Test for changing QoS policy with min bw of bound port

Change-Id: I62f35ae133626217fe1b46ed13999665d4c1abba
Related-Bug: #1882804
Depends-On: https://review.opendev.org/c/openstack/devstack/+/769885
This commit is contained in:
elajkat 2020-07-15 16:11:56 +02:00
parent fec2c93cdc
commit 8b90b26cc8

View File

@ -20,6 +20,7 @@ from tempest import config
from tempest.lib.common.utils import data_utils
from tempest.lib.common.utils import test_utils
from tempest.lib import decorators
from tempest.lib import exceptions as lib_exc
from tempest.scenario import manager
@ -54,6 +55,8 @@ class MinBwAllocationPlacementTest(manager.NetworkScenarioTest):
# https://github.com/openstack/placement/blob/master/placement/
# db/constants.py#L16
PLACEMENT_MAX_INT = 0x7FFFFFFF
BANDWIDTH_1 = 1000
BANDWIDTH_2 = 2000
@classmethod
def setup_clients(cls):
@ -61,6 +64,7 @@ class MinBwAllocationPlacementTest(manager.NetworkScenarioTest):
cls.placement_client = cls.os_admin.placement_client
cls.networks_client = cls.os_admin.networks_client
cls.subnets_client = cls.os_admin.subnets_client
cls.ports_client = cls.os_primary.ports_client
cls.routers_client = cls.os_adm.routers_client
cls.qos_client = cls.os_admin.qos_client
cls.qos_min_bw_client = cls.os_admin.qos_min_bw_client
@ -78,7 +82,6 @@ class MinBwAllocationPlacementTest(manager.NetworkScenarioTest):
def setUp(self):
super(MinBwAllocationPlacementTest, self).setUp()
self._check_if_allocation_is_possible()
self._create_network_and_qos_policies()
def _create_policy_and_min_bw_rule(self, name_prefix, min_kbps):
policy = self.qos_client.create_qos_policy(
@ -99,7 +102,7 @@ class MinBwAllocationPlacementTest(manager.NetworkScenarioTest):
return policy
def _create_qos_policies(self):
def _create_qos_basic_policies(self):
self.qos_policy_valid = self._create_policy_and_min_bw_rule(
name_prefix='test_policy_valid',
min_kbps=self.SMALLEST_POSSIBLE_BW)
@ -107,7 +110,20 @@ class MinBwAllocationPlacementTest(manager.NetworkScenarioTest):
name_prefix='test_policy_not_valid',
min_kbps=self.PLACEMENT_MAX_INT)
def _create_network_and_qos_policies(self):
def _create_qos_policies_from_life(self):
# For tempest-slow the max bandwidth configured is 1000000,
# https://opendev.org/openstack/tempest/src/branch/master/
# .zuul.yaml#L416-L420
self.qos_policy_1 = self._create_policy_and_min_bw_rule(
name_prefix='test_policy_1',
min_kbps=self.BANDWIDTH_1
)
self.qos_policy_2 = self._create_policy_and_min_bw_rule(
name_prefix='test_policy_2',
min_kbps=self.BANDWIDTH_2
)
def _create_network_and_qos_policies(self, policy_method):
physnet_name = CONF.network_feature_enabled.qos_placement_physnet
base_segm = \
CONF.network_feature_enabled.provider_net_base_segmentation_id
@ -123,7 +139,7 @@ class MinBwAllocationPlacementTest(manager.NetworkScenarioTest):
'provider:segmentation_id': base_segm
})
self._create_qos_policies()
policy_method()
def _check_if_allocation_is_possible(self):
alloc_candidates = self.placement_client.list_allocation_candidates(
@ -157,19 +173,28 @@ class MinBwAllocationPlacementTest(manager.NetworkScenarioTest):
status=status, ready_wait=False, raise_on_error=False)
return server, port
def _assert_allocation_is_as_expected(self, allocations, port_id):
self.assertGreater(len(allocations['allocations']), 0)
def _assert_allocation_is_as_expected(self, consumer, port_ids,
min_kbps=SMALLEST_POSSIBLE_BW):
allocations = self.placement_client.list_allocations(
consumer)['allocations']
self.assertGreater(len(allocations), 0)
bw_resource_in_alloc = False
for rp, resources in allocations['allocations'].items():
for rp, resources in allocations.items():
if self.INGRESS_RESOURCE_CLASS in resources['resources']:
self.assertEqual(
min_kbps,
resources['resources'][self.INGRESS_RESOURCE_CLASS])
bw_resource_in_alloc = True
allocation_rp = rp
if min_kbps:
self.assertTrue(bw_resource_in_alloc)
# Check binding_profile of the port is not empty and equals with the
# rp uuid
# Check binding_profile of the port is not empty and equals with
# the rp uuid
for port_id in port_ids:
port = self.os_admin.ports_client.show_port(port_id)
self.assertEqual(allocation_rp,
self.assertEqual(
allocation_rp,
port['port']['binding:profile']['allocation'])
@decorators.idempotent_id('78625d92-212c-400e-8695-dd51706858b8')
@ -193,11 +218,11 @@ class MinBwAllocationPlacementTest(manager.NetworkScenarioTest):
* Create port with invalid QoS policy, and try to boot VM with that,
it should fail.
"""
self._create_network_and_qos_policies(self._create_qos_basic_policies)
server1, valid_port = self._boot_vm_with_min_bw(
qos_policy_id=self.qos_policy_valid['id'])
allocations = self.placement_client.list_allocations(server1['id'])
self._assert_allocation_is_as_expected(allocations, valid_port['id'])
self._assert_allocation_is_as_expected(server1['id'],
[valid_port['id']])
server2, not_valid_port = self._boot_vm_with_min_bw(
self.qos_policy_not_valid['id'], status='ERROR')
@ -228,27 +253,28 @@ class MinBwAllocationPlacementTest(manager.NetworkScenarioTest):
* If the VM goes to ACTIVE state check that allocations are as
expected.
"""
self._create_network_and_qos_policies(self._create_qos_basic_policies)
server, valid_port = self._boot_vm_with_min_bw(
qos_policy_id=self.qos_policy_valid['id'])
allocations = self.placement_client.list_allocations(server['id'])
self._assert_allocation_is_as_expected(allocations, valid_port['id'])
self._assert_allocation_is_as_expected(server['id'],
[valid_port['id']])
self.servers_client.migrate_server(server_id=server['id'])
waiters.wait_for_server_status(
client=self.os_primary.servers_client, server_id=server['id'],
status='VERIFY_RESIZE', ready_wait=False, raise_on_error=False)
allocations = self.placement_client.list_allocations(server['id'])
# TODO(lajoskatona): Check that the allocations are ok for the
# migration?
self._assert_allocation_is_as_expected(allocations, valid_port['id'])
self._assert_allocation_is_as_expected(server['id'],
[valid_port['id']])
self.servers_client.confirm_resize_server(server_id=server['id'])
waiters.wait_for_server_status(
client=self.os_primary.servers_client, server_id=server['id'],
status='ACTIVE', ready_wait=False, raise_on_error=True)
allocations = self.placement_client.list_allocations(server['id'])
self._assert_allocation_is_as_expected(allocations, valid_port['id'])
self._assert_allocation_is_as_expected(server['id'],
[valid_port['id']])
@decorators.idempotent_id('c29e7fd3-035d-4993-880f-70819847683f')
@testtools.skipUnless(CONF.compute_feature_enabled.resize,
@ -264,10 +290,11 @@ class MinBwAllocationPlacementTest(manager.NetworkScenarioTest):
* If the VM goes to ACTIVE state check that allocations are as
expected.
"""
self._create_network_and_qos_policies(self._create_qos_basic_policies)
server, valid_port = self._boot_vm_with_min_bw(
qos_policy_id=self.qos_policy_valid['id'])
allocations = self.placement_client.list_allocations(server['id'])
self._assert_allocation_is_as_expected(allocations, valid_port['id'])
self._assert_allocation_is_as_expected(server['id'],
[valid_port['id']])
old_flavor = self.flavors_client.show_flavor(
CONF.compute.flavor_ref)['flavor']
@ -285,15 +312,176 @@ class MinBwAllocationPlacementTest(manager.NetworkScenarioTest):
waiters.wait_for_server_status(
client=self.os_primary.servers_client, server_id=server['id'],
status='VERIFY_RESIZE', ready_wait=False, raise_on_error=False)
allocations = self.placement_client.list_allocations(server['id'])
# TODO(lajoskatona): Check that the allocations are ok for the
# migration?
self._assert_allocation_is_as_expected(allocations, valid_port['id'])
self._assert_allocation_is_as_expected(server['id'],
[valid_port['id']])
self.servers_client.confirm_resize_server(server_id=server['id'])
waiters.wait_for_server_status(
client=self.os_primary.servers_client, server_id=server['id'],
status='ACTIVE', ready_wait=False, raise_on_error=True)
allocations = self.placement_client.list_allocations(server['id'])
self._assert_allocation_is_as_expected(allocations, valid_port['id'])
self._assert_allocation_is_as_expected(server['id'],
[valid_port['id']])
@decorators.idempotent_id('79fdaa1c-df62-4738-a0f0-1cff9dc415f6')
@utils.services('compute', 'network')
def test_qos_min_bw_allocation_update_policy(self):
"""Test the update of QoS policy on bound port
Related RFE in neutron: #1882804
The scenario is the following:
* Have a port with QoS policy and minimum bandwidth rule.
* Boot a VM with the port.
* Update the port with a new policy with different minimum bandwidth
values.
* The allocation on placement side should be according to the new
rules.
"""
if not utils.is_network_feature_enabled('update_port_qos'):
raise self.skipException("update_port_qos feature is not enabled")
self._create_network_and_qos_policies(
self._create_qos_policies_from_life)
port = self.create_port(
self.prov_network['id'], qos_policy_id=self.qos_policy_1['id'])
server1 = self.create_server(
networks=[{'port': port['id']}])
self._assert_allocation_is_as_expected(server1['id'], [port['id']],
self.BANDWIDTH_1)
self.ports_client.update_port(
port['id'],
**{'qos_policy_id': self.qos_policy_2['id']})
self._assert_allocation_is_as_expected(server1['id'], [port['id']],
self.BANDWIDTH_2)
# I changed my mind
self.ports_client.update_port(
port['id'],
**{'qos_policy_id': self.qos_policy_1['id']})
self._assert_allocation_is_as_expected(server1['id'], [port['id']],
self.BANDWIDTH_1)
# bad request....
self.qos_policy_not_valid = self._create_policy_and_min_bw_rule(
name_prefix='test_policy_not_valid',
min_kbps=self.PLACEMENT_MAX_INT)
port_orig = self.ports_client.show_port(port['id'])['port']
self.assertRaises(
lib_exc.Conflict,
self.ports_client.update_port,
port['id'], **{'qos_policy_id': self.qos_policy_not_valid['id']})
self._assert_allocation_is_as_expected(server1['id'], [port['id']],
self.BANDWIDTH_1)
port_upd = self.ports_client.show_port(port['id'])['port']
self.assertEqual(port_orig['qos_policy_id'],
port_upd['qos_policy_id'])
self.assertEqual(self.qos_policy_1['id'], port_upd['qos_policy_id'])
@decorators.idempotent_id('9cfc3bb8-f433-4c91-87b6-747cadc8958a')
@utils.services('compute', 'network')
def test_qos_min_bw_allocation_update_policy_from_zero(self):
"""Test port without QoS policy to have QoS policy
This scenario checks if updating a port without QoS policy to
have QoS policy with minimum_bandwidth rule succeeds only on
controlplane, but placement allocation remains 0.
"""
if not utils.is_network_feature_enabled('update_port_qos'):
raise self.skipException("update_port_qos feature is not enabled")
self._create_network_and_qos_policies(
self._create_qos_policies_from_life)
port = self.create_port(self.prov_network['id'])
server1 = self.create_server(
networks=[{'port': port['id']}])
self._assert_allocation_is_as_expected(server1['id'], [port['id']], 0)
self.ports_client.update_port(
port['id'], **{'qos_policy_id': self.qos_policy_2['id']})
self._assert_allocation_is_as_expected(server1['id'], [port['id']], 0)
@decorators.idempotent_id('a9725a70-1d28-4e3b-ae0e-450abc235962')
@utils.services('compute', 'network')
def test_qos_min_bw_allocation_update_policy_to_zero(self):
"""Test port with QoS policy to remove QoS policy
In this scenario port with QoS minimum_bandwidth rule update to
remove QoS policy results in 0 placement allocation.
"""
if not utils.is_network_feature_enabled('update_port_qos'):
raise self.skipException("update_port_qos feature is not enabled")
self._create_network_and_qos_policies(
self._create_qos_policies_from_life)
port = self.create_port(
self.prov_network['id'], qos_policy_id=self.qos_policy_1['id'])
server1 = self.create_server(
networks=[{'port': port['id']}])
self._assert_allocation_is_as_expected(server1['id'], [port['id']],
self.BANDWIDTH_1)
self.ports_client.update_port(
port['id'],
**{'qos_policy_id': None})
self._assert_allocation_is_as_expected(server1['id'], [port['id']], 0)
@decorators.idempotent_id('756ced7f-6f1a-43e7-a851-2fcfc16f3dd7')
@utils.services('compute', 'network')
def test_qos_min_bw_allocation_update_with_multiple_ports(self):
if not utils.is_network_feature_enabled('update_port_qos'):
raise self.skipException("update_port_qos feature is not enabled")
self._create_network_and_qos_policies(
self._create_qos_policies_from_life)
port1 = self.create_port(
self.prov_network['id'], qos_policy_id=self.qos_policy_1['id'])
port2 = self.create_port(
self.prov_network['id'], qos_policy_id=self.qos_policy_2['id'])
server1 = self.create_server(
networks=[{'port': port1['id']}, {'port': port2['id']}])
self._assert_allocation_is_as_expected(
server1['id'], [port1['id'], port2['id']],
self.BANDWIDTH_1 + self.BANDWIDTH_2)
self.ports_client.update_port(
port1['id'],
**{'qos_policy_id': self.qos_policy_2['id']})
self._assert_allocation_is_as_expected(
server1['id'], [port1['id'], port2['id']],
2 * self.BANDWIDTH_2)
@decorators.idempotent_id('0805779e-e03c-44fb-900f-ce97a790653b')
@utils.services('compute', 'network')
def test_empty_update(self):
if not utils.is_network_feature_enabled('update_port_qos'):
raise self.skipException("update_port_qos feature is not enabled")
self._create_network_and_qos_policies(
self._create_qos_policies_from_life)
port = self.create_port(
self.prov_network['id'], qos_policy_id=self.qos_policy_1['id'])
server1 = self.create_server(
networks=[{'port': port['id']}])
self._assert_allocation_is_as_expected(server1['id'], [port['id']],
self.BANDWIDTH_1)
self.ports_client.update_port(
port['id'],
**{'description': 'foo'})
self._assert_allocation_is_as_expected(server1['id'], [port['id']],
self.BANDWIDTH_1)