def setUp(self):
super(TestCommonDbOps, self).setUp()
name = utils.get_rand_device_name()
self.switch = self.useFixture(fixtures.LogicalSwitchFixture(name)).obj
self.lsps = [
self.api.lsp_add(
self.switch.uuid,
utils.get_rand_device_name()).execute(check_error=True)
for _ in range(3)
]
self.api.db_set('Logical_Switch', self.switch.uuid, ('external_ids', {
'one': '1',
'two': '2'
})).execute(check_error=True)
def test_lb_add_exists(self):
name = utils.get_rand_device_name()
vip = '192.0.2.1'
ips = ['10.0.0.1', '10.0.0.2', '10.0.0.3']
self._lb_add(name, vip, ips)
cmd = self.api.lb_add(name, vip, ips)
self.assertRaises(RuntimeError, cmd.execute, check_error=True)
def setUp(self):
super(TestOvsdbIdl, self).setUp()
self.api = impl_idl.OvsdbIdl(self.connection)
self.brname = utils.get_rand_device_name()
# Destroying the bridge cleans up most things created by tests
cleanup_cmd = self.api.del_br(self.brname)
self.addCleanup(cleanup_cmd.execute)
def test_chassis_add_may_exist(self):
chassis = utils.get_rand_device_name()
self._chassis_add(['vxlan'], '192.0.2.1', chassis=chassis)
self._chassis_add(['vxlan'],
'192.0.2.1',
chassis=chassis,
may_exist=True)
def _lr_nat_add(self, *args, **kwargs):
lr = kwargs.pop('router', self._lr_add(utils.get_rand_device_name()))
nat = self.api.lr_nat_add(lr.uuid, *args,
**kwargs).execute(check_error=True)
self.assertIn(nat, lr.nat)
nat.router = lr
return nat
def test_lrp_add_may_exist_different_router(self):
name = utils.get_rand_device_name()
args = (name, 'de:ad:be:ef:4d:ad', ['192.0.2.0/24'])
lr2 = self.useFixture(fixtures.LogicalRouterFixture()).obj
self._lrp_add(*args)
cmd = self.api.lrp_add(lr2.uuid, *args, may_exist=True)
self.assertRaises(RuntimeError, cmd.execute, check_error=True)
def test_lb_add_columns(self):
ext_ids = {'one': 'two'}
name = utils.get_rand_device_name()
lb = self._lb_add(name,
'192.0.2.1', ['10.0.0.1', '10.0.0.2'],
external_ids=ext_ids)
self.assertEqual(ext_ids, lb.external_ids)
def test_lsp_list_no_switch(self):
ports = {self._lsp_add(self.switch, None) for _ in range(3)}
other_switch = self.useFixture(
fixtures.LogicalSwitchFixture(
name=utils.get_rand_device_name())).obj
other_port = self._lsp_add(other_switch, None)
all_ports = set(self.api.lsp_list().execute(check_error=True))
self.assertTrue((ports.union(set([other_port]))).issubset(all_ports))
def setUp(self):
super(TestObLbOps, self).setUp()
self.add_fn = getattr(self.api, self._add_fn)
self.del_fn = getattr(self.api, self._del_fn)
self.list_fn = getattr(self.api, self._list_fn)
# They must be in this order because the load balancer
# can't be deleted when there is a reference in the router
self.lb = self.useFixture(
fixtures.LoadBalancerFixture(utils.get_rand_device_name(),
'192.0.2.1',
['10.0.0.1', '10.0.0.2'])).obj
self.lb2 = self.useFixture(
fixtures.LoadBalancerFixture(utils.get_rand_device_name(),
'192.0.2.2',
['10.1.0.1', '10.1.0.2'])).obj
self.lr = self.useFixture(self.fixture(
utils.get_rand_device_name())).obj
def test_chassis_add_columns(self):
chassis = utils.get_rand_device_name()
hostname = "testhostname"
extids = {'my': 'external_id', 'is': 'set'}
ch = self._chassis_add(['vxlan'], '192.0.2.1', chassis=chassis,
hostname=hostname, external_ids=extids)
self.assertEqual(hostname, ch.hostname)
self.assertEqual(extids, ch.external_ids)
def test_lb_list(self):
lbs = {
self._lb_add(utils.get_rand_device_name(), '192.0.2.1',
['10.0.0.1', '10.0.0.2'])
for _ in range(3)
}
lbset = self.api.lb_list().execute(check_error=True)
self.assertTrue(lbs.issubset(lbset))
def _test_add_port(self):
pname = utils.get_rand_device_name()
with self.api.transaction(check_error=True) as txn:
txn.extend([
self.api.add_br(self.brname),
self.api.add_port(self.brname, pname)
])
return pname
def test_lb_del_vip(self):
name = utils.get_rand_device_name()
lb1 = self._lb_add(name, '192.0.2.1', ['10.0.0.1', '10.0.0.2'])
lb2 = self._lb_add(name, '192.0.2.2', ['10.1.0.1', '10.1.0.2'])
self.assertEqual(lb1, lb2)
self.api.lb_del(lb1.name, '192.0.2.1').execute(check_error=True)
self.assertNotIn('192.0.2.1', lb1.vips)
self.assertIn('192.0.2.2', lb1.vips)
def test_lr_nat_add_port(self):
sw = self.useFixture(fixtures.LogicalSwitchFixture()).obj
lsp = self.api.lsp_add(
sw.uuid, utils.get_rand_device_name()).execute(check_error=True)
lport, mac = (lsp.name, 'de:ad:be:ef:4d:ad')
nat = self._lr_nat_add(const.NAT_BOTH, '10.172.4.1', '192.0.2.1',
lport, mac)
self.assertIn(lport, nat.logical_port) # because optional
self.assertIn(mac, nat.external_mac)
def test_lrp_add_may_exist_different_peer(self):
name = utils.get_rand_device_name()
args = (name, 'de:ad:be:ef:4d:ad', ['192.0.2.0/24'])
self._lrp_add(*args)
self.assertRaises(RuntimeError,
self._lrp_add,
*args,
peer='fake',
may_exist=True)
def test_lrp_add_may_exist_different_networks(self):
name = utils.get_rand_device_name()
args = (name, 'de:ad:be:ef:4d:ad')
self._lrp_add(*args, networks=['192.0.2.0/24'])
self.assertRaises(RuntimeError,
self._lrp_add,
*args,
networks=['192.2.1.0/24'],
may_exist=True)
def load_test_data(self):
with self.api.transaction(check_error=True) as txn:
for chassis in self.data['chassis']:
chassis['name'] = utils.get_rand_device_name('chassis')
chassis['hostname'] = '%s.localdomain.com' % chassis['name']
txn.add(self.api.chassis_add(
chassis['name'], ['geneve'], chassis['hostname'],
hostname=chassis['hostname'],
external_ids=chassis['external_ids']))
def test_find(self):
# This test will easily time out if indexing isn't used
length = 2000
basename = utils.get_rand_device_name('testswitch')
with self.api.transaction(check_error=True) as txn:
for i in range(length):
txn.add(self.api.ls_add("%s%d" % (basename, i)))
match = "%s%d" % (basename, length / 2)
sw = self.api.lookup('Logical_Switch', match)
self.assertEqual(sw.name, match)
def test_lb_add_may_exist(self):
name = utils.get_rand_device_name()
vip = '192.0.2.1'
ips = ['10.0.0.1', '10.0.0.2', '10.0.0.3']
lb1 = self._lb_add(name, vip, ips)
ips += ['10.0.0.4']
lb2 = self.api.lb_add(name, vip, ips,
may_exist=True).execute(check_error=True)
self.assertEqual(lb1, lb2)
self.assertEqual(",".join(ips), lb1.vips[vip])
def test_lrp_add_may_exist_different_mac(self):
name = utils.get_rand_device_name()
args = {
'port': name,
'mac': 'de:ad:be:ef:4d:ad',
'networks': ['192.0.2.0/24']
}
self._lrp_add(**args)
args['mac'] = 'da:d4:de:ad:be:ef'
self.assertRaises(RuntimeError, self._lrp_add, may_exist=True, **args)
def test_lsp_bind_may_exist(self):
chassis, switch, port = self.test_lsp_bind()
other = self._chassis_add(['vxlan'], '192.0.2.2',
chassis=utils.get_rand_device_name())
self.api.lsp_bind(port.name, other.name, may_exist=True).execute(
check_error=True)
binding = idlutils.row_by_value(self.api.idl, 'Port_Binding',
'logical_port', port.name)
self.assertNotIn(other, binding.chassis)
self.assertIn(chassis, binding.chassis)
def _chassis_add(self, encap_types, encap_ip, *args, **kwargs):
chassis = kwargs.pop('chassis', utils.get_rand_device_name())
c = self.useFixture(fixtures.ChassisFixture(
chassis=chassis, encap_types=encap_types, encap_ip=encap_ip,
*args, **kwargs)).obj
self.assertIn(c, self.api.chassis_list().execute(check_error=True))
self.assertEqual(c.name, chassis)
self.assertEqual(set(encap_types), {e.type for e in c.encaps})
self.assertTrue(all(encap_ip == e.ip for e in c.encaps))
return c
def setUp(self):
super(ImplIdlTestCase, self).setUp()
self.api = impl_idl.OvsdbIdl(self.connection)
self.brname = utils.get_rand_device_name()
# Make sure exceptions pass through by calling do_post_commit directly
mock.patch.object(
impl_idl.OvsVsctlTransaction,
"post_commit",
side_effect=impl_idl.OvsVsctlTransaction.do_post_commit,
autospec=True).start()
def setUp(self):
self.bridges = [
{'name': utils.get_rand_device_name(),
'datapath_type': 'fake1'},
{'name': utils.get_rand_device_name(),
'datapath_type': 'fake1'},
{'name': utils.get_rand_device_name(),
'datapath_type': 'fake2'}
]
super(TestBackendDb, self).setUp()
self.api = impl_idl.OvsdbIdl(self.connection)
for bridge in self.bridges:
self.useFixture(fixtures.BridgeFixture(bridge['name']))
for col, val in bridge.items():
if col == 'name':
continue
self.api.db_set(
'Bridge', bridge['name'], (col, val)).execute(
check_error=True)
def _add_switch_port(self, chassis_name, type='localport'):
sname, pname = (utils.get_rand_device_name(prefix=p)
for p in ('switch', 'port'))
chassis = self.api.lookup('Chassis', chassis_name)
row_event = events.WaitForCreatePortBindingEvent(pname)
self.handler.watch_event(row_event)
with self.nbapi.transaction(check_error=True) as txn:
switch = txn.add(self.nbapi.ls_add(sname))
port = txn.add(self.nbapi.lsp_add(sname, pname, type=type))
row_event.wait()
return chassis, switch.result, port.result, row_event.row
def test_create_index(self, table_lookup):
self.assertFalse(self.api.tables['Logical_Switch'].rows.indexes)
self.api.create_index("Logical_Switch", "name")
self.api.start_connection(self.connection)
name = utils.get_rand_device_name("testswitch")
self.api.ls_add(name).execute(check_error=True)
sw = self.api.lookup('Logical_Switch', name)
self.assertEqual(sw.name, name)
self.assertRaises(idlutils.RowNotFound, self.api.lookup,
'Logical_Switch', 'nothere')
table_lookup.assert_not_called()
def _add_chassis_switch_port(self):
cname, sname, pname = (utils.get_rand_device_name(prefix=p)
for p in ("chassis", "switch", "port"))
chassis = self._chassis_add(['vxlan'], '192.0.2.1', chassis=cname)
row_event = WaitForPortBindingEvent(pname)
# We have to wait for ovn-northd to actually create the port binding
self.handler.watch_event(row_event)
with self.nbapi.transaction(check_error=True) as txn:
switch = txn.add(self.nbapi.ls_add(sname))
port = txn.add(self.nbapi.lsp_add(sname, pname))
row_event.wait()
return chassis, switch.result, port.result
def _three_nats(self):
lr = self._lr_add(utils.get_rand_device_name())
for n, nat_type in enumerate(
(const.NAT_DNAT, const.NAT_SNAT, const.NAT_BOTH)):
nat_kwargs = {
'router': lr,
'nat_type': nat_type,
'logical_ip': '10.17.4.%s' % (n + 1),
'external_ip': '192.0.2.%s' % (n + 1)
}
self._lr_nat_add(**nat_kwargs)
return lr
def test_lr_nat_add_may_exist_remove_port(self):
sw = self.useFixture(fixtures.LogicalSwitchFixture()).obj
lsp = self.api.lsp_add(
sw.uuid, utils.get_rand_device_name()).execute(check_error=True)
args = (const.NAT_BOTH, '10.17.4.1', '192.0.2.1')
lp, mac = (lsp.name, 'de:ad:be:ef:4d:ad')
nat1 = self._lr_nat_add(*args, logical_port=lp, external_mac=mac)
nat2 = self.api.lr_nat_add(nat1.router.uuid, *args,
may_exist=True).execute(check_error=True)
self.assertEqual(nat1, nat2)
self.assertEqual([], nat2.logical_port) # because optional
self.assertEqual([], nat2.external_mac)
def test_get_network_port_bindings_by_ip_with_unbound_port(self):
binding, ipaddr, switch = self._create_bound_port_with_ip()
unbound_port_name = utils.get_rand_device_name(prefix="port")
mac_ip = "de:ad:be:ef:4d:ab %s" % ipaddr
with self.nbapi.transaction(check_error=True) as txn:
txn.add(
self.nbapi.lsp_add(switch.name, unbound_port_name, type=type))
txn.add(self.nbapi.lsp_set_addresses(unbound_port_name, [mac_ip]))
network_id = switch.name.replace('neutron-', '')
result = self.api.get_network_port_bindings_by_ip(network_id, ipaddr)
self.assertIn(binding, result)
self.assertEqual(1, len(result))
