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octavia-tempest-plugin
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octavia-tempest-plugin/octavia_tempest_plugin/tests/api/v2/test_healthmonitor.py

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# Copyright 2018 GoDaddy
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
import time
from uuid import UUID
from dateutil import parser
from oslo_log import log as logging
from tempest import config
from tempest.lib.common.utils import data_utils
from tempest.lib import decorators
from tempest.lib import exceptions
from octavia_tempest_plugin.common import constants as const
from octavia_tempest_plugin.tests import test_base
from octavia_tempest_plugin.tests import waiters
CONF = config.CONF
LOG = logging.getLogger(__name__)
class HealthMonitorAPITest(test_base.LoadBalancerBaseTest):
"""Test the healthmonitor object API."""
@classmethod
def skip_checks(cls):
super(HealthMonitorAPITest, cls).skip_checks()
if not CONF.loadbalancer_feature_enabled.health_monitor_enabled:
raise cls.skipException('Health Monitors not supported')
@classmethod
def resource_setup(cls):
"""Setup resources needed by the tests."""
super(HealthMonitorAPITest, cls).resource_setup()
lb_name = data_utils.rand_name("lb_member_lb1_hm")
lb_kwargs = {const.PROVIDER: CONF.load_balancer.provider,
const.NAME: lb_name}
cls._setup_lb_network_kwargs(lb_kwargs)
lb = cls.mem_lb_client.create_loadbalancer(**lb_kwargs)
cls.lb_id = lb[const.ID]
cls.addClassResourceCleanup(
cls.mem_lb_client.cleanup_loadbalancer,
cls.lb_id)
waiters.wait_for_status(cls.mem_lb_client.show_loadbalancer,
cls.lb_id, const.PROVISIONING_STATUS,
const.ACTIVE,
CONF.load_balancer.lb_build_interval,
CONF.load_balancer.lb_build_timeout)
@decorators.idempotent_id('30288670-5772-40c2-92e6-6d4a6d62d029')
def test_healthmonitor_create(self):
"""Tests healthmonitor create and basic show APIs.
* Create a clean pool to use for the healthmonitor.
* Tests that users without the loadbalancer member role cannot
create healthmonitors.
* Create a fully populated healthmonitor.
* Show healthmonitor details.
* Validate the show reflects the requested values.
"""
pool_name = data_utils.rand_name("lb_member_pool1_hm-create")
pool_kwargs = {
const.NAME: pool_name,
const.PROTOCOL: const.HTTP,
const.LB_ALGORITHM: const.LB_ALGORITHM_ROUND_ROBIN,
const.LOADBALANCER_ID: self.lb_id,
}
pool = self.mem_pool_client.create_pool(**pool_kwargs)
self.addCleanup(
self.mem_pool_client.cleanup_pool, pool[const.ID],
lb_client=self.mem_lb_client, lb_id=self.lb_id)
waiters.wait_for_status(self.mem_lb_client.show_loadbalancer,
self.lb_id, const.PROVISIONING_STATUS,
const.ACTIVE,
CONF.load_balancer.build_interval,
CONF.load_balancer.build_timeout)
hm_name = data_utils.rand_name("lb_member_hm1-create")
hm_kwargs = {
const.POOL_ID: pool[const.ID],
const.NAME: hm_name,
const.TYPE: const.HEALTH_MONITOR_HTTP,
const.DELAY: 2,
const.TIMEOUT: 3,
const.MAX_RETRIES: 4,
const.MAX_RETRIES_DOWN: 5,
const.HTTP_METHOD: const.GET,
const.URL_PATH: '/',
const.EXPECTED_CODES: '200-204',
const.ADMIN_STATE_UP: True,
}
# Test that a user without the loadbalancer role cannot
# create a healthmonitor
if CONF.load_balancer.RBAC_test_type == const.ADVANCED:
self.assertRaises(
exceptions.Forbidden,
self.os_primary.healthmonitor_client.create_healthmonitor,
**hm_kwargs)
hm = self.mem_healthmonitor_client.create_healthmonitor(**hm_kwargs)
self.addCleanup(
self.mem_healthmonitor_client.cleanup_healthmonitor,
hm[const.ID],
lb_client=self.mem_lb_client, lb_id=self.lb_id)
waiters.wait_for_status(
self.mem_lb_client.show_loadbalancer, self.lb_id,
const.PROVISIONING_STATUS, const.ACTIVE,
CONF.load_balancer.build_interval,
CONF.load_balancer.build_timeout)
hm = waiters.wait_for_status(
self.mem_healthmonitor_client.show_healthmonitor,
hm[const.ID], const.PROVISIONING_STATUS,
const.ACTIVE,
CONF.load_balancer.build_interval,
CONF.load_balancer.build_timeout)
parser.parse(hm[const.CREATED_AT])
parser.parse(hm[const.UPDATED_AT])
UUID(hm[const.ID])
# Healthmonitors are always ONLINE
self.assertEqual(const.ONLINE, hm[const.OPERATING_STATUS])
equal_items = [const.NAME, const.TYPE, const.DELAY, const.TIMEOUT,
const.MAX_RETRIES, const.MAX_RETRIES_DOWN,
const.HTTP_METHOD, const.URL_PATH, const.EXPECTED_CODES,
const.ADMIN_STATE_UP]
for item in equal_items:
self.assertEqual(hm_kwargs[item], hm[item])
# Helper functions for test healthmonitor list
def _filter_hms_by_pool_id(self, hms, pool_ids):
return [hm for hm in hms
if hm[const.POOLS][0][const.ID] in pool_ids]
def _filter_hms_by_index(self, hms, indexes):
return [hm for i, hm in enumerate(hms) if i not in indexes]
@decorators.idempotent_id('c9a9f20c-3680-4ae8-b657-33c687258fea')
def test_healthmonitor_list(self):
"""Tests healthmonitor list API and field filtering.
* Create three clean pools to use for the healthmonitors.
* Create three healthmonitors.
* Validates that other accounts cannot list the healthmonitors.
* List the healthmonitors using the default sort order.
* List the healthmonitors using descending sort order.
* List the healthmonitors using ascending sort order.
* List the healthmonitors returning one field at a time.
* List the healthmonitors returning two fields.
* List the healthmonitors filtering to one of the three.
* List the healthmonitors filtered, one field, and sorted.
"""
# Get a list of pre-existing HMs to filter from test data
pretest_hms = self.mem_healthmonitor_client.list_healthmonitors()
# Store their IDs for easy access
pretest_hm_ids = [hm['id'] for hm in pretest_hms]
pool1_name = data_utils.rand_name("lb_member_pool1_hm-list")
pool1_kwargs = {
const.NAME: pool1_name,
const.PROTOCOL: const.HTTP,
const.LB_ALGORITHM: const.LB_ALGORITHM_ROUND_ROBIN,
const.LOADBALANCER_ID: self.lb_id,
}
pool1 = self.mem_pool_client.create_pool(**pool1_kwargs)
pool1_id = pool1[const.ID]
self.addCleanup(
self.mem_pool_client.cleanup_pool, pool1_id,
lb_client=self.mem_lb_client, lb_id=self.lb_id)
waiters.wait_for_status(self.mem_lb_client.show_loadbalancer,
self.lb_id, const.PROVISIONING_STATUS,
const.ACTIVE,
CONF.load_balancer.build_interval,
CONF.load_balancer.build_timeout)
pool2_name = data_utils.rand_name("lb_member_pool2_hm-list")
pool2_kwargs = {
const.NAME: pool2_name,
const.PROTOCOL: const.HTTP,
const.LB_ALGORITHM: const.LB_ALGORITHM_ROUND_ROBIN,
const.LOADBALANCER_ID: self.lb_id,
}
pool2 = self.mem_pool_client.create_pool(**pool2_kwargs)
pool2_id = pool2[const.ID]
self.addCleanup(
self.mem_pool_client.cleanup_pool, pool2_id,
lb_client=self.mem_lb_client, lb_id=self.lb_id)
waiters.wait_for_status(self.mem_lb_client.show_loadbalancer,
self.lb_id, const.PROVISIONING_STATUS,
const.ACTIVE,
CONF.load_balancer.build_interval,
CONF.load_balancer.build_timeout)
pool3_name = data_utils.rand_name("lb_member_pool3_hm-list")
pool3_kwargs = {
const.NAME: pool3_name,
const.PROTOCOL: const.HTTP,
const.LB_ALGORITHM: const.LB_ALGORITHM_ROUND_ROBIN,
const.LOADBALANCER_ID: self.lb_id,
}
pool3 = self.mem_pool_client.create_pool(**pool3_kwargs)
pool3_id = pool3[const.ID]
self.addCleanup(
self.mem_pool_client.cleanup_pool, pool3_id,
lb_client=self.mem_lb_client, lb_id=self.lb_id)
waiters.wait_for_status(self.mem_lb_client.show_loadbalancer,
self.lb_id, const.PROVISIONING_STATUS,
const.ACTIVE,
CONF.load_balancer.build_interval,
CONF.load_balancer.build_timeout)
hm1_name = data_utils.rand_name("lb_member_hm2-list")
hm1_kwargs = {
const.POOL_ID: pool1_id,
const.NAME: hm1_name,
const.TYPE: const.HEALTH_MONITOR_HTTP,
const.DELAY: 2,
const.TIMEOUT: 3,
const.MAX_RETRIES: 4,
const.MAX_RETRIES_DOWN: 5,
const.HTTP_METHOD: const.GET,
const.URL_PATH: '/B',
const.EXPECTED_CODES: '200-204',
const.ADMIN_STATE_UP: True,
}
hm1 = self.mem_healthmonitor_client.create_healthmonitor(
**hm1_kwargs)
self.addCleanup(
self.mem_healthmonitor_client.cleanup_healthmonitor,
hm1[const.ID],
lb_client=self.mem_lb_client, lb_id=self.lb_id)
hm1 = waiters.wait_for_status(
self.mem_healthmonitor_client.show_healthmonitor, hm1[const.ID],
const.PROVISIONING_STATUS, const.ACTIVE,
CONF.load_balancer.build_interval,
CONF.load_balancer.build_timeout)
waiters.wait_for_status(self.mem_lb_client.show_loadbalancer,
self.lb_id,
const.PROVISIONING_STATUS,
const.ACTIVE,
CONF.load_balancer.build_interval,
CONF.load_balancer.build_timeout)
# Time resolution for created_at is only to the second, and we need to
# ensure that each object has a distinct creation time. Delaying one
# second is both a simple and a reliable way to accomplish this.
time.sleep(1)
hm2_name = data_utils.rand_name("lb_member_hm1-list")
hm2_kwargs = {
const.POOL_ID: pool2_id,
const.NAME: hm2_name,
const.TYPE: const.HEALTH_MONITOR_HTTP,
const.DELAY: 2,
const.TIMEOUT: 3,
const.MAX_RETRIES: 4,
const.MAX_RETRIES_DOWN: 5,
const.HTTP_METHOD: const.GET,
const.URL_PATH: '/A',
const.EXPECTED_CODES: '200-204',
const.ADMIN_STATE_UP: True,
}
hm2 = self.mem_healthmonitor_client.create_healthmonitor(
**hm2_kwargs)
self.addCleanup(
self.mem_healthmonitor_client.cleanup_healthmonitor,
hm2[const.ID],
lb_client=self.mem_lb_client, lb_id=self.lb_id)
hm2 = waiters.wait_for_status(
self.mem_healthmonitor_client.show_healthmonitor, hm2[const.ID],
const.PROVISIONING_STATUS, const.ACTIVE,
CONF.load_balancer.build_interval,
CONF.load_balancer.build_timeout)
waiters.wait_for_status(self.mem_lb_client.show_loadbalancer,
self.lb_id,
const.PROVISIONING_STATUS,
const.ACTIVE,
CONF.load_balancer.build_interval,
CONF.load_balancer.build_timeout)
# Time resolution for created_at is only to the second, and we need to
# ensure that each object has a distinct creation time. Delaying one
# second is both a simple and a reliable way to accomplish this.
time.sleep(1)
hm3_name = data_utils.rand_name("lb_member_hm3-list")
hm3_kwargs = {
const.POOL_ID: pool3_id,
const.NAME: hm3_name,
const.TYPE: const.HEALTH_MONITOR_HTTP,
const.DELAY: 2,
const.TIMEOUT: 3,
const.MAX_RETRIES: 4,
const.MAX_RETRIES_DOWN: 5,
const.HTTP_METHOD: const.GET,
const.URL_PATH: '/C',
const.EXPECTED_CODES: '200-204',
const.ADMIN_STATE_UP: False,
}
hm3 = self.mem_healthmonitor_client.create_healthmonitor(
**hm3_kwargs)
self.addCleanup(
self.mem_healthmonitor_client.cleanup_healthmonitor,
hm3[const.ID],
lb_client=self.mem_lb_client, lb_id=self.lb_id)
hm3 = waiters.wait_for_status(
self.mem_healthmonitor_client.show_healthmonitor, hm3[const.ID],
const.PROVISIONING_STATUS, const.ACTIVE,
CONF.load_balancer.build_interval,
CONF.load_balancer.build_timeout)
waiters.wait_for_status(self.mem_lb_client.show_loadbalancer,
self.lb_id,
const.PROVISIONING_STATUS,
const.ACTIVE,
CONF.load_balancer.build_interval,
CONF.load_balancer.build_timeout)
# Test that a different user cannot list healthmonitors
if not CONF.load_balancer.RBAC_test_type == const.NONE:
member2_client = self.os_roles_lb_member2.healthmonitor_client
primary = member2_client.list_healthmonitors(
query_params='pool_id={pool_id}'.format(pool_id=pool1_id))
self.assertEqual(0, len(primary))
# Test that users without the lb member role cannot list healthmonitors
if CONF.load_balancer.RBAC_test_type == const.ADVANCED:
self.assertRaises(
exceptions.Forbidden,
self.os_primary.healthmonitor_client.list_healthmonitors)
# Check the default sort order, created_at
hms = self.mem_healthmonitor_client.list_healthmonitors()
hms = self._filter_hms_by_pool_id(hms, (pool1_id, pool2_id, pool3_id))
self.assertEqual(hm1[const.URL_PATH],
hms[0][const.URL_PATH])
self.assertEqual(hm2[const.URL_PATH],
hms[1][const.URL_PATH])
self.assertEqual(hm3[const.URL_PATH],
hms[2][const.URL_PATH])
# Test sort descending by description
hms = self.mem_healthmonitor_client.list_healthmonitors(
query_params='{sort}={url_path}:{desc}'
.format(sort=const.SORT,
url_path=const.URL_PATH, desc=const.DESC))
hms = self._filter_hms_by_pool_id(hms, (pool1_id, pool2_id, pool3_id))
self.assertEqual(hm1[const.URL_PATH],
hms[1][const.URL_PATH])
self.assertEqual(hm2[const.URL_PATH],
hms[2][const.URL_PATH])
self.assertEqual(hm3[const.URL_PATH],
hms[0][const.URL_PATH])
# Test sort ascending by description
hms = self.mem_healthmonitor_client.list_healthmonitors(
query_params='{sort}={url_path}:{asc}'
.format(sort=const.SORT,
url_path=const.URL_PATH, asc=const.ASC))
hms = self._filter_hms_by_pool_id(hms, (pool1_id, pool2_id, pool3_id))
self.assertEqual(hm1[const.URL_PATH],
hms[1][const.URL_PATH])
self.assertEqual(hm2[const.URL_PATH],
hms[0][const.URL_PATH])
self.assertEqual(hm3[const.URL_PATH],
hms[2][const.URL_PATH])
# Determine indexes of pretest HMs in default sort
pretest_hm_indexes = []
hms = self.mem_healthmonitor_client.list_healthmonitors()
for i, hm in enumerate(hms):
if hm['id'] in pretest_hm_ids:
pretest_hm_indexes.append(i)
# Test fields
for field in const.SHOW_HEALTHMONITOR_RESPONSE_FIELDS:
hms = self.mem_healthmonitor_client.list_healthmonitors(
query_params='{fields}={field}'
.format(fields=const.FIELDS, field=field))
hms = self._filter_hms_by_index(hms, pretest_hm_indexes)
self.assertEqual(1, len(hms[0]))
self.assertEqual(hm1[field], hms[0][field])
self.assertEqual(hm2[field], hms[1][field])
self.assertEqual(hm3[field], hms[2][field])
# Test multiple fields at the same time
hms = self.mem_healthmonitor_client.list_healthmonitors(
query_params='{fields}={admin}&'
'{fields}={created}&'
'{fields}={pools}'.format(
fields=const.FIELDS,
admin=const.ADMIN_STATE_UP,
created=const.CREATED_AT,
pools=const.POOLS))
hms = self._filter_hms_by_pool_id(hms, (pool1_id, pool2_id, pool3_id))
self.assertEqual(3, len(hms[0]))
self.assertTrue(hms[0][const.ADMIN_STATE_UP])
parser.parse(hms[0][const.CREATED_AT])
self.assertTrue(hms[1][const.ADMIN_STATE_UP])
parser.parse(hms[1][const.CREATED_AT])
self.assertFalse(hms[2][const.ADMIN_STATE_UP])
parser.parse(hms[2][const.CREATED_AT])
# Test filtering
hms = self.mem_healthmonitor_client.list_healthmonitors(
query_params='{name}={hm_name}'.format(
name=const.NAME,
hm_name=hm2[const.NAME]))
self.assertEqual(1, len(hms))
self.assertEqual(hm2[const.NAME],
hms[0][const.NAME])
# Test combined params
hms = self.mem_healthmonitor_client.list_healthmonitors(
query_params='{admin}={true}&'
'{fields}={name}&{fields}={pools}&'
'{sort}={name}:{desc}'.format(
admin=const.ADMIN_STATE_UP,
true=const.ADMIN_STATE_UP_TRUE,
fields=const.FIELDS, name=const.NAME,
pools=const.POOLS, sort=const.SORT,
desc=const.DESC))
hms = self._filter_hms_by_pool_id(hms, (pool1_id, pool2_id, pool3_id))
# Should get two healthmonitors
self.assertEqual(2, len(hms))
# healthmonitors should have two fields
self.assertEqual(2, len(hms[0]))
# Should be in descending order
self.assertEqual(hm2[const.NAME],
hms[1][const.NAME])
self.assertEqual(hm1[const.NAME],
hms[0][const.NAME])
@decorators.idempotent_id('284e8d3b-7b2d-4697-9e41-580b3423c0b4')
def test_healthmonitor_show(self):
"""Tests healthmonitor show API.
* Create a clean pool to use for the healthmonitor.
* Create a fully populated healthmonitor.
* Show healthmonitor details.
* Validate the show reflects the requested values.
* Validates that other accounts cannot see the healthmonitor.
"""
pool_name = data_utils.rand_name("lb_member_pool1_hm-show")
pool_kwargs = {
const.NAME: pool_name,
const.PROTOCOL: const.HTTP,
const.LB_ALGORITHM: const.LB_ALGORITHM_ROUND_ROBIN,
const.LOADBALANCER_ID: self.lb_id,
}
pool = self.mem_pool_client.create_pool(**pool_kwargs)
self.addCleanup(
self.mem_pool_client.cleanup_pool, pool[const.ID],
lb_client=self.mem_lb_client, lb_id=self.lb_id)
waiters.wait_for_status(self.mem_lb_client.show_loadbalancer,
self.lb_id, const.PROVISIONING_STATUS,
const.ACTIVE,
CONF.load_balancer.build_interval,
CONF.load_balancer.build_timeout)
hm_name = data_utils.rand_name("lb_member_hm1-show")
hm_kwargs = {
const.POOL_ID: pool[const.ID],
const.NAME: hm_name,
const.TYPE: const.HEALTH_MONITOR_HTTP,
const.DELAY: 2,
const.TIMEOUT: 3,
const.MAX_RETRIES: 4,
const.MAX_RETRIES_DOWN: 5,
const.HTTP_METHOD: const.GET,
const.URL_PATH: '/',
const.EXPECTED_CODES: '200-204',
const.ADMIN_STATE_UP: True,
}
hm = self.mem_healthmonitor_client.create_healthmonitor(**hm_kwargs)
self.addCleanup(
self.mem_healthmonitor_client.cleanup_healthmonitor,
hm[const.ID],
lb_client=self.mem_lb_client, lb_id=self.lb_id)
waiters.wait_for_status(
self.mem_lb_client.show_loadbalancer, self.lb_id,
const.PROVISIONING_STATUS, const.ACTIVE,
CONF.load_balancer.build_interval,
CONF.load_balancer.build_timeout)
hm = waiters.wait_for_status(
self.mem_healthmonitor_client.show_healthmonitor,
hm[const.ID], const.PROVISIONING_STATUS,
const.ACTIVE,
CONF.load_balancer.build_interval,
CONF.load_balancer.build_timeout)
parser.parse(hm[const.CREATED_AT])
parser.parse(hm[const.UPDATED_AT])
UUID(hm[const.ID])
# Healthmonitors are always ONLINE
self.assertEqual(const.ONLINE, hm[const.OPERATING_STATUS])
equal_items = [const.NAME, const.TYPE, const.DELAY, const.TIMEOUT,
const.MAX_RETRIES, const.MAX_RETRIES_DOWN,
const.HTTP_METHOD, const.URL_PATH, const.EXPECTED_CODES,
const.ADMIN_STATE_UP]
for item in equal_items:
self.assertEqual(hm_kwargs[item], hm[item])
# Test that a user with lb_admin role can see the healthmonitor
if CONF.load_balancer.RBAC_test_type == const.ADVANCED:
healthmonitor_client = self.os_roles_lb_admin.healthmonitor_client
hm_adm = healthmonitor_client.show_healthmonitor(hm[const.ID])
self.assertEqual(hm_name, hm_adm[const.NAME])
# Test that a user with cloud admin role can see the healthmonitor
if not CONF.load_balancer.RBAC_test_type == const.NONE:
adm = self.os_admin.healthmonitor_client.show_healthmonitor(
hm[const.ID])
self.assertEqual(hm_name, adm[const.NAME])
# Test that a different user, with loadbalancer member role, cannot
# see this healthmonitor
if not CONF.load_balancer.RBAC_test_type == const.NONE:
member2_client = self.os_roles_lb_member2.healthmonitor_client
self.assertRaises(exceptions.Forbidden,
member2_client.show_healthmonitor,
hm[const.ID])
# Test that a user, without the loadbalancer member role, cannot
# show healthmonitors
if CONF.load_balancer.RBAC_test_type == const.ADVANCED:
self.assertRaises(
exceptions.Forbidden,
self.os_primary.healthmonitor_client.show_healthmonitor,
hm[const.ID])
@decorators.idempotent_id('fa584b2c-f179-4c4e-ad2e-ff51fd1c5973')
def test_healthmonitor_update(self):
"""Tests healthmonitor update and show APIs.
* Create a clean pool to use for the healthmonitor.
* Create a fully populated healthmonitor.
* Show healthmonitor details.
* Validate the show reflects the initial values.
* Validates that other accounts cannot update the healthmonitor.
* Update the healthmonitor details.
* Show healthmonitor details.
* Validate the show reflects the updated values.
"""
pool_name = data_utils.rand_name("lb_member_pool1_hm-update")
pool_kwargs = {
const.NAME: pool_name,
const.PROTOCOL: const.HTTP,
const.LB_ALGORITHM: const.LB_ALGORITHM_ROUND_ROBIN,
const.LOADBALANCER_ID: self.lb_id,
}
pool = self.mem_pool_client.create_pool(**pool_kwargs)
self.addCleanup(
self.mem_pool_client.cleanup_pool, pool[const.ID],
lb_client=self.mem_lb_client, lb_id=self.lb_id)
waiters.wait_for_status(self.mem_lb_client.show_loadbalancer,
self.lb_id, const.PROVISIONING_STATUS,
const.ACTIVE,
CONF.load_balancer.build_interval,
CONF.load_balancer.build_timeout)
hm_name = data_utils.rand_name("lb_member_hm1-update")
hm_kwargs = {
const.POOL_ID: pool[const.ID],
const.NAME: hm_name,
const.TYPE: const.HEALTH_MONITOR_HTTP,
const.DELAY: 2,
const.TIMEOUT: 3,
const.MAX_RETRIES: 4,
const.MAX_RETRIES_DOWN: 5,
const.HTTP_METHOD: const.GET,
const.URL_PATH: '/',
const.EXPECTED_CODES: '200-204',
const.ADMIN_STATE_UP: False,
}
hm = self.mem_healthmonitor_client.create_healthmonitor(**hm_kwargs)
self.addCleanup(
self.mem_healthmonitor_client.cleanup_healthmonitor,
hm[const.ID],
lb_client=self.mem_lb_client, lb_id=self.lb_id)
waiters.wait_for_status(
self.mem_lb_client.show_loadbalancer, self.lb_id,
const.PROVISIONING_STATUS, const.ACTIVE,
CONF.load_balancer.build_interval,
CONF.load_balancer.build_timeout)
hm = waiters.wait_for_status(
self.mem_healthmonitor_client.show_healthmonitor,
hm[const.ID], const.PROVISIONING_STATUS,
const.ACTIVE,
CONF.load_balancer.build_interval,
CONF.load_balancer.build_timeout)
parser.parse(hm[const.CREATED_AT])
parser.parse(hm[const.UPDATED_AT])
UUID(hm[const.ID])
# Healthmonitors are ONLINE if admin_state_up = True, else OFFLINE
if hm_kwargs[const.ADMIN_STATE_UP]:
self.assertEqual(const.ONLINE, hm[const.OPERATING_STATUS])
else:
self.assertEqual(const.OFFLINE, hm[const.OPERATING_STATUS])
equal_items = [const.NAME, const.TYPE, const.DELAY, const.TIMEOUT,
const.MAX_RETRIES, const.MAX_RETRIES_DOWN,
const.HTTP_METHOD, const.URL_PATH, const.EXPECTED_CODES,
const.ADMIN_STATE_UP]
for item in equal_items:
self.assertEqual(hm_kwargs[item], hm[item])
# Test that a user, without the loadbalancer member role, cannot
# use this command
if CONF.load_balancer.RBAC_test_type == const.ADVANCED:
self.assertRaises(
exceptions.Forbidden,
self.os_primary.healthmonitor_client.update_healthmonitor,
hm[const.ID], admin_state_up=True)
# Assert we didn't go into PENDING_*
hm_check = self.mem_healthmonitor_client.show_healthmonitor(
hm[const.ID])
self.assertEqual(const.ACTIVE,
hm_check[const.PROVISIONING_STATUS])
self.assertFalse(hm_check[const.ADMIN_STATE_UP])
# Test that a user, without the loadbalancer member role, cannot
# update this healthmonitor
if not CONF.load_balancer.RBAC_test_type == const.NONE:
member2_client = self.os_roles_lb_member2.healthmonitor_client
self.assertRaises(exceptions.Forbidden,
member2_client.update_healthmonitor,
hm[const.ID], admin_state_up=True)
# Assert we didn't go into PENDING_*
hm_check = self.mem_healthmonitor_client.show_healthmonitor(
hm[const.ID])
self.assertEqual(const.ACTIVE,
hm_check[const.PROVISIONING_STATUS])
self.assertFalse(hm_check[const.ADMIN_STATE_UP])
new_name = data_utils.rand_name("lb_member_hm1-UPDATED")
hm_update_kwargs = {
const.NAME: new_name,
const.DELAY: hm_kwargs[const.DELAY] + 1,
const.TIMEOUT: hm_kwargs[const.TIMEOUT] + 1,
const.MAX_RETRIES: hm_kwargs[const.MAX_RETRIES] + 1,
const.MAX_RETRIES_DOWN: hm_kwargs[const.MAX_RETRIES_DOWN] + 1,
const.HTTP_METHOD: const.POST,
const.URL_PATH: '/test',
const.EXPECTED_CODES: '201,202',
const.ADMIN_STATE_UP: not hm_kwargs[const.ADMIN_STATE_UP],
}
hm = self.mem_healthmonitor_client.update_healthmonitor(
hm[const.ID], **hm_update_kwargs)
waiters.wait_for_status(
self.mem_lb_client.show_loadbalancer, self.lb_id,
const.PROVISIONING_STATUS, const.ACTIVE,
CONF.load_balancer.build_interval,
CONF.load_balancer.build_timeout)
hm = waiters.wait_for_status(
self.mem_healthmonitor_client.show_healthmonitor,
hm[const.ID], const.PROVISIONING_STATUS,
const.ACTIVE,
CONF.load_balancer.build_interval,
CONF.load_balancer.build_timeout)
# Healthmonitors are ONLINE if admin_state_up = True, else OFFLINE
if hm_update_kwargs[const.ADMIN_STATE_UP]:
self.assertEqual(const.ONLINE, hm[const.OPERATING_STATUS])
else:
self.assertEqual(const.OFFLINE, hm[const.OPERATING_STATUS])
# Test changed items
equal_items = [const.NAME, const.DELAY, const.TIMEOUT,
const.MAX_RETRIES, const.MAX_RETRIES_DOWN,
const.HTTP_METHOD, const.URL_PATH, const.EXPECTED_CODES,
const.ADMIN_STATE_UP]
for item in equal_items:
self.assertEqual(hm_update_kwargs[item], hm[item])
# Test unchanged items
equal_items = [const.TYPE]
for item in equal_items:
self.assertEqual(hm_kwargs[item], hm[item])
@decorators.idempotent_id('a7bab4ac-340c-4776-ab9d-9fcb66869432')
def test_healthmonitor_delete(self):
"""Tests healthmonitor create and delete APIs.
* Create a clean pool to use for the healthmonitor.
* Creates a healthmonitor.
* Validates that other accounts cannot delete the healthmonitor
* Deletes the healthmonitor.
* Validates the healthmonitor is in the DELETED state.
"""
pool_name = data_utils.rand_name("lb_member_pool1_hm-delete")
pool_kwargs = {
const.NAME: pool_name,
const.PROTOCOL: const.HTTP,
const.LB_ALGORITHM: const.LB_ALGORITHM_ROUND_ROBIN,
const.LOADBALANCER_ID: self.lb_id,
}
pool = self.mem_pool_client.create_pool(**pool_kwargs)
self.addCleanup(
self.mem_pool_client.cleanup_pool, pool[const.ID],
lb_client=self.mem_lb_client, lb_id=self.lb_id)
waiters.wait_for_status(self.mem_lb_client.show_loadbalancer,
self.lb_id, const.PROVISIONING_STATUS,
const.ACTIVE,
CONF.load_balancer.build_interval,
CONF.load_balancer.build_timeout)
hm_name = data_utils.rand_name("lb_member_hm1-delete")
hm_kwargs = {
const.POOL_ID: pool[const.ID],
const.NAME: hm_name,
const.TYPE: const.HEALTH_MONITOR_TCP,
const.DELAY: 2,
const.TIMEOUT: 3,
const.MAX_RETRIES: 4,
}
hm = self.mem_healthmonitor_client.create_healthmonitor(**hm_kwargs)
self.addCleanup(
self.mem_healthmonitor_client.cleanup_healthmonitor,
hm[const.ID],
lb_client=self.mem_lb_client, lb_id=self.lb_id)
waiters.wait_for_status(
self.mem_lb_client.show_loadbalancer,
self.lb_id, const.PROVISIONING_STATUS,
const.ACTIVE,
CONF.load_balancer.build_interval,
CONF.load_balancer.build_timeout)
# Test that a user without the loadbalancer role cannot
# delete this healthmonitor
if CONF.load_balancer.RBAC_test_type == const.ADVANCED:
self.assertRaises(
exceptions.Forbidden,
self.os_primary.healthmonitor_client.delete_healthmonitor,
hm[const.ID])
# Test that a different user, with the loadbalancer member role
# cannot delete this healthmonitor
if not CONF.load_balancer.RBAC_test_type == const.NONE:
member2_client = self.os_roles_lb_member2.healthmonitor_client
self.assertRaises(exceptions.Forbidden,
member2_client.delete_healthmonitor,
hm[const.ID])
self.mem_healthmonitor_client.delete_healthmonitor(hm[const.ID])
waiters.wait_for_deleted_status_or_not_found(
self.mem_healthmonitor_client.show_healthmonitor, hm[const.ID],
const.PROVISIONING_STATUS,
CONF.load_balancer.check_interval,
CONF.load_balancer.check_timeout)
waiters.wait_for_status(
self.mem_lb_client.show_loadbalancer,
self.lb_id, const.PROVISIONING_STATUS,
const.ACTIVE,
CONF.load_balancer.check_interval,
CONF.load_balancer.check_timeout)
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