manila_tempest_tests/tests/scenario/manager.py - packaging/sources/manila-tempest-plugin - Gitiles

 # Copyright 2012 OpenStack Foundation
 # Copyright 2013 IBM Corp.
 # All Rights Reserved.
 #
 #    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.

 from oslo_log import log
 from oslo_utils import uuidutils
 from tempest.common import image as common_image
 from tempest import config
 from tempest.lib.common.utils import data_utils
 from tempest.lib.common.utils import test_utils
 from tempest.lib import exceptions as lib_exc
 from tempest.scenario import manager

 CONF = config.CONF

 LOG = log.getLogger(__name__)


 class ScenarioTest(manager.NetworkScenarioTest):
     """Base class for scenario tests. Uses tempest own clients. """

     credentials = ['primary']

     @classmethod
     def setup_clients(cls):
         super(ScenarioTest, cls).setup_clients()
         # Clients (in alphabetical order)
         cls.flavors_client = cls.os_primary.flavors_client
         cls.compute_floating_ips_client = (
             cls.os_primary.compute_floating_ips_client)
         if CONF.service_available.glance:
             # Check if glance v1 is available to determine which client to use.
             if CONF.image_feature_enabled.api_v1:
                 cls.image_client = cls.os_primary.image_client
             elif CONF.image_feature_enabled.api_v2:
                 cls.image_client = cls.os_primary.image_client_v2
             else:
                 raise lib_exc.InvalidConfiguration(
                     'Either api_v1 or api_v2 must be True in '
                     '[image-feature-enabled].')
         # Compute image client
         cls.compute_images_client = cls.os_primary.compute_images_client
         cls.keypairs_client = cls.os_primary.keypairs_client
         # Nova security groups client
         cls.compute_security_groups_client = (
             cls.os_primary.compute_security_groups_client)
         cls.compute_security_group_rules_client = (
             cls.os_primary.compute_security_group_rules_client)
         cls.servers_client = cls.os_primary.servers_client
         cls.interface_client = cls.os_primary.interfaces_client
         # Neutron network client
         cls.networks_client = cls.os_primary.networks_client
         cls.ports_client = cls.os_primary.ports_client
         cls.routers_client = cls.os_primary.routers_client
         cls.subnets_client = cls.os_primary.subnets_client
         cls.floating_ips_client = cls.os_primary.floating_ips_client
         cls.security_groups_client = cls.os_primary.security_groups_client
         cls.security_group_rules_client = (
             cls.os_primary.security_group_rules_client)

     # ## Test functions library
     #
     # The create_[resource] functions only return body and discard the
     # resp part which is not used in scenario tests

     def _image_create(self, name, fmt, path,
                       disk_format=None, properties=None):
         if properties is None:
             properties = {}
         name = data_utils.rand_name('%s-' % name)
         params = {
             'name': name,
             'container_format': fmt,
             'disk_format': disk_format or fmt,
         }
         if CONF.image_feature_enabled.api_v1:
             params['is_public'] = 'False'
             params['properties'] = properties
             params = {'headers': common_image.image_meta_to_headers(**params)}
         else:
             params['visibility'] = 'private'
             # Additional properties are flattened out in the v2 API.
             params.update(properties)
         body = self.image_client.create_image(**params)
         image = body['image'] if 'image' in body else body
         self.addCleanup(self.image_client.delete_image, image['id'])
         self.assertEqual("queued", image['status'])
         with open(path, 'rb') as image_file:
             if CONF.image_feature_enabled.api_v1:
                 self.image_client.update_image(image['id'], data=image_file)
             else:
                 self.image_client.store_image_file(image['id'], image_file)
         return image['id']

     def glance_image_create(self):
         img_path = CONF.scenario.img_file
         img_container_format = CONF.scenario.img_container_format
         img_disk_format = CONF.scenario.img_disk_format
         img_properties = CONF.scenario.img_properties
         LOG.debug("paths: img: %s, container_format: %s, disk_format: %s, "
                   "properties: %s",
                   img_path, img_container_format, img_disk_format,
                   img_properties)
         image = self._image_create('scenario-img',
                                    img_container_format,
                                    img_path,
                                    disk_format=img_disk_format,
                                    properties=img_properties)
         LOG.debug("image:%s", image)

         return image

     def _log_net_info(self, exc):
         # network debug is called as part of ssh init
         if not isinstance(exc, lib_exc.SSHTimeout):
             LOG.debug('Network information on a devstack host')


 class NetworkScenarioTest(ScenarioTest):
     """Base class for network scenario tests.

     This class provide helpers for network scenario tests, using the neutron
     API. Helpers from ancestor which use the nova network API are overridden
     with the neutron API.

     This Class also enforces using Neutron instead of novanetwork.
     Subclassed tests will be skipped if Neutron is not enabled

     """

     credentials = ['primary', 'admin']

     @classmethod
     def skip_checks(cls):
         super(NetworkScenarioTest, cls).skip_checks()
         if not CONF.service_available.neutron:
             raise cls.skipException('Neutron not available')

     def _get_network_by_name_or_id(self, identifier):

         if uuidutils.is_uuid_like(identifier):
             return self.os_admin.networks_client.show_network(
                 identifier)['network']

         networks = self.os_admin.networks_client.list_networks(
             name=identifier)['networks']
         self.assertNotEqual(len(networks), 0,
                             "Unable to get network by name: %s" % identifier)
         return networks[0]

     def get_networks(self):
         return self.os_admin.networks_client.list_networks()['networks']

     def create_floating_ip(self, thing, external_network_id=None,
                            port_id=None, ip_addr=None, client=None):
         """Create a floating IP and associates to a resource/port on Neutron"""
         if not external_network_id:
             external_network_id = CONF.network.public_network_id
         if not client:
             client = self.floating_ips_client
         if not port_id:
             port_id, ip4 = self.get_server_port_id_and_ip4(thing,
                                                            ip_addr=ip_addr)
         else:
             ip4 = None
         result = client.create_floatingip(
             floating_network_id=external_network_id,
             port_id=port_id,
             tenant_id=thing['tenant_id'],
             fixed_ip_address=ip4
         )
         floating_ip = result['floatingip']
         self.addCleanup(test_utils.call_and_ignore_notfound_exc,
                         client.delete_floatingip,
                         floating_ip['id'])
         return floating_ip

     def _create_security_group(self, security_group_rules_client=None,
                                tenant_id=None,
                                namestart='secgroup-smoke',
                                security_groups_client=None):
         if security_group_rules_client is None:
             security_group_rules_client = self.security_group_rules_client
         if security_groups_client is None:
             security_groups_client = self.security_groups_client
         if tenant_id is None:
             tenant_id = security_groups_client.tenant_id
         secgroup = self._create_empty_security_group(
             namestart=namestart, client=security_groups_client,
             tenant_id=tenant_id)

         # Add rules to the security group
         rules = self._create_loginable_secgroup_rule(
             security_group_rules_client=security_group_rules_client,
             secgroup=secgroup,
             security_groups_client=security_groups_client)
         for rule in rules:
             self.assertEqual(tenant_id, rule['tenant_id'])
             self.assertEqual(secgroup['id'], rule['security_group_id'])
         return secgroup

     def _create_empty_security_group(self, client=None, tenant_id=None,
                                      namestart='secgroup-smoke'):
         """Create a security group without rules.

         Default rules will be created:
          - IPv4 egress to any
          - IPv6 egress to any

         :param tenant_id: secgroup will be created in this tenant
         :returns: the created security group
         """
         if client is None:
             client = self.security_groups_client
         if not tenant_id:
             tenant_id = client.tenant_id
         sg_name = data_utils.rand_name(namestart)
         sg_desc = sg_name + " description"
         sg_dict = dict(name=sg_name,
                        description=sg_desc)
         sg_dict['tenant_id'] = tenant_id
         result = client.create_security_group(**sg_dict)

         secgroup = result['security_group']
         self.assertEqual(secgroup['name'], sg_name)
         self.assertEqual(tenant_id, secgroup['tenant_id'])
         self.assertEqual(secgroup['description'], sg_desc)

         self.addCleanup(test_utils.call_and_ignore_notfound_exc,
                         client.delete_security_group, secgroup['id'])
         return secgroup

     def _default_security_group(self, client=None, tenant_id=None):
         """Get default secgroup for given tenant_id.

         :returns: default secgroup for given tenant
         """
         if client is None:
             client = self.security_groups_client
         if not tenant_id:
             tenant_id = client.tenant_id
         sgs = [
             sg for sg in list(client.list_security_groups().values())[0]
             if sg['tenant_id'] == tenant_id and sg['name'] == 'default'
         ]
         msg = "No default security group for tenant %s." % (tenant_id)
         self.assertGreater(len(sgs), 0, msg)
         return sgs[0]

     def _create_security_group_rule(self, secgroup=None,
                                     sec_group_rules_client=None,
                                     tenant_id=None,
                                     security_groups_client=None, **kwargs):
         """Create a rule from a dictionary of rule parameters.

         Create a rule in a secgroup. if secgroup not defined will search for
         default secgroup in tenant_id.

         :param secgroup: the security group.
         :param tenant_id: if secgroup not passed -- the tenant in which to
             search for default secgroup
         :param kwargs: a dictionary containing rule parameters:
             for example, to allow incoming ssh:
             rule = {
                     direction: 'ingress'
                     protocol:'tcp',
                     port_range_min: 22,
                     port_range_max: 22
                     }
         """
         if sec_group_rules_client is None:
             sec_group_rules_client = self.security_group_rules_client
         if security_groups_client is None:
             security_groups_client = self.security_groups_client
         if not tenant_id:
             tenant_id = security_groups_client.tenant_id
         if secgroup is None:
             secgroup = self._default_security_group(
                 client=security_groups_client, tenant_id=tenant_id)

         ruleset = dict(security_group_id=secgroup['id'],
                        tenant_id=secgroup['tenant_id'])
         ruleset.update(kwargs)

         sg_rule = sec_group_rules_client.create_security_group_rule(**ruleset)
         sg_rule = sg_rule['security_group_rule']

         self.assertEqual(secgroup['tenant_id'], sg_rule['tenant_id'])
         self.assertEqual(secgroup['id'], sg_rule['security_group_id'])

         return sg_rule

     def _create_loginable_secgroup_rule(self, security_group_rules_client=None,
                                         secgroup=None,
                                         security_groups_client=None):
         """Create loginable security group rule

         This function will create:
         1. egress and ingress tcp port 22 allow rule in order to allow ssh
         access for ipv4.
         2. egress and ingress ipv6 icmp allow rule, in order to allow icmpv6.
         3. egress and ingress ipv4 icmp allow rule, in order to allow icmpv4.
         """

         if security_group_rules_client is None:
             security_group_rules_client = self.security_group_rules_client
         if security_groups_client is None:
             security_groups_client = self.security_groups_client
         rules = []
         rulesets = [
             dict(
                 # ssh
                 protocol='tcp',
                 port_range_min=22,
                 port_range_max=22,
             ),
             dict(
                 # ipv6-ssh
                 protocol='tcp',
                 port_range_min=22,
                 port_range_max=22,
                 ethertype='IPv6',
             ),
             dict(
                 # ping
                 protocol='icmp',
             ),
             dict(
                 # ipv6-icmp for ping6
                 protocol='icmp',
                 ethertype='IPv6',
             )
         ]
         sec_group_rules_client = security_group_rules_client
         for ruleset in rulesets:
             for r_direction in ['ingress', 'egress']:
                 ruleset['direction'] = r_direction
                 try:
                     sg_rule = self._create_security_group_rule(
                         sec_group_rules_client=sec_group_rules_client,
                         secgroup=secgroup,
                         security_groups_client=security_groups_client,
                         **ruleset)
                 except lib_exc.Conflict as ex:
                     # if rule already exist - skip rule and continue
                     msg = 'Security group rule already exists'
                     if msg not in ex._error_string:
                         raise ex
                 else:
                     self.assertEqual(r_direction, sg_rule['direction'])
                     rules.append(sg_rule)

         return rules
	# Copyright 2012 OpenStack Foundation
	# Copyright 2013 IBM Corp.
	# All Rights Reserved.
	#
	# 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.

	from oslo_log import log
	from oslo_utils import uuidutils
	from tempest.common import image as common_image
	from tempest import config
	from tempest.lib.common.utils import data_utils
	from tempest.lib.common.utils import test_utils
	from tempest.lib import exceptions as lib_exc
	from tempest.scenario import manager

	CONF = config.CONF

	LOG = log.getLogger(__name__)


	class ScenarioTest(manager.NetworkScenarioTest):
	"""Base class for scenario tests. Uses tempest own clients. """

	credentials = ['primary']

	@classmethod
	def setup_clients(cls):
	super(ScenarioTest, cls).setup_clients()
	# Clients (in alphabetical order)
	cls.flavors_client = cls.os_primary.flavors_client
	cls.compute_floating_ips_client = (
	cls.os_primary.compute_floating_ips_client)
	if CONF.service_available.glance:
	# Check if glance v1 is available to determine which client to use.
	if CONF.image_feature_enabled.api_v1:
	cls.image_client = cls.os_primary.image_client
	elif CONF.image_feature_enabled.api_v2:
	cls.image_client = cls.os_primary.image_client_v2
	else:
	raise lib_exc.InvalidConfiguration(
	'Either api_v1 or api_v2 must be True in '
	'[image-feature-enabled].')
	# Compute image client
	cls.compute_images_client = cls.os_primary.compute_images_client
	cls.keypairs_client = cls.os_primary.keypairs_client
	# Nova security groups client
	cls.compute_security_groups_client = (
	cls.os_primary.compute_security_groups_client)
	cls.compute_security_group_rules_client = (
	cls.os_primary.compute_security_group_rules_client)
	cls.servers_client = cls.os_primary.servers_client
	cls.interface_client = cls.os_primary.interfaces_client
	# Neutron network client
	cls.networks_client = cls.os_primary.networks_client
	cls.ports_client = cls.os_primary.ports_client
	cls.routers_client = cls.os_primary.routers_client
	cls.subnets_client = cls.os_primary.subnets_client
	cls.floating_ips_client = cls.os_primary.floating_ips_client
	cls.security_groups_client = cls.os_primary.security_groups_client
	cls.security_group_rules_client = (
	cls.os_primary.security_group_rules_client)

	# ## Test functions library
	#
	# The create_[resource] functions only return body and discard the
	# resp part which is not used in scenario tests

	def _image_create(self, name, fmt, path,
	disk_format=None, properties=None):
	if properties is None:
	properties = {}
	name = data_utils.rand_name('%s-' % name)
	params = {
	'name': name,
	'container_format': fmt,
	'disk_format': disk_format or fmt,
	}
	if CONF.image_feature_enabled.api_v1:
	params['is_public'] = 'False'
	params['properties'] = properties
	params = {'headers': common_image.image_meta_to_headers(**params)}
	else:
	params['visibility'] = 'private'
	# Additional properties are flattened out in the v2 API.
	params.update(properties)
	body = self.image_client.create_image(**params)
	image = body['image'] if 'image' in body else body
	self.addCleanup(self.image_client.delete_image, image['id'])
	self.assertEqual("queued", image['status'])
	with open(path, 'rb') as image_file:
	if CONF.image_feature_enabled.api_v1:
	self.image_client.update_image(image['id'], data=image_file)
	else:
	self.image_client.store_image_file(image['id'], image_file)
	return image['id']

	def glance_image_create(self):
	img_path = CONF.scenario.img_file
	img_container_format = CONF.scenario.img_container_format
	img_disk_format = CONF.scenario.img_disk_format
	img_properties = CONF.scenario.img_properties
	LOG.debug("paths: img: %s, container_format: %s, disk_format: %s, "
	"properties: %s",
	img_path, img_container_format, img_disk_format,
	img_properties)
	image = self._image_create('scenario-img',
	img_container_format,
	img_path,
	disk_format=img_disk_format,
	properties=img_properties)
	LOG.debug("image:%s", image)

	return image

	def _log_net_info(self, exc):
	# network debug is called as part of ssh init
	if not isinstance(exc, lib_exc.SSHTimeout):
	LOG.debug('Network information on a devstack host')


	class NetworkScenarioTest(ScenarioTest):
	"""Base class for network scenario tests.

	This class provide helpers for network scenario tests, using the neutron
	API. Helpers from ancestor which use the nova network API are overridden
	with the neutron API.

	This Class also enforces using Neutron instead of novanetwork.
	Subclassed tests will be skipped if Neutron is not enabled

	"""

	credentials = ['primary', 'admin']

	@classmethod
	def skip_checks(cls):
	super(NetworkScenarioTest, cls).skip_checks()
	if not CONF.service_available.neutron:
	raise cls.skipException('Neutron not available')

	def _get_network_by_name_or_id(self, identifier):

	if uuidutils.is_uuid_like(identifier):
	return self.os_admin.networks_client.show_network(
	identifier)['network']

	networks = self.os_admin.networks_client.list_networks(
	name=identifier)['networks']
	self.assertNotEqual(len(networks), 0,
	"Unable to get network by name: %s" % identifier)
	return networks[0]

	def get_networks(self):
	return self.os_admin.networks_client.list_networks()['networks']

	def create_floating_ip(self, thing, external_network_id=None,
	port_id=None, ip_addr=None, client=None):
	"""Create a floating IP and associates to a resource/port on Neutron"""
	if not external_network_id:
	external_network_id = CONF.network.public_network_id
	if not client:
	client = self.floating_ips_client
	if not port_id:
	port_id, ip4 = self.get_server_port_id_and_ip4(thing,
	ip_addr=ip_addr)
	else:
	ip4 = None
	result = client.create_floatingip(
	floating_network_id=external_network_id,
	port_id=port_id,
	tenant_id=thing['tenant_id'],
	fixed_ip_address=ip4
	)
	floating_ip = result['floatingip']
	self.addCleanup(test_utils.call_and_ignore_notfound_exc,
	client.delete_floatingip,
	floating_ip['id'])
	return floating_ip

	def _create_security_group(self, security_group_rules_client=None,
	tenant_id=None,
	namestart='secgroup-smoke',
	security_groups_client=None):
	if security_group_rules_client is None:
	security_group_rules_client = self.security_group_rules_client
	if security_groups_client is None:
	security_groups_client = self.security_groups_client
	if tenant_id is None:
	tenant_id = security_groups_client.tenant_id
	secgroup = self._create_empty_security_group(
	namestart=namestart, client=security_groups_client,
	tenant_id=tenant_id)

	# Add rules to the security group
	rules = self._create_loginable_secgroup_rule(
	security_group_rules_client=security_group_rules_client,
	secgroup=secgroup,
	security_groups_client=security_groups_client)
	for rule in rules:
	self.assertEqual(tenant_id, rule['tenant_id'])
	self.assertEqual(secgroup['id'], rule['security_group_id'])
	return secgroup

	def _create_empty_security_group(self, client=None, tenant_id=None,
	namestart='secgroup-smoke'):
	"""Create a security group without rules.

	Default rules will be created:
	- IPv4 egress to any
	- IPv6 egress to any

	:param tenant_id: secgroup will be created in this tenant
	:returns: the created security group
	"""
	if client is None:
	client = self.security_groups_client
	if not tenant_id:
	tenant_id = client.tenant_id
	sg_name = data_utils.rand_name(namestart)
	sg_desc = sg_name + " description"
	sg_dict = dict(name=sg_name,
	description=sg_desc)
	sg_dict['tenant_id'] = tenant_id
	result = client.create_security_group(**sg_dict)

	secgroup = result['security_group']
	self.assertEqual(secgroup['name'], sg_name)
	self.assertEqual(tenant_id, secgroup['tenant_id'])
	self.assertEqual(secgroup['description'], sg_desc)

	self.addCleanup(test_utils.call_and_ignore_notfound_exc,
	client.delete_security_group, secgroup['id'])
	return secgroup

	def _default_security_group(self, client=None, tenant_id=None):
	"""Get default secgroup for given tenant_id.

	:returns: default secgroup for given tenant
	"""
	if client is None:
	client = self.security_groups_client
	if not tenant_id:
	tenant_id = client.tenant_id
	sgs = [
	sg for sg in list(client.list_security_groups().values())[0]
	if sg['tenant_id'] == tenant_id and sg['name'] == 'default'
	]
	msg = "No default security group for tenant %s." % (tenant_id)
	self.assertGreater(len(sgs), 0, msg)
	return sgs[0]

	def _create_security_group_rule(self, secgroup=None,
	sec_group_rules_client=None,
	tenant_id=None,
	security_groups_client=None, **kwargs):
	"""Create a rule from a dictionary of rule parameters.

	Create a rule in a secgroup. if secgroup not defined will search for
	default secgroup in tenant_id.

	:param secgroup: the security group.
	:param tenant_id: if secgroup not passed -- the tenant in which to
	search for default secgroup
	:param kwargs: a dictionary containing rule parameters:
	for example, to allow incoming ssh:
	rule = {
	direction: 'ingress'
	protocol:'tcp',
	port_range_min: 22,
	port_range_max: 22
	}
	"""
	if sec_group_rules_client is None:
	sec_group_rules_client = self.security_group_rules_client
	if security_groups_client is None:
	security_groups_client = self.security_groups_client
	if not tenant_id:
	tenant_id = security_groups_client.tenant_id
	if secgroup is None:
	secgroup = self._default_security_group(
	client=security_groups_client, tenant_id=tenant_id)

	ruleset = dict(security_group_id=secgroup['id'],
	tenant_id=secgroup['tenant_id'])
	ruleset.update(kwargs)

	sg_rule = sec_group_rules_client.create_security_group_rule(**ruleset)
	sg_rule = sg_rule['security_group_rule']

	self.assertEqual(secgroup['tenant_id'], sg_rule['tenant_id'])
	self.assertEqual(secgroup['id'], sg_rule['security_group_id'])

	return sg_rule

	def _create_loginable_secgroup_rule(self, security_group_rules_client=None,
	secgroup=None,
	security_groups_client=None):
	"""Create loginable security group rule

	This function will create:
	1. egress and ingress tcp port 22 allow rule in order to allow ssh
	access for ipv4.
	2. egress and ingress ipv6 icmp allow rule, in order to allow icmpv6.
	3. egress and ingress ipv4 icmp allow rule, in order to allow icmpv4.
	"""

	if security_group_rules_client is None:
	security_group_rules_client = self.security_group_rules_client
	if security_groups_client is None:
	security_groups_client = self.security_groups_client
	rules = []
	rulesets = [
	dict(
	# ssh
	protocol='tcp',
	port_range_min=22,
	port_range_max=22,
	),
	dict(
	# ipv6-ssh
	protocol='tcp',
	port_range_min=22,
	port_range_max=22,
	ethertype='IPv6',
	),
	dict(
	# ping
	protocol='icmp',
	),
	dict(
	# ipv6-icmp for ping6
	protocol='icmp',
	ethertype='IPv6',
	)
	]
	sec_group_rules_client = security_group_rules_client
	for ruleset in rulesets:
	for r_direction in ['ingress', 'egress']:
	ruleset['direction'] = r_direction
	try:
	sg_rule = self._create_security_group_rule(
	sec_group_rules_client=sec_group_rules_client,
	secgroup=secgroup,
	security_groups_client=security_groups_client,
	**ruleset)
	except lib_exc.Conflict as ex:
	# if rule already exist - skip rule and continue
	msg = 'Security group rule already exists'
	if msg not in ex._error_string:
	raise ex
	else:
	self.assertEqual(r_direction, sg_rule['direction'])
	rules.append(sg_rule)

	return rules