in out: break time.sleep(5) sys.stdout.write('[retry %i] ' % retry) sys.stdout.flush() else: self.fail('Transient hostname not found in hostnamectl:\n{}'.format(out.decode())) # and also applied to the system self.assertEqual(socket.gethostname(), 'testgreen') except AssertionError: self.show_journal('systemd-networkd.service') self.show_journal('systemd-hostnamed.service') self.print_server_log() raise def test_transient_hostname_with_static(self): '''transient hostname is not applied if static hostname exists''' orig_hostname = socket.gethostname() self.addCleanup(socket.sethostname, orig_hostname) if not os.path.exists('/etc/hostname'): self.writeConfig('/etc/hostname', orig_hostname) subprocess.check_call(['systemctl', 'stop', 'systemd-hostnamed.service']) self.create_iface(dnsmasq_opts=['--dhcp-host={},192.168.5.210,testgreen'.format(self.iface_mac)]) self.do_test(coldplug=None, extra_opts='IPv6AcceptRA=False', dhcp_mode='ipv4') try: # should have received the fixed IP above out = subprocess.check_output(['ip', '-4', 'a', 'show', 'dev', self.iface]) self.assertRegex(out, b'inet 192.168.5.210/24 .* scope global dynamic') # static hostname wins over transient one, thus *not* applied self.assertEqual(socket.gethostname(), orig_hostname) except AssertionError: self.show_journal('systemd-networkd.service') self.show_journal('systemd-hostnamed.service') self.print_server_log() raise class NetworkdClientTest(ClientTestBase, unittest.TestCase): '''Test networkd client against networkd server''' def setUp(self): super().setUp() self.dnsmasq = None def create_iface(self, ipv6=False, dhcpserver_opts=None): '''Create test interface with DHCP server behind it''' # run "router-side" networkd in own mount namespace to shield it from # "client-side" configuration and networkd (fd, script) = tempfile.mkstemp(prefix='networkd-router.sh') self.addCleanup(os.remove, script) with os.fdopen(fd, 'w+') as f: f.write('''\ #!/bin/sh set -eu mkdir -p /run/systemd/network mkdir -p /run/systemd/netif mount -t tmpfs none /run/systemd/network mount -t tmpfs none /run/systemd/netif [ ! -e /run/dbus ] || mount -t tmpfs none /run/dbus # create router/client veth pair cat << EOF > /run/systemd/network/test.netdev [NetDev] Name=%(ifr)s Kind=veth [Peer] Name=%(ifc)s EOF cat << EOF > /run/systemd/network/test.network [Match] Name=%(ifr)s [Network] Address=192.168.5.1/24 %(addr6)s DHCPServer=yes [DHCPServer] PoolOffset=10 PoolSize=50 DNS=192.168.5.1 %(dhopts)s EOF # run networkd as in systemd-networkd.service exec $(systemctl cat systemd-networkd.service | sed -n '/^ExecStart=/ { s/^.*=//; s/^[@+-]//; s/^!*//; p}') ''' % {'ifr': self.if_router, 'ifc': self.iface, 'addr6': ipv6 and 'Address=2600::1/64' or '', 'dhopts': dhcpserver_opts or ''}) os.fchmod(fd, 0o755) subprocess.check_call(['systemd-run', '--unit=networkd-test-router.service', '-p', 'InaccessibleDirectories=-/etc/systemd/network', '-p', 'InaccessibleDirectories=-/run/systemd/network', '-p', 'InaccessibleDirectories=-/run/systemd/netif', '--service-type=notify', script]) # wait until devices got created for _ in range(50): out = subprocess.check_output(['ip', 'a', 'show', 'dev', self.if_router]) if b'state UP' in out and b'scope global' in out: break time.sleep(0.1) def shutdown_iface(self): '''Remove test interface and stop DHCP server''' if self.if_router: subprocess.check_call(['systemctl', 'stop', 'networkd-test-router.service']) # ensure failed transient unit does not stay around subprocess.call(['systemctl', 'reset-failed', 'networkd-test-router.service']) subprocess.call(['ip', 'link', 'del', 'dev', self.if_router]) self.if_router = None def print_server_log(self): '''Print DHCP server log for debugging failures''' self.show_journal('networkd-test-router.service') @unittest.skip('networkd does not have DHCPv6 server support') def test_hotplug_dhcp_ip6(self): pass @unittest.skip('networkd does not have DHCPv6 server support') def test_coldplug_dhcp_ip6(self): pass def test_search_domains(self): # we don't use this interface for this test self.if_router = None self.write_network('test.netdev', '''\ [NetDev] Name=dummy0 Kind=dummy MACAddress=12:34:56:78:9a:bc''') self.write_network('test.network', '''\ [Match] Name=dummy0 [Network] Address=192.168.42.100 DNS=192.168.42.1 Domains= one two three four five six seven eight nine ten''') subprocess.check_call(['systemctl', 'start', 'systemd-networkd']) for timeout in range(50): with open(RESOLV_CONF) as f: contents = f.read() if ' one' in contents: break time.sleep(0.1) self.assertRegex(contents, 'search .*one two three four') self.assertNotIn('seven\n', contents) self.assertIn('# Too many search domains configured, remaining ones ignored.\n', contents) def test_search_domains_too_long(self): # we don't use this interface for this test self.if_router = None name_prefix = 'a' * 60 self.write_network('test.netdev', '''\ [NetDev] Name=dummy0 Kind=dummy MACAddress=12:34:56:78:9a:bc''') self.write_network('test.network', '''\ [Match] Name=dummy0 [Network] Address=192.168.42.100 DNS=192.168.42.1 Domains={p}0 {p}1 {p}2 {p}3 {p}4'''.format(p=name_prefix)) subprocess.check_call(['systemctl', 'start', 'systemd-networkd']) for timeout in range(50): with open(RESOLV_CONF) as f: contents = f.read() if ' one' in contents: break time.sleep(0.1) self.assertRegex(contents, 'search .*{p}0 {p}1 {p}2'.format(p=name_prefix)) self.assertIn('# Total length of all search domains is too long, remaining ones ignored.', contents) def test_dropin(self): # we don't use this interface for this test self.if_router = None self.write_network('test.netdev', '''\ [NetDev] Name=dummy0 Kind=dummy MACAddress=12:34:56:78:9a:bc''') self.write_network('test.network', '''\ [Match] Name=dummy0 [Network] Address=192.168.42.100 DNS=192.168.42.1''') self.write_network_dropin('test.network', 'dns', '''\ [Network] DNS=127.0.0.1''') subprocess.check_call(['systemctl', 'start', 'systemd-networkd']) for timeout in range(50): with open(RESOLV_CONF) as f: contents = f.read() if ' 127.0.0.1' in contents: break time.sleep(0.1) self.assertIn('nameserver 192.168.42.1\n', contents) self.assertIn('nameserver 127.0.0.1\n', contents) def test_dhcp_timezone(self): '''networkd sets time zone from DHCP''' def get_tz(): out = subprocess.check_output(['busctl', 'get-property', 'org.freedesktop.timedate1', '/org/freedesktop/timedate1', 'org.freedesktop.timedate1', 'Timezone']) assert out.startswith(b's "') out = out.strip() assert out.endswith(b'"') return out[3:-1].decode() orig_timezone = get_tz() self.addCleanup(subprocess.call, ['timedatectl', 'set-timezone', orig_timezone]) self.create_iface(dhcpserver_opts='EmitTimezone=yes\nTimezone=Pacific/Honolulu') self.do_test(coldplug=None, extra_opts='IPv6AcceptRA=false\n[DHCP]\nUseTimezone=true', dhcp_mode='ipv4') # should have applied the received timezone try: self.assertEqual(get_tz(), 'Pacific/Honolulu') except AssertionError: self.show_journal('systemd-networkd.service') self.show_journal('systemd-hostnamed.service') raise class MatchClientTest(unittest.TestCase, NetworkdTestingUtilities): """Test [Match] sections in .network files. Be aware that matching the test host's interfaces will wipe their configuration, so as a precaution, all network files should have a restrictive [Match] section to only ever interfere with the temporary veth interfaces created here. """ def tearDown(self): """Stop networkd.""" subprocess.call(['systemctl', 'stop', 'systemd-networkd']) def test_basic_matching(self): """Verify the Name= line works throughout this class.""" self.add_veth_pair('test_if1', 'fake_if2') self.write_network('test.network', "[Match]\nName=test_*\n[Network]") subprocess.check_call(['systemctl', 'start', 'systemd-networkd']) self.assert_link_states(test_if1='managed', fake_if2='unmanaged') def test_inverted_matching(self): """Verify that a '!'-prefixed value inverts the match.""" # Use a MAC address as the interfaces' common matching attribute # to avoid depending on udev, to support testing in containers. mac = '00:01:02:03:98:99' self.add_veth_pair('test_veth', 'test_peer', ['addr', mac], ['addr', mac]) self.write_network('no-veth.network', """\ [Match] MACAddress={} Name=!nonexistent *peer* [Network]""".format(mac)) subprocess.check_call(['systemctl', 'start', 'systemd-networkd']) self.assert_link_states(test_veth='managed', test_peer='unmanaged') class UnmanagedClientTest(unittest.TestCase, NetworkdTestingUtilities): """Test if networkd manages the correct interfaces.""" def setUp(self): """Write .network files to match the named veth devices.""" # Define the veth+peer pairs to be created. # Their pairing doesn't actually matter, only their names do. self.veths = { 'm1def': 'm0unm', 'm1man': 'm1unm', } # Define the contents of .network files to be read in order. self.configs = ( "[Match]\nName=m1def\n", "[Match]\nName=m1unm\n[Link]\nUnmanaged=yes\n", "[Match]\nName=m1*\n[Link]\nUnmanaged=no\n", ) # Write out the .network files to be cleaned up automatically. for i, config in enumerate(self.configs): self.write_network("%02d-test.network" % i, config) def tearDown(self): """Stop networkd.""" subprocess.call(['systemctl', 'stop', 'systemd-networkd']) def create_iface(self): """Create temporary veth pairs for interface matching.""" for veth, peer in self.veths.items(): self.add_veth_pair(veth, peer) def test_unmanaged_setting(self): """Verify link states with Unmanaged= settings, hot-plug.""" subprocess.check_call(['systemctl', 'start', 'systemd-networkd']) self.create_iface() self.assert_link_states(m1def='managed', m1man='managed', m1unm='unmanaged', m0unm='unmanaged') def test_unmanaged_setting_coldplug(self): """Verify link states with Unmanaged= settings, cold-plug.""" self.create_iface() subprocess.check_call(['systemctl', 'start', 'systemd-networkd']) self.assert_link_states(m1def='managed', m1man='managed', m1unm='unmanaged', m0unm='unmanaged') def test_catchall_config(self): """Verify link states with a catch-all config, hot-plug.""" # Don't actually catch ALL interfaces. It messes up the host. self.write_network('all.network', "[Match]\nName=m[01]???\n") subprocess.check_call(['systemctl', 'start', 'systemd-networkd']) self.create_iface() self.assert_link_states(m1def='managed', m1man='managed', m1unm='unmanaged', m0unm='managed') def test_catchall_config_coldplug(self): """Verify link states with a catch-all config, cold-plug.""" # Don't actually catch ALL interfaces. It messes up the host. self.write_network('all.network', "[Match]\nName=m[01]???\n") self.create_iface() subprocess.check_call(['systemctl', 'start', 'systemd-networkd']) self.assert_link_states(m1def='managed', m1man='managed', m1unm='unmanaged', m0unm='managed') if __name__ == '__main__': unittest.main(testRunner=unittest.TextTestRunner(stream=sys.stdout, verbosity=2))